HMIS is an integrated Hospital management system, which addresses All requirements of hospitals. It is a powerful, flexible and easy to use application designed and developed to convey real conceivable benefits to hospitals and clinics which reduce the paper overload.
A presentation in March 2012 presented at the Ramathibodi Hospital Administration School, Faculty of Medicine Ramathibodi Hospital, Mahidol University in Bangkok, Thailand. Presentation partly in English and partly in Thai.
Ramathibodi Hospital has developed its IT systems over four generations spanning several decades. It has transitioned from a primarily in-house developed system using Visual FoxPro to a hybrid system incorporating commercial and in-house solutions. This development involved balancing customization needs with standardization, and determining when to build solutions internally versus outsourcing. While IT has provided benefits, Ramathibodi still faces challenges to improve its systems. Ongoing attention to people, processes, and technology is needed to maximize the value of healthcare IT.
HMIS is an integrated Hospital management system, which addresses All requirements of hospitals. It is a powerful, flexible and easy to use application designed and developed to convey real conceivable benefits to hospitals and clinics which reduce the paper overload.
A presentation in March 2012 presented at the Ramathibodi Hospital Administration School, Faculty of Medicine Ramathibodi Hospital, Mahidol University in Bangkok, Thailand. Presentation partly in English and partly in Thai.
Ramathibodi Hospital has developed its IT systems over four generations spanning several decades. It has transitioned from a primarily in-house developed system using Visual FoxPro to a hybrid system incorporating commercial and in-house solutions. This development involved balancing customization needs with standardization, and determining when to build solutions internally versus outsourcing. While IT has provided benefits, Ramathibodi still faces challenges to improve its systems. Ongoing attention to people, processes, and technology is needed to maximize the value of healthcare IT.
An invited presentation on how to start planning a hospital information system implementation at a cancer center in Thailand in 2005. Presentation in Thai.
This document discusses the role of nursing informatics in hospital information systems. It defines nursing informatics as combining computer science, information science, and nursing science to manage and communicate nursing data, information, and knowledge. The impact of nursing informatics on hospital information systems is that it facilitates integrating data, information, and knowledge to support patients, nurses, and other providers in clinical decision making. Progress in information technology has greatly increased the volume of data available to support high quality healthcare delivery. Nursing informatics plays an important role in developing systematic and well-managed health information systems.
Presented at the BDMS Golden Jubilee Scientific Conference 2022 "BDMS Beyond 50 years: Looking towards the centennial," Bangkok Dusit Medical Services Public Company Limited (BDMS), Bangkok, Thailand on October 19, 2022
Telemedicine provides healthcare at a distance using telecommunications technology. It has grown from focusing on increasing access to now emphasizing convenience and cost reduction. Store-and-forward and home-based telemedicine have evidence for treating chronic diseases, while office/hospital telemedicine is effective for verbal interactions in specialties like neurology and psychiatry. Current trends include expanding telemedicine to more chronic conditions and migrating services from clinical settings to homes and mobile devices. However, reimbursement remains limited and fragmented while quality of remote care compared to in-person visits requires more evidence. Proper guidelines, standards, training and balancing innovation with risk-based regulation can maximize telemedicine's benefits while minimizing harms.
This document discusses digital health transformation and the role of health information technology. It begins by exploring concepts like artificial intelligence, blockchain, cloud computing and big data. It then examines the potential for "smart" machines in healthcare while acknowledging the complexities of digitizing such a system. The document emphasizes that clinical judgment is still necessary given variations in patients. It outlines components of healthcare systems and forms of health IT both within and beyond hospitals. Finally, it discusses using health IT to support clinical decision making and reduce errors.
An invited presentation on how to start planning a hospital information system implementation at a cancer center in Thailand in 2005. Presentation in Thai.
This document discusses the role of nursing informatics in hospital information systems. It defines nursing informatics as combining computer science, information science, and nursing science to manage and communicate nursing data, information, and knowledge. The impact of nursing informatics on hospital information systems is that it facilitates integrating data, information, and knowledge to support patients, nurses, and other providers in clinical decision making. Progress in information technology has greatly increased the volume of data available to support high quality healthcare delivery. Nursing informatics plays an important role in developing systematic and well-managed health information systems.
Presented at the BDMS Golden Jubilee Scientific Conference 2022 "BDMS Beyond 50 years: Looking towards the centennial," Bangkok Dusit Medical Services Public Company Limited (BDMS), Bangkok, Thailand on October 19, 2022
Telemedicine provides healthcare at a distance using telecommunications technology. It has grown from focusing on increasing access to now emphasizing convenience and cost reduction. Store-and-forward and home-based telemedicine have evidence for treating chronic diseases, while office/hospital telemedicine is effective for verbal interactions in specialties like neurology and psychiatry. Current trends include expanding telemedicine to more chronic conditions and migrating services from clinical settings to homes and mobile devices. However, reimbursement remains limited and fragmented while quality of remote care compared to in-person visits requires more evidence. Proper guidelines, standards, training and balancing innovation with risk-based regulation can maximize telemedicine's benefits while minimizing harms.
This document discusses digital health transformation and the role of health information technology. It begins by exploring concepts like artificial intelligence, blockchain, cloud computing and big data. It then examines the potential for "smart" machines in healthcare while acknowledging the complexities of digitizing such a system. The document emphasizes that clinical judgment is still necessary given variations in patients. It outlines components of healthcare systems and forms of health IT both within and beyond hospitals. Finally, it discusses using health IT to support clinical decision making and reduce errors.
Presented at The Thai Medical Informatics Association Annual Conference and The National Conference on Medical Informatics (TMI-NCMedInfo) 2021, Bangkok, Thailand on November 26, 2021
The document discusses the field of health informatics and provides definitions and examples. It defines health informatics as the application of information science to healthcare and biomedical research. It describes the relationships between health informatics and other fields like computer science, engineering, and the medical sciences. The document also discusses different areas of health informatics like clinical informatics, public health informatics, and consumer health informatics. It provides examples of common health information technologies used in healthcare settings like electronic health records, computerized physician order entry, and picture archiving systems.
This document provides an introduction to research ethics and ethics for health informaticians. It begins with definitions of ethics, morals, and norms. It then discusses the role of law, professional codes of conduct, and ethics in establishing standards of acceptable behavior. Key topics in research ethics are introduced through discussions of historic cases like the Nazi human experiments, Beecher's research ethics violations, and the Tuskegee Syphilis Study. The document outlines the Belmont Report's three ethical principles of respect for persons, beneficence, and justice. Ethical issues in health informatics like alerts fatigue from clinical decision support systems and unintended consequences of health IT are also discussed.
Consumer Health Informatics, Mobile Health, and Social Media for Health: Part...Nawanan Theera-Ampornpunt
Presented at the Master of Science and Doctor of Philosophy Programs in Data Science for Healthcare and Clinical Informatics, Department of Clinical Epidemiology and Biostatistics, Faculty of Medicine Ramathibodi Hospital, Mahidol University, Bangkok, Thailand on November 10, 2021
Consumer Health Informatics, Mobile Health, and Social Media for Health: Part...
IT Management in Healthcare Organizations - Part 1
1. IT Management
in Healthcare Organizations (1)
นพ.นวนรรน ธีระอัมพรพันธุ์
หลักสูตร Healthcare CIO
โรงเรียนการบริหารงานโรงพยาบาล คณะแพทยศาสตร์ รพ.รามาธิบดี
10 สิงหาคม 2555
Except where
citing other works
3. Context
The current location
The tailwind The headwind
The past journey The direction
The destination
The speed
The sailor(s) & The sail
people on board The boat
The sea
The sailboat image source: Uwe Kils via http://en.wikipedia.org/wiki/Sailing 3
4. Class Exercise: Part 1
Knowing Your Context
Group discussion: ใน รพ.ของท่าน ปัจจัยที่น่าจะมีผล
ต่อการนํา IT มาใช้ และการบริหารจัดการ IT มีอะไรบ้าง
และมีความสําคัญอย่างไร?
ทุกโรงพยาบาลในตัวอย่างเป็นโรงพยาบาลสมมติ รายละเอียดต่างๆ ไม่ได้อ้างอิงข้อเท็จจริง
8. Context
The current location
The tailwind The headwind
The past journey The direction
The destination
The speed
The sailor(s) & The sail
people on board The boat
The sea
The sailboat image source: Uwe Kils via Wikimedia Commons 8
9. Destination & Direction
• Vision
• Mission
• Strategic goals & business strategies
ประเด็นพิจารณา
• Relevance
• Clarity
• Achievable?
• Challenging?
• The right direction?
9
10. Class Exercise: Part 2
Knowing Your Destination
Group discussion: วิจารณ์ vision ของ รพ. ในโจทย์
และบทบาทของ IT ในการไปสู่ vision นั้น
11. Hospital A
โรงพยาบาลศูนย์ 600 เตียง
Vision
เป็นโรงพยาบาลที่มุ่งคุณภาพสูงสุด
ในการรักษาพยาบาลระดับตติยภูมิ
11
15. 4 Quadrants of Hospital IT
Strategic
Administrative Clinical
Operational 15
16. IT As A Strategic Advantage
Sustainable
Yes
competitive
advantage
Yes Inimitable ?
Yes Rare ?
No
Preemptive
Yes Non-Substitutable? No advantage
Competitive
Valuable ? parity
No
Competitive
No necessity
Competitive
Resources/ Disadvantage
capabilities
From a teaching slide by Nelson F. Granados, 2006 at University of Minnesota Carlson School of Management 16
17. Class Exercise: Part 3
Knowing Your IT Environment
Group discussion: วิจารณ์ว่า IT environment ของ
รพ. ต่อไปนี้ อยู่ใน Quadrant ใด และอยู่จุดใดใน
Competitive advantage model
26. Context
The current location
The tailwind The headwind
The past journey The direction
The destination
The speed
The sailor(s) & The sail
people on board The boat
The sea
The sailboat image source: Uwe Kils via Wikimedia Commons 26
27. “The Boat”
• Size
• Resources
• Structures
• Work Processes
• Facilities/Geography
• Etc.
27
28. “The Sea”
• Target customers
• Local competitiveness
• Relationship of hospital to local players
• Inter-organizational collaboration
• IT market environment
• National/international trend
• Regulations
• Standard of care
• Etc.
28
29. SWOT Analysis
“The Boat” “The Sea”
“The Tailwind” Strengths Opportunities “The Tailwind”
“The Headwind” Weaknesses Threats “The Headwind”
29
30. Class Exercise: Part 5
SWOT Analysis
Group discussion: วิเคราะห์ SWOT ที่เกี่ยวข้องกับการ
บริหารจัดการ IT ขององค์กร