This study analyzes patient information flow as a factor for long waiting times at the University Teaching Hospital of Kigali (UTHK) in Rwanda. Data was collected through questionnaires with 365 patients and 18 medical staff. The study found that most patients wait 2-3 hours for services, with some waiting over 3 hours. Departments with longest wait times included emergency, pharmacy, and cashier. Key reasons for delays included understaffing, inefficient processes, and use of multiple information systems. The real factors causing long wait times were identified as slow treatment processes, unresponsive staff, and long patient queues. Improving customer service, increasing staffing levels, rewarding staff, ensuring material and drug availability, and providing regular
This document provides details about a patient management system being developed for the National Youths Service Turbo Dispensary in Kenya. It includes background information on the dispensary and problems currently being faced by patients. The proposed system aims to address issues like limited patient education, long wait times, billing problems, and hospital-acquired infections. Objectives, methodology, budget, and schedule are outlined. Questionnaires will be used to collect data from patients on their experiences. The system seeks to improve the overall patient experience and support better management of the dispensary.
The document is a presentation about polyclinic waiting time problems and solutions at Tawam Hospital in the UAE. It introduces the presenter and states that the presentation will be divided into four parts: an overview, study results, current and proposed processes, and recommendations/conclusions. It provides background on Tawam Hospital and defines waiting time. It discusses implementation of a Health Information System (HIS) and benefits, as well as research aims, methodology involving questionnaires, and results showing specialists are satisfied with HIS but it is not the main cause of delays. Results of patient questionnaires show waiting times at various stages with most waiting over 60 minutes for required service.
This document presents the design of a study on patient feedback systems at Kasturba Hospital in Manipal, India. The objective of the study was to assess patient satisfaction levels and identify factors influencing satisfaction through analyzing patient feedback. A questionnaire was administered to 198 inpatients and 144 outpatients to collect primary data on demographics, satisfaction with various hospital services, and opinions. Secondary data on the hospital profile was also collected. Preliminary findings show high confidence levels in treatment among most patients. Further analysis through chi-square testing will examine relationships between education, confidence, and recommendation behavior.
The influence of clients’ perceived quality on health care utilizationSYCHRISTO
The document discusses a study on the influence of clients' perceived quality of healthcare on utilization of health services in Ghana. The study analyzed data from 400 clients accessing care at 10 health facilities. Major findings included: 1) Most clients reported waiting over 3 hours to receive care; 2) Over 75% reported satisfaction as good or excellent with care quality; 3) While most clients could easily access medicines, over a third did not receive all prescribed drugs. The study concludes that clients' perceptions of quality influence their use of health insurance and that improving quality could increase insurance enrollment and utilization.
This document discusses patient flow management in an outpatient department. It aims to understand problems patients face such as long wait times, identify bottlenecks causing delays, and recommend solutions. Data was collected through observation of 300 random patients to record wait times at various stages. On average, patients waited longest for doctor consultation at 37.1 minutes and report dispatch at 63.1 minutes. The analysis found the main bottlenecks were improper scheduling of doctors and radiologists, leading to delayed report dispatch. Solutions are suggested to improve patient care delivery and optimize patient flow.
This document provides an overview of the healthcare industry and its components. It discusses how the industry is divided into sectors like hospital activities, medical and dental practice activities, and other human health activities. The healthcare industry consumes over 10% of GDP in most developed nations. For management purposes, the industry is often divided into healthcare equipment and services, and pharmaceuticals, biotechnology, and related life sciences. Key providers and professionals within the industry include physicians, nurses, dentists, pharmacists, and other allied health workers.
Patient Discharge Process in Corporate Hospital _ PPTRameez Shah
The document summarizes a study on patient discharge processes at a multispecialty corporate hospital. It defines patient discharge and discusses factors that can delay the discharge process, such as waiting for test results or lack of post-discharge care facilities. It outlines the objectives of studying the discharge process and roles of hospital staff. A literature review found delays averaged 2.9 days due to issues like testing scheduling and physician decision-making. The document also describes the research methodology used and limitations of studying one hospital over two months.
Introduction: The patient’s perception of quality of care is fundamental to utilization of health services. Health utilization would partly depend on clients’ perception of the quality of care.
Methods: A cross-sectional study involving health clients (18 to 70 years) who accessed health services in the Bantama submetro
in the Kumasi metropolis was conducted. A total of 400 clients were recruited from ten health facilities for the study.
Data was collected through interviewing using semi-structured questionnaires using SPSS and analyzed into descriptive and
inferential statistics with STATA 11.
Results: Majority of subscribers assessed healthcare with their National Health Insurance (NHI) cards. Eight percent (8%) had
never accessed healthcare with their NHIS cards. Respondents’ reasons included not falling sick and low quality of healthcare
under the NHIS. Respondents 216 (54%) indicated delays in seeing a doctor, getting laboratories done, and accessing health care as a whole. Seventy-four percent (74%) of the entire population attributed both NHIS and cash and carry systems as the
payment methods associated with delays in health facilities. Clients who viewed the overall the quality of health provision as good or very good were more likely to access healthcare with NHIS card as compared to those who rated the overall health provision as poor or very poor (OR=2.1; p<0.01).
Conclusion: Clients’ perceptions and experiences with quality of health provision influence their utilization of healthcare under the NHIS scheme. Increased enrolment in the scheme should be supported with provision of quality services to enhance clients’ satisfaction.
This document provides details about a patient management system being developed for the National Youths Service Turbo Dispensary in Kenya. It includes background information on the dispensary and problems currently being faced by patients. The proposed system aims to address issues like limited patient education, long wait times, billing problems, and hospital-acquired infections. Objectives, methodology, budget, and schedule are outlined. Questionnaires will be used to collect data from patients on their experiences. The system seeks to improve the overall patient experience and support better management of the dispensary.
The document is a presentation about polyclinic waiting time problems and solutions at Tawam Hospital in the UAE. It introduces the presenter and states that the presentation will be divided into four parts: an overview, study results, current and proposed processes, and recommendations/conclusions. It provides background on Tawam Hospital and defines waiting time. It discusses implementation of a Health Information System (HIS) and benefits, as well as research aims, methodology involving questionnaires, and results showing specialists are satisfied with HIS but it is not the main cause of delays. Results of patient questionnaires show waiting times at various stages with most waiting over 60 minutes for required service.
This document presents the design of a study on patient feedback systems at Kasturba Hospital in Manipal, India. The objective of the study was to assess patient satisfaction levels and identify factors influencing satisfaction through analyzing patient feedback. A questionnaire was administered to 198 inpatients and 144 outpatients to collect primary data on demographics, satisfaction with various hospital services, and opinions. Secondary data on the hospital profile was also collected. Preliminary findings show high confidence levels in treatment among most patients. Further analysis through chi-square testing will examine relationships between education, confidence, and recommendation behavior.
The influence of clients’ perceived quality on health care utilizationSYCHRISTO
The document discusses a study on the influence of clients' perceived quality of healthcare on utilization of health services in Ghana. The study analyzed data from 400 clients accessing care at 10 health facilities. Major findings included: 1) Most clients reported waiting over 3 hours to receive care; 2) Over 75% reported satisfaction as good or excellent with care quality; 3) While most clients could easily access medicines, over a third did not receive all prescribed drugs. The study concludes that clients' perceptions of quality influence their use of health insurance and that improving quality could increase insurance enrollment and utilization.
This document discusses patient flow management in an outpatient department. It aims to understand problems patients face such as long wait times, identify bottlenecks causing delays, and recommend solutions. Data was collected through observation of 300 random patients to record wait times at various stages. On average, patients waited longest for doctor consultation at 37.1 minutes and report dispatch at 63.1 minutes. The analysis found the main bottlenecks were improper scheduling of doctors and radiologists, leading to delayed report dispatch. Solutions are suggested to improve patient care delivery and optimize patient flow.
This document provides an overview of the healthcare industry and its components. It discusses how the industry is divided into sectors like hospital activities, medical and dental practice activities, and other human health activities. The healthcare industry consumes over 10% of GDP in most developed nations. For management purposes, the industry is often divided into healthcare equipment and services, and pharmaceuticals, biotechnology, and related life sciences. Key providers and professionals within the industry include physicians, nurses, dentists, pharmacists, and other allied health workers.
Patient Discharge Process in Corporate Hospital _ PPTRameez Shah
The document summarizes a study on patient discharge processes at a multispecialty corporate hospital. It defines patient discharge and discusses factors that can delay the discharge process, such as waiting for test results or lack of post-discharge care facilities. It outlines the objectives of studying the discharge process and roles of hospital staff. A literature review found delays averaged 2.9 days due to issues like testing scheduling and physician decision-making. The document also describes the research methodology used and limitations of studying one hospital over two months.
Introduction: The patient’s perception of quality of care is fundamental to utilization of health services. Health utilization would partly depend on clients’ perception of the quality of care.
Methods: A cross-sectional study involving health clients (18 to 70 years) who accessed health services in the Bantama submetro
in the Kumasi metropolis was conducted. A total of 400 clients were recruited from ten health facilities for the study.
Data was collected through interviewing using semi-structured questionnaires using SPSS and analyzed into descriptive and
inferential statistics with STATA 11.
Results: Majority of subscribers assessed healthcare with their National Health Insurance (NHI) cards. Eight percent (8%) had
never accessed healthcare with their NHIS cards. Respondents’ reasons included not falling sick and low quality of healthcare
under the NHIS. Respondents 216 (54%) indicated delays in seeing a doctor, getting laboratories done, and accessing health care as a whole. Seventy-four percent (74%) of the entire population attributed both NHIS and cash and carry systems as the
payment methods associated with delays in health facilities. Clients who viewed the overall the quality of health provision as good or very good were more likely to access healthcare with NHIS card as compared to those who rated the overall health provision as poor or very poor (OR=2.1; p<0.01).
Conclusion: Clients’ perceptions and experiences with quality of health provision influence their utilization of healthcare under the NHIS scheme. Increased enrolment in the scheme should be supported with provision of quality services to enhance clients’ satisfaction.
In the growth of scientific medicine, Medical Records (now called, Health Information) have played an important role as a tool and basis for planning patient care besides Medical Education, Research and Legal protection. Manual Medical Records have undergone tremendous transformations as the healthcare policy makers and healthcare providers have realized that good healthcare could be possible only when scientific, comprehensive and integrated Medical Records are maintained from birth to death including birth information, immunizations, child growth and periodic health problems and remedies provided.
Patient Data Collection Methods. Retrospective Insights.QUESTJOURNAL
Introduction: Multiple classic and modern data collection techniques are presented in the current paper, but only a mix of them provides the appropriate approach to address patient safety problems. The current study aims to reveal the data collection methods applied worldwide. Materials and Methods: All scientific sources of the current article were identified mainly by research on Internet. The matching words used in the search of materials are “data collection methods”, “hospital reporting systems”, “incident reporting systems”, “patient events”, “patient reported data”. Relevant articles and studies covering the 2003-2016 timeframe were selected as a reference. Results: Various data collection procedures are available worldwide. During several years of research, it was concluded that a significant number of patient studies use the following patient data collection methods: retrospective record review, record review of current inpatients, staff interview of current inpatients and nominal group technique based consensus method. Conclusion: New trends in data collection techniques are also discussed, as they reveal the potential of the electronic environment. Future insights on this topic should consider the standardization of different data collection methods in order to improve data comparability aspects.
An Emerging Science Of Improvement In Health CareKelly Lipiec
This document summarizes an article that discusses the emerging field of improvement science in healthcare. It outlines some key challenges facing healthcare systems, including increasing demand, high costs, and reports of shortcomings. It then provides an overview of improvement science, which aims to establish systematic methods for improving both clinical treatment and how healthcare systems deliver care to patients. The document discusses extending improvement science approaches from industry, using data from quality registers, and adding a normative perspective. It concludes by reflecting on future research directions for this emerging field.
Indoor patients’ satisfactory influential factors’ on healthcare services of ...HeenaRaffi1
This document discusses a study on factors influencing indoor patient satisfaction with healthcare services at small and medium-sized multi-specialty hospitals in Tiruchirappalli, India. The study examined patient satisfaction across four dimensions: healthcare services, supportive services, auxiliary services, and peripheral services. Adequate ward arrangements had the highest average patient satisfaction score. Statistical analysis found significant associations between overall patient satisfaction and all measured healthcare service factors. A neural network model with 7 input layers, 20 covariates layers, 1 hidden layer, and 1 output layer accurately modeled patient satisfaction based on socio-demographic and service quality factors.
A Study on Delay in Discharge Process, in One of Multispeciality Hospital in ...ijtsrd
Discharge delays are one of those problems that spoil the overall pleasant experience inside the hospital. The study was conducted to identify the reasons and determinants of discharge delay in acute patients care. Delayed discharge is usually associated with a patient's medical conditions, delayed health care or medical advice, delayed diagnostic services, and delayed related health services. This paper deals with the discharge delay of inpatients in a selected hospital. An annexure was prepared to see the time taken by patients from the time of discharge till they actually leave the hospital premises. The outcome that is expected from this study was to identify the reasons for the delay of discharge and to come up with suggestions to reduce them. K. Revathi | Mrs. U. Suji "A Study on Delay in Discharge Process, in One of Multispeciality Hospital in Tanjore" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30919.pdf Paper Url :https://www.ijtsrd.com/management/other/30919/a-study-on-delay-in-discharge-process-in-one-of-multispeciality-hospital-in-tanjore/k-revathi
The document describes a decision support system created for the Squirrel Hill Health Center to aid in tuberculosis case management. It aims to address gaps in their current excel-based system by identifying at-risk patients, facilitating provider communication, and increasing treatment completion rates. Features of the new system include secure login, a dashboard, automated patient registration from medical records, appointment scheduling reports, and predictive analytics to prioritize patient outreach. The goal is to improve care coordination and reduce lost patients through strengthened documentation and follow-up procedures.
This document outlines the various clinical support and other supportive service departments in a hospital. It describes the key roles and functions of the laboratory services, radiology department, central sterile supply department, hospital pharmacy, medical records, housekeeping, dietary services, waste management, infection control, IT/equipment management, social services, and security systems. The goal is to provide efficient support services that assist physicians and ensure quality patient care and safety.
This is a resume for Franchesca Marcohssa C. Quitoriano, a registered nurse from the Philippines with over 6 years of hospital experience. She has a bachelor's degree in nursing and is currently licensed to practice in Dubai. Her professional experience includes working as a charge nurse at a medical center in Dubai as well as various roles like staff nurse, transplant coordinator, and charge nurse at the National Kidney and Transplant Institute in the Philippines. She has experience in areas like transplant care, hemodialysis, emergency nursing and intensive care.
Here is a professionally written paragraph on the topic with an APA formatted citation:
Alarm fatigue poses a significant patient safety risk in healthcare facilities. When nurses are inundated with a high volume of alarms, some of which are clinically irrelevant, it can lead to desensitization and delays in response to critical alarms (Sendelbach & Jepsen, 2013). Nuisance or false-positive alarms are a key driver of alarm fatigue, as they do not indicate an actual adverse patient condition but still interrupt care providers (Graham & Cvach, 2010). The overuse of alarms has created a "cry wolf effect" wherein nurses start to mistrust clinical alarm systems due to the frequency of irrelevant alerts (Cvach, 2010
College Writing II Synthesis Essay Assignment Summer Semester 2017.docxclarebernice
College Writing II Synthesis Essay Assignment Summer Semester 2017
Directions:
For this assignment you will be writing a synthesis essay. A synthesis is a combination of two or more summaries and sources. In a synthesis essay you will have three paragraphs, an introduction, a synthesis and a conclusion.
In the introduction you will give background information about your topic. You will also include a thesis statement at the end of the introduction paragraph. The thesis statement should describe the goal of your synthesis. (informative or argumentative)
The second paragraph is the synthesis. You will combine two summaries of two different articles on the same topic. You will follow all summary guidelines for these two paragraphs. The synthesis will most likely either argue or inform the reader about the topic.
The conclusion paragraph should summarize the points of your essay and restate the general ideas.
For this essay you will read two research articles on a similar topic to the previous critical review essay as you can use this research in your inquiry paper. You will summarize both articles in two paragraphs and combine the paragraphs for your synthesis. In the synthesis you must include the main ideas of the articles and the author, title, and general idea in the first sentences.
This essay will be three pages long and the first draft and peer review are due June 15. You must turn them in hardcopy in class so you can do a peer review.
Running head: THESIS DRAFT 1
THESIS DRAFT 3Thesis Draft
Katelyn B. Rhodes
D40375299
DeVry University
Point-of-Care Testing (PoCT) has dramatically taken over the field of clinical laboratory testing since it’s introduction approximately 45 years ago. The technologies utilized in PoCT have been refined to deliver accurate and expedient test results and will become even more sensitive and accurate in order to dominate the field of clinical laboratory testing. Furthermore, there will be a dramatic increase in the volume of clinical testing performed outside of the laboratory. New and emerging PoCT technologies utilize sophisticated molecular techniques such as polymerase chain reaction to aid in the treatment of major health problems worldwide, such as sexually transmitted infections (John & Price, 2014).
Historic Timeline
In the early-to-mid 1990’s, bench top analyzers entered the clinical laboratory scene. These analyzers were much smaller than the conventional analyzers being used, and utilized touch-screen PCs for ease of use. For this reason, they were able to be used closer to the patient’s bedside or outside of the laboratory environment. However, at this point in time, laboratory testing results were stored within the device and would have to then be sent to the main central laboratory for analysis.
Technology in the mid-to-late 1990’s permitted analyzers to be much smaller so that they may be easily carried to the patient’s location. Computers also became more ...
Objective: To identify the prevalence, demographics, resource utilization, and outcomes of Children with Special Health Care Needs (CSHCN) in a Pediatric Intensive Care Unit (PICU).
Methods: All children (< 21 years) admitted during a six-month period were included in the study. CSHCN were identified using
the CSHCN screener and Federal Maternal and Child Health Bureau definition. Demographic data, Pediatric Index of Mortality (PIM-2), and hospital mortality were recorded. Resource utilization was assessed by the use of health care services, the cumulative Therapeutic Intervention Severity Score, and hospital charges.
Informatics and nursing 2015 2016.odette richardsOdette Richards
This document summarizes a literature review of research papers in clinical informatics and digital health in nursing from 2015-2016. It describes the search strategy and criteria for including papers, which resulted in 73 papers being shortlisted. Of these, 5 top papers were chosen that either identified gaps in the literature or demonstrated improved patient care through digital health innovations. The document discusses each of these 5 papers and their relevance. It concludes with recommendations and limitations of the literature review.
Ht ai 2015 poster final - The Maximum of Information in a Minimum of WordsREBRATSoficial
This document discusses the challenges of knowledge transfer for medical auditors in Brazil's private healthcare system. It finds that medical auditors must handle a large volume of complex issues and authorization requests within limited timeframes. They often lack knowledge of evidence-based practices and coverage policies can vary between companies. To address these challenges, the document recommends producing more concise guidelines, improving communication strategies, and increasing motivation for guideline use through workshops and discussions. A survey of medical auditors found they use technical advice in practice but communication and formatting of advice could be improved.
DASHBOARD BENCHMARK
Miatta Teasley
Capella University
Running Head: DASHBOARD BENCHMARK
DASHBOARD BENCHMARK
April 19,2022
DASHBOARD BENCHMARK
Second Quarter Hypertension Intervention Compliance at Med for adults presenting with Diabetes
Intervention
Needed
Completed
Compliance Percentage
Initial Lactate within 3 hours
30
30
100%
Blood cultures were drawn before antibiotics
22
17
77%
Antibiotics administered within 3 hours
22
20
91%
Fluid resuscitation if in septic shock within 2hours
19
12
63%
Vasopressors if hypertension persists after fluid or lactate >4mmoL/L within 6 hours
12
7
58%
Overall
105
86
82%
Second Quarter Dialysis Intervention
Compliance and Inpatient Mortality
Patient ID
Number of Interventions needed
Number of Interventions completed
Inpatient Mortality
2000
4
2
0
2014
3
3
1
2098
2
1
0
2134
5
4
0
2156
3
4
1
2245
4
2
0
2345
3
3
1
2567
5
4
1
2676
4
1
1
2935
3
2
0
Note: The Staffing benchmark for the nurse staffing unit is 3 patients per nurse. The average monthly staffing for the unit is 3 nurse workloads. The average number of patients in the unit per month in the third quarter was 5.75.
The data above is a review regarding the compliance of Dialysis measures and interventions compliance and the sample of the second quarter inpatient mortality. The information below entails evaluating the data, which indicates that various departments need to be improved, and a proposal for a specific area and target for improvement.
Evaluation of Dashboard Metrics
There are several inefficiencies in regards to dialysis measures at Med. From the dashboard concerning the compliance of executing the arranged measures and procedures, the two stand out at the 77% compliance rate on drawing blood cultures before running antibiotics and 58% compliance rate on administering vasopressors for those patients that require them. As per Medicare.Gov (n.d), the national average for meeting dialysis guidelines is 72%, and the state of Minnesota is 60% which indicates that Med is performing at 82% overall testing. Higher percentages are required to ensure the advanced quality of life for residents of the healthcare institution (Morfín et al., 2018).
Failure to complete blood draws for cultures before running broad-spectrum antibiotics; there will be an incapability to authorize contamination and the responsible pathogen. This can result in an inefficient or ineffective intervention for aiding a patient. Moreover, by failing to confirm infection from the start, unnecessary and wasteful care interventions could be performed or ordered for patients (Morfín et al., 2018). As per the failure to administer vasopressors, the institution is gambling with the patient's life. As the reinforcement for the dialysis unit states, vasopressor therapy is needed to sustain and uphold perfusion in the wake of life-threatening hypertension. The needed nature of compliance concerning administering this intervention can be seen in the samp.
Introduction Healthcare system is considered one of the busiest.pdfbkbk37
The document discusses the application of clinical information systems in nursing. It reviews 4 peer-reviewed articles on the topic. The articles found that clinical information systems can improve workflow and reduce medical errors. However, challenges remain around data integration and sharing patient data across healthcare systems. The document concludes that clinical systems provide opportunities to improve care if effectively implemented and regularly updated to support nurses.
This document discusses opportunities to empower patients and reduce demand on the UK National Health Service (NHS) through patient education. It identifies four key areas along the patient journey that could be improved: 1) healthcare education; 2) healthcare information; 3) healthcare provision; and 4) healthcare involvement. It then provides seven recommendations to better empower patients in these areas, such as providing compulsory health education in schools, regulating health information online through an NHS accreditation system, training non-traditional community healthcare experts, and creating mobile apps and tools to help patients manage their conditions. The overall aim is to improve health literacy and help patients better navigate the healthcare system, with the goal of reducing unnecessary demand on NHS services.
The organization provides care and services that achieve effective outcomes and ensures that the correct consumer /patient receives the correct procedure
PUT YOUR HEADER HERE IN ALL CAPSvReducing th.docxwoodruffeloisa
This document is a research proposal submitted for a nursing capstone course. It aims to reduce hospital readmissions by analyzing causes of readmissions and developing interventions. The literature review found that readmissions are increasing, resulting in hospital penalties. Effective interventions include providing discharge education and follow-up care after discharge. The proposal will develop a plan to implement these strategies and evaluate their effectiveness in reducing readmissions.
50 Self Evaluation Examples, Forms Questions TemplatAndrew Molina
The family ecomap shows ED's nuclear family consisting of herself, her husband BD, and their two grown children who live independently. While ED has a strong relationship with her son who lives out of state, her relationship with her daughter who lives locally is tense due to issues with her daughter's new husband whom ED and her husband dislike. The ecomap identifies sources of support and stress for the family to help develop plans to improve relationships and reduce stresses.
The document provides a 5-step process for requesting writing assistance from HelpWriting.net. It explains how to 1) create an account, 2) complete an order form with instructions and deadlines, 3) review writer bids and qualifications and place a deposit, 4) ensure the paper meets expectations and authorize payment, and 5) request revisions to ensure satisfaction. It guarantees original, high-quality content or a full refund.
More Related Content
Similar to Analysing Patient Information Flow In Hospital As A Factor To A Long Waiting Time. Case Study University Teaching Hospital Of Kigali
In the growth of scientific medicine, Medical Records (now called, Health Information) have played an important role as a tool and basis for planning patient care besides Medical Education, Research and Legal protection. Manual Medical Records have undergone tremendous transformations as the healthcare policy makers and healthcare providers have realized that good healthcare could be possible only when scientific, comprehensive and integrated Medical Records are maintained from birth to death including birth information, immunizations, child growth and periodic health problems and remedies provided.
Patient Data Collection Methods. Retrospective Insights.QUESTJOURNAL
Introduction: Multiple classic and modern data collection techniques are presented in the current paper, but only a mix of them provides the appropriate approach to address patient safety problems. The current study aims to reveal the data collection methods applied worldwide. Materials and Methods: All scientific sources of the current article were identified mainly by research on Internet. The matching words used in the search of materials are “data collection methods”, “hospital reporting systems”, “incident reporting systems”, “patient events”, “patient reported data”. Relevant articles and studies covering the 2003-2016 timeframe were selected as a reference. Results: Various data collection procedures are available worldwide. During several years of research, it was concluded that a significant number of patient studies use the following patient data collection methods: retrospective record review, record review of current inpatients, staff interview of current inpatients and nominal group technique based consensus method. Conclusion: New trends in data collection techniques are also discussed, as they reveal the potential of the electronic environment. Future insights on this topic should consider the standardization of different data collection methods in order to improve data comparability aspects.
An Emerging Science Of Improvement In Health CareKelly Lipiec
This document summarizes an article that discusses the emerging field of improvement science in healthcare. It outlines some key challenges facing healthcare systems, including increasing demand, high costs, and reports of shortcomings. It then provides an overview of improvement science, which aims to establish systematic methods for improving both clinical treatment and how healthcare systems deliver care to patients. The document discusses extending improvement science approaches from industry, using data from quality registers, and adding a normative perspective. It concludes by reflecting on future research directions for this emerging field.
Indoor patients’ satisfactory influential factors’ on healthcare services of ...HeenaRaffi1
This document discusses a study on factors influencing indoor patient satisfaction with healthcare services at small and medium-sized multi-specialty hospitals in Tiruchirappalli, India. The study examined patient satisfaction across four dimensions: healthcare services, supportive services, auxiliary services, and peripheral services. Adequate ward arrangements had the highest average patient satisfaction score. Statistical analysis found significant associations between overall patient satisfaction and all measured healthcare service factors. A neural network model with 7 input layers, 20 covariates layers, 1 hidden layer, and 1 output layer accurately modeled patient satisfaction based on socio-demographic and service quality factors.
A Study on Delay in Discharge Process, in One of Multispeciality Hospital in ...ijtsrd
Discharge delays are one of those problems that spoil the overall pleasant experience inside the hospital. The study was conducted to identify the reasons and determinants of discharge delay in acute patients care. Delayed discharge is usually associated with a patient's medical conditions, delayed health care or medical advice, delayed diagnostic services, and delayed related health services. This paper deals with the discharge delay of inpatients in a selected hospital. An annexure was prepared to see the time taken by patients from the time of discharge till they actually leave the hospital premises. The outcome that is expected from this study was to identify the reasons for the delay of discharge and to come up with suggestions to reduce them. K. Revathi | Mrs. U. Suji "A Study on Delay in Discharge Process, in One of Multispeciality Hospital in Tanjore" Published in International Journal of Trend in Scientific Research and Development (ijtsrd), ISSN: 2456-6470, Volume-4 | Issue-4 , June 2020, URL: https://www.ijtsrd.com/papers/ijtsrd30919.pdf Paper Url :https://www.ijtsrd.com/management/other/30919/a-study-on-delay-in-discharge-process-in-one-of-multispeciality-hospital-in-tanjore/k-revathi
The document describes a decision support system created for the Squirrel Hill Health Center to aid in tuberculosis case management. It aims to address gaps in their current excel-based system by identifying at-risk patients, facilitating provider communication, and increasing treatment completion rates. Features of the new system include secure login, a dashboard, automated patient registration from medical records, appointment scheduling reports, and predictive analytics to prioritize patient outreach. The goal is to improve care coordination and reduce lost patients through strengthened documentation and follow-up procedures.
This document outlines the various clinical support and other supportive service departments in a hospital. It describes the key roles and functions of the laboratory services, radiology department, central sterile supply department, hospital pharmacy, medical records, housekeeping, dietary services, waste management, infection control, IT/equipment management, social services, and security systems. The goal is to provide efficient support services that assist physicians and ensure quality patient care and safety.
This is a resume for Franchesca Marcohssa C. Quitoriano, a registered nurse from the Philippines with over 6 years of hospital experience. She has a bachelor's degree in nursing and is currently licensed to practice in Dubai. Her professional experience includes working as a charge nurse at a medical center in Dubai as well as various roles like staff nurse, transplant coordinator, and charge nurse at the National Kidney and Transplant Institute in the Philippines. She has experience in areas like transplant care, hemodialysis, emergency nursing and intensive care.
Here is a professionally written paragraph on the topic with an APA formatted citation:
Alarm fatigue poses a significant patient safety risk in healthcare facilities. When nurses are inundated with a high volume of alarms, some of which are clinically irrelevant, it can lead to desensitization and delays in response to critical alarms (Sendelbach & Jepsen, 2013). Nuisance or false-positive alarms are a key driver of alarm fatigue, as they do not indicate an actual adverse patient condition but still interrupt care providers (Graham & Cvach, 2010). The overuse of alarms has created a "cry wolf effect" wherein nurses start to mistrust clinical alarm systems due to the frequency of irrelevant alerts (Cvach, 2010
College Writing II Synthesis Essay Assignment Summer Semester 2017.docxclarebernice
College Writing II Synthesis Essay Assignment Summer Semester 2017
Directions:
For this assignment you will be writing a synthesis essay. A synthesis is a combination of two or more summaries and sources. In a synthesis essay you will have three paragraphs, an introduction, a synthesis and a conclusion.
In the introduction you will give background information about your topic. You will also include a thesis statement at the end of the introduction paragraph. The thesis statement should describe the goal of your synthesis. (informative or argumentative)
The second paragraph is the synthesis. You will combine two summaries of two different articles on the same topic. You will follow all summary guidelines for these two paragraphs. The synthesis will most likely either argue or inform the reader about the topic.
The conclusion paragraph should summarize the points of your essay and restate the general ideas.
For this essay you will read two research articles on a similar topic to the previous critical review essay as you can use this research in your inquiry paper. You will summarize both articles in two paragraphs and combine the paragraphs for your synthesis. In the synthesis you must include the main ideas of the articles and the author, title, and general idea in the first sentences.
This essay will be three pages long and the first draft and peer review are due June 15. You must turn them in hardcopy in class so you can do a peer review.
Running head: THESIS DRAFT 1
THESIS DRAFT 3Thesis Draft
Katelyn B. Rhodes
D40375299
DeVry University
Point-of-Care Testing (PoCT) has dramatically taken over the field of clinical laboratory testing since it’s introduction approximately 45 years ago. The technologies utilized in PoCT have been refined to deliver accurate and expedient test results and will become even more sensitive and accurate in order to dominate the field of clinical laboratory testing. Furthermore, there will be a dramatic increase in the volume of clinical testing performed outside of the laboratory. New and emerging PoCT technologies utilize sophisticated molecular techniques such as polymerase chain reaction to aid in the treatment of major health problems worldwide, such as sexually transmitted infections (John & Price, 2014).
Historic Timeline
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DASHBOARD BENCHMARK
Miatta Teasley
Capella University
Running Head: DASHBOARD BENCHMARK
DASHBOARD BENCHMARK
April 19,2022
DASHBOARD BENCHMARK
Second Quarter Hypertension Intervention Compliance at Med for adults presenting with Diabetes
Intervention
Needed
Completed
Compliance Percentage
Initial Lactate within 3 hours
30
30
100%
Blood cultures were drawn before antibiotics
22
17
77%
Antibiotics administered within 3 hours
22
20
91%
Fluid resuscitation if in septic shock within 2hours
19
12
63%
Vasopressors if hypertension persists after fluid or lactate >4mmoL/L within 6 hours
12
7
58%
Overall
105
86
82%
Second Quarter Dialysis Intervention
Compliance and Inpatient Mortality
Patient ID
Number of Interventions needed
Number of Interventions completed
Inpatient Mortality
2000
4
2
0
2014
3
3
1
2098
2
1
0
2134
5
4
0
2156
3
4
1
2245
4
2
0
2345
3
3
1
2567
5
4
1
2676
4
1
1
2935
3
2
0
Note: The Staffing benchmark for the nurse staffing unit is 3 patients per nurse. The average monthly staffing for the unit is 3 nurse workloads. The average number of patients in the unit per month in the third quarter was 5.75.
The data above is a review regarding the compliance of Dialysis measures and interventions compliance and the sample of the second quarter inpatient mortality. The information below entails evaluating the data, which indicates that various departments need to be improved, and a proposal for a specific area and target for improvement.
Evaluation of Dashboard Metrics
There are several inefficiencies in regards to dialysis measures at Med. From the dashboard concerning the compliance of executing the arranged measures and procedures, the two stand out at the 77% compliance rate on drawing blood cultures before running antibiotics and 58% compliance rate on administering vasopressors for those patients that require them. As per Medicare.Gov (n.d), the national average for meeting dialysis guidelines is 72%, and the state of Minnesota is 60% which indicates that Med is performing at 82% overall testing. Higher percentages are required to ensure the advanced quality of life for residents of the healthcare institution (Morfín et al., 2018).
Failure to complete blood draws for cultures before running broad-spectrum antibiotics; there will be an incapability to authorize contamination and the responsible pathogen. This can result in an inefficient or ineffective intervention for aiding a patient. Moreover, by failing to confirm infection from the start, unnecessary and wasteful care interventions could be performed or ordered for patients (Morfín et al., 2018). As per the failure to administer vasopressors, the institution is gambling with the patient's life. As the reinforcement for the dialysis unit states, vasopressor therapy is needed to sustain and uphold perfusion in the wake of life-threatening hypertension. The needed nature of compliance concerning administering this intervention can be seen in the samp.
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Analysing Patient Information Flow In Hospital As A Factor To A Long Waiting Time. Case Study University Teaching Hospital Of Kigali
1. i
ANALYSING PATIENT INFORMATION FLOW IN HOSPITAL AS A FACTOR TO A
LONG WAITING TIME.
CASE STUDY: UNIVERSITY TEACHING HOSPITAL OF KIGALI
UWERA Thaoussi
College of Medicine and Health Sciences,
School of Public Health
Master of Health Informatics
2016
2. ii
ANALYSING PATIENT INFORMATION FLOW IN HOSPITAL AS A FACTOR TO A
LONG WAITING TIME.
CASE STUDY: UNIVERSITY TEACHING HOSPITAL OF KIGALI
By
UWERA THAOUSSI
REFERENCE NUMBER: 216336104
A dissertation submitted in partial fulfilment of requirements for the Award of Master of
Science in Health Informatics.
In the College of Medicine and Health Sciences,
School of Public Health
Department of Health Informatics
Supervisor: Dr.NIYOYITA Jean Paul
Co-Supervisor: NSEREKO Etienne
Kigali, July 2016
3. i
DECLARATION
I, UWERA THAOUSSI, do hereby declare that all the work presented in this dissertation is my
own original work unless otherwise acknowledged. It has never been presented either in part or
in full for publication or award of a degree in any university. I, therefore, present it for the award
of Master of Science in Health Informatics of University of Rwanda, College of Medicine and
Health Sciences, School of Public Health, Department of Health Informatics.
Student‟s signature……………..
UWERA THAOUSSI
Date………………...........
REFERENCE NUMBER: 216336104
Supervisor‟s signature……………..
Dr.NIYOYITA Jean Paul ………………………
Date………………...........
4. ii
DEDICATION
I dedicate this work to my dear husband Jean d‟Amour MUZIKI and my lovely family members.
Thank you for being patient with me throughout the time of my study.
5. iii
ACKNOWLEDGMENT
I wish to acknowledge with profound gratitude my supervisors, NSEREKO Etienne and
Dr.NIYOYITA Jean Paul for their tireless support they have provided to me during the
preparation and execution of this work.
I am also deeply grateful to the entire staff of University of Rwanda, College of Medicine and
Health Sciences, for their generous support and guidance during my studies at the School of
School of Public Health. Special thanks go to the lecturers in the School of Public Health for
introducing me to this very important and interesting discipline of Health Informatics.
Am also very grateful to the staff of radiology and emergency departments at University
Teaching Hospital of Kigali (UTHK) and all the respondents who took part in this study
I would like to most sincerely thank my classmates for the moral support and encouragement that
they accorded to me during the programme.
Finally, I am indebted to my family for their love, patience, and support during the entire time of
my studies.
May God bless you all
6. iv
LIST OF ACRONYMS AND ABBREVEATIONS
AHRQ: Agency for Healthcare Research and Quality
ED: Emergency Department
EHRs: Electronic Health Records
EMRs: Electronic Medical Records
IOM: Institute of Medicine
IT: Information Technology
UTHK: University Teaching Hospital of Kigali
NHS: National Health Service
OPD: Outpatient Department
7. v
ABSTRACT
This study was conducted primarily to analyse the patients‟ information flow in hospital as a
factor to a long waiting time at Kigali teaching hospital. The reason is that the government of
Rwanda has provided effort to make healthcare services more accessed but it has been remarked
that there are still gaps in different hospitals. We can give an example of UTHK where patients
are still experiencing delay during the health care process. So, our research interrogated whether
the problem is based on patient information flow or other factors. To achieve research objectives,
we followed a methodological approach and collected data from 365 patients who were selected
basing on scientific techniques. Key informants namely 15 medical staff and 3 electronic medical
records system administrators (ICT staff) were questioned. Each category of the population had
its own questionnaires in order to obtain various responses from the participants. In summary,
three themes were explored: challenges in healthcare process due to patients‟ data flow,
bottlenecks in patients‟ information flow and plausible strategies for existing bottlenecks in
patients‟ information flow.
Overall, the majority of the patients wait a long time to get healthcare services they need. 101
patients (27.54%) revealed that they spend 2 to 3 hours to get services they wanted whereas
(42.75) waited more than three hours. This long waiting leads the patient to be unhappy and
hopeless hence their level of satisfaction becomes nil. Different places where patients spend
more times than other places have been highlighted. As such the department of emergency,
pharmacy and cashier are noted. For the department of radiology, two places were also pointed
out: consultation and cashier. Different reasons were developed for this long waiting. These
include demeaning the patients, poor customer care; physicians being busy with other businesses
and less care about the job. Others include a big number of patients compared to existing medical
staff, insufficient materials and the use of multiple information record systems that report the
same patient information. The real factors associated with this long waiting are the following:
slow in treatment process, staff not responding on time and long patient queue. Some strategies
were proposed to deal with the problem. Those are for instance improving customer care,
increasing the number of medical staff, reward and compensation, materials and dispensation and
provision of drugs on time. Planning regular training for staff members may be also helpful.
8. vi
TABLE OF CONTENTS
DECLARATION............................................................................................................................ i
DEDICATION............................................................................................................................... ii
ACKNOWLEDGMENT .............................................................................................................iii
LIST OF ACRONYMS AND ABBREVEATIONS.................................................................. iv
ABSTRACT................................................................................................................................... v
TABLE OF CONTENTS ............................................................................................................ vi
LIST OF TABLES....................................................................................................................... ix
LIST OF FIGURES...................................................................................................................... x
OPERATIONAL DEFINITIONS .............................................................................................. xi
CHAPTER I: GENERAL INTRODUCTION ........................................................................... 1
1.1. Introduction.............................................................................................................................. 1
1.2. Background of study................................................................................................................ 1
1.3. Problem statement.................................................................................................................... 3
1.4. Objectives ................................................................................................................................ 4
1.4.1. Main objective ...................................................................................................................... 4
1.4.2. Specific objectives ................................................................................................................ 4
1.5. Research questions................................................................................................................... 4
1.6. Significance of the study.......................................................................................................... 4
1.7. Subdivision of the project........................................................................................................ 4
2.1. Concept of waiting time........................................................................................................... 6
2.2. Background of waiting time in healthcare............................................................................... 6
2.2.1 Basics of Queuing Theory ..................................................................................................... 7
2.2.2. Description of the Outpatient Department patient queuing model (Input and output
process) ........................................................................................................................................... 7
2.2.2.1. Arrival................................................................................................................................ 7
2.2.2.2. Waiting Line or Queue....................................................................................................... 8
2.2.2.3. Queue Discipline................................................................................................................ 8
2.2.2.4. Service Mechanism............................................................................................................ 8
2.2.2.5. Capacity of the System ...................................................................................................... 9
9. vii
2.2.2.6. Departure............................................................................................................................ 9
2.3. Factors associated with waiting time in a health facility....................................................... 10
2.3.1. Patient flow......................................................................................................................... 10
2.3.2. Operational efficiency......................................................................................................... 10
2.3.3. Physical design.................................................................................................................... 10
2.3.4. Emergence of bottlenecks in Outpatient departments ........................................................ 11
2.3.5. Staff scheduling .................................................................................................................. 12
2.3.6. Patient appointment ............................................................................................................ 13
2.4. Impact of waiting time on Patients' satisfaction .................................................................... 13
2.5. Improving patient waiting time.............................................................................................. 14
CHAPTER III: METHODOLOGY.......................................................................................... 16
3.1. Study area............................................................................................................................... 16
3.2. Study design........................................................................................................................... 16
3.3. Study population.................................................................................................................... 16
3. 3.1. Sample size and sampling strategies.................................................................................. 16
3.3.2. Inclusion criteria ................................................................................................................. 17
3.3.3. Exclusion criteria ................................................................................................................ 17
3.3.4. Sampling Procedure............................................................................................................ 17
3.4. Study variables....................................................................................................................... 18
3.4.1. Measures (description of the main variables) ..................................................................... 18
3.4.2. Explanatory variables.......................................................................................................... 18
3.4.3. Outcome variable................................................................................................................ 18
3.5. Data Collection Tool development ........................................................................................ 20
3.6. Potential risks and benefits .................................................................................................... 20
3.7. Cost and compensation .......................................................................................................... 20
3.8. Confidentiality ....................................................................................................................... 21
3.9. Analysis.................................................................................................................................. 21
3.10. Ethical Consideration........................................................................................................... 21
CHAPTER IV: RESULTS......................................................................................................... 22
4.1. Identification of the respondents............................................................................................ 22
4.1.1. Social demographic characteristics of the patients ............................................................. 22
10. viii
4.1.2. Data from the questionnaire addressed to the patients........................................................ 24
4.1.3. Data from the questionnaire addressed to the medical staff members................................ 27
4.1.4. Data from the questionnaire addressed to electronic medical records system administrators
....................................................................................................................................................... 27
4.2. Discussion of results .............................................................................................................. 28
4.2.1. Challenges in healthcare process due to patients‟ data flow............................................... 28
4.2.2. Bottlenecks in patients‟ information flow........................................................................... 28
4.2.3. Plausible strategies for existing bottlenecks in patients‟ information flow........................ 29
GENERAL CONCLUSION AND RECOMMENDATION ................................................... 31
REFERENCES............................................................................................................................ 33
APPENDIX I: CONSENT FORM .............................................................................................. a
APPENDIX II: QUESTIONNAIRE FOR THE PATIENTS/ IBIBAZO
BY’UBUSHAKASHATSI KUBARWAYI..................................................................................d
APPENDIX III: QUESTIONNAIRE FOR MEDICAL STAFF/ IBIBAZO
BY’UBUSHAKASHATSI KUBAGANGA..................................................................................f
APPENDIX IV: QUESTIONNAIRE FOR IT SYSTEM ADMINISTRATORS / IBIBAZO
BY’UBUSHAKASHATSI KU BAKOZI BASHINZWE IKORANABUHANGA..................h
11. ix
LIST OF TABLES
Table 1: Distribution of the patients by social demographic characteristics ................................ 23
Table 2: Purpose of this visit ........................................................................................................ 24
Table 3: Total waiting time patients spent in Hospital ................................................................. 26
12. x
LIST OF FIGURES
Figure 1: Basic Queuing Process .................................................................................................... 7
Figure 2: Queuing discipline showing a single-server and multiple phase System........................ 9
Figure 3: General Hospital patient information flow.................................................................... 18
Figure 4: Healthcare services delivered and reason of delay........................................................ 25
Figure 5: Patients‟ satisfaction with waiting time and delivered services.................................... 26
13. xi
OPERATIONAL DEFINITIONS
Electronic Health Records: “is a systematic collection of electronic health information about
individual patients or populations. It is a record in digital format that is theoretically capable of
being shared across different health care settings”. (Bercovitzet al., 2013)
Electronic Medical Records system: “An application environment composed of the clinical
data repository, clinical decision support, controlled medical vocabulary, order entry,
computerized provider order entry, pharmacy, and clinical documentation applications. This
environment supports the patients electronic medical record across inpatient and outpatient
environments, and is used by healthcare practitioners to document, monitor, and manage health
care delivery within a care delivery organization.”(Analytics, 2006)
Flow: “The term „flow‟ describes the progressive movement of people, equipment and
information through a sequence of processes. In healthcare, the term generally denotes the flow
of Patients between staff, departments and organizations along a pathway of care”(THE
HEALTH FOUNDATION, 2013)
Health IT: “is information technology applied to health and health care. It supports health
information management across computerized systems and the secure exchange of health
information between consumers, providers, payers, and quality monitors.”(Wikipedia, 2016)
Section waiting time: This is time the patient spends waiting to receive a service at a specific
service point within the clinic.
Total waiting time: This is the sum of all the section waiting times.
Waiting time: This is the time that patients spend waiting to receive a service
14. 1
CHAPTER I: GENERAL INTRODUCTION
1.1. Introduction
This proposal presents a preliminary analysis of patient information flow in emergency and
radiology departments in Kigali university teaching hospital. Analysis is for the interest and
importance for a better understanding of the causes of patient long waiting in aforementioned
departments. The study tends to measure the patient waiting time and identify the possible
bottleneck in patient information flow that contributes to the delay in healthcare delivery. We
will analyze the factors affecting patient information flow and finally propose the strategies to
resolve the identified problems.
1.2. Background of study
In healthcare, the information flow is a critical factor in providing efficient patient care and
billing for services rendered during the patient visit. Therefore, the process of admission,
treatment, billing services and discharging the patient requires different departments to work
hand in hand for performance of different roles and responsibilities and all should be done in
the best interest of the patient(Foundation & Report, 2006). When defining a delay during
treatment, Lambert, et al. study reminded that a delay in treatment is when patients fail to get
treatment be in the form of a medication, lab test, physical therapy treatment or any kind of
treatment that had been ordered for them in the time frame in which it was supposed to be
delivered. This would also apply to not being able to get an initial appointment or follow up
appointment in a timely manner. The same reference added that it is a form of diagnostic error
that may result in patient harm or death. And that for health care organizations and providers, it
is a missed opportunity (Lambert et al., 2009).
In the US, the office of health information Technology noted that Electronic Health Records
have the ability to exchange health information electronically which can help to provide higher
quality and safer care for patients while creating tangible enhancements for organization
(HealthIT.gov, 2014).
15. 2
Even if various authors are unanimous in terms of the benefits of sharing patients‟ data for
speeding up healthcare services, there still exists a big challenge in provision of quick services
because in many hospitals as observed, patients are still waiting for a long time to get services
they need. Taking account of the foregoing, the Research done by Faria &Amaral has shown
that delays in discharge occurred in 60 % of 207 hospital admissions in the Hospital das Clínicas
and in 58.0% of 188 hospital admissions in the Hospital Odilon Behrens. Delays in hospital
discharge occur in the majority of hospitals (rates vary between 13.5% and 62.0%) (Faria &
Amaral, 2014). As it was noted in this research, both hospitals showed a high percentage of
delay in hospital discharge. The delays were mainly related to processes that could be improved
by interventions of care teams and managers. The impact on mean length of stay and hospital
occupancy rates was significant and troubling in a scenario of relative shortage of beds and long
waiting lists for hospital admission. In general, a delay is remarkable in some hospitals
worldwide during the process of admission, billing care services, discharging and treatment. In
2015; the Joint Commission‟s Office of Quality and Safety analyzed 73 sentinel events that were
the result of delays in treatment; 48 of these events resulted in death of the patient, 522 sentinel
events were due to delays in treatment, with 415 of these events resulting in patient death, 77
resulting in permanent loss of function, and 24 resulting in unexpected additional care or
extended stay (The Joint Commusion, 2015).
In Africa, A study of patient satisfaction with health services in Uganda in 2013 found that
patients wait for up to 3 hours in public facilities before they are served. This was longer than
recommended time of one hour (Conrad, 2015). Such notes are here to testify how the problem
of delay in health care services is alarming even if health informatics was introduced to enhance
healthcare system. Waiting time in outpatient departments has become a problem in healthcare
settings all over the world (Kelaniya, 2014). Various studies on reducing patient waiting time
were focusing on improving outpatient daily consultation and appointment scheduling rule
( Shang F, et al. , 2011), (Kaandorp, et al. 2007), (Klassen, 2009), and others focused on number
and schedule of providers especially physicians (Wijewickrama and Takakuwa, 2008), (Günal
MM, 2010) most of these studies designed new system for patient waiting time improvement
based on the researcher observation. In difference to this study was conducted in emergency and
radiology departments which are very known to be very busy and no new system has been
developed. Based on observation of the existing system and data collected from participants, we
16. 3
analyzed the patient information flow to find out the real factors that associated to the long
waiting then provide strategies for process improvement which will have great impact on
reducing patient waiting time.
1.3. Problem statement
Nowadays, information technology is being used in different domains of daily life for the
purpose of improving services delivery. In health care field, e-health systems have been adopted
in different countries of the world to improve health care delivery by reducing at the same time
the cost and the time. By putting a big emphasis on our country, Hamish Frasier et al. (2008)
noted that Health information technology in Rwanda is a quickly growing industry with many
committed stakeholders, including the Government of Rwanda (GoR), several nongovernmental
organizations (NGOs), and private sector partners. Particularly in the areas of electronic health
records and national reporting system, Rwanda has been a pioneer in national initiatives to
integrate technology into its expanding health care system. Where the private market has not
emerged, the Government has provided significant support to help these fledging industries. As a
result, Government is significantly involved in all major initiatives and emerging
technologies.(Hamish, 2008)
In the US, the office of health information Technology noted that Electronic Health Records
have the ability to exchange health information electronically which can help to provide higher
quality and safer care for patients (HealthIT.gov, 2014). A study done reported that hospitals
with greater numbers of IT applications were significantly more likely to have desirable quality
outcomes (Menachemi, 2008)
Despite the effort provided by the government of Rwanda to make health care services more
accessed, it has been remarked that there are still gaps in different hospitals. Here, we can give
an example of UTHK where patients are still experiencing delay during the health care process.
Our research study will interrogate whether the problem is based on patient information flow or
other factors. This drives us to conduct a study on analysis of patient information flow to find out
the real factors contributing to the delay in healthcare delivery.
17. 4
1.4. Objectives
1.4.1. Main objective
The primary aim of this work is to analyze patient‟s dataflow in hospital as a factor of long
waiting time by studying at the same time the system interoperability and interconnection
between hospital services where patients pass throughout from entry to exit.
1.4.2. Specific objectives
This research project has the following research objectives:
To highlight how patients‟ data flow affects them in seeking healthcare services
To identify the possible bottlenecks in patient information flow that can contribute to
prolonged waiting time for health care delivery
To suggest strategies to overcome challenges hindering patients‟ data flow in seeking
healthcare services
1.5. Research questions
To what extent does patients‟ data flow affect them in seeking healthcare services?
Are there any bottlenecks in information flow that contribute to health care delivery
delay?
What are the plausible strategies to overcome challenges hindering patients‟ data flow in
seeking healthcare services?
1.6. Significance of the study
The bottleneck in patient information flow can be a source of patient long waiting time.
Considering the challenges related to IT adoption in health care settings and based on evidence
showing that hospitals with greater numbers of IT applications were significantly more likely to
have desirable quality outcome (Menachemi, 2008) (England et al., 2000). There is a need of
shared patient data between hospital services to reduce patient waiting time.
1.7. Subdivision of the project
The project is divided into the following main parts: chapter one is general introduction.
Information in this chapter covers the background to the study, problem statement, objectives,
18. 5
research questions and subdivision of the study. Chapter two is a literature review: which is an
analytical section of literature and gives mainly the background of patient information flow and
its role in healthcare delivery. Chapter three is the methodology which shows us the study
design, study area, sampling methods, data collection procedure, data analysis tools, and ethical
consideration. Chapter four concerns data presentation and interpretation of the study results.
19. 6
CHAPTER II: LITERATURE REVIEW
Introduction
In this second chapter, we have reviewed the key concept of our work “waiting time” in order to
facilitate our future readers. We also reviewed the various theoretical considerations developed
by other researchers in the domain of research subject. Briefly, theories of this chapter have
turned on the concept of waiting time.
2.1. Concept of waiting time
Waiting time is an important determinant of quality services as it is noted that in health care
provision „delays are expensive, not only in terms of direct costs incurred, but also in terms of
the potential costs of decreased patient satisfaction and adverse outcomes‟ (HAUSSMANN,
1970) . Waiting time studies have been done in settings such as specialized clinics like child
health, maternal health clinics and medical clinics for priority conditions such as Acquired
Immune Deficiency Syndrome, elective surgery clinics such as those dealing with organ
transplant and other cosmetic surgery clinics and general outpatients‟ clinics.
With the challenge to deliver high quality services with limited resources(HAL et al., 2001)
health care systems have placed greater emphasis on the efficient utilization of the resources.
Therefore, one of the most important operational issues in health care delivery involves
increasing utilization and access by minimizing the delays in delivery.
Research shows that in the most Outpatient department of the teaching hospitals, patients
experience longer waiting times to get examined or diverted to private health facilities due to
overcrowding (reaches capacity) thereby reducing healthcare access to the public, and increasing
operational cost to hospitals because of the associated inefficiencies.
2.2. Background of waiting time in healthcare
Over the years, healthcare organization and processes have been viewed within the context of
queuing systems in which patients arrive, wait for service, obtain service, and then depart
20. 7
(FOMUNDAM, S. & HERMANN, 2007). Queuing theory was originally developed by French
mathematician S.D. Poisson (1781- 1840), is usually used to define a set of analytical techniques
in the form of closed mathematical formulas to describe properties of the processes dealing with
scenarios of congestions and blockages (Amero et al, 2004). Therefore, it seems very logical to
view the services or operations of Outpatient department as a queuing system: patients needing
the services of the units wait in a queue to be served and leave the system after service.
2.2.1 Basics of Queuing Theory
The basic structure of the queuing model can be separated into input and output queuing system
(Hillier and Lieberman, 2005). The simplest queuing model is called single–server single queue
model as illustrated in figure 1. Single–server model has a single server and a single line of
patients (Krasewski and Ritzman, 1998). It is a situation in which patients from a single line are
to be served by a single service facility or server, one after the other.
Figure 1: Basic Queuing Process
Source:(OBAMIRO, 2010)
2.2.2. Description of the Outpatient Department patient queuing model (Input and output
process)
Input process is known as the arrival process. These Patients enter the queuing system and join a
queue to be served. A patient in the queue is selected for service by some rules known as the
queue discipline. The required service is then delivered to the patient by the service mechanism,
after which the patient leaves the queuing system (Hillier and Lieberman, 2005). The provision
of services using certain rule and discharge of patients is referred to as output process.
2.2.2.1. Arrival
Although most analytical queuing models assume a constant patient arrival rate, many healthcare
systems have a variable arrival rate. In some cases, the arrival rate may depend upon time but be
independent of the system state. For instance, arrival rates change due to the time of day, the day
Input source
Service
facility
Queuing
displine
Service patient
Departure
21. 8
of the week, or the season of the year. In other cases, the arrival rate depends upon the state of
the system (SAMUEL, F. & JEFFREY, 2007).
2.2.2.2. Waiting Line or Queue
A waiting line or queue occurs when patients wait before being served because the service
facility is temporarily engaged. A queue is characterized by the maximum permissible number of
patients that it can contain. Queues are called infinite or finite, according to whether this number
is infinite or finite (Hillier and Lieberman 2001). An infinite queue is one in which for all
practical purposes, an unlimited number of patient can be held there. Unless specified otherwise,
the adopted queuing network model in this study assumes that the queue is an infinite queue.
2.2.2.3. Queue Discipline
The queue discipline refers to the order in which members of the queue are selected for service
(Hillier and Lieberman, 2001). In most healthcare settings, unless an appointment system is in
place, the queue discipline is either first-in-first-out or a set of patient classes that have different
priorities (as in an emergency department, which treats patients with life threatening injuries
before others). Studies (SIDDHARTAN et al., 1996) propose a priority discipline for different
categories of patients and then a first-in-first-out discipline for each category. They find that the
priority discipline reduces the average waiting time for all patients: however, while the waiting
time for higher priority patients reduces, lower priority patients endure a longer average waiting
time.
2.2.2.4. Service Mechanism
According to Mosek and Wilson (2001), service mechanism describes how the patient is served.
In a single server system each patient is served by exactly one server, even though there may be
multiple servers. In most cases, service times are random and they may vary greatly. The service
mechanism also describes the number of servers. The first patient from the common queue goes
to the server who becomes free first (Medhi, 2003).
Single-server, Multiple-phases System
With this system, there is still a single queue but patients receive more than one kind of service
before departing the queuing system as shown in figure 2. At hospital outpatient department,
patients first arrive at the registration desk, get the registration done and then wait in a queue to
22. 9
see a nurse for ancillary services before being seen by the consultant (physician). Patients have to
join a queue at each phase of the system.
Figure 2: Queuing discipline showing a single-server and multiple phase System
Single - servers Multiple -phases
Source :( obamio,2010)
2.2.2.5. Capacity of the System
A system may have an infinite capacity-that is, the queue in front of the server(s) may grow to
any length. Furthermore, there may be limitation of space and so when the space is filled to
capacity, an arrival will not be able to join the system and was lost to the system. This can
happen at any service point in the OPD. The system is called a delay system or a loss system,
according to whether the capacity is infinite or finite respectively (Medhi, 2003).
2.2.2.6. Departure
Once patients are served, they depart through a number of routes. Once an OPD patient is served,
a number of exit fates are possible:
The patient may be admitted to hospital specialized units
The patient may receive the service to their expectation and return to source population.
The patient may experience delays and opt for a similar service elsewhere.
A patient may be advised by the health worker at any point to seek services elsewhere
due to capacity to handle the case.
Registration
Patients queue
Patient queue at
X-ray
Diagnostic tests
Examination room
Counselling
…………………………………………………………
…….
23. 10
2.3. Factors associated with waiting time in a health facility
2.3.1. Patient flow
Patient flow represents the ability of the healthcare system to serve patients quickly and
efficiently as they move through stages of care. Blockage in the flow can increase waiting and
through put time creating a negative effect on the quality of service delivery (VOS, et al., 2007).
When patient flow is handled well, it is represented by short wait at registration, examination,
diagnostic testing, pharmacy and discharge(BELSON, 2010.) .Thus, improving patient flow is
one way of improving healthcare services.
2.3.2. Operational efficiency
Once a health care facility has an understanding of its patient flow, these flows can be used to
improve the facility‟s operation(CÔTÉ, 2000). Therefore, efficient patient flow may be a key to
achieve operational efficiency in the outpatient department (KUNDERS, 2004). According to
(WANYENZE,et al., 2010) a number of factors can influence efficiency and the emergence of
bottleneck in health care operation during examining operational efficiency with regard to patient
flow. These factors include the volume of patients seen on the daily basis, the types of patient
seen in terms of stage of care, clinic policies on frequency of patient visits, the type of provider
who they should see, the size and composition of the providers and the staffing model.
2.3.3. Physical design
The physical environment greatly affects the quality, efficiency, and efficacy of healthcare
delivery in outpatient settings (A.I.A., 2004). To appreciate this concept, it is important to
understand the journeys that patients make through the department. Patient environment can best
be studied from the ordinary experience. Physical experience can be affected by the way in
which spaces are connected, the changes of direction imposed by the circulation system, the
creation of room sequences, the distribution of branching points, the availability of alternative
routes, and the relations of visibility between and across spaces(PEPONIS, J. & ZIMRING,
1996).
Studies show that hospital design coupled with walking distances and common journeys affects
access to every department (WANYENZE et al.,2010) with a direct impact on the movement of
24. 11
patients, staff, and supplies (HFM, 2011). Therefore controlling movement in terms of; the
number of changes in direction needed to access different service points from the main entrance,
the distance and number pit stops (treatment rooms), would ensure less use of time on walking to
locate service points. Therefore, physical accessibility is an important factor for optimizing
patient flow; and to achieve operational efficiency.
2.3.4. Emergence of bottlenecks in Outpatient departments
Patients are attended to in various units within the hospital system but almost invariably a high
percentage of out-patients visit the hospital pharmacy unit for their drug needs (MARGARET,
O. A. & WILSON, 2003). Most patients follow a single file from registration to examination but
as soon as they leave the doctors‟ consulting clinics or examination room, they are either sent
back and forth for further investigation to the laboratory or radiology units at various times. This
generates a random arrival rate at the pharmacy, where the dispensing activities take place
sequentially (MARGARET, O. A. & WILSON, 2003). Queues form when the rate of patient
arrival at the any service point is greater than the service rate.
According to Wanyenze et al. (2010) a number of factors can influence efficiency and the
emergence of bottlenecks in health care operations. These factors include the volume of patients
seen on the daily basis, the types of patient seen in terms of stage of care or illness, clinic
policies on frequency of patient visits, the type of provider who they should see, the size and
composition of the providers and the staffing model. Other factors identified by (MARJORIE,
2008) include:
High Workload: If staffs are overworked, then patients have to wait longer as staffs have too
many patients to attend to. This can be solved by decreasing service times (if they are too long);
or by providing more staff if service times are appropriate or low; or by shifting staff from
facilities with a low workload.
Patients turn up in batches: If many patients arrive at the same time then most of these patients
would have to wait a long time as the staff member would be busy seeing the patients who were
first in the batch and the rest would be waiting. So if 20 Patients arrive at the same time then the
first patient would wait zero minutes if the health centre were empty and the second patient
25. 12
would wait for the time it took the staff to see the first patient (let‟s say 7minutes), but the 20th
patient would have to wait for the other nineteen to be seen, which would be 19 times 7 minutes
or a wait of 103 minutes. A Big Batch is defined as twice as many patients arriving in a time-
period than can be seen in that time-period.
Lack of efficiency: Patients may not effectively be attended to because much as staff members
are present at the service point they are busy with something else: such as administrative work,
preparation or teaching.
A logistical problem: Patients may be waiting to be seen and staff is available to see patients;
However, due to a lack of equipment, rooms or other logistical needs, staff is unable to attend to
the patients. There was staff present but patients waiting and the staff questionnaire shows there
is a shortage of equipment or rooms.
Flow problems: Staff is available to see patients and patients are at the facility but they are
being delayed at some other service point. There was staff present but no patients however
patients are waiting long at a prior service point.
Queuing problems: This occurs when patients are attended to by staff in an illogical order, i.e.
the patients are not attended to in the order that they arrive at the service point. This means that
those who arrive first are not seen first, but are made to wait while others are seen before them.
Illogical queuing (jump queue) has a large effect on individual patient waiting times.
2.3.5. Staff scheduling
Several studies concerning scheduling for healthcare clinics have been directed at patient
scheduling (Wijewickrama and Takakuwa, 2008). Authors have addressed scheduling staff in
meeting patient demand while keeping patient arrivals unchanged. (S. Verma and A. Gupta,
2013) has examined the working of outdoor patient departments in a general hospital. The
author found out that there was a need to change the way activities were performed and also
suggested ways of measuring process oriented performance of Outdoor Patients Department.
For solving nurse rostering problems, (Chih-Chung Lo, 2012) designed an intelligent decision
support system, based on guidelines of Service-Oriented Architectures (SOA), the author claims
26. 13
to schedule nurse‟s activities with high flexibility. (E. Cervesato et al., 2014) has developed a
computer system for cardiologist scheduling. The system provides equal assignment of
Cardiologists to each type of shift with uniform like distribution, avoiding immediate repetition
of the same shift.
2.3.6. Patient appointment
As for patient appointment, Yan and Tang have proposed a sequential appointment scheduling
method that balances the benefits of clinic and patients' satisfaction considering patient choice. It
determines the optimal booking number of patients and optimal scheduling time for each patient
to maximize the profit of the outpatient clinic over a session-day ( Chongjun Yan and Jiafu Tang,
2014). The profit considered in this paper is the total revenue of all arriving patients minus the
cost of waiting time, idle time and overtime, which not only considers the rewards from booking
decision, but also precisely formulates the charge on service process depending on scheduling.
Similarly, Yan et al. derived solution approaches for outpatient appointment schedule problem
with routine and urgent patients under deterministic service time considering no-show
probability to minimize a weighted sum of average waiting time, idle time and overtime (C. Yan
et al., 2013). In the same way N. L. Ma et al. has used data analytics to identify pattern of non
availability of scheduled patient, and has also developed a statistical model to predict the
probability of that “non-availability" (N. L. Ma, S. Khataniar, 2014).
Though we have a common objective with the mentioned authors, our study is different from the
mentioned ones in a way that we study the patient information flow (not scheduling). Our work
is different from others in a way that the structure of our respective organizations is different.
2.4. Impact of waiting time on Patients' satisfaction
All studies in this context showed that there is negative relationship between long waiting time
and patients‟ satisfaction and almost all articles used quantitative method to evaluate that
relation, such as direct patient interview, survey or filling feedback. Most of these studies were
followed by statistical analysis to compare the results before and after applying a change in
healthcare organizations.
27. 14
According to study done by Harnett et al. (2010) to improve efficiency and patients‟ satisfaction
in a preoperative evaluation clinic in US, 872 patients questionnaires were distributed in two
time periods. As result the waiting time was significantly dropped from 92 ± 10 minutes to 42 ±
5 minutes with significant improvement in patients' satisfaction with minimal cost impact as
result from the alteration(Harnett, et al,. , 2010). Another study done in Nigeria by Umar et al.,
2011 about patient waiting time in tertiary health institution, to assess their satisfaction. It
showed, most of patients waited more than one hour to be seen by the doctors while only (31%)
stayed less than an hour and out of them around (70%) were satisfied. However, the majority of
patients (45%) were dissatisfied with the services because of the long waiting time (Umar, I.,
Oche, M.O. & Umar, 2011) Waiting time was measured in both articles and was linked to
patients‟ satisfaction which was estimated by distributing questionnaires.
The difference in the current study is we will analyze the cause of delay throughout patient data
flow between the hospital services by using mixed methods then we will provide the simulation
model for improving the patient flow by considering health informatics as the key solution.
2.5. Improving patient waiting time
As Jess White (2015) said, patients sometimes wait hours for treatment. To provide better care to
patients, it‟s crucial to reduce their wait times at the hospital, particularly in the emergency
department (ED). It‟s no secret that patients who are seen quickly have better outcomes than
those who have to wait a long time. With many conditions, such as heart attacks and strokes,
every second is critical to a patient‟s survival and chance at recovery.
Although it‟s a tough task, there are certain steps hospitals can take to improve patient wait times
(White, 2015). The Institute of Medicine (IOM) recently released a report about wait times in
health care. The report contains a detailed overview of the problem and how hospitals can solve
it. The IOM suggests that hospitals should take a page from other industries in the private sector
to make a big difference in wait times, taking such concepts as lean management and Six Sigma
and applying them to health care. The idea is to address some of these problems by boosting
efficiency and without sacrificing care quality.
28. 15
With that goal in mind, hospital executives should try four key strategies when attempting to
improve patient wait times:
Revamp the front-line scheduling process. Scheduling surgeries and other non-life-
threatening procedures should take supply and demand into account. Patients should be
scheduled for these procedures on days where the hospital‟s less likely to have a spike in
patient volume due to a busy evening in the emergency.
Make reduction of wait times a part of the hospital‟s culture. Healthcare executives must
make wait times a priority in their facility. This means they must implement specific
policies designed to address problems that can lead to increased wait times, including
staffing policies. They must also commit to regularly evaluating their hospitals‟ work
flow and be willing to invest in solutions to speed up care delivery, including automated
systems designed to streamline scheduling.
Incorporate patient preferences. Scheduling should be focused on patients, not providers.
So it‟s important for hospitals to reach out to find out what kinds of changes would best
suit patients‟ needs. Some hospitals have given patients access to systems where they can
make their own ED appointments for less-critical issues – or they‟ll give patients an
estimated wait time over the phone before they arrive so they can make other
arrangements, if necessary.
Consider alternate methods of care delivery. To ease the burden of high wait times,
hospitals can try treating patients in various ways. Telemedicine may be one solution for
emergency department patients with less serious issues. Hospitals may also partner
directly with nearby urgent care clinics and other healthcare entities so they can provide
patients with an alternative to the emergency department to lower their wait time.
Conclusion
In this second chapter, different theories related to our work were reviewed. The situation was
clarified. The next chapter will discuss the methodology used to study this situation.
29. 16
CHAPTER III: METHODOLOGY
3.1. Study area
This study was conducted at University Teaching Hospital of Kigali (UTHK) which is one of the
biggest hospitals in Kigali. It is a referral hospital with specialized services, a hospital where
remote hospitals send complex cases for specialized care. The hospital counts many departments,
to mention some; it has the department of Gynaecology/ obstetrics, paediatrics, surgery,
emergency and others. The focus was in emergency and radiology departments.
3.2. Study design
With the aim of identifying factors associated to extended waiting time to the hospital, a mixed
method (quantitative and qualitative) was used in data collection on the flow of information from
entry point to the time of exit in radiology and emergency units.
3.3. Study population
The target population in this study was made of patients from radiology and emergency
department at University Teaching Hospital of Kigali (UTHK) and staff from all necessary unit
connected to emergencies and radiology department (medical imaging radiographers, emergency
nurses and ICT staff).
3. 3.1. Sample size and sampling strategies
To estimate the sample size, the waiting time in radiology and emergency departments is used as
outcome measurements. But, by the time being there is no local study that reported the waiting
time in any of the aforementioned departments at UTHK. In the region, one study done in
Uganda (Mulago Hospital), reported that 39.5% of patients complained that they have been
waiting longer than four hours (Nabbuye et al., 2011). Therefore, basing on the literature
available in the region, we were hypothesizing that 39% to be the proportion of patient who
waited for long time. And basing on the formula by (Rosner, 2011) the sample size is estimated
as the follow:
Where n stands for sample size, 2
1
z stands for z score at 95%,
2
2
2
1 )
1
(
)
(
d
p
p
z
n
30. 17
p Stands for the proportion of the patients who will wait for more than 3 hours
and 2
d stands for marginal error.
3.3.2. Inclusion criteria
In this study inclusion criteria was based on three categories of participants: patients, medical
staff and Electronic Medical Records system administrators. On the patient‟s side, the ones from
13 years onwards, who came to UTHK for looking for healthcare services in Emergency and
radiology department, were concerned by our study. They would participate voluntarily at the
study and sign consent form. On the other side, we were included electronic medical records
system administrators and medical staff who completed probation period and signed consent
form.
3.3.3. Exclusion criteria
We excluded Patients who were identified by the reception nurse as too ill. Children below 13
years old were excluded also because they are handled in the children /pediatric section and this
section has a different arrangement compared to adults section. They were excluded also the
patients who were refused to sign consent form. Staff members who have not attained a six
months‟ experience were considered to be in the probation period and were excluded in the
study. Besides, staff members who refused to sign consent form were excluded.
3.3.4. Sampling Procedure
In this study, three samples were needed; the first sample of interest was made of patients who
visited both aforementioned departments for health care services. Another sample was came
from medical staff (doctors, nurse) working in those departments and who record patients
information in EMR. The third is the IT system administrators. According to the reports, 50 to
100 patients are enrolled in the department at daily basis. So, we were surveyed the first 40
patient‟s respondents each day until we get a total sample size. And in this study we involved 1
research assistant who helped us to collect data on patient data flow between hospital services
and waiting time to identify the possible cause and bottleneck contributing to the extended
365
05
.
0
)
61
.
0
(
39
.
)
96
.
1
(
2
2
n
31. 18
waiting time. The sampling strategies for medical staff were based on none probability
(purposive) sampling and the same was applied for IT system administrators.
3.4. Study variables
3.4.1. Measures (description of the main variables)
First of all, the questions were probed on socio-demographics variables (age, sex, place of
residence, entry time, consultation time, exit time and outcome which were determine the time a
patient spent to get health care services) and relation between patients‟ data flow and waiting a
long time to get treatment. Secondly, there were questions on bottlenecks in information flow
that could contribute to health care delivery delay and plausible strategies to overcome them if
any.
3.4.2. Explanatory variables
Information flow: this variable was assessed by a checklist on system interoperability between
units. Interoperability is illustrated on the diagram 2. Other explanatory variables are socio-
demographics information.
3.4.3. Outcome variable
In this study the outcome variable is the mean waiting time. It was computed by summing up the
total time spent in different units until the health care service is delivered.
Figure 3: General Hospital patient information flow
32. 19
Hospital reception
to get patient ID
Patient arrive
Patient
existing in
EMR system
Order nurse
Send to emergency
unit
Emergency
Case?
Depending
on severity
patients are
prioritirized
Waiting doctor
for consultation
Examination
room
Need
diagnostic
investigation
Labs
X-ray
Scans
Admitted
Pharmacy
Exit
Specialized units
Registered in the
unit
Join queue waiting
consultation
New registration
Yes
No
Yes
Yes
No
No
No
No
33. 20
3.5. Data Collection Tool development
Data were collected via the interviewer administered structured questionnaire. The questionnaire
were written in English and Kinyarwanda since all respondents were not literate. to collect data
on information flow as a factor of a long waiting time, the researcher used a guided structured
interview to patients and to the staff to capture their views about patient‟s information flow and
the cause of delay in health service. a question about bottlenecks as also asked to patients
participated in the research. To collect information on ICT tools used to interconnect
departments and speed up flow of information, the researcher was observed the technical
capability necessary to linkup the units and make easy the flow of patients‟ information across
different units that need to use them timely.
Data collection procedure
As our study is concerned with the patients come to the emergency and X-rays, meaning sick
patients, to manage well the issue of patients‟ health without disrupting, we were pay a attention
on inclusion and exclusion criteria. Briefly, all the patients noted by the nurse participant to be
too ill like the ones who were in coma or other possible cases highlighted by the same nurse
participant were excluded from the study. As the investigation was not done in one day, the
research team were organized themselves to reach to those patients without disrupting them
depending on their current status. The data collection was done in normal working days from
8:00AM - 5:00 PM.
3.6. Potential risks and benefits
There are no known risks associated with participating in this research. The information provided
by the respondents helped to identify the bottlenecks in patients‟ data flow that contribute to
health care delivery delay; there was therefore a plan of plausible strategies accordingly.
3.7. Cost and compensation
There was no expected cost to people participated in this study and no financial compensation wi
provided to them. Participation was voluntary.
34. 21
3.8. Confidentiality
Information that participants provided in this investigation was stored in computer and accessed
only by the researcher. The name of respondents has never appeared in this report only codes are
used for the purpose of reporting the results from the research. All information are kept
confidential.
3.9. Analysis
In this research, the quantitative method of data analysis was used because the questionnaires
used as instruments of data collection that could easily provide necessary information in
numbers. After collecting data, computer software (SPSS) designed for data analysis was used.
To have this done, data were first entered in excel worksheet which could directly save them and
organize them in a good manner. Then, they were exported in SPSS version 20 where they were
analyzed. Data summary on socio-demographics characteristics were presented with frequency
tables and percentages. To identify independent predictors a multiple logistic regression model
was computed.
3.10. Ethical Consideration
The study protocol was submitted to the University of Rwanda, College of Medicine and Health
Sciences Institution Review Board ( IRB) for review and ethical clearance approval. Then after a
permission to collect the data was provided to the researcher from the University Teaching
Hospital of Kigali (UTHK) research committee after reviewing the proposal;
Conclusion
The methodological guidelines have been widely discussed in the previous chapter. The next
step is to present results analysis of the data collected from the field. The results of research
conducted on the field are presented in the next chapter.
35. 22
CHAPTER IV: RESULTS
Introduction
This chapter presents results on patient‟s dataflow as a factor of long waiting time at University
Teaching Hospital of Kigali (UTHK). The present chapter categorizes, interprets and analyses
the data that was gathered using the questionnaire. As we mentioned before, the study was
carried out in University Teaching Hospital of Kigali (UTHK) which is one of the biggest
hospitals in Rwanda. It was chosen as an area of study because it is a referral hospital with
specialized services, a hospital where remote hospitals send complex cases for specialized care.
The sample size used in the analysis was 365 patients from radiology and emergency
departments, 15 medical staff and 3 electronic medical records system administrators (ICT staff).
4.1. Identification of the respondents
4.1.1. Social demographic characteristics of the patients
Characteristics of patient‟s respondents include five variables namely: sex, age, residence, entry
time, consultation time and exit time. As indicated in the previous table 1, the total number of
patients‟ respondents was 365. They were followed passing through reception or their waiting
benches. 47% were males whereas 52% were females. 76% went to radiology whereas 24%
percent went to emergency department. 8% were young adults aged between 16-20, 17%
percentage were adults aged between 21-25, 26% patients were aged between 26-30, 37% were
aged between 31-39 whereas 9% of patients were aged 50 and above. 58% of patients
respondents were from out of the city of Kigali whereas 41% were from provincial districts. On
one hand, 69% of patients arrived before 8:00 a.m, but only 17% patients were consulted by 9:00
a.m whereas 52% left were consulted after 9:00 a.m. On the other hand, 30% patients arrived
after 8:00 a.m, but only 16% patients were consulted in one hour later whereas 13% left were
consulted after one hour. From the total number of 365 patients surveyed, 11% went back to their
respective families between 10:00-12:00 a.m, 36% joined back their families between 12:00-5:00
p.m whereas 52% patients were not yet served by 5:00 p.m.
36. 23
Table 1: Distribution of the patients by social demographic characteristics
Patient characteristics Frequency Percentage (%)
Respondent’s sex
Male
Female
175
190
47.94
52.06
Age
16-20
21-25
26-30
31-39
50 and above
32
63
98
138
34
8.76
17.26
26.85
37.81
9.32
Current place of residence
Outside Kigali
Within Kigali
212
153
58.08
41.92
Entry time: part I
Before 8:00
Consultation time
Before 9:00
After 9:00
254
64
190
69.58
17.54
52.05
Entry time: part II
After 8:00
Consultation time
Within one hour
After one hour
111
61
50
30.42
16.72
13.69
37. 24
Exit time
10:00-12:00 a.m
12:00-5:00 p.m
After 5:00 p.m
42
132
191
11.51
36.16
52.33
Moreover, 15 medical staff members were surveyed: these were composed by 8 males and 7
females. 4 among them are A1 holders and 11 are A0 holders. Emergency nurses are 8 whereas
radiologists are 7. Regarding experience, 9 staff medical members have experience between 1-5
years, 3 medical staff members have experience between 6-10 years. Other 3 staff members have
experience from 11 years and above. Finally, 3 male Electronic Medical Records system
administrators were surveyed. One of them holds masters degree in Health Informatics whereas
two others left hold bachelor‟s degree in computer science.
4.1.2. Data from the questionnaire addressed to the patients
Purpose of this visit
Answers for this question varied: 25 percent of the patients revealed that they came for review,
58 percent of the patient noted to be referred whereas 16 percent noted for walk-in in hospital.
Table 2: Purpose of this visit
Purpose of this visit Frequency Percentage (%)
Review 93 25.47 %
Referred 214 58.64 %
Walk-in 58 15.89%
38. 25
Healthcare services process and reason of delay
Regarding healthcare services process and reason of delay, 27.54 percent of the patients said that
they received rapid healthcare services whereas 72.46 percent said that they did not. When asked
the root cause of delay in treatment process, patients who did not receive rapid healthcare
services noted that the reasons are several and various: delay in treatment process, few healthcare
providers, Staff failing to respond in time, a long queue, poor communication, favouritism etc.
Figure 4: Healthcare services delivered and reason of delay
Average waiting time for seeing the physician and receiving the treatment
In the present study, a significant gap was discovered in the subjective waiting time for seeing
the physician and receiving the treatment. 108 patients (29.71%) reported total waiting time was
around 1 hour, 101 patients (27.54%) spent 2 to 3 hours in their visit while the majority of them
(42.75%) waited more than three hours in the hospital as presented in Table 2.
39. 26
Table 3: Total waiting time patients spent in Hospital
Total time spent to see a physician Frequency Percentage (%)
One hour 108 29.59
2 to 3 hours 101 27.68
More than three hours 156 42.73
Source: our research, June 2016
Patients’ satisfaction with waiting time and delivered services
The present questionnaire revealed the level of satisfaction of the patients vis-à-vis waiting time
and delivered services. Only 29 patients were very satisfied (7.94%), 58 patients (15.89%) were
quite satisfied, 98 patients (26.84%) were satisfied, and the most of the patients (32.62%) or 119
patients were not satisfied at all while 61 patients (16.71%) were very dissatisfied.
Figure 5: Patients’ satisfaction with waiting time and delivered services
Patients’ recommendations vis-à-vis improvement of health care services delivery
Patients gave different suggestions for the purpose of improving health care services delivery in
University Teaching Hospital of Kigali (UTHK). These include: improving the way consultation
40. 27
is done, delivering quick services especially to provide examination results on time, improving
customer care, increasing the number of medical staff, controlling well phone calls and chats
during work etc.
4.1.3. Data from the questionnaire addressed to the medical staff members
All medical staff members (100%) noted that they receive a big number of patients compared to
existing medical staff. 80% of them reminded that they use Electronic Medical Record System
when managing patients‟ data. However, all of them (100%) stated that their daily work situation
doesn‟t facilitate them to provide rapid services to patients. So, few healthcare providers and a
big number of patients were discovered as the main root causes of this problem of poor
healthcare services. To overcome this challenge, the following strategies were proposed by
medical staff members. These include: increasing medical staff members, remuneration,
materials and providing drugs on time by CAMERWA. Finally, we remind ourselves that the use
of existing Electronic Medical Record System is still low because 84.62 % of medical staff
members are not familiar with it. Despite this, most of key informants (57.14%) noted that the
use of electronic medical record system is good among medical staff members.
4.1.4. Data from the questionnaire addressed to electronic medical records system
administrators
It was revealed by 3 key informants that existing Electronic Medical Record System currently
used in University Teaching Hospital of Kigali is called “Open Clinic” and is shared in all
hospital units. However, only medical staff members between 25- 50 % uses existing Electronic
Medical Record System. This showed that 66.67% of medical staff don‟t use the EMR which is
also increase prolonged waiting of patients in different services. The EMR itself doesn‟t have
problem only unnecessary updates which disturb the users. Three Challenges is discovered in
existing Electronic Medical Record System usage: the low level of medical doctors/nurses to use
the EMR and lack of EMR technical/ maintenance supporter when needed and frequently cut-off
Local Area Network. As noted by 3 key informants, regular trainings are required to regulate
such problems in the near future.
41. 28
4.2. Discussion of results
4.2.1. Challenges in healthcare process due to patients’ data flow
As we know the government of Rwanda has made more effort to make health care services more
accessed, however our study showed that there are still problems whereby patients experience a
long time to get healthcare services. Some of them insisted on bad healthcare services they were
given and this was confirmed by 72.46 percent of the whole population. They added that they
did not receive rapid healthcare services. As waiting time increased, they became more unhappy
and hopeless. This impacted on their level of satisfaction whereby the most of the patients
(32.60%) or 119 patients were not satisfied at all while 60 patients (16.43%) were very
dissatisfied. Here, we can remind ourselves that the majority of the patients (42.73) waited for
more than three hours and this is alarming situation which requires immediate actions for saving
the lives of the clients who join University Teaching Hospital of Kigali (UTHK).
Taking account of the foregoing, 101 patients (27.68%) revealed that they spent 2 to 3 hours in
their visit and this time is far from a normal period of one hour of waiting services as
recommended by Uganda Ministry of Health., 2004 (HEALTH OF HEALTH, 2004). So, we can
compare the results of our study with results from satisfaction survey study carried out in the
general outpatient department of Mulago hospital which found that the waiting time for majority
of the patients (39.5%) was at waiting more than 4 hours (Nabbuye et al., 2011)
4.2.2. Bottlenecks in patients’ information flow
We can define a bottleneck as a delay in one stage of a process that makes the whole process
take longer. So, there are different places where the patients spend more times than other places.
In department of emergency, 365 patients are unanimous that pharmacy and cashier are two
places where patients spend unexpected time. For department of radiology, two places were also
pointed out: consultation and cashier. On this point, we wanted to know from the patients what
they think are the main root causes of spending a lot of time in the mentioned placed and
different reasons were highlighted: demeaning the patients, poor customer care, only one X-ray
machine is functional, staff being occupied with other businesses less minding about the job.
42. 29
Medical staff members agree with the patients on waiting a long time to receive treatment. So,
they gave their own root causes such as a big number of patients compared to existing medical
staff (this was confirmed by 100% of medical staff members surveyed), few healthcare
providers, insufficient materials and insufficient drugs from the suppliers. Electronic medical
records system administrators confirm also that there few healthcare providers who are not stable
to work for Hospital. The majority of physicians are candidate specialists who rarely use
electronic medical record hence health care services don‟t reach the patients as soon as possible.
Electronic medical records system administrators added that Hospital uses many systems of
information record such as open clinic, HMIS, Canreg. These report the same patient
information and cause delay in healthcare process. Researches similar to ours have found that
the main causes for waiting a long time are due to operational inefficiencies in the process of
service delivery (Wanyenze et al., 2010), (Nabbuye et al, 2011), staff shortage and a high patient
load (Tacher, 2005)
4.2.3. Plausible strategies for existing bottlenecks in patients’ information flow
Quantity of hours that patients wait to be received by physicians is one factor which can make
hospitals and health centres loose trust from their clients. This long waiting can be interpreted by
the patients or other clients waiting for service as obstacles which could stop them from
obtaining services they deserve. This long waiting can impact on other programmes that the
patients had in mind hence different things can be paralyzed at the same time due to waiting
unexpected time. Long waiting can be therefore a source stress for both patients and physician
who is supposed to provide healthcare services. So, different measures are to be taken and
implemented to deal with the raised issue. As suggested by the patients, the way consultation is
done today should be improved by reducing the time the patients spend on waiting benches. It
was remarked that healthcare services are very slow, so there should be quick services especially
to provide examination results on time and improvement of customer care in order to direct well
the patients to appropriate services rather than letting them struggle themselves to look for the
places where different departments are located. Increasing the number of medical staff and
controlling well phone calls and chats during work are other solutions generated by the patients.
On the side of medical staff members, different measures should be quickly taken. These
include: increasing staff members, salaries and remunerations, materials and provision of drugs
43. 30
on time by CAMERWA. Regular trainings are needed on the side of electronic medical records
system administrators to deal with unnecessary update which disturbs the normal functioning of
the system and other technical problems.
Conclusion
The last chapter (chapter four) focused on data presentation and interpretation of the study
results. It was remarked that the majority of the patients (42.73) waited more than three hours in
University Teaching Hospital of Kigali (UTHK) to get healthcare services. As noted by the
patients, some of the root causes are delay in treatment process, few healthcare providers, poor
communication and favoritism. On the side of medical staff members, they noted that few
healthcare providers and a big number of patients are the main root causes of this problem of
waiting a long time for healthcare services. To overcome this challenge, the following strategies
were proposed by the participants: improve the way consultation and customer care is done,
build capacity of district hospitals, increasing the number of medical staff, etc.
44. 31
GENERAL CONCLUSION AND RECOMMENDATION
By way of conclusion, it behoves us to look back on the achievements of this work from its
objectives and results. The primary aim of this work was to analyze patient‟s dataflow in hospital
as a factor of long waiting time by studying at the same time the system interoperability and
interconnection between hospital services where patients pass throughout from entry to exit. This
study has shown that majority of the patients wait a long time to get healthcare services they
need. 101 patients (27.68%) revealed that they spend 2 to 3 hours to get services they wanted
whereas (42.73) waited more than three hours. This long waiting lead the patient to be unhappy
and hopeless hence their level of satisfaction becomes nil.
Different places where the patients spend more times than other places have been highlighted. In
department of emergency, pharmacy and cashier are noted. For department of radiology, two
places also were pointed out: consultation and cashier. Different reasons were developed for this
long waiting. These include demeaning the patients, poor customer care; physicians are busy
with other businesses and do not care about the job. Others are a big number of patients
compared to existing medical staff, insufficient materials and the use of many systems of
information record that report the same patient information. Among those factors, the 3 main real
significant factors of long waiting has been found: Slow treatment process, Staff timely response,
Long queue.
To face the issue mentioned above, different solutions were suggested: improve the way
consultation is done today, providing quick services especially to provide examination results on
time, improvement of customer care in order to direct well the patients to appropriate services
rather than letting them struggle themselves to look for the places where different departments
are located. Build capacity of district hospitals: it was observed that many patients come to
attend at University Teaching Hospital of Kigali while their illnesses can be cured on district
hospital level. Increasing the number of medical staff and controlling well phone calls and chats
during work are other proposed solutions. Other plausible solutions are the following: increasing
salary, materials and providing drugs on time. Planning regular trainings on the use of electronic
medical records system for medical staff members may be also helpful.
45. 32
Recommendations
At the end of this study, it is very crucial to provide recommendations whose implementation
would contribute to solve the problem of long waiting time at University Teaching Hospital of
Kigali (UTHK) and deal with bottlenecks which motivate to the prolonged waiting.
During conducting this research, there were complaints from physicians about few health
workers compared to the big number of the patients, insufficient salary, few materials and drugs
in Hospital. So, Ministry of Health should take into considerations the mentioned issues because
they lead to poor health care services and long waiting. It was also remarked that a big queue of
patients is increased by a certain number of patients whose diseases would be treated at District
Hospitals level so coming to referral Hospital (UTHK) was seen like increasing a number of
patients and long waiting. For this reason, there would be capacity building of District hospitals
for the purpose of raising their confidence and after these District hospitals will deal effectively
with different cases referred to University Teaching Hospital of Kigali (UTHK) for no clear
reasons.
In the present research, we have realized that the majority of physicians rarely use electronic
medical record hence health care services don‟t reach the patients as soon as possible. So, there
would be a massive sensitization on the benefits of using electronic medical record and make
sure this is expanded in all department of University Teaching Hospital of Kigali (UTHK). This
is because electronic medical record improves diagnosis and treatment. It was shown that it
reduces significantly errors within personal health records. It also makes fast healthcare and
decision making responses from assigned medical professionals.
Recommendation for further study
The recommendation for further research is first of all to do analysis on measurement of
approximate time in each step of healthcare services. Secondly, working on analysis of patients‟
information flow using computer simulation model and providing new data flow approach. Then,
the results from that study can primary satisfy the patient‟s vis-à-vis healthcare process and
secondly help physicians to communicate to the patient approximate time he/she will spend to
get required services.
46. 33
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50. a
APPENDIX I: CONSENT FORM
a. Explanation
Dear Respondent,
My name is UWERA Thaoussi , I am a student pursuing a Masters degree in Health Informatics
at University of Rwanda, College of Medicine and Health Sciences, school of public health . I
am conducting a study entitled “Analysis of Patient Information Flow in Hospitals as a Factor
of a Long Waiting Time: Case of Kigali University Teaching Hospital” I need your support by
helping me to answer this questionnaire. The information given shall be used purely for an
academic purpose with a high degree of confidentiality. Feel free therefore to give your views
and opinions on this subject of research.
b. Risks and benefits
There are no known risks associated with participating in this research. The information provided
by the respondents will help to identify the bottlenecks in patients‟ data flow that contribute to
health care delivery delay; there will be therefore a plan of plausible strategies accordingly.
c. Cost and compensation
There is no expected cost to people participating in this study and no financial compensation will
be provided.
d. Right to participate or withdraw
Participation in this study is voluntary, you have right to participate or not. If you choose not to
be part of this study no consequences for that. If you agree to participate in this study, you will
be requested to sign the consent form to confirm your participation.
e. Confidentiality
Information that participants will provide in this investigation will be stored in computer and
accessible only by the researcher. The name of respondents will never be appeared in any report
51. b
only codes will be used for the purpose of reporting or publication. All information will be kept
confidential.
-Any questions don‟t hesitate to contact Mrs UWERA Thaoussi email: tuwera@ur.ac.rw,
telephone: 0788229321
f. Consent
I confirm that the purpose of this study and my role have been well explained to me by Mrs
UWERA Thaoussi. I agree to the conditions explained and give consent to be included.
Signature / Umukono…………………………
Date / Itariki..............................
Thank you / Murakoze.
INYANDIKO YO KWEMERA KUGIRA URUHARE MU BUSHAKASHATSI
I. INTANGIRIRO
Nitwa UWERA Thaoussi , ndi umuneyshuli muri Kaminuza y‟u Rwanda,Mu shuli
ry‟ubuvuzi n‟ubumenyi mu by‟ubuzima, niga mu cyiciro cya gatatu mu bijyanye
n‟ikoranabuhanga mu by‟ubuzima. Ndimo gukora ubushakashatsi bufite umutwe ugira uti
“Isesengura ry’inzira z’amakuru y’umurwayi mu Bitaro nk’imwe mu mpamvu zitera umurwayi
gutegereza umwanya munini kwa Muganga ,mu Bitaro bya kaminuza by’I Kigali”nkaba
nkeneye ubufasha bwanyu,kandi amakuru muzatanga azaguma kuba ibanga
II.
INGARUKA NDETSE N’INYUNGU
Nta ngaruka zituruka kukuba wagize uruhare muri ubu bushakashatsi .Ikindi ni uko ibizava muri
ubu bushakashatsi byazafasha mu gutuma serivise kwa muganga zitangwa neza kurushaho
52. c
III. IGIHEMBO
Kugira uruhare muri ubu bushakastsi nta gihembo kizahabwa uwagize uruhare muri ubu
bushakashatsi ,kandi nta n‟ikiguzi kizasabwa uwo ariwe wese uzabugiramo uruhare.
IV.UBURENGANZIRA BWO KUGIRA URUHARE CYANGWA KWIKURA MURI
UBU BUSHAKASHATSI
Kugira uruhare muri ubu bushakashatsi ni ubushake ,uramenyeshwako ufite uburenganzira bwo
kugira uruhare muribwo ndetse no kuba wabwivanamo igihe cyose waba ubishatse ,kandi bikaba
nta ngaruka iyo ariyo yose byakugiraho .
V. IBANGA RY’AMAKURU
Amakuru yose uzatanga azaguma ari ibanga ,akazakoreshwa gusa ku bushakashatsi kandi nta
zina ry‟uwabgizemo uruhare rizigera rishyirwa ahagaragara
VI.KWEMERA KUGIRA URUHARE
Uwemeye kugira uruhare muri ubu bushakashatsi ,abigaragaza ashyira umukono kuri iyi
nyandiko ,Niyo mpamvu Njyewe (Ntazina ushyiraho) maze gusobanukirwa n‟ibijyanye n‟ubu
bushakashitsi ,nta gahato nemeye kugira uruhare rwange ntanga amakuru akenewe .
Umukono …………………………………………..
53. d
APPENDIX II: QUESTIONNAIRE FOR THE PATIENTS/ IBIBAZO
BY’UBUSHAKASHATSI KUBARWAYI
SECTION I: Social-demographics characteristics
IGIKA 1: Amakuru ajyanye nimyirondoro
1. Date: /Itariki: …../ ……./ ……..
2. Sex/ Igitsina : Male /Gabo Female/ Gore
3. Age/ Imyaka yusubiza
4. Current place of residence / Aho utuye
District / Akarere : …………………..
Sector/ Umurenge …………………….
Cell / Akagali… ………………………
Village/ Umudugudu …………………
5. Entry time / isaha wahagereye
6. Consultation time / isaha waboneye muganga
7. Exit/ igihe wahaviriye
SECTION II : Questions
IGIKA CYA 2: Ibibazo / Turabasaba gusubiza ibibazo byose . Murakoze
1. What is the purpose of this visit? / Niyihe mpamvu mwaje kwivuza ? (Hitamo igisubizo
kimwe)
Review/ Nagarutse kongera kwivuza
ReferredNoherejwe niringi vuriro kwivuriza hano
Walk-in/ Naje kwisuzumisha bwa mbere
2. Were you given rapid healthcare services as you thought? /Ese servisi mwahawe yihuse nkuko
mwabitekerezaga?
Yes/ Yego No/ Oya
3.If „No‟, what do you think is the main reason? / Niba igisubizo cyo hejuru ari “Oya” niyihe
mpamvu ubona yaba yatumye serisi wahawe itihuta?
Delay in treatment process / Inzira bicamo ngo wivuze iratinda
54. e
Few healthcare providers / abaganga nibake
Staff failed to respond in time / Abaganga ntibatanga ubufasha ku gihe
There was a long queue / Hari umurongo munini wabarwayi bategereje
Poor communication /ihanahana makuru ritagendaneza
Others. Specify / niba hari ikindi kivuge
………………………………, ………………………,………………..
2. How long did it take you to get services you wanted? (select one) / Hashize igihe kingana
iki kugirango uhabwe servisi wifuzaga? (hitamo igisubizo kimwe)
During one hour / isaha imwe
Between two and three hours / hagati yisaha imwe n‟abiri
Above three hours / hejuru y‟amasaha atatu
3. How satisfied are you with the way services were delivered to you? (select
one)/Nikurugero rungana iki wanyuzwe na servisi wahawe ?( hitamo igisubizo kimwe)
Very satisfied / Nanyuzwe cyane
Quite satisfied / Nanyuzwe murugero
Satisfied / Nanyuzwe
Not satisfied / ntabwo nanyuzwe
Very dissatisfied / sinishimiye uburyo nahawe servisi
6. What would you recommend vis-à-vis services you were given? / Niyihe nama watanga
ukurikije uburyo wahawe servisi?
……………………………………………………………………………………
……………………………………………………………………………………..
……………………………………………………………………………………..
Murakoze.
55. f
APPENDIX III: QUESTIONNAIRE FOR MEDICAL STAFF/ IBIBAZO
BY’UBUSHAKASHATSI KUBAGANGA
SECTION I: Social-demographics characteristics
IGIKA 1: Amakuru ajyanye nimyirondoro
1. Date / Itariki: …../ ……./ ……..
2. Sex / / Igitsina : Male /Gabo Female/ Gore
3. Qualification /Amashuli wize:
4. Occupation / akazi ukora:
5. Experience / Imyaka umuze mukazi :
SECTION II: Questions
IGIKA 2: Ibibazo
We would like ask you to answer all questions. Thank you / Turabasaba gusubiza ibibazo
byose . Murakoze
1. Based on your experience, do you receive a big number of patients compared to existing
medical staff? / Ugendeye kuburambe ufite mukazi , ubona mwakira umubare munini wabarwayi
ugereranije nabaganga bahari?
Yes / Yego No / Oya
3. Do you use Electronic Medical Record System when managing patients‟ data? / Mukoresha
ikoranabuhanga mukubika no guhererekanya amakuru yabarwayi?
Yes /Yego No / Oya
4. Does your daily work situation facilitate you to provide rapid services to patients?
/ubona uburyo ukoreramo bukorohereza gufasha abarwayi nkuko bikwiriye?
Yes /Yego No / Oya
56. g
5. If „No‟, what is the main root cause of this problem? (select one) /Niba igisubizo cyo
hejuru ari “Oya” niyihe mpamvu ubona yaba ibitera?
Existing electronic medical record system is not effectively shared in all services
/Ikoranabuhanga ntabwo rigera muri servisi zose
Few healthcare providers / Abaganga nibake
Staff fails to respond in time / Abaganga ntibatanga ubufasha ku gihe
There is a big number of patients / Umubare munini wabarwayi baza kwivuza
Poor communication / Ihanahana makuru ritagendaneza
Others. Specify / Niba hari ikindi kivuge
…………………………………………………………………………..
6. What can be done to provide as soon as possible healthcare services to the patients joining
your department? / Muri servisi ukoramo ubona hakorwa iki kugirango servisi zihabwa abarwayi
zihute?
………………………………………………………………………………………………………
………………………………………………………………………………………………………
7. Is there anything further that you feel is important?" / Hari ikindi kintu kingenzi twibagiwe
wavuga?
………………………………………………………………………………………………………
………………………………………………………………………………………………………
……………………………………………………………………………………………………..
Murakoze.
57. h
APPENDIX IV: QUESTIONNAIRE FOR IT SYSTEM ADMINISTRATORS / IBIBAZO
BY’UBUSHAKASHATSI KU BAKOZI BASHINZWE IKORANABUHANGA
SECTION I: Social-demographics characteristics
IGIKA 1: Amakuru ajyanye nimyirondoro
1. Date / Itariki: …../ ……./ ……..
2. Sex / Igitsina : Male /Gabo Female/ Gore
3. Qualification /Amashuli wize:
4. Occupation / akazi ukora:
5. Experience / Imyaka umuze mukazi :
SECTION II: Questions
IGIKA 2: Ibibazo
We would like ask you to answer all questions. Thank you / Turabasaba gusubiza ibibazo
byose . Murakoze
1. Is existing Electronic Medical Record System shared in all hospital services? /Ese
ikoranabuhanga mukoresha muguhanahana amakuru yabarwayi rigera muri servisi zose zibitaro?
Yes / Yego No /Oya
2. How could you rate the use of existing Electronic Medical Record System by medical doctors?
/ Ugereranije abaganga bitabira gukoresha iryo koranabuhanga kurugero rungana iki?
Less than 25 % / Munsi ya 25 kwijana
25- 50 % / Hagati ya 25 na 50 kwijana
50- 75 % / Hagati ya 50 na 75 kwijana
Above 75% / Hejuru ya 75 kwijana
58. i
3. Have you ever discovered any challenges within this existing Electronic Medical Record
System? / Hari ibbibazo cyangwa imbogamizi mwabonye iri koranabuhanga mukoresha rifite?
Yes / Yego No / Oya
4. If „Yes‟ / Niba igisubizo cyo hejuru ari”Yego”
(a) What are they? / Vuga ibyo bibazo cyangwa imbogamizi
………………………………………………………………………………………………………
………………………………………………………………………………………………………
………………………………………………………………………………………………………
(b)What should be done to overcome these challenge / Ubona hakorwa iki kugirango
ibyobibazo biri mwikoranabuhanga bikemuke?
………………………………………………………………………………………………………
………………………………………………………………………………………………………
………………………………………………………………………………………………………
5. Do you have any further comments on patients‟ information flow? / Hari ikindi wavuga
kubijyanye nuburyo amakuru y‟abarwayi ahererkanwa muri servisi zibitaro?
………………………………………………………………………………………………………
………………………………………………………………………………………………………
………………………………………………………………………………………………………
Murakoze.