Height in Young Adulthood and Risk of Death from Cardiorespiratory Disease: A Prospective Study of Male Former Students of Glasgow University, Scotland
Peter McCarron1,
Mona Okasha2,
James McEwen3 and
George Davey Smith2
1 Surveillance Research Program, Division of Cancer Control and Population Sciences, National Cancer Institute, Bethesda, MD.
2 Department of Social Medicine, University of Bristol, Bristol, United Kingdom.
3 Department of Public Health, University of Glasgow, Glasgow, United Kingdom.
 |
ABSTRACT
|
---|
To investigate the association between height in young, socially homogeneous males and cause-specific mortality, the authors conducted a prospective study of 8,361 male former students who underwent medical examinations while attending Glasgow University, Scotland, from 1948 to 1968. The mean age at examination was 20.5 (range, 16.130.0) years. The median follow-up time was 41.3 years. There were 863 deaths. In Cox proportional hazards modeling, there was no association between height and all-cause mortality with age-adjusted hazard ratios per 10-cm increase in height (hazard ratio = 0.92, 95% confidence interval: 0.83, 1.02). Height was inversely associated with all cardiovascular disease and coronary heart disease mortality, with hazard ratios per 10-cm increase in height of 0.78 (95% confidence interval: 0.66, 0.93) and 0.76 (95% confidence interval: 0.62, 0.93), respectively. Sizeable inverse associations with stroke and respiratory disease were also found, although these did not reach conventional levels of significance. There was no association with cancer or noncardiorespiratory disease mortality. There was a positive, although nonsignificant, association between height and mortality from aortic aneurysm. Controlling for confounding variables had little effect on these results. The findings suggest that factors operating in early life, and which influence height, also influence future cardiovascular health in men.
cardiovascular diseases; cohort studies; coronary disease; mortality; neoplasms
 |
INTRODUCTION
|
---|
Several studies have examined the association between adult height and cardiovascular disease, with many (1







10
), but not all (11
), reporting inverse associations. Height-cancer associations are less consistent (2
, 4
, 12
). Potential explanations include the following. 1) Adult height reflects growth, nutrition, infections, and socioeconomic circumstances in early life, and inverse associations between height and cardiovascular disease mortality are consistent with the positive associations between such early life factors and cardiovascular disease risk (13


17
). Conversely, the positive associations between height and cancer suggest that high childhood calorie intake increases cancer risk (18
, 19
). 2) Height is positively correlated with socioeconomic position in adulthood, suggesting that socially patterned exposures in adulthood, which include health behaviors, and psychosocial and environmental factors, along with their physiologic consequences, could account for the associations between height and cardiovascular disease. 3) The early stages of disease could lead to reductions in height, thus generating the inverse association with cardiovascular disease (4
).
It is important to establish which of these hypotheses is most plausible. Using height data collected in a young, relatively socially homogeneous population, we can exclude or at least cast doubt on the second and third of these hypotheses. Any associations uncovered would therefore point more convincingly to the importance of early life factors in determining both height and later disease risk.
 |
MATERIALS AND METHODS
|
---|
Full details of the study methods are presented elsewhere (20
). Briefly, students attending Glasgow University from 1948 to 1968 were invited to participate in annual medical examinations. The data collected included height, weight, blood pressure, sociodemographic data, and details of health behaviors. Childhood socioeconomic position was assigned by coding the father's occupation into social class, a five-point scale from I (most affluent) to V (least affluent), using the Registrar General's classification (21
, 22
). Participants were traced through the National Health Service Central Register of the United Kingdom. Because there were few female deaths, analyses are confined to males and include deaths up to December 31, 1998. Cox proportional hazards models were used to estimate the association between height measured at baseline and death from all causes, cardiovascular disease, coronary heart disease, stroke, respiratory disease, and all causes other than cardiovascular or respiratory disease (noncardiorespiratory disease). The association between height and mortality from ruptured aortic aneurysm was also investigated. In multivariable analyses we adjusted for smoking (yes, no), systolic blood pressure (mmHg), body mass index (kg/m2), father's social class (categorical variables IV), and quintile of year of birth to control for any cohort effect. Analyses were performed on Stata 6.0 software (23
).
 |
RESULTS
|
---|
A total of 11,755 male students (almost 50 percent of the male student population from 1948 to 1968) who stated their nationality to be British and gave a home address in the United Kingdom participated in the health surveys. Of these, 9,887 (84.1 percent) have been traced. The median follow-up was 41.3 years. The mean age at the time of examination was 20.5 (range, 16.130.0) years, and the mean height was 174.8 (standard deviation, 6.33) cm. Because age-adjusted results were similar for the full cohort and for the 8,361 persons with data on confounding variables, we report only the latter here.
The characteristics of the population according to height are presented in table 1. There was no association between height and age at screening. Taller students had slightly higher systolic blood pressure, similar diastolic blood pressure, and slightly lower body mass index compared with shorter men. They were less likely to be nonsmokers and more likely to come from social classes I and II than were shorter students.
View this table:
[in this window]
[in a new window]
|
TABLE 1. Distribution of risk factors* according to height in 8,361 males attending Glasgow University, Scotland, 19481968
|
|
There were 863 deaths. Hazard ratios by height quintile and per 10-cm increase in height are shown in table 2. There were strong inverse associations between height and mortality from all cardiovascular disease and coronary heart disease, equivalent to respective mortality reductions of 23 percent and 25 percent per 10-cm increase in height. For stroke and respiratory disease mortality, there were also substantial inverse associations, although these failed to reach conventional levels of statistical significance. Noncardiorespiratory disease mortality showed no association with height. Controlling for potential confounding variables made little difference in these results.
View this table:
[in this window]
[in a new window]
|
TABLE 2. Hazard ratios for cause of death by height by 8,361 in males attending Glasgow University, Scotland, 19481968
|
|
A positive association between height and mortality from ruptured aortic aneurysm was found for the eight men who died from this cause, although this was not significant at conventional levels: the hazard ratio per 10-cm increase in height = 1.63 (95 percent confidence interval: 0.55, 4.84). Controlling for confounding slightly strengthened this association to 1.85 (95 percent confidence interval: 0.58, 6.10).
 |
DISCUSSION
|
---|
In this study, height measured in young adulthood was inversely associated with later cardiorespiratory disease mortality in males, with evidence of a positive association between height and mortality from ruptured aortic aneurysm. These findings are similar in magnitude to those from studies in which height was measured in middle age (2
, 24
).
The current study is large and has a long follow-up, and data on several important confounders are available. Participating students were likely to be representative of all male students, and traced students were representative of those who originally participated (20
). Although participants were, on average, from more affluent social circumstances than was the general population, the mechanisms responsible for the findings are likely to be generalizable.
Height was measured when cohort members were young and likely to have been free of chronic disease. Although we do not have details on how height was measured, correlations between heights ranged from 0.92 to 0.97 (p < 0.001) for those who had 24 repeat yearly measurements. Perfect correlation would not be expected because some students had not reached their final height at the time of examination. Errors in measurement are unlikely to have biased the results and would, if anything, attenuate the risks reported here. The generalizabilty of the findings may be limited by the absence of non-White students and because we can report only robust height-mortality associations in men.
Several possible explanations for the results must be considered. It is unlikely that confounding by socially patterned exposures in adulthood could explain the inverse association between height and cardiorespiratory disease mortality, because noncardiorespiratory disease deaths would also have been influenced by the same potential unmeasured confounders. The lack of association between height and smoking-related cancers (25
), which are known to be strongly socially patterned, provides further evidence that the effects are not simply confounded by adult socioeconomic position and its attendant exposures. Finally, with less than 5 percent of school leavers at university in Scotland over the period of this study (26
) and over 75 percent of graduates from the United Kingdom in social classes I and II in the 1970s (27
), differential social patterning of adulthood exposures is itself unlikely, further limiting the possibility of confounding due to socially patterned exposures.
Data on serum lipids were not available, but controlling for lipid levels has been shown to have little effect on the associations between height and cardiovascular disease (28
30
). Taller students had higher systolic blood pressure than did shorter students. Blood pressure measured in early adulthood in this cohort is positively associated with later cardiovascular disease mortality (31
); therefore, confounding by blood pressure would produce associations with cardiovascular disease mortality in the opposite direction to those observed.
Because height was measured in early adulthood, we can rule out inverse associations due to shrinkage secondary to adult disease, and the need to adjust for the effect of cumulative loss of height with aging (32
) does not arise.
Data on fetal growth were not available, precluding investigation of the association among fetal development, adult height, and subsequent disease. However, two other studies have shown that adjustment for birth weight does not significantly modify the height-mortality relation (11
, 33
). Adult height is, in part, a reflection of growth, nutrition, and exposure to infectious diseases in childhood and, thus, of childhood socioeconomic circumstances. The childhood social circumstances of the current cohort were relatively heterogeneous: 55.9 percent came from social classes I and II, 36.7 percent were from social class III, and 7.4 percent were from the lowest two social classes. Early life social circumstances are inversely associated with cardiovascular disease mortality in this cohort (34
), and these associations persist after controlling for adult socioeconomic position (15
17
). The associations between fetal development, growth, and exposure to infections in childhood and childhood socioeconomic position may therefore contribute to our findings. It is not surprising that adjustment for father's social class has a limited effect on the height-mortality associations, because father's social class is a crude indicator of the socially patterned factors in childhood that may influence adult health, particularly among this group with a small proportion from lower manual class backgrounds.
The observed association between height and mortality from aortic aneurysm is in agreement with findings from other studies (24
, 35
, 36
). Unlike the incidence of most cardiovascular disease, the incidence of aortic aneurysm has been increasing (37
), suggesting that there may be important differences in the pathophysiology of these cardiovascular conditions (37
, 38
).
In summary, our findings suggest that factors related to growth and development in early life influence achieved adult height and also cardiorespiratory disease risk. An understanding of the mechanisms underlying these associations could usefully inform primary prevention strategies.
 |
ACKNOWLEDGMENTS
|
---|
Support for the present study was received from Chest Heart and Stroke (Scotland), Stroke Association, and NHS Management Executive, Cardiovascular Disease and Stroke Research and Development Initiative.
The authors would like to thank Alan Kerr, Christine Hamilton, and Heather Learmonth for data entry.
 |
NOTES
|
---|
Editor's note: An invited commentary on this article appears on page 688, and the authors' response appears on page 690.
Correspondence to Dr. Peter McCarron, N. Ireland Cancer Registry, Department of Epidemiology and Public Health, The Queen's University of Belfast, Mulhouse Building, Grosvenor Road, Belfast BT12 6BJ, United Kingdom (e-mail: mccarrop{at}mail.nih.gov).
 |
REFERENCES
|
---|
-
McCarron P, Greenwood R, Ebrahim S, et al. Adult height is inversely associated with ischaemic stroke. The Caerphilly and Speedwell Collaborative Studies. J Epidemiol Community Health 2000;54:23940.[Free Full Text]
-
Davey Smith G, Hart C, Upton M, et al. Height and risk of death among men and women: aetiological implications of associations with cardiorespiratory disease and cancer mortality. J Epidemiol Community Health 2000;54:97103.[Abstract/Free Full Text]
-
Wannamethee SG, Shaper AG, Whincup PH, et al. Adult height, stroke, and coronary heart disease. Am J Epidemiol 1998;148:106976.[Abstract]
-
Leon DA, Davey Smith G, Shipley M, et al. Adult height and mortality in London: early life, socioeconomic confounding, or shrinkage? J Epidemiol Community Health 1995;49:59.[Abstract]
-
Hebert PR, Rich-Edwards JW, Manson JE, et al. Height and incidence of cardiovascular disease in male physicians. Circulation 1993;88(part 1):143743.[Abstract]
-
Njolstad I, Arnesen E, Lund-Larsen PG. Body height, cardiovascular risk factors, and risk of stroke in middle-aged men and women. A 14-year follow-up of the Finnmark Study. Circulation 1996;94:287782.[Abstract/Free Full Text]
-
Strandberg TE. Inverse relation between height and cardiovascular mortality in men during 30-year follow-up. Am J Cardiol 1997;80:34950.[ISI][Medline]
-
Helmert U, Shea S. Relation between body height and self-reported myocardial infarction in Germany. Rev Environ Health 1997;12:12530.[Medline]
-
Davey Smith G, Shipley MJ, Rose G. Magnitude and causes of socioeconomic differentials in mortality: further evidence from the Whitehall Study. J Epidemiol Community Health 1990;44:26570.[Abstract]
-
Allebeck P, Bergh C. Height, body mass index and mortality: do social factors explain the association. Public Health 1992;106:37582.[ISI][Medline]
-
Rich-Edwards JW, Stampfer MJ, Colditz GA, et al. Height and the risk of cardiovascular disease in women. Am J Epidemiol 1995;142:90917.[Abstract]
-
Davey Smith G, Shipley M, Leon DA. Height and mortality from cancer among men: prospective observational study. BMJ 1998;317:13512.[Free Full Text]
-
Barker DJP. Mothers, babies and health in later life. London, United Kingdom: Churchill Livingstone, 1998.
-
Gunnell DJ, Davey Smith G, Frankel SJ, et al. Childhood leg length and adult mortality: follow up of the Carnegie (Boyd Orr) survey of diet and health in pre-war Britain. J Epidemiol Community Health 1998;52:14252.[Abstract]
-
Gillum RF, Paffenbarger RS. Chronic disease in former college students. XVII. Sociocultural mobility as a precursor of coronary heart disease and hypertension. Am J Epidemiol 1978;108:28998.[Abstract]
-
Frankel S, Davey Smith G, Gunnell D. Childhood socioeconomic position and adult cardiovascular mortality: the Boyd Orr cohort. Am J Epidemiol 1999;150:10814.[Abstract]
-
Davey Smith G, Hart C, Blane D, et al. Adverse socioeconomic conditions in childhood and cause-specific adult mortality: prospective observational study. BMJ 1998;316:16315.[Abstract/Free Full Text]
-
Frankel S, Gunnell DJ, Peters TJ, et al. Childhood energy intake and adult cancerthe Boyd Orr Cohort Study. BMJ 1998;316:499504.[Abstract/Free Full Text]
-
Albanes D. Height, early energy intake, and cancer. Evidence mounts for the relation of energy intake to adult malignancies. BMJ 1998;317:13312.[Free Full Text]
-
McCarron P, Davey Smith G, Okasha M, et al. Life course exposure and later disease: a follow-up study based on medical examinations carried out in Glasgow University (194868). Public Health 1999;113:26571.[ISI][Medline]
-
Registrar General. The Registrar-General's decennial supplement, England and Wales 1931. Part IIa. Occupational mortality. London, United Kingdom: Her Majesty's Stationery Office, 1931.
-
Registrar General. The Registrar-General's decennial supplement, England and Wales 1951. Part IIa. Occupational mortality. London, United Kingdom: Her Majesty's Stationery Office, 1951.
-
StataCorp. Stats statistical software: release 6.0. College Station, TX: Stata Corporation, 1998.
-
Strachan DP. Predictors of death from aortic aneurysm among middle-aged men: the Whitehall Study. Br J Surg 1991;78:4014.[ISI][Medline]
-
Okasha M, McCarron P, McEwen J, et al. Height and cancer mortality: results from the Glasgow University student cohort. Public Health 2000;114:4515.[ISI][Medline]
-
Higher education. (Robbins Report). Cmnd 2154. London, United Kingdom: Her Majesty's Stationery Office, 1963.
-
Office of Population Censuses and Surveys. The general household survey 1975. London, United Kingdom: Her Majesty's Stationery Office, 1978.
-
Njolstad I, Arnesen E, Lund-Larsen PG. Body height, cardiovascular risk factors, and risk of stroke in middle-aged men and women. A 14-year follow-up of the Finnmark Study. Circulation 1996;94:287782.[Abstract/Free Full Text]
-
Parker DR, Lapane KL, Lasater TM, et al. Short stature and cardiovascular disease among men and women from two southeastern New England communities. Int J Epidemiol 1998;27:9705.[Abstract]
-
Wannamethee SG, Shaper AG, Whincup PH, et al. Adult height, stroke, and coronary heart disease. Am J Epidemiol 1998;148:106976.[Abstract]
-
McCarron P, Davey Smith G, Okasha M, et al. Blood pressure in young adulthood and mortality from cardiovascular disease. Lancet 2000;355:14301.[ISI][Medline]
-
Sorkin JD, Muller DC, Andres R. Longitudinal change in the heights of men and women: consequential effects on body mass index. Epidemiol Rev 1999;21:24760.[ISI][Medline]
-
Yarnell JGW, Limb ES, Layzell JM, et al. Height: a risk marker for ischaemic heart disease. Eur Heart J 1992;13:16025.[Abstract]
-
Davey Smith G, McCarron P, Okasha M, et al. Social circumstances in childhood and cardiovascular disease mortality: prospective observational study of Glasgow University students. J Epidemiol Community Health 2001;55:3401.[Free Full Text]
-
Reed D, Reed C, Stemmermann G, et al. Are aortic aneurysms caused by atherosclerosis? Circulation 1992;85:20511.[Abstract]
-
Lederle FA, Johnson GR, Wilson SE, et al. The aneurysm detection and management study screening program: validation cohort and final results. Arch Intern Med 2000;160:142530.[Abstract/Free Full Text]
-
Melton LJ 3rd, Bickerstaff LK, Hollier LH, et al. Changing incidence of abdominal aortic aneurysms: a population-based study. Am J Epidemiol 1984;120:37986.[Abstract]
-
Davey Smith G, Shipley MJ, Marmot MG. Prognosis of intermittent claudication. In: Fowkes FGR, ed. Epidemiology of peripheral vascular disease. New York, NY: Springer-Verlag, Incorporated, 1991:31523.
Received for publication November 8, 2000.
Accepted for publication May 31, 2001.
Related articles in Am. J. Epidemiol.:
- Invited Commentary: Height-Cardiovascular Disease Relation: Where to Go from Here?
- Katsuyuki Miura, Hideaki Nakagawa, and Philip Greenland
Am. J. Epidemiol. 2002 155: 688-689.
[Extract]
[FREE Full Text]
- McCarron et al. Respond to "Height-Cardiovascular Disease Relation": Are All Risk Factors Equal?
- Peter McCarron, Mona Okasha, James McEwen, and George Davey Smith
Am. J. Epidemiol. 2002 155: 690-691.
[Extract]
[FREE Full Text]