Skip Navigation
Skip to contents

JPMPH : Journal of Preventive Medicine and Public Health

OPEN ACCESS
SEARCH
Search

Articles

Page Path
HOME > J Prev Med Public Health > Volume 48(2); 2015 > Article
Original Article
Low Systolic Blood Pressure and Mortality From All Causes and Vascular Diseases Among Older Middle-aged Men: Korean Veterans Health Study
Sang-Wook Yi1,2, Heechoul Ohrr3,4
Journal of Preventive Medicine and Public Health 2015;48(2):105-110.
DOI: https://doi.org/10.3961/jpmph.15.003
Published online: March 11, 2015
  • 8,654 Views
  • 86 Download
  • 3 Crossref
  • 3 Scopus

1Department of Preventive Medicine and Public Health, Catholic Kwandong University College of Medicine, Gangneung, Korea

2Institute for Clinical and Translational Research, Catholic Kwandong University, Gangneung, Korea

3Department of Preventive Medicine, Yonsei University College of Medicine, Seoul, Korea

4Institute for Health Promotion, Graduate School of Public Health, Yonsei University, Seoul, Korea

Corresponding Author: Heechoul Ohrr, MD, PhD  50 Yonsei-ro, Seodaemun-gu, Seoul 120-752, Korea  Tel: +82-2-2228-1865, Fax: +82-2-392-8133 E-mail: ohrr@yuhs.ac
• Received: January 21, 2015   • Accepted: February 23, 2015

Copyright © 2015 The Korean Society for Preventive Medicine

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/3.0/) which permits unrestricted noncommercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

prev next
  • Objectives:
    Recently, low systolic blood pressure (SBP) was found to be associated with an increased risk of death from vascular diseases in a rural elderly population in Korea. However, evidence on the association between low SBP and vascular diseases is scarce. The aim of this study was to prospectively examine the association between low SBP and mortality from all causes and vascular diseases in older middle-aged Korean men.
  • Methods:
    From 2004 to 2010, 94 085 Korean Vietnam War veterans were followed-up for deaths. The adjusted hazard ratios (aHR) were calculated using the Cox proportional hazard model. A stratified analysis was conducted by age at enrollment. SBP was self-reported by a postal survey in 2004.
  • Results:
    Among the participants aged 60 and older, the lowest SBP (<90 mmHg) category had an elevated aHR for mortality from all causes (aHR, 1.9; 95% confidence interval [CI], 1.2 to 3.1) and vascular diseases (International Classification of Disease, 10th revision, I00-I99; aHR, 3.2; 95% CI, 1.2 to 8.4) compared to those with an SBP of 100 to 119 mmHg. Those with an SBP below 80 mmHg (aHR, 4.5; 95% CI, 1.1 to 18.8) and those with an SBP of 80 to 89 mmHg (aHR, 3.1; 95% CI, 0.9 to 10.2) also had an increased risk of vascular mortality, compared to those with an SBP of 90 to 119 mmHg. This association was sustained when excluding the first two years of follow-up or preexisting vascular diseases. In men younger than 60 years, the association of low SBP was weaker than that in those aged 60 years or older.
  • Conclusions:
    Our findings suggest that low SBP (<90 mmHg) may increase vascular mortality in Korean men aged 60 years or older.
Several studies have suggested that low blood pressure (BP) may be associated with an increased vascular morbidity and mortality, mainly among people with vascular diseases or diabetes [1-8]. However, evidence supporting the association of low systolic blood pressure (SBP) with vascular mortality is scarce in the general population [2,9-11]. In addition, the association between low SBP below 90 to100 mmHg and vascular mortality has seldom been explored [9,12].
Recently, low SBP was found to be associated with an increased risk of death from vascular diseases in a rural elderly study in the Republic of Korea (hereafter Korea) [12]. We prospectively examined the association between low SBP and mortality from all causes and vascular diseases in the older middle-aged men who are Korean Vietnam War veterans.
Study Participants
This study used data from the Korean Veterans Health Study [13,14]. Among the 164 208 veterans who were selected for a postal survey, 117 609 veterans replied (response rate of 71.6%), and their BP, height, and weight were self-reported. Those missing information for SBP (n=19 361) or body mass index ([BMI], n=3693) were excluded. In addition, those with self-reported SBP below 60 mmHg (n=32) or those with an uncertain residential status after the initial survey (n=438) were excluded. Finally, 94 085 men were included in the analysis. This study was approved by the institutional review board of Kwandong University.
Data Collection
The postal survey was mailed on July 27, 2004. Each veteran’s age was calculated as of August 1, 2004, which is when the participants were assumed to have received the survey. Information on smoking, alcohol intake, physical activity, BMI, SBP, and income were collected from the survey. The veterans were also asked to indicate all current physician-diagnosed vascular diseases (including hypertension, myocardial infarction, and stroke) as well as any other diseases in the self-reported questionnaire. BMI was calculated from self-reported weight (kg) divided by the square of the height (m). More details about the survey can be obtained elsewhere [13,14].
Follow-up and Outcome Ascertainment
Deaths among subjects from August 1, 2004 through December 31, 2010 were confirmed using the death records held at the National Statistical Office. Follow-up of these death certificates was performed through record linkage at the national level and was completed for all subjects. The main outcomes were death from all causes as well as from vascular diseases (I00-I99), stroke (I60-I64), and ischemic heart diseases (I20-I25) as defined by the International Classification of Disease, 10th revision.
Statistical Analysis
SBP was classified into two versions of seven categories (mmHg; version 1: <90, 90 to 99, 100 to 119 [reference], 120 to 139, 140 to 159, 160 to 179, and ≥180; version 2: <80, 80 to 89, 90 to 119 [reference], 120 to 139, 140 to 159, 160 to 179, and ≥180) [12]. Chi-squared tests and one-way ANOVA were performed to compare differences between SBP categories.
Cox proportional hazard models were used to evaluate the association between baseline SBP and mortality. All analyses were adjusted for the following covariates: age at entry into the study, smoking status, alcohol intake status, physical activity, household income, self-reported prevalence of ischemic heart diseases and stroke, and BMI (kg/m2; <18.5, 18.5-24.9, and ≥25). In addition, an age-stratified analysis was performed by dividing subjects into two groups based on age at entry into the study (years; ≥60 and <60) to explore whether the association differs by the age group [9,12,15]. Additional analysis was implemented after exclusion of those (n=1616) with less than two years of follow-up and those (n=17 376) with known selfreported stroke and/or ischemic heart diseases. These additional subgroup analyses served as a sensitivity analysis.
Two-sided p-values were calculated, and the statistical significance level was set at 0.05. All statistical analyses were performed using SAS version 9.4 (SAS Institute Inc., Cary, NC, USA).
During the mean 6.2 years of follow-up (585 587 personyears), 5926 men died, and among them, 961 men died of vascular diseases. The mean (standard deviation) age of the veterans was 58.9 (3.6) years at enrollment. Self-reported prevalence of overweight or obesity (BMI≥25 kg/m2), stroke, ischemic heart diseases, diabetes, and hyperlipidemia had a J-shape association with SBP, while physical activity had a U-shape (or reverse J-shape) association with SBP (Table 1).
Crude all-cause mortality was the lowest in those with an SBP of 120 to 139 mmHg, while crude vascular mortality was the lowest in those with an SBP of 90 to 99 mmHg (Table 2). In the multivariable-adjusted analysis stratified by age group, the lowest SBP category had an increased adjusted hazard ratio (aHR) for all-cause (p=0.006) and vascular mortality (p=0.016, based on five deaths), among participants aged 60 years or older (Table 2). Except the lowest SBP group, the association between SBP and vascular mortality was similar among age group (Table 2). This J-shape (or U-shape) association between SBP with mortality, especially vascular disease mortality, in those 60 years or older was maintained when the lowest SBP category was further grouped into two categories (<80 mmHg and 80 to 89 mmHg) and those with an SBP of 90 to 120 mmHg was analyzed as the reference group (Figure 1). The lowest SBP category (<80 mmHg) had a higher risk for stroke (aHR,7.23; p=0.065, based on one death), and ischemic heart diseases mortality (aHR, 6.27; p=0.078, based on one death) in men aged 60 or older compared to those with an SBP of 90 to 119 mmHg.
Compared to those with an SBP of 90 to 119 mmHg, the association in the lowest SBP (<80 mmHg) was sustained after additional adjustment for known prevalent hypertension, diabetes, and hyperlipidemia (aHR, 4.45; 95% CI, 1.06 to 18.8) among those aged 60 or older. In men aged 60 or older, the results associated with the lowest SBP category (<80 mmHg) compared to the 90 to 119 mmHg SBP category did not differ from the main analysis when the analyses were done among survivors as of August 1, 2006 (aHR, 5.81; 95% CI, 1.36 to 24.9) or those with no known ischemic heart disease (aHR, 3.97; 95% CI, 0.52 to 30.6). When we analyzed data among the elderly aged 65 years or older (n=6038), the lowest SBP (<80 mmHg) had a stronger association with vascular mortality (aHR, 5.31; 95% CI, 0.67 to 42.3) than that observed in the main analysis, with the 90 to 119 mmHg SBP category as the reference group.
This study found that a self-reported SBP below 90 mmHg was associated with an increased risk of mortality and vascular mortality. In addition, our results suggest that the association of self-reported SBP with mortality from vascular diseases may be a J-curve in men aged 60 years or older.
Since the self-reported prevalence of overweight or obesity (BMI≥25 kg/m2), stroke, ischemic heart diseases, diabetes, and hyperlipidemia had a J-shape association with SBP, the potential reverse causation (that is, the suggestion that low SBP could be an epiphenomenon related to concurrent chronic diseases related to subsequent death) was evaluated [11,12,16]. The J-shape associations with all-cause and vascular mortality were maintained after adjustment for BMI and the preexisting diseases (including hypertension, ischemic heart diseases, stroke, diabetes, and hyperlipidemia). After excluding the early follow-up data, the J-shape association with vascular mortality in men aged 60 or older was not changed. When men with preexisting vascular diseases were dropped from the analysis, the J-shape association was sustained, although the statistical association was weakened due to the small number of deaths. Additionally, the lowest SBP was not linked with cancer mortality, in the current study. Nonetheless, reverse causation cannot be ruled out in the present study.
The low SBP has seldom been associated with vascular diseases in prospective studies among the general population [10- 12]. Having an SBP of 90 to 99 mmHg was not associated with an increased risk of vascular mortality in men aged 60 or older, and these results are different than those from a previous study on a Korean rural elderly population [12]. However, when the analysis was restricted to men aged 65 or older, an SBP of 90 to 99 mmHg was associated with a modestly high risk of vascular mortality (aHR, 1.32; p=0.796) in accordance with the previous research.
The prospective design and complete follow-up constitute the principle strengths of our study. However, there are also several limitations. First, it is a limitation that BP was self-reported; however, the finding that vascular mortality increased in conjunction with an increasing trend in self-reported SBP indicates that self-reported BP in the present study could have reasonable validity, which is in accordance with other research [17]. Second, due to the small number of deaths in the lowest SBP category, the statistical power may have been decreased, and the elevated mortality in the lowest SBP category might have resulted from chance alone [12]. Third, the diagnoses of the death certificates were not validated separately. Since any misclassification of the diagnoses of death could most likely be non-differential according to SBP, potential misclassifications would not be expected to substantially overestimate the hazard ratios. Fourth, our study participants were Vietnam War veterans who have a lower mortality than that expected in the general population [18], and they had smaller BMIs than those in European-origin populations do. Thus, some of our results may not be generalizable to other populations [19].
In Korean men aged 60 and above, having an SBP below 90 mmHg may increase death from vascular diseases. Further research is needed to confirm this association in other populations and, if the association exists, the underlying mechanism.
The authors truly thank the staff of the Korean National Statistical Office for providing the mortality data used herein. This study was supported by a grant funded by the Ministry of Patriots and Veterans Affairs of Korea. The funder had no role in the study design, in analyzing and interpreting data, or in the decision to submit this work for publication.

Conflict of Interest

The authors have no conflicts of interest with the material presented in this paper.

Figure. 1.
Multivariable-adjusted1 HR for mortality according to age group during 2004-2010 across the seven categories of SBP (mmHg; <80, 80-89, 90-119 [reference], 120-139, 140-159, 160-179, and ≥180). The midpoint SBP was used as the representative value for each category, except for the lowest (70 mmHg) and the highest (180 mmHg) SBP categories where the median was used as the representative value. (A) Deaths from all-cause, (B) death from vascular diseases. Death from vascular diseases (I00-I99) was defined by the International Classification of Disease, 10th revision. SBP, systolic blood pressure; HR, hazard ratio; CI, confidence interval. 1Adjusted for age at entry, smoking status, alcohol intake status, physical activity, income status, self-reported ischemic heart diseases, self-reported stroke, and body mass index.
jpmph-48-2-105f1.gif
Table 1.
Characteristics of the older middle-aged Korean men by SBP group
Variables SBP (mmHg)
Total (n=94 085) < 90 (n=317) 90-99 (n = 1019) 100-119 (n=8056) 120-139 (n = 36 570) 140-159 (n=27 446) 160-179 (n = 13 629) ≥180 (n=7048) p-value1
Age (y) 58.9±3.6 59.1 ±4.0 58.8±3.4 58.8±3.5 58.9±3.7 59.1±3.8 58.9±3.4 58.8±3.2 < 0.0012
BMI (kg/m2) 23.8±2.6 22.3±2.9 22.2±2.8 22.7±2.6 23.6±2.6 24.1±2.6 24.2±2.7 24.1±2.7 <0.0012
SBP (mmHg) 139.5±22.5 78.5±6.6 91.5±2.7 108.4±4.7 125.9±5.5 144.6±5.3 164.0±5.0 188.2±14.8 <0.0012
Smoking
 Current smoker 32 477 (34.5) 95 (30.0) 346 (34.0) 2810 (34.9) 13 006 (35.6) 9253 (33.7) 4570 (33.5) 2397 (34.0) <0.001
 Past smoker 44 086 (46.9) 161 (50.8) 460 (45.1) 3711 (46.1) 17 083 (46.7) 13 089 (47.7) 6412 (47.0) 3170 (45.0)
 Never smoker 17 522 (18.6) 61 (19.2) 213 (20.9) 1535 (19.1) 6481 (17.7) 5104 (18.6) 2647 (19.4) 1481 (21.0)
Alcohol intake
 ≥5 times/wk 9603 (10.2) 31 (9.8) 62 (6.1) 640 (7.9) 3772 (10.3) 3052 (11.1) 1374 (10.1) 672 (9.5) <0.001
 1-4 times/wk 36 365 (38.7) 75 (23.7) 266 (26.1) 2637 (32.7) 14 183 (38.8) 11 304 (41.2) 5407 (39.7) 2493 (35.4)
 < 1 time/wk 34 351 (36.5) 113 (35.6) 421 (41.3) 3255 (40.4) 13 441 (36.8) 9654 (35.2) 4855 (35.6) 2612 (37.1)
 Non-drinker 13 766 (14.6) 98 (30.9) 270 (26.5) 1524 (18.9) 5174 (14.1) 3436 (12.5) 1993 (14.6) 1271 (18.0)
Physical activity
 Yes 29 530 (31.4) 125 (39.4) 417 (40.9) 2628 (32.6) 11 044 (30.2) 8275 (30.2) 4461 (32.7) 2580 (36.6)
BMI (kg/m2)
 < 18.5 2136 (2.3) 33 (10.4) 95 (9.3) 392 (4.9) 840 (2.3) 401 (1.5) 226 (1.7) 149 (2.1) <0.001
 18.5-24.9 63 274 (67.3) 229 (72.2) 773 (75.9) 6255 (77.6) 25 789 (70.5) 17 528 (63.9) 8359 (61.3) 4341 (61.6)
 ≥ 25 28 675 (30.5) 55 (17.4) 151 (14.8) 1409 (17.5) 9941 (27.2) 9517 (34.7) 5044 (37.0) 2558 (36.3)
Household income (Korean won)
 < 500 000 11 010 (11.7) 79 (24.9) 161 (15.8) 887 (11.0) 3623 (9.9) 2944 (10.7) 1998 (14.7) 1318 (18.7) <0.001
 500 000-990 000 18 563 (19.7) 83 (26.2) 231 (22.7) 1484 (18.4) 6215 (17.0) 5380 (19.6) 3293 (24.2) 1877 (26.6)
 1 000 000-1 490 000 22 597 (24.0) 70 (22.1) 231 (22.7) 1895 (23.5) 8417 (23.0) 6752 (24.6) 3449 (25.3) 1783 (25.3)
 ≥ 1 500 000 41 915 (44.6) 85 (26.8) 396 (38.9) 3790 (47.0) 18 315 (50.1) 12 370 (45.1) 4889 (35.9) 2070 (29.4)
Prevalent self-reported diseases
 Ischemic heart diseases 13 642 (14.5) 56 (17.7) 155 (15.2) 1002 (12.4) 3820 (10.4) 4213 (15.4) 2734 (20.1) 1662 (23.6) <0.001
 Stroke 5148 (5.5) 17 (5.4) 35 (3.4) 289 (3.6) 1431 (3.9) 1755 (6.4) 1006 (7.4) 615 (8.7) <0.001
 Diabetes 20 355 (21.6) 60 (18.9) 142 (13.9) 1158 (14.4) 5990 (16.4) 6627 (24.1) 3922 (28.8) 2456 (34.8) <0.001
 Hyperlipidemia 16 126 (17.1) 39 (12.3) 105 (10.3) 907 (11.3) 4565 (12.5) 5423 (19.8) 3288 (24.1) 1799 (25.5) < 0.001

Values are presented as mean±standard deviation or number (%).

SBP, systolic blood pressure; BMI, body mass index.

1 Chi-squared test between SBP groups.

2 One-way ANOVA between SBP groups.

Table 2.
Numbers of deaths and adjusted1 HR for mortality by age group among older middle-aged Korean men during 2004-2010
Age (y) SBP (mmHg) All-cause mortality
Vascular mortality (I00-I99)2
No. of deaths Crude rate3 p-value HR 95% CI No. of deaths Crude rate3 p-value HR 95% CI
Total < 90 35 1830 0.14 1.29 0.92,1.82 7 366 0.04 2.23 1.02, 4.89
90-99 97 1563 0.03 1.28 1.03,1.59 7 113 0.68 0.85 0.39, 1.86
100-119 523 1048 1.00 Reference 59 118 1.00 Reference
120-139 2178 956 0.96 1.00 0.91, 1.10 304 133 0.12 1.25 0.94, 1.65
140-159 1647 962 0.89 0.99 0.90, 1.10 313 183 0.003 1.53 1.16, 2.03
160-179 878 1034 0.62 1.03 0.92, 1.15 150 177 0.04 1.38 1.02, 1.87
≥180 568 1305 0.002 1.21 1.07, 1.37 121 278 <0.001 1.93 1.41, 2.65
≥60 < 90 19 3476 0.006 1.93 1.20, 3.10 5 915 0.02 3.24 1.24, 8.42
90-99 32 1846 0.33 1.21 0.83, 1.75 1 58 0.23 0.29 0.04, 2.14
100-119 187 1408 1.00 Reference 27 203 1.00 Reference
120-139 842 1353 0.41 1.07 0.91,1.25 150 241 0.15 1.35 0.89, 2.04
140-159 679 1323 0.79 1.02 0.87, 1.20 129 251 0.27 1.27 0.83, 1.92
160-179 347 1474 0.30 1.10 0.92, 1.31 61 259 0.40 1.22 0.77, 1.92
≥180 220 1847 0.01 1.30 1.07, 1.58 55 462 0.006 1.93 1.21, 3.07
< 60 < 90 16 1171 0.71 0.91 0.55, 1.50 2 146 0.81 1.19 0.28, 4.98
90-99 65 1453 0.04 1.32 1.01, 1.73 6 134 0.60 1.26 0.53, 3.02
100-119 336 917 1.00 Reference 32 87 1.00 Reference
120-139 1336 806 0.59 0.97 0.86, 1.09 154 93 0.42 1.17 0.80, 1.71
140-159 968 808 0.78 0.98 0.87, 1.11 184 154 0.002 1.80 1.23, 2.62
160-179 531 865 0.89 0.99 0.86, 1.14 89 145 0.04 1.52 1.01, 2.29
≥180 348 1100 0.04 1.17 1.01, 1.36 66 209 0.002 1.95 1.28, 2.99

SBP, systolic blood pressure; CI, confidence interval; HR, hazard ratio.

1 Age at study entry, smoking status, alcohol intake status, physical activity, household income, prevalent self-reported ischemic heart diseases, prevalent self-reported stroke, and body mass index.

2 Vascular diseases (I00-I99) was defined by the International Classification of Disease, 10th revision.

3 Crude death rate per 100 000 person-years.

  • 1. Kim J, Gall SL, Nelson MR, Sharman JE, Thrift AG. Lower systolic blood pressure is associated with poorer survival in longterm survivors of stroke. J Hypertens 2014;32(4):904-911ArticlePubMed
  • 2. Bangalore S, Messerli FH, Wun CC, Zuckerman AL, DeMicco D, Kostis JB, et al. J-curve revisited: an analysis of blood pressure and cardiovascular events in the Treating to New Targets (TNT) Trial. Eur Heart J 2010;31(23):2897-2908ArticlePubMed
  • 3. Boutitie F, Gueyffier F, Pocock S, Fagard R, Boissel JP; INDANA Project Steering Committee. J-shaped relationship between blood pressure and mortality in hypertensive patients: new insights from a meta-analysis of individual-patient data. Ann Intern Med 2002;136(6):438-448ArticlePubMed
  • 4. Dorresteijn JA, van der Graaf Y, Spiering W, Grobbee DE, Bots ML, Visseren FL, et al. Relation between blood pressure and vascular events and mortality in patients with manifest vascular disease: J-curve revisited. Hypertension 2012;59(1):14-21ArticlePubMed
  • 5. Messerli FH, Mancia G, Conti CR, Hewkin AC, Kupfer S, Champion A, et al. Dogma disputed: can aggressively lowering blood pressure in hypertensive patients with coronary artery disease be dangerous? Ann Intern Med 2006;144(12):884-893ArticlePubMed
  • 6. Sleight P, Redon J, Verdecchia P, Mancia G, Gao P, Fagard R, et al. Prognostic value of blood pressure in patients with high vascular risk in the Ongoing Telmisartan Alone and in combination with Ramipril Global Endpoint Trial study. J Hypertens 2009;27(7):1360-1369ArticlePubMed
  • 7. Rönnback M, Isomaa B, Fagerudd J, Forsblom C, Groop PH, Tuomi T, et al. Complex relationship between blood pressure and mortality in type 2 diabetic patients: a follow-up of the Botnia Study. Hypertension 2006;47(2):168-173ArticlePubMed
  • 8. Mancia G, Grassi G, Zanchetti A. Antihypertensive treatment and blood pressure in diabetic and nondiabetic patients: the lower, the better? Diabetes Care 2011;34 Suppl 2: S304-S307Article
  • 9. Lewington S, Clarke R, Qizilbash N, Peto R, Collins R; Prospective Studies Collaboration. Age-specific relevance of usual blood pressure to vascular mortality: a meta-analysis of individual data for one million adults in 61 prospective studies. Lancet 2002;360(9349):1903-1913ArticlePubMed
  • 10. Kannel WB, D’Agostino RB, Silbershatz H. Blood pressure and cardiovascular morbidity and mortality rates in the elderly. Am Heart J 1997;134(4):758-763ArticlePubMed
  • 11. Kikuya M, Ohkubo T, Asayama K, Metoki H, Obara T, Saito S, et al. Ambulatory blood pressure and 10-year risk of cardiovascular and noncardiovascular mortality: the Ohasama study. Hypertension 2005;45(2):240-245ArticlePubMed
  • 12. Yi SW, Hong S, Ohrr H. Low systolic blood pressure and mortality from all-cause and vascular diseases among the rural elderly in Korea; Kangwha cohort study. Medicine (Baltimore) 2015;94(2):e245Article
  • 13. Yi SW, Hong JS, Ohrr H, Yi JJ. Agent Orange exposure and disease prevalence in Korean Vietnam veterans: the Korean veterans health study. Environ Res 2014;133: 56-65ArticlePubMed
  • 14. Yi SW, Ohrr H, Hong JS, Yi JJ. Agent Orange exposure and prevalence of self-reported diseases in Korean Vietnam veterans. J Prev Med Public Health 2013;46(5):213-225ArticlePubMedPMCPDF
  • 15. Hakala SM, Tilvis RS, Strandberg TE. Blood pressure and mortality in an older population. A 5-year follow-up of the Helsinki Ageing Study. Eur Heart J 1997;18(6):1019-1023ArticlePubMed
  • 16. Messerli FH, Panjrath GS. The J-curve between blood pressure and coronary artery disease or essential hypertension: exactly how essential? J Am Coll Cardiol 2009;54(20):1827-1834ArticlePubMed
  • 17. Tormo MJ, Navarro C, Chirlaque MD, Barber X. Validation of self diagnosis of high blood pressure in a sample of the Spanish EPIC cohort: overall agreement and predictive values. EPIC Group of Spain. J Epidemiol Community Health 2000;54(3):221-226ArticlePubMedPMC
  • 18. Yi SW, Ryu SY, Ohrr H, Hong JS. Agent Orange exposure and risk of death in Korean Vietnam veterans: Korean Veterans Health Study. Int J Epidemiol 2014;43(6):1825-1834ArticlePubMed
  • 19. Yi SW, Odongua N, Nam CM, Sull JW, Ohrr H. Body mass index and stroke mortality by smoking and age at menopause among Korean postmenopausal women. Stroke 2009;40(11):3428-3435ArticlePubMed

Figure & Data

References

    Citations

    Citations to this article as recorded by  
    • Relationship between systolic blood pressure and all-cause mortality: a prospective study in a cohort of Chinese adults
      Chunsheng Li, Youren Chen, Qiongbing Zheng, Weiqiang Wu, Zhichao Chen, Lu Song, Shasha An, Zhifang Li, Shuohua Chen, S. L. Wu
      BMC Public Health.2018;[Epub]     CrossRef
    • Baseline and longitudinal change in blood pressure and mortality in a Chinese cohort
      Jian-Bing Wang, Qiu-Chi Huang, Shu-Chang Hu, Pei-Wen Zheng, Peng Shen, Die Li, Huai-Chu Lu, Xiang Gao, Hong-Bo Lin, Kun Chen
      Journal of Epidemiology and Community Health.2018; 72(12): 1083.     CrossRef
    • Low Systolic Blood Pressure and Vascular Mortality Among More Than 1 Million Korean Adults
      Sang-Wook Yi, Yejin Mok, Heechoul Ohrr, Jee-Jeon Yi, Young Duk Yun, Jihwan Park, Sun Ha Jee
      Circulation.2016; 133(24): 2381.     CrossRef

    Figure
    • 0
    Low Systolic Blood Pressure and Mortality From All Causes and Vascular Diseases Among Older Middle-aged Men: Korean Veterans Health Study
    Image
    Figure. 1. Multivariable-adjusted1 HR for mortality according to age group during 2004-2010 across the seven categories of SBP (mmHg; <80, 80-89, 90-119 [reference], 120-139, 140-159, 160-179, and ≥180). The midpoint SBP was used as the representative value for each category, except for the lowest (70 mmHg) and the highest (180 mmHg) SBP categories where the median was used as the representative value. (A) Deaths from all-cause, (B) death from vascular diseases. Death from vascular diseases (I00-I99) was defined by the International Classification of Disease, 10th revision. SBP, systolic blood pressure; HR, hazard ratio; CI, confidence interval. 1Adjusted for age at entry, smoking status, alcohol intake status, physical activity, income status, self-reported ischemic heart diseases, self-reported stroke, and body mass index.
    Low Systolic Blood Pressure and Mortality From All Causes and Vascular Diseases Among Older Middle-aged Men: Korean Veterans Health Study
    Variables SBP (mmHg)
    Total (n=94 085) < 90 (n=317) 90-99 (n = 1019) 100-119 (n=8056) 120-139 (n = 36 570) 140-159 (n=27 446) 160-179 (n = 13 629) ≥180 (n=7048) p-value1
    Age (y) 58.9±3.6 59.1 ±4.0 58.8±3.4 58.8±3.5 58.9±3.7 59.1±3.8 58.9±3.4 58.8±3.2 < 0.0012
    BMI (kg/m2) 23.8±2.6 22.3±2.9 22.2±2.8 22.7±2.6 23.6±2.6 24.1±2.6 24.2±2.7 24.1±2.7 <0.0012
    SBP (mmHg) 139.5±22.5 78.5±6.6 91.5±2.7 108.4±4.7 125.9±5.5 144.6±5.3 164.0±5.0 188.2±14.8 <0.0012
    Smoking
     Current smoker 32 477 (34.5) 95 (30.0) 346 (34.0) 2810 (34.9) 13 006 (35.6) 9253 (33.7) 4570 (33.5) 2397 (34.0) <0.001
     Past smoker 44 086 (46.9) 161 (50.8) 460 (45.1) 3711 (46.1) 17 083 (46.7) 13 089 (47.7) 6412 (47.0) 3170 (45.0)
     Never smoker 17 522 (18.6) 61 (19.2) 213 (20.9) 1535 (19.1) 6481 (17.7) 5104 (18.6) 2647 (19.4) 1481 (21.0)
    Alcohol intake
     ≥5 times/wk 9603 (10.2) 31 (9.8) 62 (6.1) 640 (7.9) 3772 (10.3) 3052 (11.1) 1374 (10.1) 672 (9.5) <0.001
     1-4 times/wk 36 365 (38.7) 75 (23.7) 266 (26.1) 2637 (32.7) 14 183 (38.8) 11 304 (41.2) 5407 (39.7) 2493 (35.4)
     < 1 time/wk 34 351 (36.5) 113 (35.6) 421 (41.3) 3255 (40.4) 13 441 (36.8) 9654 (35.2) 4855 (35.6) 2612 (37.1)
     Non-drinker 13 766 (14.6) 98 (30.9) 270 (26.5) 1524 (18.9) 5174 (14.1) 3436 (12.5) 1993 (14.6) 1271 (18.0)
    Physical activity
     Yes 29 530 (31.4) 125 (39.4) 417 (40.9) 2628 (32.6) 11 044 (30.2) 8275 (30.2) 4461 (32.7) 2580 (36.6)
    BMI (kg/m2)
     < 18.5 2136 (2.3) 33 (10.4) 95 (9.3) 392 (4.9) 840 (2.3) 401 (1.5) 226 (1.7) 149 (2.1) <0.001
     18.5-24.9 63 274 (67.3) 229 (72.2) 773 (75.9) 6255 (77.6) 25 789 (70.5) 17 528 (63.9) 8359 (61.3) 4341 (61.6)
     ≥ 25 28 675 (30.5) 55 (17.4) 151 (14.8) 1409 (17.5) 9941 (27.2) 9517 (34.7) 5044 (37.0) 2558 (36.3)
    Household income (Korean won)
     < 500 000 11 010 (11.7) 79 (24.9) 161 (15.8) 887 (11.0) 3623 (9.9) 2944 (10.7) 1998 (14.7) 1318 (18.7) <0.001
     500 000-990 000 18 563 (19.7) 83 (26.2) 231 (22.7) 1484 (18.4) 6215 (17.0) 5380 (19.6) 3293 (24.2) 1877 (26.6)
     1 000 000-1 490 000 22 597 (24.0) 70 (22.1) 231 (22.7) 1895 (23.5) 8417 (23.0) 6752 (24.6) 3449 (25.3) 1783 (25.3)
     ≥ 1 500 000 41 915 (44.6) 85 (26.8) 396 (38.9) 3790 (47.0) 18 315 (50.1) 12 370 (45.1) 4889 (35.9) 2070 (29.4)
    Prevalent self-reported diseases
     Ischemic heart diseases 13 642 (14.5) 56 (17.7) 155 (15.2) 1002 (12.4) 3820 (10.4) 4213 (15.4) 2734 (20.1) 1662 (23.6) <0.001
     Stroke 5148 (5.5) 17 (5.4) 35 (3.4) 289 (3.6) 1431 (3.9) 1755 (6.4) 1006 (7.4) 615 (8.7) <0.001
     Diabetes 20 355 (21.6) 60 (18.9) 142 (13.9) 1158 (14.4) 5990 (16.4) 6627 (24.1) 3922 (28.8) 2456 (34.8) <0.001
     Hyperlipidemia 16 126 (17.1) 39 (12.3) 105 (10.3) 907 (11.3) 4565 (12.5) 5423 (19.8) 3288 (24.1) 1799 (25.5) < 0.001
    Age (y) SBP (mmHg) All-cause mortality
    Vascular mortality (I00-I99)2
    No. of deaths Crude rate3 p-value HR 95% CI No. of deaths Crude rate3 p-value HR 95% CI
    Total < 90 35 1830 0.14 1.29 0.92,1.82 7 366 0.04 2.23 1.02, 4.89
    90-99 97 1563 0.03 1.28 1.03,1.59 7 113 0.68 0.85 0.39, 1.86
    100-119 523 1048 1.00 Reference 59 118 1.00 Reference
    120-139 2178 956 0.96 1.00 0.91, 1.10 304 133 0.12 1.25 0.94, 1.65
    140-159 1647 962 0.89 0.99 0.90, 1.10 313 183 0.003 1.53 1.16, 2.03
    160-179 878 1034 0.62 1.03 0.92, 1.15 150 177 0.04 1.38 1.02, 1.87
    ≥180 568 1305 0.002 1.21 1.07, 1.37 121 278 <0.001 1.93 1.41, 2.65
    ≥60 < 90 19 3476 0.006 1.93 1.20, 3.10 5 915 0.02 3.24 1.24, 8.42
    90-99 32 1846 0.33 1.21 0.83, 1.75 1 58 0.23 0.29 0.04, 2.14
    100-119 187 1408 1.00 Reference 27 203 1.00 Reference
    120-139 842 1353 0.41 1.07 0.91,1.25 150 241 0.15 1.35 0.89, 2.04
    140-159 679 1323 0.79 1.02 0.87, 1.20 129 251 0.27 1.27 0.83, 1.92
    160-179 347 1474 0.30 1.10 0.92, 1.31 61 259 0.40 1.22 0.77, 1.92
    ≥180 220 1847 0.01 1.30 1.07, 1.58 55 462 0.006 1.93 1.21, 3.07
    < 60 < 90 16 1171 0.71 0.91 0.55, 1.50 2 146 0.81 1.19 0.28, 4.98
    90-99 65 1453 0.04 1.32 1.01, 1.73 6 134 0.60 1.26 0.53, 3.02
    100-119 336 917 1.00 Reference 32 87 1.00 Reference
    120-139 1336 806 0.59 0.97 0.86, 1.09 154 93 0.42 1.17 0.80, 1.71
    140-159 968 808 0.78 0.98 0.87, 1.11 184 154 0.002 1.80 1.23, 2.62
    160-179 531 865 0.89 0.99 0.86, 1.14 89 145 0.04 1.52 1.01, 2.29
    ≥180 348 1100 0.04 1.17 1.01, 1.36 66 209 0.002 1.95 1.28, 2.99
    Table 1. Characteristics of the older middle-aged Korean men by SBP group

    Values are presented as mean±standard deviation or number (%).

    SBP, systolic blood pressure; BMI, body mass index.

    Chi-squared test between SBP groups.

    One-way ANOVA between SBP groups.

    Table 2. Numbers of deaths and adjusted1 HR for mortality by age group among older middle-aged Korean men during 2004-2010

    SBP, systolic blood pressure; CI, confidence interval; HR, hazard ratio.

    Age at study entry, smoking status, alcohol intake status, physical activity, household income, prevalent self-reported ischemic heart diseases, prevalent self-reported stroke, and body mass index.

    Vascular diseases (I00-I99) was defined by the International Classification of Disease, 10th revision.

    Crude death rate per 100 000 person-years.


    JPMPH : Journal of Preventive Medicine and Public Health
    TOP