key: cord-0926708-mw8qhd73 authors: Celik, Mehmet; Yilmaz, Yusuf; Karagoz, Ali; Kahyaoglu, Muzaffer; Cakmak, Ender Ozgun; Kup, Ayhan; Celik, Fatma Betül; Karaduman, Ahmet; Kulahcioglu, Seyhmus; Izci, Servet; Gecmen, Cetin; Caliskan, Mustafa title: Anxiety Disorder Associated with the COVID-19 Pandemic Causes Deterioration of Blood Pressure Control in Primary Hypertensive Patients date: 2021-06-18 journal: Medeni Med J DOI: 10.5222/mmj.2021.08364 sha: 684958bbc0c4b1bff6d1db387a2b801bead51fe9 doc_id: 926708 cord_uid: mw8qhd73 OBJECTIVE: The new coronavirus disease (COVID-19) has spread rapidly all over the world and caused anxiety disorders. Recent studies have also shown that the prevalence of depression and anxiety increased during the COVID-19 outbreak. We aimed to evaluate the anxiety and depression levels during the pandemic and identify the effect of pandemic-related stress on blood pressure (BP) control in primary hypertensive patients. METHOD: A total of 142 patients with primary hypertension (HT) who continued to use the same antihypertensive drugs before and during the pandemic were included in the study. Twenty-four -hour Ambulatory Blood Pressure Monitoring (ABPM) and the Hospital Anxiety and Depression Scale (HADS) questionnaire were applied to patients. We retrospectively reviewed 24-h ABPM records of the same patients for the year before the pandemic. RESULTS: Daytime, nighttime and 24 -hour-systolic blood pressure (SBP) levels as well as daytime, nighttime, and 24- hour-diastolic blood pressure (DBP) levels , were significantly elevated during the COVID-19 outbreak compared to the pre-pandemic period (p<0.001). Higher HADS-A scores (HADS-A ≥7) were significantly associated with much greater increase in BP compared to the patients with lower HADS-A scores. CONCLUSION: Psychological stress due to the COVID-19 outbreak led to worsening of the regulation of BP in controlled hypertensive patients whose antihypertensive treatments did not change. The novel coronavirus disease broke out in China in December 2019 and subsequently spread rapidly all over the world. The first case was reported on March 11, 2020 in Turkey and then the number of cases have increased rapidly. Various precautions were adopted to prevent spread of the virus including reducing social contact, interruption of education, postponement of elective surgeries, and restriction of hospital admissions except for emergencies. Beyond the medical risk, social isolation is a well-known risk factor causing psychological and psychiatric disorders in the general population 1 . Moreover, the rapid spread and deaths due to COVID-19 disease have negatively affected people's physical and mental health, caused depression and anxiety 2 . Recent studies have also shown that the prevalence of depression and anxiety has increased during the COVID-19 outbreak 3 . Psychological stress has a significant impact on the cardiovascular system, and changes in emotional state can cause fluctuations in BP control 4 . Previous studies have also shown that anxiety disorders and depression are correlated with BP variability 5, 6 . Seeing that increased psychological stress is strongly associated with impaired BP control, we hypothesized the pandemic as a possible cause of psychological stress, may be associated with impaired BP control in patients with primary HT. The aim of this study was to evaluate the anxiety and depression levels during the pandemic, and identify the effect of pandemic-related stress on BP control in primary hypertensive patients. This cross-sectional study included primary hypertensive outpatients who had been treated in a tertiary heart center for the last three years. The 24-h ABPM, and the HADS questionnaires were applied to the patients who presented to the outpatient clinic during the pandemic. We also retrospectively reviewed the 24-h ABPM records of these patients for the the year before the pandemic. A total of 142 patients with primary HT who used the same antihypertensive drugs before and during the pandemic were included in the study. Patients included in the study had no history of COVID-19 infection or vaccine. All patients were asked if there was any psychological stress source that would cause a change in their psychosocial status other than COVID-19 in the previous year, and whether there was a history of referral to a psychiatrist or using psychiatric medication. Patients with any of these conditions were excluded from the study. Patients with a history of serious physical stress such as trauma, injury, infection, or surgery within the previous year were also excluded from the study. Thus, the Covid-19 pandemic was the main psychosocial stress factor for the study patients. In addition, patients with secondary or uncontrolled HT, chronic renal failure (glomerular filtration rate <60 mL/min), diabetes mellitus, heart failure (ejection fraction <40%), malignancy, excessive alcohol intake, any known psychiatric disorders or psychiatric drug use were excluded from the study. We also excluded patients who did not use antihypertensive drugs regularly, or during the pandemic or could not access medication due to the pandemic conditions. Height, weight, and waist circumference of all patients were measured during outpatient clinic visits. The body mass index (BMI) was calculated as weight (kg)/height 2 (m) 2 . Patients' clinical and demographic characteristics, drugs used before and during the pandemic were obtained from medical records and from follow-up data collected during outpatient clinic visits. The study was approved by the local ethics committee and conducted in accordance with the ethical principles of the Declaration of Helsinki. Noninvasive ambulatory BP and heart rate measurements were carried out using the ambulatory Custo screen 300 (Custo medical Gmbh products, Germany) scheduled for every 15 minutes between 07:00 and 22:00, and every 30 minutes between 22:00 and 07:00. The cuff of the manometer was placed on the patients' nondominant arms and the patients were instructed to keep their arms still during BP measurements. All patients were asked to attend their usual activities and refrain from unusual activities such as consuming a lot of coffee, tea or alcohol and excessive physical exercise 7 . The measurements (daytime SBP-DBP, nighttime SBP-DBP, and 24-h SBP-DBP) were analyzed for each patient. Records with more than a 20% artifact in ABPM were not analyzed. The daytime was defined from 07:00 AM to 22:00 PM, and the nighttime was from 22:00 PM to 07:00 AM. HT was defined as 24-h SBP/DBP >130/80 mmHg, and/or daytime SBP/ DBP >135/85 mmHg, and nighttime SBP/DBP >120/70 mmHg 8 . The percentage of nocturnal BP decline was calculated as (daytime BP -nighttime BP)x100/daytime BP. Patients with >10% decrease in either systolic or diastolic BP were considered to have dipper HT 9 . The HADS questionnaire was applied to evaluate the depression and anxiety levels of the patients during outpatient clinic visits. HADS consists of 14 questions with seven questions for depression (HADS-D) and seven questions for anxiety (HADS-A). Each question is scored between 0-3 points. The HADS-D score indicates the severity of depression, while the HADS-A score indicates the severity of anxiety, and higher scores indicate increased disease severity and vice versa. The national version of the HADS questionnaire has been proven and categorized with a cut-off score of 10 points for the depression, and 7 points for the anxiety subscale 10 . We also compared these 142 patients with a control group of 83 primary hypertensive patients who underwent 24-h ABPM twice in the year before the pandemic. These control group patients were selected from our database of 24-h ABPM records using similar inclusion and exclusion criteria as in the study group. Similarly, these patients continued to use the same antihypertensive drugs during the follow-up period. All statistical analyzes were performed using the "rms," "Desctool", and "ggplot2" packages with the R-Software version 4.0 (R statistical software, The Institute for Statistics and Mathematics). The Shapiro-Wilk test and/or histograms were used to evaluate the normality of the variables. Normally distributed continuous variables were presented as mean±standard deviation. Non-normally distributed continuous variables were presented as the median and interquartile range (IQR 25 th -75 th ). Categorical variables were presented as numbers and percentages. The paired t-test or the Wilcoxon test was used to compare two groups for before and after BP measurements, depending on their distribution patterns. In addition, we divided the patients into a further two groups according to the HADS-A subscale score as low-grade (<7) and high-grade (≥7) anxiety. Continuous variables were compared with the Mann-Whitney U or independent samples t-test and categorical variables were compared by the chi-square test and Fisher exact test dependent on cell amount. The effect size (Cohen's d) and power value (1-b) of the study were calculated using G*Power software (version 3.1.9.2). The effect size and power value were 0.86 and 0.99, respectively. Primary outcome was the effect of pandemicrelated anxiety disorder on BP control Candidate Predictors: Candidate predictors included in the model were chosen according to the literature, expert opinion and our focused variables. Accordingly, we included 10 candidate predictors; age, gender, waist circumference, BMI, HADS-A and HADS-D score, CAD, smoking, non-dipper HT, and baseline 24-h SBP in our regression model. The relative importance of each predictor in the regression model was estimated with the partial-X 2 value, which estimates the independent contribution of the predictor to the variance of the outcome. In all statistical analyses, a two-tailed p-value of <0.05 was considered statistically significant. This study consisted of 142 patients with primary HT. The demographic and clinical characteristics of the patients are shown in Table 1 . The mean age of the patients was 53.7 years, and 57% of them were male. Most of the patients (85.2%) were using angiotensin-converting enzyme inhibitors (ACEIs) or angiotensin II receptor blockers (ARBs), calcium channel blockers (64%), diuretics (65.5%), beta-blockers (26.1%), and alfa-blockers (11.3%). All patients included in the study continued to use the same medications throughout their follow-up (before and during the pandemic). The mean HADS anxiety and depression subscale scores were 7.04±3.10 and 6.35±2.58, respectively. In terms of the HADS cut-off points, 43.6% of the study population scored above the anxiety cut-off value (HADS-A ≥7), and 18.3% above the depression cut-off value (HADS-D ≥10). Patients were classified into two groups according to their anxiety levels as low (<7) and high (≥7) based on HADS-A scores. Depression scores were also significantly higher in the group with high anxiety levels (p<0.001). There was no significant difference between the groups in terms of demographic characteristics and antihypertensive drug use. Weights and BMIs of the study patients also did not change significantly during follow-up (Table 1) . Table 2 shows 24-h-ABPM values of the study patients before and during the pandemic. Daytime, nighttime and 24-h-SBP as well as daytime, nighttime and 24-h-DBP values were found to be significantly elevated during the pandemic compared to the pre-pandemic period (p<0.001). Since the overall differences in BP values before and during the pandemic reflect both the pandemic effect and other trends, such as periodic effects, that may affect BP during this period, we compared these patients with a group of control patients who did not experience a pandemic. In this control group, there was no significant change in the mean BP values after 12 months of follow-up (Table 2 ). In addition, we compared the average BP values before and during the pandemic according to the anxiety levels of the study patients. The mean BP values were similar between two groups before the pandemic. However, both systolic and diastolic mean BP values were much higher in the group with higher HADS-A scores than in the patients with lower HADS-A scores (p<0.001) (Table 1, Figure 1 ). We conducted a multivariate linear regression model to identify the potential risk factors associated with the increase in 24-h-SBP levels during the pandemic. Higher HADS-A (from 5 to 10 points) levels and HADS-D (from 4 to 9 points) scores were associated with increased 24-h-SBP values during the pandemic, regardless of prepandemic BP values. Higher baseline 24-h-SBP (from 123 to 128 mmHg) levels and advanced age (from 46 to 62 years) in the pre-pandemic period were also associated with an increase in 24-h-SBP during the pandemic (Table 3) . A high baseline BP value was found as the most contributing predictor for the 24-h SBP elevation during the pandemic. The second most important variable was a higher HADS-A score ( Figure 2 ). The present study demonstrates that BP in primary hypertensive patients increased significantly during the COVID-19 outbreak compared to the pre-pandemic period. This increase in BP was significantly associated with increases in HADS-A and HADS-D scores, especially in elderly patients with higher baseline BPs. Change in BP between the period before and during the pandemic according to the HADS-A score. Patients with higher HADS-A scores (HADS-A ≥7) are significantly associated with much greater increase in BP than patients with lower HADS-A scores; HADS-A, hospital anxiety and depression scale-anxiety Social isolation due to the COVID-19 outbreak led to depression and poorer mental health in people 11 . In a study conducted in Northern Spain, psychological stress was low in humans in the first few days of the COVID-19 outbreak; however, in association with the requirement for quarantine, people's stress, anxiety, and depression levels increased significantly 12 . Similarly, we found relatively high anxiety and depression rates (43.6% and 18.3%, respectively) during the COVID-19 outbreak. Anxiety disorders cause an increase in BP by activating the sympathetic nervous system and the hypothalamus-pituitary-adrenal (HPA) axis 13 . Previous studies have also revealed a strong association between depression and these two systems 14 . In the light of this knowledge, we investigated the effect of pandemic-related stress on BP and found that daytime, nighttime, and 24hour-SBP and DBP levels increased significantly compared to the pre-pandemic BP levels. In line with this, our control group who did not experience a pandemic showed no significant BP increment during one year follow-up. We also showed that the patients with higher HADS-A scores (HADS-A ≥7) were significantly associated with much greater increase in BP than the patients with lower HADS-A scores. Similarly, increased psychological stress in earthquake survivors was identified as an independent risk factor for BP increase 15 . Paolo Giorgini et al. 16 found a marked increase in daytime, nighttime and 24-h-SBP and DBP levels in patients with primary hypertension after the 2009 L'Aquila earthquake. The YaAn earthquake also caused a 3.3 mm Hg increase in mean SBP levels among hospitalized patients compared to the non-disaster group 17 . Consistent with these results, sympatholytics were reported to have beneficial effects on poor BP control caused by psychological stress during a natural disaster 18 . Although the exact mechanism is unknown, periods of anxiety disorders caused by natural disasters such as earthquakes and pandemics trigger the adrenergic system. This sympathetic arousal causes increase in heart rate and decrease in blood vessel diameter, and consequently results in increasing BP4. Stress-related increase in BP is more common, especially in elderly patients since the hypothalamus-pituitary-adrenal (HPA) axis responsivity to stress increases with aging 19, 20 . In the study by Kario et al. 21 aging and chronic renal failure were also associated with sympathetic nerve overactivity. Similarly, increased psychological stress due to the pandemic was significantly associated with a much greater increase in BP, especially in elderly patients in our study. A high baseline BP is an important predictor for the increase in BP after an earthquake 22 . The YaAn earthquake also showed that the SBP level at hospital admission was positively associated with the increased SBP following the earthquake 17 . In line with these results, it is worth noting that in the current study, compared to the lower baseline BP levels, higher baseline 24-h-SBP (increased from 123 to 128 mmHg) levels were significantly associated with poor BP control during the pandemic. This study has several limitations. Firstly, we evaluated a relatively small number of patients from a single center. The small number of patients included in the study may be due to the restriction of hospital admissions, other than emergencies, and the reduction in outpatient visits due to the risk of COVID-19 transmission. Secondly, changes in dietary habits and daily exercise that may contribute to an increase in BP were not analyzed in the present study. However, this limitation does not affect the aim of our study since there was no significant increase in weight and BMI of the study patients during the pandemic which was also supported by the fact that BP values did not change significantly during a 12-month follow-up in a group of control patients who did not experience a pandemic. Finally, we did not investigate the long-term effects of the COVID-19 outbreak on BP control, and when BP will return to normal levels. In spite of these limitations, the present study clearly demonstrated that pandemicrelated anxiety disorders caused impaired BP control in primary hypertensive patients. Psychological stress due to the COVID-19 outbreak led to worsening of BP in controlled hypertensive patients whose antihypertensive treatments did not change. Therefore, it should be noted that BP control should be tighter, and appropriate modulation of antihypertensive drugs should be taken into consideration during the pandemic. A nationwide survey of psychological distress among Chinese people in the COVID-19 epidemic: implications and policy recommendations Online mental health services in China during the COVID-19 outbreak Mental health problems and social media exposure during COVID-19 outbreak Disasters and the heart: a review of the effects of earthquake-induced stress on cardiovascular disease Hypertension, blood pressure variability, and target organ lesion Anxiety and depression levels in Covid-19 disease and their relation to hypertension Assessment of four ambulatory blood pressure monitors and measurements by clinicians versus intraarterial blood pressure at rest and during exercise Practice Guidelines for the management of arterial hypertension of the European Society of Hypertension and the European Society of Cardiology: ESH/ESC Task Force for the Management of Arterial Hypertension The Seventh Report of the Joint National Committee on Prevention, Detection, Evaluation, and Treatment of High Blood Pressure: the JNC 7 report Reliability and validity of the Turkish version of Hospital Anxiety and Depression Scale The psychological impact of quarantine and how to reduce it: rapid review of the evidence Stress, anxiety, and depression levels in the initial stage of the COVID-19 outbreak in a population sample in the northern Spain Mechanism of hydrocortisone potentiation of responses to epinephrine and norepinephrine in rabbit aorta The Harvard Mastery of Stress Study 35-year follow-up: prognostic significance of patterns of psychophysiological arousal and adaptation Earthquake-induced potentiation of acute risk factors in hypertensive elderly patients: possible triggering of cardiovascular events after a major earthquake Long-term blood pressure changes induced by the 2009 L'Aquila earthquake: assessment by 24 h ambulatory monitoring YaAn earthquake increases blood pressure among hospitalized patients Factors associated with the occurrence and magnitude of earthquake-induced increases in blood pressure Hypothalamicpituitary-adrenal axis regulation and human aging Disaster hypertension -its characteristics, mechanism, and management Development of a disaster cardiovascular prevention network Home blood pressure control after the great East Japan earthquake in patients on chronic hemodialysis