ABSTRACT
Objectives:
Resistant hypertension (RHT) defines uncontrolled blood pressure despite appropriate treatment and identifies a high-risk population, which may benefit from different diagnostic and therapeutic approaches. This study has investigated the relationship between left atrial diameter (LAD) and N- terminal pro- brain type natriuretic peptide (NT-proBNP) levels in true RHT patients with sinus rhythm.
Materials and Methods:
The outpatient data of Kemalpaşa State Hospital’s cardiology clinic has been reviewed retrospectively. The patients with RHT are included but patients with secondary hypertension, pseudo-RHT, atrial fibrillation and left ventricle ejection fraction <50% are excluded from analysis. Age and gender specific cut-off levels have been used for NT-proBNP.
Results:
Among 74 true RHT patients, 48 were female. The mean age was 61.9±11.2 years. Mean LAD was 40.9±4.0 mm and mean NT-proBNP was 330.3±394.9 pg/mL. Larger LAD was correlated to higher levels of NT-proBNP (r=0.451, p<0.001). Even after controlling for age, gender, heart rate, systolic and diastolic blood pressures, partial correlation was continued between LAD and NT-proBNP (r=0.234, d.f=67, p<0,05).
Conclusion:
The current study showed that larger LAD is related to higher levels of NT-proBNP in RHT, which may allow us to use simple echocardiographic parameter to diagnose high-risk patients and hypervolemia instead of NT-proBNP, an expensive biomarker. Because of single-center results and limited number of patients, further studies are needed.
DOI: 10.32596/ejcm.galenos.2019.00009
These mistakes have made by author inadvertently. The errors correction in the article has been demonstrated in the following list:
Error
1Kemalpaşa State Hospital, Clinic of Cardiology, İzmir, Turkey
2İzmir University of Economics Faculty of Business, Department of Business Administration, İzmir, Turkey
Correction
1Kemalpaşa State Hospital, Clinic of Cardiology, İzmir, Turkey
2Dataist Analytics, Dublin, Ireland
Materials and Methods
The outpatient data of Kemalpaşa State Hospital is screened retrospectively through the hospital communication system (HCS), Probel. System records, which contain data about patient demographics, laboratory and imaging records, prescription and adherence information of patients, who applied to the cardiology outpatient clinic between January and September 2015, are reviewed. Data of 1057 hypertensive patients older than 18 years in both genders is screened retrospectively. RHT is defined as 1) lack of blood pressure (BP) control despite three drugs, one diuretic or 2) need for more than three drugs (four or more) to control BP in adherent patient, in whom secondary hypertension (HT) and white-coat HT are excluded. To avoid any misevaluation, patients with moderate to severe valvular disease, systolic heart failure as left ventricle ejection fraction (LVEF) <50% and AF are excluded. Also patients with a creatine level of >1.5 mg/dL are excluded because this level of creatine is considered as a manifestation of chronic kidney disease. After applying all the criteria, 74 patients with RHT on sinus rhythm are included to analyze.
All data is collected through the HCS according to the International statistical classification of diseases and related health problems. Patient’s demographics, such as age, gender, patient’s complaint at application, accompanying illness, systolic and diastolic BP in the office is obtained from the patient’s application page. For ECG and echocardiographic parameters such as LVEF, left ventricle hypertrophy (LVH), left ventricle diastolic dysfunction (LVDD), LAD and diameter of ascendant aorta, imaging studies are used. Blood and urine biochemistry, fasting glucose, renal and liver function tests, lipid panel, thyroid function tests, NT-proBNP, microalbuminuria, are collected from laboratory studies. Medication and adherence are controlled through the www.medeczane.gov.tr, if the patients refilling their pills appropriately.
NT-proBNP measurement is made with Cobas® system and the Elecsys proBNP II assay; Roche Diagnostics GmbH. Reference ranges for NT-proBNP are defined according to prospectus information in 97.5th percentile, which differ with age and gender. Reference values are given in the Table 1.
Statistical Analysis
In the statistical analysis, all continuous measures are expressed as mean ± standart deviation. Frequencies and percentages are reported for categorical variables. Statistical analyses are performed with the IBM SPSS Statistics 22 software package. Associations between variables are tested by Pearson’s correlation (Pearson’s coefficient of correlation “r”). A p value <0.05 is considered statistically significant.
Compliance with ethical standards
The present study is designed as a retrospective archive screening study. For this study, no external funding is received. All authors declare no conflict of interest. Ethic approval for the study is obtained from the Clinical Research Ethical Board of Ege University School of Medicine on 22.11.2016 with the number 16-10.1/3. All procedures performed in studies involving human participants were in accordance with the ethical standards of the institutional research committee and with the 1964 Helsinki declaration and its later amendments or comparable ethical standards.
Results
After screening outpatient data and applying the inclusion criteria, 74 patients are defined as true RHT on sinus rhythm. Exercise intolerance and fatigue were the most frequent complaints according to the application reports. Among 74 patients, 48 (64.9%) were female and 26 (35.1%) were male. The mean age was 61.76±11.27 years. All the 74 patients were receiving adequate doses of a renin-angiotensin system blocker, either angiotensin-converting enzyme inhibitor or angiotensin receptor blocker, plus a diuretic. The third pill was a beta-blocker in 21 patients and a calcium antagonist in 12 patients. The remaining 41 patients needed more than three drugs. Type 2 diabetes mellitus was present in 25 patients. None of the diabetic patients were taking high doses of glitazones, which is known as a specific factor for hypervolemia, and only two patients were receiving intensive insulin treatment.
Mean systolic and diastolic blood pressures were 172.55±20.21 and 93.31±13.74 mmHg. Patient’s imaging studies are reviewed for echocardiographic parameters. All the 74 RHT patients had LVH and LVDD. LVEF, ascendant aorta width and LAD were 57.36±2.89%, 35.41±3.73 mm and 40.96±4.09 respectively. The mean NT-proBNP level was 330.30±394.96 pg/mL. All the remaining demographics are given in the Table 2.
After group demographics, the relationship between LAD and NT-proBNP is investigated and Pearson’s correlation analysis is performed (Table 3). Between LAD and NT-proBNP, a pairwise correlation (r=0.451, p<0.001) is found. After controlling for age, gender, heart rate, systolic and diastolic BP, a partial correlation (r=0.234, d.f=67, p=0.049) is still remained. The correlation between age and NT-proBNP is already known. Therefore cut-off values based on NT-proBNP are qualified by age. Also in the present study, this relationship is well observed. There was a pairwise correlation between age and NT-proBNP (r=0.670, p<0.001) and the correlation still remained after controlling for gender, heart rate, systolic and diastolic BP (r=0.590, d.f=67, p<0.001). At last, the correlation between LAD and age is investigated. At first glance, there was a pairwise correlation between LAD and age (r=0.469, p<0.001) but after controlling for gender, heart rate, NT-proBNP, systolic and diastolic BP, the partial correlation is disappeared (r=0.175, d.f=67, p=0.151). This suggests that the correlation between LAD and NT-proBNP is not a spurious relationship driven by age, gender, heart rate or blood pressure.
Discussion
RHT defines a specific population among hypertensive patients. True RHT prevalence is considered less than 10% of all-treated hypertensive patients, but RHT patients carry a higher risk for hypertension mediated organ damage, chronic kidney disease and early cardiovascular events(1). Daugherty et al. demonstrated that RHT is associated with an increased risk of adverse cardiovascular outcomes, even after multivariable adjustment(8). It is very important to make the risk stratification for identifying the highest risk patients who may benefit from specific diagnostic and therapeutic approaches. Gaddam et al. reported patients with RHT have higher levels of natriuretic peptide levels compared to controls(2), but there is evidence that not all the RHT patients have high levels of NT-proBNP(9), which leads to the question if NT-proBNP may be used in risk stratification beyond its volume-overload meaning also in the RHT population. Apart from its role in the diagnosis of heart failure, NT-proBNP is related to cardiac remodeling and is a predictor of mortality in hypertension(7), so it has become even more popular in detecting the high-risk patients for cardiovascular conditions. There are several studies, which confirmed the relationship between NT-proBNP and LAD in hypertensive patients(3,6,10). Recently, Courand et al. has demonstrated that NT-proBNP mirrors the damaging effects of high BP on target organs in hypertensive patients and NT-proBNP level increases with the increasing number of target organs involved(7). Because of the number of true RHT patients are relatively low, RHT patients are not studied widely in this condition. The present study has investigated if LAD, a simple echocardiographic parameter, is correlated with NT-proBNP, an integrative marker of high clinical interest. When established further this relationship can be used to predict high risk patients among the adherent RHT patients on the appropriate therapy. There was a significant pairwise correlation between LAD and NT-proBNP (r=0.451, p<0.001) in the RHT group and the partial correlation still remained statistically significant after controlling for other risk factors like age, gender, heart rate, systolic and diastolic BP, which are known for interference. This study suggests that LAD and NT-proBNP correlate positively, so larger LAD is related to higher NT-proBNP levels, even after controlling for other interacting factors. This finding may be used to predict the patients with high NT-proBNP levels, which is an indicator for high cardiovascular and mortality risk, by using LAD. There was also a pairwise correlation between age and NT-proBNP (r=0.670, p<0.001) and even after controlling all other related factors, a powerful and significant correlation (r=0.590, d.f=67, p<0.001) remain, which is very important in the studies involve NT-proBNP to take age specific cut-off levels instead of common cut-off’s to avoid misevaluation. Another interesting finding of this study is the relation between LAD and age. While a powerful pairwise correlation between LAD and age was detected consistent with some previous studies(11,12), the correlation disappears after controlling for other effecting factors, such as gender, NT-proBNP, heart rate, systolic and diastolic BP. This finding is consistent with the findings of some more recent studies that normal ageing does not increase LA size(3).
Limitations of the study
The most important limitation of the study is its retrospective single-center design. The sample size is another important limiting factor. Because of the low prevalence of true RHT, despite of retrospective screening data of 1057 hypertensive patients only 74 true RHT patients on sinus rhythm were identified. A larger dataset with perhaps data from multiple centers can allow for more advanced tests. This study used office-based BP measurement, but ambulatory BP measurement could be more accurate. Also medications and treatment adherence are controlled through the health insurance system, but there is always a chance that some patients have refilled their prescriptions and not taken pills regularly. Despite these limitations, these study presents analyses performed on the real-world patient data and can help inform practitioners about their diagnostic and treatment decisions.
Conclusion
The present study suggests, in RHT patients, larger LADs are related to higher levels of NT-proBNP and the correlation is still consistent even after controlling other factors, which may influence this relation. This may allow us to use a simple echocardiographic parameter to predict not only the volume status of the patient but also identify the high-risk patients.