Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-24T12:28:42.073Z Has data issue: false hasContentIssue false

Genetic Variance and Heritability of Cardiovascular Risk Factors in Chinese Adolescent Twins

Published online by Cambridge University Press:  01 August 2014

C.J. Chen*
Affiliation:
Institute of Public Health, National Taiwan University College of Medicine, Taipei, Taiwan
B.H. Cohen
Affiliation:
Department of Epidemiology, The Johns Hopkins University School of Hygiene and Public Health, Baltimore, Maryland
E.L. Diamond
Affiliation:
Department of Epidemiology, The Johns Hopkins University School of Hygiene and Public Health, Baltimore, Maryland
T.M. Lin
Affiliation:
Institute of Public Health, National Taiwan University College of Medicine, Taipei, Taiwan
J.S. Chen
Affiliation:
Department of Clinical Pathology, National Taiwan University Hospital, Taipei, Taiwan
*
Institute of Public Health, National Taiwan University College of Medicine, Taipei, Taiwan100

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In order to estimate genetic variance and heritability of systolic blood pressure (SBP), diastolic blood pressure (DBP), serum cholesterol and triglyceride levels, a total of 235 (79 male and 82 female MZ, 41 male and 33 female DZ) twin pairs, recruited from 12 junior high schools in Taipei city, were studied. Statistically significant genetic variance observed for SBP, DBP, serum cholesterol and triglycerides persisted after adjustment for age and anthropometric characteristics. However, further adjustment for dietary preference, beverage consumption, and other host and environmental factors gave different results: genetic variance of adjusted SBP and DBP was still significant, while significance was found only in males for cholesterol and in neither males nor females for triglycerides. Heritability estimates of unadjusted SBP, DBP, cholesterol and triglycerides were 0.27, 0.45, 0.21 and 0.41, respectively, for males, and 0.15, 0.42, 0.41 and 0.82, respectively, for females. After adjustment for age, anthropometric characteristics, host and environmental factors, the heritability estimates of SBP, DBP and cholesterol were 0.64, 0.72 and 0.50, respectively, for males, and 0.40, 0.60 and 0.37, respectively, for females.

Type
Research Article
Copyright
Copyright © The International Society for Twin Studies 1984

References

REFERENCES

1.Annest, JL, Sing, CF, Biron, P, et al (1979): Familial aggregation of blood pressure and weight in adoptive families. II. Estimation of the relative contributions of genetic and common environmental factors to blood pressure correlations between family members. Am J Epidemiol 110: 492.CrossRefGoogle ScholarPubMed
2.Barcal, R, Simon, J, Sova, J (1969): Blood-pressure in twins. Lancet 1:1321.CrossRefGoogle ScholarPubMed
3.Berg, K (1981): Twin research in coronary heart disease. In Gedda, L, Parisi, P, Nance, WE (eds): Twin Research 3: Part C, Epidemiological and Clinical Studies. New York: Alan R Liss, p 117.Google Scholar
4.Blomstrand, R, Lundman, T (1966): Serum lipids, smoking and heredity. Acta Med Scand (suppl) 445:51.CrossRefGoogle Scholar
5.Borhani, NO, Feinleib, M, Garrison, RJ, et al (1976): Genetic variance in blood pressure. Acta Genet Med Gemellol 25:137.CrossRefGoogle ScholarPubMed
6.Chen, C (1982); A twin study of blood pressure, serum cholesterol and triglycerides levels in Chinese adolescents. Doctorate thesis. The Johns Hopkins University School of Hygiene and Public Health, Baltimore, Maryland.Google Scholar
7.Christian, JC, Feinleib, M, Hulley, SB, et al (1976): Genetics of plasma cholesterol and triglycerides: a study of adult male twins. Acta Genet Med Gemellol 25:145.Google Scholar
8.Christian, JC, Kang, KW, Norton, JA Jr (1976): Choice of an estimate of genetic variance from twin data. Am J Hum Genet 26:154.Google Scholar
9.Christian, JC, Norton, JA Jr (1977): A proposed test of the difference between the means of monozygotic twins. Acta Genet Med Gemellol 26:49.Google Scholar
10.Christian, JC (1979): Testing twin means and estimating genetic variance: basic methodology for the analysis of quantitative twin data. Acta Genet Med Gemellol 28:35.Google ScholarPubMed
11.Corey, LA, Kang, KW, Christian, JC, et al (1976): Effects of chorion type on variation in cord blood cholesterol of monozygotic twins. Am J Hum Genet 28:433.Google ScholarPubMed
12.Cruz-Coke, R, Nagel, R, Etcheverry, R (1964): Effects of locus MN on diastolic blood pressure in a human population. Ann Hum Genet 28:39.CrossRefGoogle Scholar
13.Duccini Dal Colletto, GM, Krieger, H, Magalhaes, JR (1981): Estimates of genetic and environmental determinants of serum lipid and lipoprotein concentrations in Brazilian twins. Hum Hered 31:132.Google ScholarPubMed
14.De Faire, U, Theorell, T (1978): Cardiovascular reactions during psychiatric interview in twins discordant and concordant with respect to ischemic heart disease. In Nance, WE (ed): Twin Research Psychology and Methodology. New York: Alan R Liss, p 63.Google Scholar
15.Deutscher, S, Ostrander, LD, Epstein, FH (1970): Familial factors in premature coronary heart disease - A preliminary report from the Tecumseh Community Health Study. Am J Epidemiol 91:233.Google Scholar
16.Downie, WW, Boyle, JA, Greig, WR, et al (1969): Relative roles of genetic and environmental factors in control of blood pressure in normotensive subjects. Brit Heart J 31:21.CrossRefGoogle ScholarPubMed
17.Elston, RC, Boklage, CE (1978): An examination of fundamental assumptions of the twin method. In Nance, WE (ed): Twin Research: Psychology and Methodology. New York: Alan R Liss, p 189.Google Scholar
18.Eysenck, SBG (1965): Manual of the Junior Eysenck Personality Inventory. London: University of London Press.Google Scholar
19.Falconer, DS (1960): Quantitative Genetics. New York: Ronald.Google Scholar
20.Frederickson, DS (1975): Genetic basis of hyperlipoproteinemia. In National Heart and Lung Institute. Report by the Task Force on Genetic Factors in Atherosclerotic Diseases. Washington DC: US Government Printing Office. DHEW Pub. No. (NIH) 76-922, p 11.Google Scholar
21.Garrison, RJ, Castelli, WP, Feinleib, M, et al (1979): The association of total cholesterol, triglycerides and plasma lipoprotein cholesterol levels in first degree relatives and spouse paris. Am J Epidemiol 110:313321.CrossRefGoogle Scholar
22.Gedda, L, Poggi, D (1960): Sulla regolazione genetica del colesterolo ematico: uno studio su 50 coppie gemellari MZ e 50 coppie DZ. Acta Genet Med Gemellol 9:135.Google Scholar
23.Gertler, MM, White, PD (1951): Coronary heart disease in young adults: a multidisciplinary study. Cambridge, Mass.: Harvard University Press.Google Scholar
24.Godfrey, RC, Stenhouse, NS, Cullen, RJ, et al (1972): Cholesterol and the child: studies of the cholesterol levels of Busselton school children and their parents. Austral Paediat J 8:72.Google ScholarPubMed
25.Haseman, JK, Elston, RC (1970): The estimation of genetic variance from twin data. Behav Genet 1:11.Google Scholar
26.Havlik, RJ, Garrison, RJ, Feinleib, M, et al (1979): Blood pressure aggregation in families. Am J Epidemiol 110:304.CrossRefGoogle ScholarPubMed
27.Havlik, RJ, Garrison, RJ, Katz, SH, et al ( 1979): Detection of genetic variance in blood pressure of seven-year-old twins. Am J Epidemiol 109:512.Google Scholar
28.Heiberg, A (1974): The heritability of serum lipoprotein and lipid concentrations: a twin study. Clin Genet 6:307.Google Scholar
29.Heilberg, A, Magnus, P, Berg, K, et al (1981): Blood pressure in Norwegian twins. In Gedda, L, Parisi, P, Nance, WE (eds): Twin Research 3: Epidemiological and Clinical Studies. New York: Alan R Liss, 163.Google Scholar
30.Hewitt, D, Milner, J, Breckenridge, C, et al (1976): A twin study on the heritability of lipoprotein fractions. Acta Genet Med Gemellol 25:150.CrossRefGoogle ScholarPubMed
31.Hines, EA, McIlhaney, ML, Gage, RP (1957): A study of twins with normal blood pressures and with hypertension. Trans Assoc Am Physicians 70:282.Google Scholar
32.Ibsen, KK, Grondaek, M (1971): Familial aggregation of blood pressure levels in newborn infants and their mothers. In Ginovanneli, G (ed): Hypertension in Children and Adolescents. New York: Raven Press, p 329.Google Scholar
33.Jensen, J, Blankenborn, DH, Chin, MP, et al (1965): Serum lipids and serum uric acid in human twins. J Lipid Research 6:193.Google Scholar
34.Johnson, BC, Epstein, FH, Kjelsberg, MO (1965): Distributions and familial studies of blood pressure and serum cholesterol levels in a total community - Tecumseh, Michigan. J Chron Dis 18:147.CrossRefGoogle Scholar
35.Kannel, WB, Dawber, TR, McNamara, PM (1966): Detection of the coronaryprone adult: The Framingham Study. J Iowa Med Soc 56:24.Google ScholarPubMed
36.Kempthorne, O, Osborne, RH (1961): The interpretation of twin data. Am J Hum Genet 13:320.Google Scholar
37.Lilienfeld, AM (1959): A methodological problem in testing a recessive genetic hypothesis in human disease. Am J Public Health 49:199.Google Scholar
38.Lilienfeld, AM (1961): Problems and areas in genetic-epidemiologic field studies. Ann New York Acad Sci 91:797.Google Scholar
39.Lundman, T (1966): Smoking in relation to coronary heart disease and lung function in twins. Acta Med Scand (suppl.) 455:1.Google ScholarPubMed
40.Martin, AO, Kurczynski, TW, Steinberg, AG (1973): Familial studies of medical and anthropometric variables in a human isolate. Am J Hum Genet 25:584.Google Scholar
41.Mathers, JA, Osborne, RH, DeGeorge, FV (1961): Studies of blood pressure, heart rate, and the electrocardiogram in twins. Am Heart J 62:634.Google Scholar
42.McDonough, JR, Harnes, CG, Greenberg, BG, et al (1962): Observations on serum cholesterol levels in the twin population of Evans County, Georgia. Circulation 25:962.CrossRefGoogle Scholar
43.McIlhany, ML, Shaffer, JW, Hines, EA (1975): The heritability of blood pressure: an investigation of 200 pairs of twins using the cold pressor test. Johns Hopkins Med J 136:57.Google Scholar
44.Meyer, K (1962): Serum cholesterol and heredity: a twin study. Acta Med Scand 172:401.CrossRefGoogle ScholarPubMed
45.Miall, WE, Oldham, PD (1958): Factors influencing arterial blood pressure in the general population. Clin Sci 17:409.Google Scholar
46.Miall, WE, Kass, EH, Ling, J, et al (1962): Factors influencing arterial pressure in the general population in Jamaica. Brit Med J 2:497.Google Scholar
47.Miall, WE, Oldham, PD (1963): The hereditary factor in arterial blood-pressure. Brit Med J 1:75.Google Scholar
48.Nance, WE, Kriger, H, Azevedo, E, et al (1965): Human blood pressure and the ABO blood group system: an apparent association. Hum Biol 37:238.Google Scholar
49.National Heart, Lung and Blood Institute (1977): Report of the Task Force on Blood Pressure Control in Children. Pediatrics 59 (suppl) 5:797.Google Scholar
50.Nies, A, Robinson, DS, Lamborn, KR, et al (1973): Genetic control of platelet and plasma monoamine oxidase activity. Arch Gen Psychiat 28:834.CrossRefGoogle ScholarPubMed
51.Nora, JJ, Lortscher, RH, Splangler, RD, et al (1980): Generic-epidemiologic study of early-onset ischemic heart disease. Circulation 61:503.CrossRefGoogle ScholarPubMed
52.Orchard, TJ, Rodgers, M, Hedley, AJ, et al (1981): Serum lipids in a teenage population: Geographic, seasonal and familial factors. Int J Epidemiol, 10:161.Google Scholar
53.Osborne, RH, Adlersberg, D, DeGeorge, FV, et al (1959): Serum lipids, heredity and environment: a study of adult twins. Am J Med 26:54.Google Scholar
54.Osborne, RH, DeGeorge, FV, Mathers, JA L (1963): The variability of blood pressure: basal and casual measurement in adult twins. Am Heart J 66:176.Google Scholar
55.Pena, GA, Adler, G (1960): ABO groups in the accelerated form of hypertension. Ann Intern Med 53:84.Google Scholar
56.Phillips, RL, Lilienfeld, AM, Diamond, EL, et al (1974): Frequency of coronary heart disease and cerebrovascular accidents in parents and sons of coronary heart disease index cases and controls. Am J Epidemiol 100:87.CrossRefGoogle ScholarPubMed
57.Pikkarainen, J, Takkunen, J, Kulonen, E (1966): Serum cholesterol in Finnish twins. Am J Hum Genet 18:125.Google ScholarPubMed
58.Platt, R (1963): Heredity in hypertension. Lancet 1:902.Google Scholar
59.. Rapp, JP, Dahl, LK (1976): Mutant forms of cytochrome P-450 controlling both 18- and 11-steroid hydroxilation in the rat. Biochem 15:1235.Google Scholar
60.Rifkind, BM, Boyle, JA, Gale, M, et al (1968): Study of serum lipid levels in twins. Cardiovasc Res 2:148.CrossRefGoogle ScholarPubMed
61.Rissanen, AM, Nikkila, EA (1977): Coronary artery disease and its risk factors in families of young men with angina pectoris and in controls. Brit Heart J 39:875.Google Scholar
62.Rose, G (1964): Familial patterns in ischaemic heart disease. Brit J Prev Soc Med 18:75.Google Scholar
63.Russek, HI, Zohamn, BL (1958): Relative significance of heredity, diet and occupational stress in coronary heart disease of young adults, based on an analysis of 100 patients between the ages of 25 and 40 years and a similar group of 100 normal control subjects Am J Med Sci 235:266.Google Scholar
64.Schaeffer, LE, Adlersberg, D, Steinberg, AG (1958): Heredity, environment, and serum cholesterol: a study of 201 healthy families. Circulation 17:537.Google Scholar
65.Schwartz, JT (1968): Twin studies in ophthalmology, hereditary and environmental determinants of eye disease. Am J Ophthalmol 66:323.CrossRefGoogle ScholarPubMed
66.Shanoff, HM, Little, A, Murphy, EA, et al (1961): Studies of male survivors of myocardial infarction due to “essential” atherosclerosis. I. Characteristics of the patients. Can Med Assoc J 84:519.Google Scholar
67.Shear, CL, Frerichs, RR, Weinberg, R, et al (1978): Childhood sibling aggregation of coronary artery disease risk factor variables in a biracial community. Am J Epidemiol 107:522.Google Scholar
68.Sing, CF, Orr, JD (1978): Analysis of genetic and environmental sources of variation in serum cholesterol in Tecumseh, Michigan. IV. Separation of polygene from common environment effects. Am J Hum Genet 30:491.Google Scholar
69.Slack, J, Evans, KA (1966): The increased risk of death from ischaemic heart disease in first degree relatives of 121 men and 96 women with ischaemic heart disease. J Med Genet 3:239.CrossRefGoogle ScholarPubMed
70.Smith, RT (1965): A comparison of socioenvironmental factors in monozygotic and dizygotic twins: testing an assumption. In Vandenberg, SG (ed): Methods and Goals in Human Behavior Genetics. New York: Academic Press, p 45.CrossRefGoogle Scholar
71.Snowden, CB, McNamara, PM, Garrison, RJ, et al (1982): Predicting coronary heart disease in siblings - A multivariate assessment: The Framingham Heart Study. Am J Epidemiol 115:217.Google Scholar
72.Suri, VP, Singh, D, Tandon, OP (1966): Familial patterns in coronary artery disease. Indian J Med Sci 20:321.Google Scholar
73.Thomas, CB, Cohen, BH (1955): The familial occurrence of hypertension and coronary artery disease, with observations concerning obesity and diabetes. Ann Intern Med 42:90.Google Scholar
74.Thordarson, O, Fridriksson, (1979): Aggregation of deaths from ischaemic heart disease among first and second relatives of 108 males and 42 females with myocardial infarction. Acta Med Scand 205:493.Google Scholar
75.Tseng, W-P (1967): Blood pressure and hypertension in an agricultural and a fishing population in Taiwan. Am J Epidemiol 86:513.CrossRefGoogle Scholar
76.Van der Molen, R, Brewer, G, Honeyman, MS, et al (1970): A study of hypertension in twins. Am Heart J 79:454.Google Scholar
77.Weinberg, R, Avet, LM, Gardner, MJ (1976): Estimates of the heritability of serum lipoprotein and lipid concentrations. Clin Genet 9:588.Google Scholar
78.Weinshilboum, RM, Raymond, FA, Elveback, LR, et al (1973): Serum dopamine-β-hydroxylase activity: sibling-sibling correlation. Science 181:943.Google Scholar
79.Weinshilboum, R, Raymond, FA (1977): Inheritance of low erythrocyte catechol-0-methyltransferase activity in man. Am J Hum Genet 29:125.Google Scholar
80.Wiesenfeld, SL, Petrrakis, ML, Sams, BT, et al (1970): Elevated blood pressure, pulse rate and serum creatine in Negro males deficient in glucose-6-phosphate dehydrogenase. N Engl J Med 282:1001.Google Scholar
81.Woods, JW, Falk, RJ, Pittman, AW, et al (1982): Increased red-cell sodium-lithium countertransport in normotensive sons of hypertensive parents. N Engl J Med 36:593.CrossRefGoogle Scholar
82.World Health Organization (1966): The use of twins in epidemiological study: Report of a WHO meeting of investigators. Acta Genet Med Gemellol 15:109.Google Scholar
83.Yamori, Y, Oshima, A, Okamoto, K (1972): Genetic factors involved in spontaneous hypertension in rats: an analysis of F2 segregate generation. Japan Circulation J 36:561.CrossRefGoogle ScholarPubMed
84.Zinner, SH, Levy, PS, Kass, EH (1971): Familial aggregation of blood pressure in childhood. N Engl J Med 284:401.Google Scholar
85.Zinner, SH, Margolius, HS, Rosner, B, et al (1977): Eight-year longitudinal study of blood pressure and urinary kallikrein in childhood. Clin Res 25:266A.Google Scholar