Does preoperative sleep quality and distress tolerance levels in cardiovascular surgery patients affect postoperative intensive care processes? Текст научной статьи по специальности «Клиническая медицина»

nw-] JOURNAL OF CLINICAL MEDICINE OF KAZAKHSTAN Original Article

(E-ISSN 2313-1519)

Does preoperative sleep quality and distress tolerance levels in cardiovascular surgery patients affect postoperative intensive care processes?

Tulin Yildiz1, Ebru Onler1, Utku Durgut1, Ozcan Gur2, Selami Gurkan2, Gunduz Yumun2

'Surgical Nursing Department, Health School, Tekirdag Namik Kemal University, Tekirdag, Turkey 2Cardiovascular Surgery Department, Faculty of Medicine, Tekirdag Namik Kemal University, Tekirdag, Turkey

Abstract

Objective: This study was conducted to observe the effects of pre-operative sleep and distress intolerance levels on post-operative of cardiovascular surgery patients.

Material and methods: This is a descriptive study. The study population consisted of 120 patients who met the inclusion criteria and accepted to participate in this research. The data were collected by using tools such as the demographic data form which was developed by the researchers, Pittsburgh Sleep Quality Index (PSQI), Insomnia severity Index (ISI) and distress interolerance index (DII), and applied through face to face interviews with the patients. The multivariate analysis of variance were used in the analysis of the data.

Results: This study was 120 patients, comprising 82 (68.3%) males and 38 (31.7%) females. According to PSQI, 77.5% of patients have a poor sleep quality. Those with good sleep quality were found to have a lower total score (37.630)>=5 poor sleep quality than the total score (31.731) of the DII. According to the PSQI, as the sleep quality decreases, the intensive care unit (ICU) stay time is increasing (23.8%, p=0.009).

Conclusion: Compared to normal population, cardiovascular surgical patients have higher levels of poor sleep quality and distressing intolerance. We found a positive correlation between impaired sleep quality and distressed intolerance levels.

Key words: cardiac surgery, sleep pattern, distress interolerance, nursing care

Received: 2021-03-28. Accepted: 2021-06-30

© ®

This work is licensed under a Creative Commons Attribution 4.0 international License

J Clin Med Kaz 2021; 18(4):23-26

Corresponding author: Tulin Yildiz.

E-mail: tyildiz70@hotmail.com

Introduction

Cardiovascular diseases (CVD) are first among the causes of morbidity, mortality and medical costs worldwide. Unhealthy eating habits such as tobacco use, excessive alcohol consumption, physical inactivity and excessive salt consumption are common risk factors in the development of cardiac diseases [1]. In addition to these risk factors, recent studies show that sleep problems are also effective in the development of CVD. Less than 6 hours of sleep increases the risk of CVD. In addition to various studies showing the effect of short sleep time, the effect of long-term sleep on the cardiovascular system has been investigated in recent years. Current evidence

suggests that disturbances in sleep patterns, such as short or long sleep duration, contribute to the development of CVD [2]. One study found that people who slept less than 7 hours per night had a 12% to 35% higher risk of death than those who slept more than 7 hours [3].

Sleep is considered as one of the basic physiological needs of human beings, which covers 1/3 of human life and ensures health continuity [4-6]. A deterioration in health status can manifest itself with sleep disorders, as well as a deterioration in sleep patterns can have a direct impact on general health and life activities [6].

Sleep problems are a cause of stress for the body. Although stress is protective in the short term, constant

stimulation causes pathological consequences in the long term. Chronic sleep deprivation provides over-stimulation of the sympathetic nervous system and Hypothalamus-Pituitary-Adrenal (HPA) axis. With sympathetic nervous system activation, an increase in the release of adrenaline, noradrenaline and vasopressin, resulting in an increase in heart rate and blood pressure [7]. After activation of the hypothalamus, epinephrine and norepinephrine are released from the adrenal medulla.

Within the cardiovascular system, the increase in circulating catecholamines can result in hypertension, tachycardia and sometimes dysrhythmias [1]. While insomnia has been proven to alter biological phenotypes of deoxyribonucleic acid (DNA), ribonucleic acid (RNA), and protein levels, the underlying mechanisms have not been clearly demonstrated [8].

Sleep deprivation which emerging conditions contribute to the development of cardiovascular diseases such as vascular calcification, hypertension, atherosclerosis, arrhythmia, and myocardial infarction [7,8].

Surgical interventions are widely used in health promotion and treatment of diseases. Surgery is a sudden event that affects people's physical and psychological well-being as well as their personalities, roles and family relationships [6].

As a challenge for patients, the surgical procedure brings pre-and postsurgical limitations, which can generate significant levels of anxiety [9]. Nurses have great responsibilities in order to maximize the well-being of patients prepared for surgical intervention, to have a successful operation and to ensure patient satisfaction. Improving sleep quality in the preoperative period and reducing the anxiety levels of patients before surgery is an undeniable important part of the holistic nursing approach [10].

Material and methods Sample

The population of this descriptive study (n=120) consisted of patients who were hospitalised in the cardiovascular surgery clinic between November 2016 and May 2017. The study was planned to observe the effects of pre-operative sleep and distress intolerance levels on post-operative of cardiovascular surgery patients.

Inclusion criteria

• Patients who were diagnosed with cardiovascular diseases

• Aged 18 years or older

• Not having communication problems

• Patients who stayed at least 24 hours in ICU

Exclusion criteria

• Patients undergoing different surgery

• Patients taking sedatives, hypnotics, antidepressants and amphetamines

• Patients in shift work

Data collection

"Personal Information Form", Distress Intolerance Index (DII), Pittsburgh Sleep Quality Index (PSQI) and the Insomnia Severity Index (ISI) were used to collect data.

A questionnaire consisting of 4 sections was used to collect the research data.

The first section included "Personal Information Form" consisting of 11 questions related to patients' descriptive characteristics and their pre-operative and post-operative vital signs.

The second section included DII, developed by McHugh & Otto [11] and adapted to Turkish by Cakir [12]. It is a 5-point Likert type form (1:Strongly Agree-5:Strongly Disagree) consisting of 10 items and one dimension. The scores from the scale range between 10 and 50 points. Low scores indicate a low level of intolerance.

The third section included the PSQI, developed by Buysse et al. [13] and adapted to Turkish by Agargun et al. (1996) [14]. A global PSQI score of 7 components greater than 5 indicates poor quality of sleep, while 0-4 points indicate good quality of sleep.

The fourth section included the ISI, developed by Bastien et al. [15] and adapted to Turkish by Boysan et al. [16]. ISI is a self reported and 5-point Likert type scale and includes 7 items. Every item on the scale score between 0-4 points. Total scores range from 0 to 28, with high scores indicating greater insomnia severity.

Ethical Considerations

To carry out this study, written institution permissions were obtained from the Tekirdag Namik Kemal University Medical Faculty Non-Interventional Clinical Research Ethics Committee numbered 2016/115/10/05.

Data analysis

The data was analysed using SPSS 24.0. Frequency, percentage, average, standard deviation, Kolmogorov Smirnov, Mann Whitney U, Kruskal Wallis, regression analysis and Spearman's correlation were used for data analysis. The statistical significance level was determined to be p<0.05.

Results

One hundred twenty patients were included into the study. 82 of these patients (68%) were male and 38 of them (32%) were female. The average age of the patients was 63.88± 11.26 years; of patients 41(34%) had their first operation, 79(66%) had previous surgical experience. Of the patients, 67(56%) were smoking and 24(20%) were drinking. Table 1 shows the general demographic features of the patients.

Patients had extubated after 9.12±3.51 hours the transfer from the operation to the intensive care unit. Patients mobilized 17.08±0.351 hours after transfer to the ICU. The duration of intensive care unit stay was 51.98±0.574 hours (Table 2). But it was observed that the patients who smoked and alcohol had longer extubation times than the other patients.

High scores of DII indicate high tolerance to distress. The mean DII score of patients was 33.06±9.19. A global PSQI score of greater than 5 indicates poor quality of sleep, while 0-4 points indicate good quality of sleep. The mean PSQI of the patients was 7.17±3.70 (Table 3). As the sleep quality of the patients decreased, their tolerance to distress decreased, too (Table 4).

There was a statistically significant difference across the sleep quality for total scores of DII (t=3.03; p=0.003<0.05). DII scores of patients (37.630) with good sleep quality (<5), were lower than distress intolerance scale scores of patients (31.731) with poor sleep quality (>=5). In other words, those with poor sleep quality have a high tolerance for distress (Table 5).

There was no significant relationship between extubation and mobilization time and PSQI (p=0,200 and p=0,076), while PSQI was significantly correlated with ICU stay. Duration of ICU stay increases as sleep quality decreases (23.8%; p=0.009) (Table 6).

Table 1

Distribution of Individual Characteristics of Patients (n=120)

Relationship Between Sleep Quality According to Total Score of Intolerance to Distress

Min--Max Mean ± SD

Age 63.88±11.26 22-85

Characters Frekans (n) Percentage (%) Mean ± SD P

Gender Male 82 63.3 63.2± 12.1 0.369

Female 38 31.7 65.2± 9.2

BMI Male 82 63.3 27.6±1.6 0.341

Female 38 31.7 27.2±1.5

Characters Frekans (n) Percentage (%)

Marital status Married 81 67.5

Single 39 32.5

Total 120 100.0

Cigarette smoking No 53 44.2

Yes 67 55.8

Total 120 100.0

Alcohol use No 96 80.0

Yes 24 20.0

Total 120 100.0

Previous Surgical Experience Yes 79 65.8

No 41 34.2

Total 120 100.0

Data are presented as number, percent, meanistandard deviation (SD) and range.

Distribution of Patients According to Variation of Extubation (hours), Mobilization (hours) and Duration of Intensive Care Unit (hours)

The data is presented as: n, number; min-max, mean and standard deviation (SD). ICU: intensive care unit.

Total Score of Distress Intolerance Index and Pittsburgh Sleep Quality Index

n Min-Max Mean± SD

Extubation Duration 120 4-27 9.12± 3.51

Mobilization Duration 120 8-33 17.08±0.35

ICU Length of Stay 120 21-64 51.98±0.57

N Min-Max Mean ± SD

Distress Intolerance Index Total Score 120 12-50 33.06±9.19

Pittsburgh Sleep Quality Index 120 2.00-16.00 7.17±3.70

The Relationship Between Total Score of Distress Intolerance Index and Pittsburgh Sleep Quality Index Total Score

Pittsburgh Sleep Quality Index

Distress Intolerance Index Total Score Pearson Correlation 0.467**

Sig. (2-tailed) 0

N 120

N Mean ± SD t p

Distress Intolerance Index Total Score <5 good sleep quality 27 22.37±8.9621 3.034 0.003

>=5 bad sleep quality 93 28.27±8.8724

The Relationship Between Pittsburgh Sleep Quality Index Total Score and Extubation, Mobilization, and Intensive Care Stay Duration

Pittsburgh Sleep Quality Index

r p

Extubation Duration 0.118 0.2

Mobilization Duration 0.163 0.076

ICU Length of Stay 0.238 0.009

Discussion

We found the compared to normal population, cardiovascular surgical patients have higher levels of poor sleep quality and distressing intolerance. We found a positive correlation between impaired sleep quality and distressed intolerance levels. Heart failure (HF) is seen that common worldwide [17]. It has been proven that sleep problems also increase morbidity and mortality. When the pain level and sleep problems of the patients undergoing open heart surgery are not controlled, the patient's comfort deteriorates, complications can develop more easily, and the recovery period and hospital stay may be prolonged [18]. Although surgical interventions are important for each patient group, the psychological effects of the surgery can be more intense when it comes to open heart surgery [19]. When the pain level and sleep problems of the patients undergoing open heart surgery are not controlled, the comfort of the patient deteriorates, complications can develop more easily, healing process and length of hospital stay may be prolonged. Inadequate information on the subject in the literature was the basis of this research. In this study, we aimed to determine the effect of preoperative sleep and intolerance to distress on postoperative patients in cardiovascular surgery patients. In Ibrahimoglu's study, the mean of age revealed a sample 60 or close to 60 years. In experimental group 60% and in control group 66.7% were smokers [20]. When the mean age of studies is examined, it is seen that the results show similar characteristics with this study.

Although 100% of the patients had been mechanically ventilated, patients had extubated after 9.12±3.51 hours the transfer from the operation to the ICU. Patients mobilized 17.08±0.351 hours after transfer to the ICU. The duration of ICU stay was 51.98±0.574 hours in this study. Postoperative complications also affect the duration of hospital stay and functional recovery. In this study show that the mean of PSQI the patients was 7.17±3.70. As the PSQI score of the patients increased, sleep quality deteriorated, the total score of the tolerance to DII increased, tolerance decreased.

Sleep helps maintain a healthy balance of endocrine and immune systems [21]. In those who have sleep deprivation, this balance may not be maintained. Sauvet [22] demonstrated in a study of rats that 24-hour wakefulness caused a decrease in endothelial-dependent vasodilation not associated with changes in blood pressure or sympathetic activation [8]. Intubation and extubation can increase the concentration of catecholamines in the blood by stimulating the sympathetic nervous system

and cause severe hemodynamic changes [20]. Tobaldini et al. demonstrated that arterial blood pressure (ABP) changes significantly after a 24-hour sleep loss [7]. In our study, it was determined that those with low sleep quality had a high tolerance to distress and as PSQI increased, the duration of stay in the ICU increased and sleep quality decreased. We believe it is important to maintain a pre-operative sleep pattern in patients undergoing cardiovascular surgery, and our current findings may be a trigger for future research into sleep deprivation.

Conclusion

Although surgical interventions are important for each patient group, the psychological effects of the surgery may be more intense when it comes to open heart surgery. Open heart

surgery is a clinical process that affects the functions of all organs and systems in the body. Patients' existing sleep quality disorder and intolerance to distress are already deteriorated by the already poor quality of life sleep problems. Therefore, we think that close clinical follow-up of patients with poor sleep quality will decrease morbidity and mortality with applications that will improve sleep quality positively (medical treatment, psychosocial support, optimal environment).

Disclosures: There is no conflict of interest for all authors.

Acknowledgements: None.

Funding: None.

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