The document summarizes a study that tested the use of disinfectant caps on intravenous (IV) lines to reduce the rate of hospital-associated bloodstream infections (BSIs). The study found that using disinfectant caps on IV ports decreased the mean rate of central line-associated BSIs from 1.5 infections per month before the intervention to 0.88 infections after. However, the study had limitations such as lack of statistical significance testing for the pre-post infection rates and not accounting for other infection prevention practices. Therefore, more research is needed to fully understand the impact of disinfectant caps on reducing BSIs.
1. 1
Quantitative Synopsis and Appraisal
Studentfirstname Studentlastname, Studentfirstname
Studentlastname, Studentfirstname
Studentlastname, Studentfirstname Studentlastname
College of Nursing, Resurrection University
NUR4440: Research in Nursing
2. Professor Carina Piccinini
February 14, 2020
2
Quantitative Appraisal and Synopsis
The purpose of this paper is to summarize and appraise a
research study testing the use of
disinfectant caps on intravenous (IV lines) to reduce the rate of
hospital associated bloodstream
infections (BSI). The Centers for Disease Control and
Prevention (CDC, 2019) reports that
central line associated bloodstream infections (CLABSI) remain
a major concern in hospital
settings causing fatalities, increased length of stay, and
increased costs. The CDC (2019)
recommends proper maintenance of intravenous lines to reduce
the risk of infection. Current
research is still looking to define what proper maintenance
should be, including whether
disinfectant caps influence rates of infection for intravenous
(IV) lines.
3. Summary of the Study
The CDC recommends that healthcare workers disinfect all
needleless connectors for
peripheral and central IVs prior to connection to reduce the risk
of CLABSIs without further
recommendation on the type or length of disinfections. The
authors of this study note other
studies have tested disinfecting caps and sought to confirm
those results.
Merrill et al. (2014) conducted a quasi-experimental study to
identify if disinfectant caps
reduce CLABSI incidence and the relationship between nursing
compliance with the caps and
CLABSI rates. This study was held in a single Trauma 1
hospital with 430 beds in the United
States.
The researchers obtained their sample through nonrandom
convenience sampling by
including all patients meeting inclusion criteria at the hospital
starting January 2012. Participants
were included if they had a central or peripheral intravenous
line, of any age, and were admitted
to 13 specific hospital floors. Subjects were excluded if they
were on the following floors:
4. emergency department; labor, delivery or post-partum;
ambulatory care, surgical services; and
3
well-baby nursery. The study did not report any demographic
information about participants, the
number of participants, or attrition or loss to follow up.
The intervention involved applying a Curos brand disinfectant
cap to all ports on
peripheral lines, central lines, and IV tubing when not in use on
patients. The nurses on the
involved units were trained on the use of the disinfectant caps
with a 1:1 follow up by the
researchers. Nurses were then responsible for placing caps. The
researchers intermittently
observing nurses for compliance to the intervention and
reporting compliance to nursing
departments twice a week.
CLABSIs were defined as a positive blood culture drawn within
48 hours symptom onset,
and CLABSI information was retrieved from medical record
audits presumably, although the
5. authors never explicitly state how they collected the data.
CLABSI information was collected for
12 months prior to the intervention and during the 12 months
following the intervention for
comparison.
Appraisal
The sampling method for this study included all patients with
peripheral or central lines,
with data collection for CLABSIs both pre- and post-
intervention. Given that a control versus
experimental group design and sampling may have made it
difficult to control for extraneous
variables due to variations in patient conditions and the number
of connector access attempts, the
sampling method was appropriate. Inclusion and exclusion
criteria were included in the report.
The exclusion criteria eliminated areas with rapid turnover in
patients who would not have IV
lines placed at all or for very long. This adequately ensured that
the CLABSI rate would not be
skewed positively by short-term IV access. If these care areas
had been included, the dwell time
of the line, not the presence or absence of the Curos caps would
6. logically be the primary cause of
4
a low CLABSI rate.
Intervention fidelity was met through training the nurses and
1:1 follow-up. However, the
mere fact that compliance rate was audited indicates that
intervention fidelity, i.e. compliance
with the intervention, was questionable. In addition, the authors
did not include the actual
compliance rate of the intervention in the article, which affects
the credibility of the overall
findings.
Although the measurement of CLABSIs using medical records
has inherent bias, it was
the only feasible way to obtain the data. Missing data in the
medical record was not reported by
the researchers, which affects the validity of the data. The
researchers did not explain fully how
they observed if the disinfectant caps were on all patients or
how compliance was counted,
leading to a reliability issue. In fact, the authors state that
7. nurses complained that ports high on
IV tubing were being counted against them as noncompliance
when there is no research
indicating whether caps should be placed on those ports.
Therefore, measurement bias for cap
application and compliance could be quite high for this study.
According to the results, the mean rate of CLABSIs was 1.5 for
12 months before
implementation and 0.88 for 12 months after implementation,
and the authors concluded that the
use of disinfectant caps decreased the rate of CLABSIs. Of
note, the difference in mean rates
before and after the intervention was not tested for statistical
significance. Using a different
statistical method, the authors found that the incident rate ratio
after implementation was
statistically significant, causing a 40% drop in BSIs. The
authors acknowledged that ongoing
education about reducing BSIs and using central line bundles
was given to nurses independent of
the study protocol. This extraneous variable was not measured
nor included in the results or
conclusions of the study, leading to a large chance of bias in
attributing the CLABSI decrease to
8. 5
the disinfectant cap intervention alone.
Conclusion
This study indicates that disinfectant caps could reduce rates of
bloodstream infections.
However, given the fact that certain aspects of the study as
explained in the appraisal may have
influenced results in favor of disinfectant caps, more research
with fewer extraneous variables
interfering with results needs to be conducted.
Although the difference in CLABSIs before and after the
intervention was not tested for
significance, there is evidence of a reduction in BSIs in this
study, and the CDC (2019) does
recommend disinfection to BSIs in hospitals. Therefore, the
implications of this and other
research exploring the same issue is that nurses should be
compliant with existing facility
protocols for intravenous line maintenance, regardless of the
method used. Nurses should also
9. advocate for all patients by providing reminders and education
to peers that do not adhere to
protocols or best practices, as they are now defined. Nurses
could also advocate and participate
in hospital-based studies to test nursing interventions intended
to decrease BSIs.
6
References
Centers for Disease Control and Prevention. (2019).
Bloodstream infection event [PDF file].
Retrieved from
https://www.cdc.gov/nhsn/pdfs/pscmanual/4psc_clabscurrent.pd
f
Merrill, K. C., Sumner, S., Linford, L., Taylor, C., &
Macintosh, C. (2014). Impact of
universal disinfectant cap implementation on central line–
associated bloodstream
infections. American Journal of Infection Control, 42(12),
1274–1277.
https://doi.org/10.1016/j.ajic.2014.09.00
10. International Journal of Caring Sciences
January-April 2021 Volume 14 | Issue 1| Page 392
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Original Article
Effect of Nursing Intervention on Knowledge and Practice of
Salt and Diet
Modification among Hypertensive Patients in a General
Hospital
South-West Nigeria
Ajiboye, Rachael Oluwafunmilayo
Senior Nurse Tutor, School of Nursing, Lagos State College of
Nursing, Midwifery and Public Health,
Igando, Lagos, Nigeria
Okafor, Ngozi Antonia
Senior Lecturer, Department of Nursing, Babcock University,
Ilishan-Remo, Ogun State, Nigeria
Olajide, Tayo Emmanuel
Lecturer II, Department of Nursing, Babcock University,
Ilishan-Remo, Ogun State, Nigeria
Emmanuel Olayemi Tosin
Principal Nurse Tutor, School of Nursing, Lagos State College
of Nursing, Midwifery and Public Health,
11. Igando, Lagos, Nigeria. [email protected]
Correspondence: Ajiboye, Rachael Oluwafunmilayo School of
Nursing, Lagos State College of Nursing,
Midwifery and Public Health, Igando, Lagos, Nigeria. E-
mail:[email protected]
Abstract
Background: Hypertension is the most common non-
communicable disease and the leading cause of
cardiovascular disease in the world. Current management of
hypertension stressed the importance of salt and
diet modifications. Unfortunately, many hypertensive patients
do not have proper knowledge of this, which
results to inadequate practice. Therefore, there is need to
develop strategies that will help to improve knowledge
and practice of salt and diet modifications among hypertensive.
Objective: To determine the effect of nursing intervention on
knowledge and practice of salt and diet
modifications among hypertensive patients.
Materials and Methods: A quasi experimental design was
conducted using purposive sampling to select the
sample size of 38 participants. A researcher-developed
questionnaire derived from the literature review and
Hypertension Self-Care Activity Level Effects (H-SCALE)
adapted from Warren-Find low and Seymour (2011)
was used to measure knowledge and practice of salt and diet
modification among the participants. Data gathered
from participants were expressed using tables and percentages
while research questions were answered with
descriptive statistics of mean and standard deviation through
statistical package for the social science software
version 21.
Results: the study revealed that higher percentage of the
participants (81.6%) had poor of knowledge of salt and
diet modification pre-intervention, also 92.1% of the
12. participants reported poor practice before intervention.
Intervention was given to the participants and results showed a
positive change in knowledge and practice of salt
and diet practice post-intervention.
Conclusion: regular training should be given to hypertensive
patients by nurses to improve their knowledge and
practice of salt and diet modification for effective blood
pressure control.
Keywords: Hypertension, Knowledge, Practice, Salt and Diet
modification, Nigeria
Introduction
The burden of hypertension and other non-
communicable diseases is rapidly increasing and
this poses a serious threat to the economic
development of many nations. Hypertension is a
global public health challenge due to its high
prevalence and the associated risk of stroke and
cardiovascular diseases in adults.
Globally, hypertension is implicated to be
responsible for 7.1 million deaths and about
12.8% of the total annual deaths (World Health
Organization (WHO), 2018). Africa, among
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other WHO regions was rated highest with
increased prevalence of high blood pressure,
estimated at 46% from age 25 years and above in
which Nigeria contributes significantly to this
increase (Okwuonu, Emmanuel, & Ojimadu
2014; Ekwunife, Udeogaranya, & Nwatu, 2018;
WHO, 2018). This is so in spite of the
availability to safe and potent drugs for
hypertension and existence of clear treatment
guidelines, hypertension is still grossly not
controlled in a large proportion of patients
worldwide.
Current national recommendations for the
prevention and treatment of high blood pressure
emphasized non-pharmacological therapy, also
termed "lifestyle modification" which includes
salt and diet modification. However, there is a
dearth of information on the knowledge and
practice of salt and diet modification among
hypertensive patients attending Nigeria’s health
institutions (Abubakar et. al, 2017). Hence, poor
knowledge of salt and diet modifications, and
inability to practice these were one of the
identified patient- related barriers to hypertension
control (Tesema et.al, 2016). This gap may also
be attributed to the type of information or
training programmes given to patients on salt and
diet modification.
Therefore, this study might help to improve the
knowledge of hypertensive patients on salt and
diet modification which in turn may affect its
14. practice thus reducing the death burden,
complications and economic cost of poorly
controlled hypertension among patients and in
the society.
Objective
The aim of the study was to determine the effect
of nursing intervention on knowledge and
practice of lifestyle modification among
hypertensive patients. The following research
questions were expected to be answered:
1. What is the pre-intervention knowledge
and practice of salt and diet modification among
hypertensive patients?
2. What is the post-intervention knowledge
and practice of salt and diet modification among
hypertensive patients?
Methods
It is a quasi-experimental study, which adopted
one pre-test-post-test design, conducted between
February and September 2019, at a secondary
health facility (General Hospital), South-west,
Nigeria. The study was carried out among
hypertensive patients attending medical out-
patients department (MOPD) in the general
hospital. The hospital was purposively selected
being the only secondary health facility located
in one of the densely populated communities in a
major commercial city of South-west, Nigeria.
Sample size and sampling procedure: Sample
15. size was calculated using Taro Yamane method
of sample size determination, n = calculated
sample size, Population size (N) = 42 based on
daily clinic attendance of hypertensive patients,
and margin of error = 0.05 with a confidence
level of 95% given a sample size of 38
participants. Inclusion criteria were male and
female patients who were ≥18 years of age,
diagnosed to be hypertensive and attending
medical out-patients department (MOPD),
available and willing to participate in the study,
who could communicate either in English or
Pidgin English. Exclusion criteria were other
patients at MOPD who were not diagnosed to be
hypertensive, or with any co-morbidity that could
interfere with participation in the training, and
have attended previous educational programme
on salt and diet modification. Participants were
selected based on the inclusion criteria using
purposive sampling.
Data collection tools and procedures: Data
were gathered using researcher-developed
questionnaire derived from the literature review
with the opinions of experts in the field to assess
participants’ knowledge of salt and diet practice
and modified Hypertension Self-Care Activity
Level Effects (H-SCALE) developed by Warren-
Findlow and Seymour (2011) to assess practice
of salt and diet modification among the
participants.The questionnaire consists of three
parts. The first part includes the demographic
characteristics of the participants with eight (8)
items; the second part assessed the participants’
knowledge of salt and diet modification. The
knowledge of salt and diet modification
16. questions includes twelve (12) items with
maximum and minimum scores of 12 and 0
respectively. Participants’ knowledge scores of
9-12 points indicate high knowledge, 6-8 points
indicate moderate knowledge and scores <6
points indicate poor knowledge. The third part
assessed the practice of salt and diet modification
among the participants with seven items which
were used to assess practices related to eating a
healthy diet, avoiding salt while cooking and
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eating, and avoiding foods high in salt content.
Responses were coded ranged from never (1) to
always (3). Responses were summed up creating
a range of scores from three (3) to twenty one
(21). Scores of eleven (11) and above indicates
that participants followed the low-salt diet and
was considered as having good low salt diet
practice while score <11 indicate poor salt diet
practice. The psychometric properties of the
instrument was checked by experts in the field
using face and content validity criteria, the
reliability of the instrument was determined
using split-half method and the Cronbach’s alpha
reliability coefficient on knowledge of salt and
diet modification was 0.78, while salt and diet
practice was 0.72 which showed high reliability
17. of the instrument. The method of data collection
involved three phases:
Phase 1: this involved meeting with the
consultant and nurses in charge of MOPD of the
General Hospital to explain the purpose of the
study and its benefits, and to seek their co-
operation for the success of the study. This took
place during the first week of the study. In the
second week of the study, the researcher with
two research assistants visited the MOPD to
listen to health talk given to the patients by the
nurses and other health personnel, gaps were
identified which was used to modify the training
modules. The participants were met to discuss
the purpose, course and potential benefits of the
study. Interested participants were enrolled for
the study after obtaining their consent. Further
selection of the participants continued in the third
and fourth week. A pre-test instrument
(questionnaire) was given to the selected
participants to complete during the selection. No
external interference was allowed during data
collection, researcher and research assistants
stayed with the participants throughout the
period of completing the questionnaire after
which they were thoroughly checked for
completeness before retrieval from the
participants.The results from this phase were also
used to modify the training module for better
intervention. Reminder for the training
programme was given through phone calls, text
messages and visits on the clinic- days prior to
the training.
Phase 2: A developed intervention package was
18. implemented based on feedback obtained from
pre-intervention knowledge and practice score
with learning modules which was used for the
educational training of hypertensive patients on
salt and diet modification. The intervention
package had two modules of learning which was
delivered for two hours weekly for two weeks.
Different instructional methods were utilized to
deliver the programme including lectures, group
discussion, questions and answers, chats/pictures
and educational hand out. Follow-up through
phone calls and text messages was done every
week after intervention to ensure adequate
practice before the post-intervention test.
Phase 3: A post-test was given one month post-
intervention with the same instruments used
during the pre-test. Data collected were coded
and processed using statistical package for social
science (SPSS), version 21. Frequency table was
constructed and data were expressed on it. The
research questions were answered using
descriptive statistics of mean and standard
deviation.
Ethical Consideration: The ethics committee of
the researcher’s institution approved the study
with approval reference BUHREC102/19 dated
27th February, 2019 and written permission of the
State Health Service Commission was also
obtained to conduct the study. Participants were
informed about the purpose of the study and their
consents both verbal and written were taken
before the study commences. Participation was
voluntary and participants have the right to
19. withdraw at any stage of the study.
Results
The socio-demographic data reveals that greater
number of the participants was females (68.4%)
possibly, because females tend to pay more
attention to their health and engaged more in
physical and emotion stress than their male
counterparts. Majority, (44.7%) participants were
between the ages of 46 to 60 years, also many of
the participants (28.9%) have primary education
and 42.1% were self-employed. This could also
be related to the fact that the study was carried
out in one of the largest commercial city in
South-west Nigeria and research facility was
located in one of the densely populated
communities in the state which often require
constant subsidized health care services (Table 2)
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Table 1: Intervention programme module about salt and diet
modification
Goals Learning content
At the end of the module, the
20. participants will:
Have a background knowledge of
hypertension
Know and identify the risk factors of
hypertension
Understand the contribution of salt and
diet modification to blood pressure
control.
Describe salt intake reduction and the
recommended quantity of salt intake
for blood pressure control.
Week One
Background knowledge of hypertension
Hypertension is the leading cause of heart and blood vessels
diseases
worldwide.
About 7.1 million deaths worldwide (~12.8% of total deaths)
are
estimated to be caused to hypertension.
Africa has the highest numbers of people with hypertension.
In Nigeria, hypertension is graded as number one of all terrible
diseases
among the people.
It affects both men and women, rich and poor people in rural
and urban
21. communities.
Hypertension is also called high blood pressure. Blood pressure
is the
measurement of force against the walls of your arteries when
your heart
pumps blood through your body. It has two numbers; the top
number is
called systolic blood pressure while the bottom number is
diastolic
pressure.
Your blood pressure is normal when these numbers are lower
than
120/80mmHg most of the time. Whenever these numbers are
120/80mmHg or higher most of the time but below
140/90mmHg is
called pre-hypertension. Any time the number is 140/90mmHg
or higher
most of the time is hypertension.
The risk factors of hypertension
These are situations that can make one to have hypertension.
Those situations that you can control
Unhealthy (bad) diet
Too much of salt intake
Overweight or obese
Sedentary lifestyle (lack of physical activity)
Tobacco usage
Excessive alcohol usage
Stress
Lack of sleep
Those situations that you can control
22. Age
Race
Family History
The contribution of salt and diet modification to blood pressure
control.
Salt restriction: when you take not more than 2.4 g of sodium
per day it
reduces your blood pressure by 2-8 mmHg.
Adopt DASH eating plan: when you eat a diet rich in fruits,
vegetables,
and low fat dairy products with a reduced content of saturated
(solid
fats) and total fat it reduces your blood pressure by 8–14
mmHg.
Salt intake reduction and recommended quantity of salt intake
for blood
pressure control.
Ways to reduce your salt intake:
Salt intake should be reduced to less than 2,400 milligrams
(mg) a day (1
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teaspoon).
Aim for less than 1,500 mg a day (not more than ½ teaspoon),
if
possible.
Do not add extra salt at the table.
Remove or reduce the amount of salt used in cooking and
baking.
Reducing salt to less than 2,400mg (1 teaspoon) can reduce
your blood
pressure to 2-8 mm Hg.
At the end of the module, the
participants will:
Adopting Dietary Approaches to Stop
Hypertension eating plan (DASH diet)
that lowered blood pressure
Components of Dash eating plan
Examples of daily and weekly servings
that meet DASH eating plan targets for
a 2,000 to 2,100-calorie-a-day diet.
Examples of food items that make up
the DASH eating plan.
24. Week Two
Adopting Dietary Approaches to Stop Hypertension eating plan
(DASH
diet) that lowered blood pressure
Food is an essential measure in prevention and treatment of
hypertension.
DASH diet is a simple and complete eating plan that helps
produce a
heart-healthy eating style for life.
It requires no special foods but provides daily and weekly
nutritional
goals.
Studies have shown that the DASH diet can lower blood
pressure within
2 weeks.
Adopting DASH eating plan can produce blood pressure
lowering
effects of 8-14mmHg, comparable to drug monotherapy.
Components of Dash eating plan
The plan recommends
eating vegetables, fruits, and whole grains
fat-free or low-fat dairy products
limiting foods that are high in saturated fat,
Avoiding /limiting sugar-sweetened beverages and sweets
Examples of daily and weekly servings that meet DASH eating
plan
targets for a 2,000 to 2,100-calorie-a-day diet
Food Group Daily Servings
Grains 6–8
Meats, poultry, and fish 6 or less
25. Vegetables 4–5
Fruit 4–5
Low-fat or fat-free dairy products 2–3
Fats and oils 2–3
Sodium (salt) 2,300 mg*
Weekly Servings
Nuts, seeds, dry beans, and peas 4–5
Sweets 5 or less.
Examples of food items that make up the DASH eating plan.
1. Rich in potassium, calcium, magnesium (fruits and
vegetables).
Examples: Avocado, Bananas, Carrots, Beans, orange, Pears
(fresh),
Peanuts, Spinach, Tomatoes, Skimmed Milk, Pawpaw, Oysters,
Soy
milk, Tofu.
2. Low in saturated and trans- fat or low-fat dairy products :
Examples: fish, yogurt, mayonnaise, unsalted nuts and seeds
such as
almonds, peanuts, walnuts, vegetable oils: canola, olive, peanut,
sunflower, corn, soybean, cottonseed.
3. Good source of fibre and protein
Examples: Whole grains, Whole wheat bread, Brown rice, oats,
barley,
wheat , White beans, kidney beans, northern beans.
4. Avoid food high in saturated diet
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Example:
Meat: fatty/red meats, processed meats like hot dogs, organ
meat
Full-fat dairy products: whole milk, whole-milk products and
2% milk
Tropical oils: coconut oil, palm oil or palm kernel oil.
Fats: Margarines, cocoa butter, vegetables cooked in excessive
amounts
of sauce and butter, fried foods.
Snacks and Sugar: chocolate, ice cream, cakes, candy (sweet),
butter
rolls, egg breads, and commercial doughnuts.
Table 2: Socio-demographic data of the participants n=38
Variable Experimental (n=38)
Age (years) Freq. (%)
18-30 years 2 (5.3)
31-45 years 3 (7.9)
46-60 years 17 (44.7)
>60 years 16 (42.1)
Total 38 (100.0)
Gender
27. Male 12 (31.6)
Female 26 (68.4)
Total 38 (100.0)
Educational Level
No formal education 11 (28.9)
Primary education 11 (28.9)
Secondary education 5 (13.2)
Tertiary education 11 (28.9)
Total 38 (100.0)
Occupation
Employed 8 (21.1)
Retired 10 (26.3)
Self employed 16 (42.1)
House keeper 4 (10.5)
Total 38 (100.0)
Duration of Hypertension
1-5 years 16 (42.1)
6-10 years 21 (55.3)
28. >10 years 1 (2.6)
Total 38 (100.0)
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Table 3: Summary of responses on knowledge and practice of
salt and diet modification
pre-intervention
Knowledge Level n=38
Poor knowledge
(0-5 points)
Moderate knowledge
(6-8 points)
Good knowledge
(9-12 points)
Total
Pre-
intervention
29. 31 (81.6%) 7 (18.4%) 0 (0.00%) 38 (100%)
Practice Level n=38
Poor practice (0-10
points)
Good practice (11-21
points)
Total
Pre-
intervention
35 (92.1) 3 (7.9) 38 (100%)
Table 4: Comparing pre - and post-intervention knowledge and
practice of salt and diet
modification.
Knowledge and Practice Level n=38
Knowledge of salt
and diet
modification n=38
Poor knowledge
(0-5 points)
Moderate
knowledge (6-8
30. points)
Good
knowledge (9-12
points)
Total
Pre-intervention 31 (81.6%) 7 (18.4%) 0 (0.00%) 38 (100%)
Post-intervention 1 (2.6%) 0 (0.0%) 37 (97.4%) 38 (100.0%)
Practice of Salt and
Diet Modification
Poor practice (0-10
points)
Good practice (11-
21 points)
Total
Pre-intervention 35 (92.1) 3 (7.9) 38 (100%)
Post-intervention 4 (10.5) 34 (89.5) 38 (100%)
Table 3 summarily shows participants responses
on knowledge and practice of salt and diet
modification pre-intervention. 81.6% of the
participants had poor knowledge of salt and diet
modification, 18.4% had moderate knowledge
level and none of the participants had high
31. knowledge level (0.00%) of salt and diet
modification. Participants also demonstrated
poor practice of salt and diet modification as
92.1% of the participants reported poor practice,
while only 7.9% of the participants reported
good practice of salt and diet modification before
intervention. However, Table 4 reveals a positive
change in the participants’ level of knowledge
and practice of salt and diet modification after
intervention. Only 2.6% of the participants
demonstrated poor level of knowledge of salt and
diet modification post intervention as against
81.6% before intervention. While 97.4%
demonstrated high knowledge level post-
intervention training as opposed to none (0.00%)
before intervention. When comparing pre and
post intervention practice of salt and diet
modification, the practice of diet and salt
restriction was good (≥11) from 7.9% pre-
intervention to 89.5% post intervention. While
poor practice level (≤10) was reduced to 10.5%
from 92.1% after intervention.
Discussion
The study revealed that the pre-intervention
knowledge of participants about salt and diet
modification was poor (81.6%). This finding
corroborates the findings of a study done in India
in 2011 and South Ethiopia (2017) that majority
of the respondents have poor knowledge of salt
and diet modification (Subramanian et. al 2011;
Buda et.al, 2017). The finding is also in
agreement with Okwuonu, Emmanuel, and
Ojimadu (2014) that most hypertensive patients
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are not fully aware of the impact of unsaturated
oil, reduction in diary food, whole grains,
consumption of fruits and vegetables in the
control of blood pressure and salt reduction The
study also showed poor practice of salt and diet
modification (92.1%) among the participants
before intervention. This finding was a bit higher
compare with a similar study done in China that
about 70% of the participants had poor adherence
to modification practices (Lu, et. al, 2017). This
may be attributed to poor knowledge of salt and
diet modification which in turn affects its
practice among the participants. This agreed
with Babu, (2015) who said that the desired
changing level in patients’ attitude toward
knowledge and practice of salt and diet
modification was not achieved due to insufficient
information in relation to effect of salt and diet
modification on blood pressure control given by
the health care professionals. Hence, an intense
effort should be made by health care givers for
effective improvement.
According to the findings of the study, poor
knowledge and practice of salt and diet
modification as demonstrated by the participants
33. may affect effective blood pressure control
which may be attributed to poor health seeking
behavior on the part of patients or inadequate
information provided by the health personnel.
This is particularly supported by a group of
researchers who posited that targeted health
education strategies are obviously necessary to
enhance the knowledge level of hypertensive as
this will help to prevent adverse effect of poor
blood pressure control, and that health care
givers are needed to provide appropriate cost-
effective programmes on management of
hypertension with a lot of reinforcement and
motivation for effective practices (Gnanaselvam
et. al, 2016). In addition, patients need to be
taught the basic underlying principles behind
every part of their care for them to be motivated
and adopt any change of behavior. Therefore,
patient education should be strengthened on the
use of salt and different type of diets that are
suitable for prevention and effective control of
blood pressure (Okwuonu, Emmanuel, and
Ojimadu, 2014); Tesema et.al, 2016).
The study findings revealed a notable
improvement on knowledge and practice of salt
and diet modification after the intervention
training programme as shown by post-
intervention test score. This shows that
intervention programme was very effective as the
participants gained more insight salt and diet
modification in relation to blood pressure
control. This agreed with Babu (2015) that when
a structured instructional module is used to
divulge facts on salt and diet modification among
34. hypertensive patients this will in turn affect their
practice and thus lowered blood pressure.
The findings validate the report of a randomized
controlled clinical trial which states that increase
in knowledge about the role of lifestyle in the
occurrence of high blood pressure would cause
people to start modifying their lifestyles and
enhance their preventive behaviours (Jafari et.al,
2016). This was proven with the result of a meta-
analysis of 37 randomized controlled trials by
Aburto et. al, (2013) who demonstrates the
strong and consistent relationship that has been
observed between dietary sodium and blood
pressure that reduced sodium intake reduces
blood pressure in both non-acutely ill adults and
children. The largest controlled feeding study of
potassium supplementation effects on blood
pressure was conducted among Chinese adults by
Gu et. al (2013) the study demonstrated a
significant reduction in blood pressures that was
reproducible after an average of 4.5 years. Even
more encouraging are the results of magnesium
supplements decreasing systolic and diastolic
blood pressure 3 to 4 mmHg and 2 to 3 mmHg,
respectively, with greater dose-dependent effects
at supplementations >370 mg/day (Kupetsky-
Rincon & Uitto, 2012). In subgroup analyses
involving five trials conducted among
hypertensive, fiber intake significantly reduced
both systolic and diastolic blood pressure by 5.95
and 4.20 mmHg, respectively (Bazzano et.al,
2015). Buda et al. (2017) added that irrespective
of other treatments options, if all hypertensive
patients are given needed information and
support required in controlling blood pressure it
35. will assist in achieving and maintaining salt and
diet practices. Hence, educational programs are
essential in increasing knowledge, improving
self-management, and controlling dietary habits
that are detrimental to effective blood pressure
control (Beigi et. al, 2014)
Conclusion and Recommendation: The study
helped to validate that a nurse-led intervention
programme has significant effect in improving
knowledge and practice salt and diet
modification among hypertensive patients.
Therefore, it is recommended that nurses should
ensure adequate provision of such programme in
a continuous and intermittent way with accurate
International Journal of Caring Sciences
January-April 2021 Volume 14 | Issue 1| Page 400
www.internationaljournalofcaringsciences.org
information while providing care for these
patients.
Limitation of the Study: There are other
variables that are effective in control of blood
pressure which were not included in the study
such as measurement of patients’ clinical
parameters like cholesterol level and
triglycerides due to financial constraints. Another
important limitation was follow-up time, hence,
future studies should be conducted given enough
time for follow-up.
36. Acknowledgements: The researchers show their
appreciation management of the health facility
used as well the State Health Service
Commission for permission to use their facility
for the study. Appreciation also goes to all
participants that took part in the study.
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