There is a particular article to back up this research question.

1. Research the importance of the topic and write an introduction that includes these main points:
· Relevant background information from a credible source to explain the importance of your topic
· A purpose statement (“The purpose of this paper is…”). 

This is the topic: What are the benefits of physical activity after a heart attack base on the article?

2. Write a study synopsis that includes these main points:
· research design and setting
· sample: sampling method; number of subjects; inclusion/exclusion criteria; attrition, loss to follow up, or response rate (if any); and important characteristics of the sample
· how the study was conducted (explain how the data was collected—including measurement instruments–and, if the study involves an intervention, how the intervention was carried out)
3. Appraise the article in narrative format by answering the following questions.
· What is known and not known about the topic? What gap in knowledge does this study address?
· Was the sampling method appropriate for this study? Why or why not?
o If inclusion and exclusion criteria were noted in the report, did the criteria control for extraneous variables? Why or why not?
· Were the measurement instruments reliable and valid? Why or why not?
o If the study was experimental, was the intervention performed consistently? Why or why not?
· Were the conclusions of the study supported by the results? Why or why not?
· Were the study limitations identified and explained? If so, was the explanation sufficient? Why or why not?
4. Write a conclusion that states the nursing implications based on the findings of the study, taking statistical significance into account. (DO NOT just list the implications to nursing from the article; provide your analysis.)
Submit your article in pdf format and your appraisal and synopsis in Word format.

IT IS MOST BE IN APA 7TH EDITION FORMAT. 

Cent Eur J Nurs Midw 2019;10(2):1026–1034
doi: 10.15452/CEJNM.2019.10.0010

© 2019 Central European Journal of Nursing and Midwifery 1026

ORIGINAL PAPER

EDUCATIONAL PROCESS IN PATIENTS AFTER MYOCARDIAL INFARCTION

Jakub Doležel1,2, Darja Jarošová1

1Department of Nursing and Midwifery, Faculty of Medicine, University of Ostrava, Czech Republic

2Department of Cardiovascular Diseases, University Hospital Ostrava, Czech Republic

Received November 20, 2018; Accepted January 28, 2019. Copyright: This is an open access article distributed under the terms of the Creative

Commons Attribution International License (CC BY). http://creativecommons.org/licenses/by/4.0/

Abstract

Aim: The study aimed to determine the effect of education on the prevalence of risk factors and adherence to lifestyle measures

in post-myocardial infarction

patients.

Design: A clinical, interventional, explanatory study. Methods: The sample (n = 165)

comprised consecutive patients hospitalized for acute myocardial infarction. The interventional, explanatory study followed

changes in two cohorts: intervention (n = 68) and control (n = 97). The intervention (prospective) group consisted of patient s

educated by a nurse using a previously developed nursing standard. The control (retrospective) group comprised patients who

received no education on myocardial infarction provided by nurses. Results:

After one-year follow-up, patients in the intervention

group had statistically better knowledge about their condition (p < 0.001) and used their medication more regularly (p < 0.001)

than controls. At one year, systolic blood pressure and total cholesterol decreased by a mean of 2.5 mmHg and 0.3 mmol/l,

respectively, in intervention group participants. As early as after one month, patients in this group increased their physical activity

by a mean of 35 minutes per week. Conclusion: Post-myocardial infarction patients educated according to the developed nursing

care standard were shown to better adhere to their pharmacological therapy and lifestyle

changes.

Keywords: education, intervention, myocardial infarction, nurse, patient, secondary prevention.

Introduction

Over the last 25 years, cardiovascular mortality has

declined in Europe; yet the prevalence of coronary

artery disease remains high in the Czech Republic

(Čapková et al., 2016). The Czech middle-aged

population was found to have a high prevalence of the

main cardiovascular risk factors (Cífková et al., 2011).

Also data from several European Countries including

the Czech Republic continue to show that

cardiovascular disease preventive care is not

adequately provided. Many post-myocardial

infarction patients do not adhere to a healthy lifestyle,

do not know the risk factors and do not receive the

proper treatment (Kotseva et al., 2016).

The core of cardiovascular disease prevention has

shifted from drug therapy to preventive care through

non-pharmacological interventions. Drug therapy

should be initiated only after non-pharmacological

interventions fail (Magnani et al., 2018). A systematic,

comprehensive and multidisciplinary approach is

needed that is focused on lifestyle and risk factor

Corresponding author: Jakub Doležel, Department of Nursing

and Midwifery, Faculty of Medicine, University of Ostrava,

Syllabova 19, Ostrava, Czech Republic; e-mail:

jakub.dolezel@osu.cz

management by physicians, nurses and other health

workers (Piepoli et al., 2016). Nurses play a key role

in educating patients after myocardial infarction.

Nurses’ educational activities contribute to improving

the health status of both individuals and communities,

leading to reduced cardiovascular risk and fewer

rehospitalizations (Lachman et al., 2015).

The aim of the study was pilot implementation

of a nursing care standard called Education of Post-

Myocardial Infarction Patients. The nursing standard

was developed by a multidisciplinary working group.

The first step in the development of the standard was

to formulate the basic STANDARD definition

in accordance with Standard nursing care: an asset

(Danasu, 2007). Subsequently, activities were defined,

measured and selected using the Dynamic Standard

Setting System (Kitson, 1990). To justify the nursing

processes in the standard, an analysis from a literature

search was used. The final standard consists of nine

nursing processes complemented by justification,

references to relevant studies and levels of evidence.

Aim

The study aimed to determine the effect of education

on the prevalence of risk factors and adherence to

lifestyle measures in post-myocardial infarction

patients.

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1027

Methods

Design

A clinical, interventional, explanatory study was

conducted.

Sample

Included in the study were consecutive patients

(convenience sampling) hospitalized for acute

myocardial infarction (Figure 1). Data were collected

at the Department of Cardiovascular Diseases,

University Hospital Ostrava. The sample (Table 1)

comprised a total of 165 participants divided into two

groups, intervention (n = 68) and control (n = 97).

The inclusion criteria were patients after acute

ST-elevation myocardial infarction, after

percutaneous coronary intervention, aged 30–85

years. Excluded were patients in cardiogenic shock,

after cardiopulmonary resuscitation, with serious

complications or life-threatening comorbidities.

The intervention (prospective) group consisted

of patients consecutively admitted for acute

myocardial infarction in 2016. Their mean age was 58

years (SD = 11.4). The patients were educated by

a nurse using the above nursing standard, with a

follow-up at one, six and

twelve months.

The control (retrospective) group comprised patients

hospitalized for acute myocardial infarction in 2015,

with a mean age of 61 years (SD = 11.1). They were

approached by telephone twelve months after their

heart attack. The controls received no education

on their condition (i.e. myocardial infarction).

Figure 1 Patient selection process

INTERVENTION GROUP

361 patients eligible

CONTROL GROUP

329 patients eligible

258 patients excluded

death (n = 25)

inclusion criteria (n = 112)

exclusion criteria (n = 29)

other (n = 92)

PRIMARY ANALYSIS

103 patients included

68 PATIENTS

included in the final analysis

SAMPLE

690 post-myocardial infarction patients eligible

232 patients excluded

death (n = 24)

inclusion criteria (n = 101)

exclusion criteria (n = 30)

other (n = 77)

PRIMARY ANALYSIS

97 patients included

97 PATIENTS

included in the final analysis

35 patients excluded

death (n = 2)

loss to follow-up (n = 33)

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1028

Table 1 Patient characteristics

Description of the intervention

Interventions were provided in accordance with the

standard. The nurse educated the patient within three

days of myocardial infarction, during their stay at the

Department of Cardiovascular Diseases, University

Hospital Ostrava. Educational sessions were repeated

after one, six and twelve months in an outpatient ward

of the department. The date of the first follow-up

session was set during the hospital stay; the other dates

were agreed on during the preceding sessions in the

outpatient ward. The education session duration was

30–60 minutes. In each patient, a nursing assessment

was carried out based on an educational history and an

educational plan was developed. Patients were

educated individually through motivational

interviewing.

During the initial session, patients were informed

about their condition (myocardial infarction), warning

signs, therapeutic regimen, use of medication and

lifestyle changes. The latter included

recommendations on an adequate diet, proper physical

activity, smoking cessation and blood pressure

control. At the end of the session, the nurse determined

whether the goals were met and assessed the

effectiveness of education.

At the beginning of each follow-up session, the

patient’s knowledge was tested. Based on the

assessment, topics to be covered during the follow-up

sessions were defined. The assessment of knowledge

included all topics covered by the initial session using

the following scale: 0 – topic not understood;

1 – mostly not understood; 2 – mostly understood;

3 – completely understood. The points were assigned

based on questions asked to patients. Those receiving

0–2 points were repeatedly educated about that

particular topic. If they received 3 points, they were

not educated again.

Patients also received educational materials on heart

anatomy and physiology, basic facts about myocardial

infarction, recognizing myocardial infarction

symptoms, calling for professional help,

cardiopulmonary resuscitation, myocardial infarction

treatment, recovering from myocardial infarction and

lifestyle changes following myocardial infarction.

Data collection

In both the intervention and control groups, the

following items were compared one year after heart

attack: adherence to lifestyle changes (dietary habits,

physical activity, use of medication), prevalence

of risk factors (smoking, total cholesterol level, blood

pressure values, body mass index), knowledge of the

condition (myocardial infarction) and need for

rehospitalizations. To analyze changes in the

variables, biomedical data were collected and

a structured interview was conducted. Biomedical

data collection included anthropometric

measurements, clinical examination, biochemistry

tests and data from medical records.

Adherence to dietary measures was assessed using our

classification of eating habits that was based on the

food pyramid and nutritional recommendations for the

Czech population (Dostálová, Dlouhý, Tláskal 2012).

Physical activity (walking, household work,

exercising and other leisure activities) was recorded

in minutes per week. Physical activity assessment also

took into account the participants’ occupations.

The physical intensity of their jobs was categorized

based on job classes (Nařízení vlády č. 361/2007, Sb.).

Use of medication was recorded on a Likert scale.

Participants were asked about regular use of drugs

(0 – not at all; 1 – somewhat no; 2 – somewhat yes;

3 – yes).

Data analysis

The sample was characterized using descriptive

statistics (median, arithmetic mean, standard

deviation, frequency tables). For quantitative

variables, normality of data distribution was assessed

with the Shapiro-Wilk test; based on that, parametric

or nonparametric tests were used. Differences between

the intervention and control groups were analyzed

with the nonparametric two-sample Mann-Whitney U

test, chi-squared test and two-sample t-test. In the

intervention group, pre-education values were

compared to those obtained during the follow-up at

Intervention

group

Control

group

n (%) n (%)

Gender

male 37 (54) 50 (52)

female 31 (46) 47 (48)

Age

30–39 years 3 (4) 1 (1)

40–49 years 11 (16) 12 (12)

50–59 years 29 (43) 29 (30)

60–69 years 14 (21) 26 (27)

70–79 years 8 (12) 25 (26)

80–85 years 8 (4) 4 (4)

Education

primary 5 (7) 10 (10)

vocational 37 (54) 59 (61)

secondary 19 (28) 19 (20)

tertiary 7 (10) 9 (9)

Body mass index

under 25 24 (35) 23 (24)

25 to 29.9 31 (46) 43 (44)

30 or more 13 (19) 31 (32)

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1029

one, six and twelve months. Differences were tested

with the following paired tests: chi-square test,

Wilcoxon test and t-test. The level of statistical

significance was set at 5% (p < 0.05 – H0-rejected;

p ≥ 0.05 – not rejected). The Stata version 13 software

was used.

Results

In the study, the following variables were compared:

number of rehospitalizations, knowledge of the

condition (myocardial infarction), use of medication,

blood pressure values, body mass index, total

cholesterol level, smoking status, physical activity and

dietary habits (Table 2).

Table 2 Comparison of values of the studied variables

Item

Intervention group Control group

before education after one year before education after one year

1. number of rehospitalizations – 034.0 – 027.0

2. knowledge of the condition 013.7 017.5 – 014.2

3. use of medication – 091.2 – 084.5

4. systolic blood pressure 127.2 124.7 130.4 129.3

5. diastolic blood pressure 074.5 070.2 074.1 072.2

6. body mass index 026.9 026.4 028.3 028.4

7. total cholesterol 005.3 005.0 004.6 004.7

8. number of smokers 042.6 020.6 035.0 023.7

9. number of cigarettes smoked 014.9 008.8 016.4 016.2

10. physical activity 597.0 633.0 634.0 610.0

11. regular eating 073.5 082.4 060.8 063.3

12. recommended diet 022.1 035.3 006.2 009.3
1. numbers of rehospitalized patients expressed as relative frequency; 2. mean number of points obtained in knowledge assessment; 3. numbers of patients
reporting regular use of medication expressed as relative frequency; 4. mean systolic blood pressure; 5. mean diastolic blood pressure; 6. mean body mass

index; 7. mean total cholesterol; 8. numbers of smokers expressed as relative frequency; 9. mean number of cigarettes smoked by smokers; 10. mean number

of minutes of physical activity per week; 12. numbers of patients reporting regular eating expressed as relative frequency; 13. numbers of patients reporting
eating the recommended diet expressed as relative frequency

After one-year follow-up, patients in the intervention

group showed statistically significantly higher rates

of rehospitalization for coronary artery disease than

controls (p = 0.035). In that respect, the intervention

(education) was not successful.

Patients in the intervention group had, after one year,

statistically better knowledge about their condition

than controls (p < 0.001). Their knowledge at all time

intervals (one, six and twelve months after myocardial

infarction) was also statistically significantly better

(p < 0.001) compared to that before education.

Compared to controls, patients in the intervention

group used their medication statistically significantly

more regularly (p < 0.001). At all time intervals (one,

six and twelve months), the rates of intervention group

participants regularly taking their drugs increased.

After one-year follow-up, systolic blood pressure was

statistically significantly lower in patients in the

intervention group than in controls (p = 0.0146).

In intervention group participants, systolic blood

pressure dropped by a mean of 2.5 mmHg. After one-

year follow-up, there was no statistically significant

difference in diastolic blood pressure between the two

groups (p = 0.2783).

One year after myocardial infarction, patients in the

intervention group had statistically significantly lower

body mass index values than controls (p = 0.0013).

On average, their body mass index decreased by 0.5

points (Figure 2).

Prior to education, total cholesterol levels were

statistically significantly higher in patients in the

intervention group than in controls (p < 0.001). After

one-year follow-up, the difference between the groups

was no longer statistically significant (p = 0.1326).

In intervention group participants, total cholesterol

decreased by a mean of 0.3 mmol/l.

There were no statistically significant differences

in the numbers of smokers between the two groups,

either before (p = 0.323) or after (p = 0.623) the

follow-up. At one year, smokers in the control group

smoked more cigarettes than their counterparts in the

intervention group.

Controls showed a statistically significant decrease

in the mean number of minutes of physical activity per

week at one year after myocardial infarction

(p = 0.0003). By contrast, intervention group

participants statistically significantly (p = 0.0001)

increased their physical activity at all time intervals

(Figure 3). As early as after one month, patients in the

intervention group increased their physical activity by

a mean of 35 minutes per week.

After one-year, patients in the intervention group ate

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1030

Figure 2 Differences in patients’ body mass index

Figure 3 Patients’ physical activity before and one year after education

statistically significantly more regularly than controls

(p = 0.010). There was also a statistically more

significant shift to a healthier diet in intervention

group participants than in controls (p < 0.001).

Discussion

Nurses who work in health facilities, particularly

in inpatient settings, adhere to local professional

standards and providing nursing care based on current

scientific evidence confirmed by research and practice

(Jarošová, Zeleníková, 2014). Therefore, prior to its

implementation, the standard was tested in clinical

practice using a correlational study.

Nurses and other health professional should ensure

follow-up of educated post-myocardial infarction

patients (Piepoli et al., 2016). To achieve permanent

lifestyle changes and adherence to therapy, continued

support in the form of repeated sessions is needed

(Rydén et al., 2013). That is why patients included in

the study were educated within three days

of myocardial infarction and then after one, six and

twelve months.

One in five patients suffering cardiovascular or

cerebrovascular events needs rehospitalization within

one year and even one in three patients over a period

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1031

of three years (Alberts et al., 2009). Therefore the

present study focused on rehospitalization rates. After

one-year follow-up, patients in the intervention group

needed statistically significantly more

rehospitalizations than controls.

These data fail to confirm results of RESPONSE

(Randomised Evaluation of Secondary Prevention by

Outpatient Nurse Specialists) showing that education

of post-myocardial infarction patients by nurses

resulted in fewer repeated hospital stays (Jorstad et al.,

2013). Similarly, our result contradict those reported

by GOSPEL (Global Secondary Prevention Strategies

to Limit Event Recurrence after Myocardial

Infarction). This randomized clinical study concluded

that education programs for post-myocardial

infarction patients reduced both rehospitalization rates

and the risk for cardiovascular diseases (Giannuzzi et

al., 2008).

The Czech Republic is among countries with low

health literacy of the population (Šedová et al., 2016a).

According to a randomized clinical study by Gallagher

et al. (2013), education with a standardized instrument

and adjusted to the patient’s needs is more effective,

leading to their better knowledge about possible

symptoms of acute myocardial infarction and attitude

to recovery over two months from heart attack. These

results were consistent with those in the present study,

with patients in the intervention group having

statistically significantly better knowledge about their

condition than controls.

Similarly, a randomized clinical study by OʼBrien et

al. (2014) found that post-myocardial infarction

participants educated by a nurse had a significantly

higher level of knowledge on their disease and therapy

than controls who received

no education.

A 2016 randomized clinical study (Polsook,

Aungsuroch, Thongvichea, 2016), showed that

subjects educated by a nurse on the use of prescribed

medication adhered to their treatment regimen more

effectively and used their drugs more regularly than

controls. This is consistent with our findings. In the

present study, intervention group participants used

their medication statistically significantly more

regularly than controls.

The effect of education on blood pressure reduction

in post-myocardial infarction patients was also shown

in a randomized clinical study by Campbell et al.

(1998) stating that secondary prevention provided by

nurses to patients with coronary heart disease was

effective. Their results suggested that the incidence

of future cardiovascular events and potential deaths

may be decreased by as much as one-third. This is

consistent with findings in the present study. After

one-year follow-up, patients in the intervention group

had statistically significantly lower blood pressure

than controls. The difference in diastolic blood

pressure between the two groups was not statistically

significant after one year.

In their randomized clinical study, Lachman et al.

(2015) found that after twelve months, post-

myocardial infarction patients educated by nurses on

the need for weight reduction and adequate physical

activity had better quality of life and fewer risk factors

than controls without education. Lower body mass

index values in educated patients were also found

in the present study. After one-year follow-up,

intervention group participants had statistically

significantly lower body mass index values than those

in the control group.

The Czech post-MONICA cross-sectional study

(Cífková et al., 2011) on a representative randomly

selected sample of the middle-aged Czech population

found a high prevalence of major cardiovascular risk

factors contributing to persistently high cardiovascular

mortality in the Czech Republic. These findings were

confirmed by Olišarová et al. (2016) claiming that

education on cardiovascular risk factors provided by

nurses in the Czech Republic is inadequate.

High total cholesterol levels are among major

cardiovascular risk factors. Before education, total

cholesterol levels were statistically significantly

higher in the intervention group than in controls. After

one-year follow-up, the difference between the two

groups was no longer statistically significant.

The positive effect of nurses’ educational activities on

lowering of total cholesterol levels in post-myocardial

infarction patients was also noted in KORINNA

(Coronary Infarction Follow-up in the Elderly). Post-

myocardial infarction patients educated by nurses on

lifestyle changes showed fewer rehospitalizations and

deaths, better hypertension control, lower cholesterol

levels and less depression than controls receiving no

education (Kirchberger et al., 2015).

In post-myocardial infarction patients, smoking

cessation is potentially the most effective secondary

prevention measure (Steg et al., 2012). Similarly,

Svěráková (2012) reported that smoking cessation is a

notable component of lifestyle changes in patients

after myocardial infarction. On the other hand,

smoking cessation was found to be most difficult for

post-myocardial infarction patients (Šedová et al.,

2016b).

In their cohort study, Harbman (2014) showed that

post-myocardial infarction patients educated by nurses

on smoking cessation, hypertension treatment,

sufficient physical activity and diet had lower

coronary heart disease morbidity and mortality rates

than participants in a control group without education.

https://www.ncbi.nlm.nih.gov/pubmed/?term=Aungsuroch%20Y%5BAuthor%5D&cauthor=true&cauthor_uid=27969054

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1032

Similarly, the present study found a positive effect

of education on patients’ smoking status. After one-

year follow-up, smokers in the control group smoked

more cigarettes than those in the intervention group.

Also a cohort study by Bellman et al. (2009) found that

post-myocardial infarction patients educated by nurses

on the harmfulness of smoking stopped smoking more

frequently than controls with no education. Finally,

Farrell and Keeping-Burke (2014) claim that nurses’

educational activities towards smoking cessation has

repeatedly proved highly effective and should be

further developed in the future.

Regular physical activity is another important feature

of a healthy lifestyle (Rosolová et al., 2013). In 2016,

Kotseva et al. (2016) conducted a cross-sectional

study called EUROASPIRE IV (European Action

on Secondary and Primary Prevention by Intervention

to Reduce Events). The study results suggest that

following their myocardial infarction, most patients

failed to stop smoking, eat unhealthy foods, have

inadequate physical activity and thus suffer from

overweigh or obesity and a high prevalence of diabetes

mellitus.

The effect of education on physical activity was

confirmed by the present study. After one-year follow-

up, controls statistically significantly reduced their

physical activity expressed as minutes per week. By

contrast, there were statistically significant increases

in intervention group patients’ physical activity at all

time intervals.

Positive effects of nurses’ educational activities

on physical activity were also noted in a randomized

clinical study by Yan et al. (2014) showing that post-

myocardial infarction participants receiving repeated

telephone follow-up instructions from nurses had

more positive perceptions of their condition, could

recognize the warning signs, were better at adhering to

lifestyle measures, did more physical activity and had

higher quality of life than their counterparts

in a control group who received no education. Similar

conclusions were reported in a randomized clinical

study by Hanssen et al. (2007) who stated that post-

myocardial infarction patients systematically educated

by nurses were in much better physical condition and

showed more responsible approach to the treatment

of their disease than controls without education.

According to Rosenberg (2014), prevention

of cardiovascular diseases is based on a healthy diet

and lifestyle changes. The present study showed

a positive effect of education on dietary changes. After

one-year follow-up, patients in the intervention group

ate statistically significantly more regularly than

controls. There was also a statistically more significant

shift to a healthier diet in intervention group

participants than in controls.

These results were also confirmed by a cohort study

by Hwang and Kim (2015). The study showed that

post-myocardial infarction patients educated by nurses

on lifestyle measures were considerably more willing

to adhere to their treatment regimen and recommended

dietary changes, perform adequate physical activity

and monitor the warning signs than controls receiving

no education.

Limitation of study

The study has certain limitations. The effectiveness

of nursing care provided would be better assessed by

comparing the intervention and control groups

in a prospective study. Moreover, a multicenter study

would be more appropriate.

Conclusion

Nurses’ educational activities concerning secondary

prevention of coronary heart disease are the key to

better knowledge of the condition, regular use

of medication, blood pressure control, optimal body

mass index, stable total cholesterol levels, smoking

cessation, adequate physical activity and dietary habits

in patients after myocardial infarction.

The study outcomes will serve to improve the quality

and effectiveness of nursing care provided to patients

after myocardial infarction. Post-myocardial

infarction patients educated according to the

developed nursing care standard were shown to better

adhere to their pharmacological therapy and lifestyle

changes.

Ethical aspects and conflict of interest

The study was conducted in accordance with the basic

principles relevant to research involving human

subjects valid for all research phases (Declaration

of Helsinki, 2013). The study was approved by the

Ethics Committee of the University Hospital Ostrava.

Data for the study were collected as part of a project

called Contract for Life (for life after myocardial

infarction) that aimed to develop an education

program for patients after heart attack. The author, as

a member of the Contract for Life project team, was

granted permission to use the data.

The authors declare no conflict of interest; the article

has not been published in any other journal.

Author contribution

Conception and design (JD, DJ), data analysis and

interpretation (JD, DJ), manuscript draft (JD), critical

Doležel J, Jarošová D. Cent Eur J Nurs Midw 2019;10(2): 1026–1034

© 2019 Central European Journal of Nursing and Midwifery 1033

revision of the manuscript (DJ), final approval of the

manuscript (JD).

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