Abstract
Variability is a normative property of blood pressure necessary for survival which likely contributes to morbidity and mortality through allostatic load. Because of its allostatic and adaptive properties blood pressure responses to peculiar situations like the visit to the clinic can lead to the misdiagnosis of hypertension. Cuff methods of blood pressure measurement can also create blood pressure variation when there really is none. There are also physiological differences between populations related to their evolutionary history that likely further affect the extent of population differences in 24-h blood pressure variability. Quantifying the sources and extent of blood pressure variability can be done using natural experimental models and through the evaluation of ecological momentary data. It is very likely that the results of population studies of blood pressure variability and morbidity and mortality risk are inconclusive because the parameters used to assess blood pressure variability do not reflect the actual nature of blood pressure allostasis.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Anderson NB, Lane LD, Muranaka M, Williams RB Jr, Houseworth SJ (1988) Racial differences in blood pressure and forearm vascular responses to the cold face stimulus. Psychosom Med 50:57–63
Asayama K, Fang-Fei W, Hara A, Hansen TW, Li Y, Staessen JA (2015) Prognosis in relation to blood pressure variability; con side of the argument. Hypertension 65:1170–1179. doi:10.1161/HYPERTENSIONAHA.115.04808
Ayman D, Goldshine AD (1940) Blood pressure determinations by patients with essential hypertension: the difference between clinic and home readings before treatment. Am J Med Sci 200:465–474
Bevan AT, Honor AJ, Stott FH (1969) Direct arterial pressure recording in unrestricted man. Clin Sci 36:329–344
Blank SG, Mann SJ, James GD, West JE, Pickering TG (1995) Isolated elevation of diastolic blood pressure: real or artifact? Hypertension 26:383–389
Brondolo E, Karlin W, Alexander K, Bubrow A, Schwartz J (1999) Workday communication and ambulatory blood pressure: implications for the reactivity hypothesis. Psychophysiology 36:86–94
Brown DE, James GD, Nordloh L (1998) Comparison of factors affecting daily variation of blood pressure in Filipino-American and Caucasian nurses in Hawaii. Am J Phys Anthropol 106:373–383
Cochran WG (1977) Sampling techniques. Wiley, New York
Comstock GW (1957) An epidemiological study of blood pressure levels in a biracial community in the southern United States. Am J Hyg 65:271–315
Flores JS (2013) Blood pressure variability: a novel and important risk factor. Can J Cardiol 29:557–563
Gerin W, James GD (2010) Psychosocial determinants of hypertension: laboratory and field models. Blood Press Monit 15:93–99
Gump BB, Polk DE, Kamarck TW, Shiffman S (2001) Partner interactions are associated with reduced blood pressure in the natural environment: ambulatory blood pressure monitoring evidence from a healthy, multiethnic adult sample. Psychosom Med 63:423–433
Hanna JM, Brown DA (1979) Human heat tolerance: biological and cultural adaptations. Yearb Phys Anthropol 22:163–186
Hansen TW, Thijs L, Li Y, Boggia J, Kikuya M, Björklund-Bodegård K et al (2010) Prognostic value of reading-to-reading blood pressure variability over 24 hours in 8938 subjects from 11 populations. Hypertension 55:1049–1057
Hinman AT, Engel BT, Bickford AF (1962) Portable blood pressure recorder: accuracy and preliminary use in evaluating intra-daily variation in pressure. Am Heart J 63:663–668
Ice GH, James GD, Crews DE (2003) Blood pressure variation in the institutionalized elderly. Coll Antropol 27:47–55
James GD (1991) Blood pressure response to the daily stressors of urban environments: methodology, basic concepts, and significance. Yearb Phys Anthropol 34:189–210
James GD (2007) Evaluation of journals, diaries, and indexes of worksite and environmental stress. In: White WH (ed) Clinical hypertension and vascular disease: blood pressure monitoring in cardiovascular medicine and therapeutics, 2nd edn. The Humana Press, Totowa, pp 39–58
James GD (2010) Climate-related morphological variation and physiological adaptations in Homo Sapiens. In: Larsen CS (ed) A companion to biological anthropology. Wiley-Blackwell, Malden, pp 153–166
James GD (2013) Ambulatory blood pressure variation: allostasis and adaptation. Auton Neurosci Basic Clin 177:87–94
James GD, Baker PT (1995) Human population biology and blood pressure: evolutionary and ecological considerations and interpretations of population studies. In: Laragh JH, Brenner BM (eds) Hypertension: pathophysiology, diagnosis and management. Raven Press, Ltd, New York, pp 115–126
James GD, Yee LS, Harshfield GA, Blank S, Pickering TG (1986) The influence of happiness, anger and anxiety on the blood pressure of borderline hypertensives. Psychosom Med 48:502–508
James GD, Yee LS, Harshfield GA, Pickering TG (1988) Sex differences in factors affecting the daily variation of blood pressure. Soc Sci Med 26:1019–1023
James GD, Cates EM, Pickering TG, Laragh JH (1989) Parity and perceived job stress elevate blood pressure in young normotensive working women. Am J Hypertens 2:637–639
James GD, Yee LS, Pickering TG (1990a) Winter-summer differences in the effects of emotion, posture, and place of measurement on blood pressure. Soc Sci Med 31:1213–1217
James GD, Pickering TG, Schlussel YR, Clark LA, Denby L, Pregibon D (1990b) Measures of reproducibility of blood pressure variability measured by noninvasive ambulatory blood pressure monitors. J Ambul Monit 3(2):139–147
James GD, Bovbjerg DH, Hill LA (2015) Daily environmental differences in blood pressure and heart rate variability in healthy premenopausal women. Am J Hum Biol 27:136–138. doi:10.1002/ajhb.22609
Jhalani J, Goyala T, Clemow L, Schwartz JE, Pickering TG, Gerin W (2005) Anxiety and outcome expectations predict the white-coat effect. Blood Press Monit 10:317–319
Kain HK, Hinman AT, Sokolow M (1964) Arterial blood pressure measurements with a portable recorder in hypertensive patients: variability and correlation with ‘casual’ pressure. Circulation 30:882–892
Kamarck TW, Schiffman SM, Smithline L, Goodie JL, Paty JA, Gnys M, Jong JY (1998) Effects of task strain, social conflict, on ambulatory cardiovascular activity: life consequences of recurring stress in a multiethnic adult sample. Health Psychol 17:17–29
Kamarck TW, Janicki DL, Shiffman S, Polk DE, Muldoon MF, Liebenauer LL, Schwartz JE (2002) Psychosocial demands and ambulatory blood pressure: a field assessment approach. Physiol Behav 77:699–704
Kamarck TW, Schwartz JE, Janiki DL, Schiffman S, Raynor DA (2003) Correspondence between laboratory and ambulatory measures of cardiovascular reactivity: a multilevel modeling approach. Psychophysiology 40:675–683
Kelsey RM, Alpert BS, Patterson SM, Barnard M (2000) Racial differences in hemodynamic responses to environmental thermal stress among adolescents. Circulation 101:2284–2289
Kleinert HD, Harshfield GA, Pickering TG, Devereux RB, Sullivan PA, Marion RM et al (1984) What is the value of home blood pressure measurement in patients with mild hypertension? Hypertension 6:574–578
Levy RL, Hillman CC, Stroud WD, White PD (1944) Transient hypertension: Its significance in terms of later development of sustained hypertension and cardiovascular-renal disease. J Am Med Assoc 126:829–833
Linden W, Gerin W, Davidson K (2003) Cardiovascular reactivity: status quo and a research agenda for the new millennium. Psychosom Med 65:5–8
Longo D, Dorigatti F, Palatini P (2005) Masked hypertension in adults. Blood Press Monit 10:307–310
Mancia G, Parati G, Pomidossi G, Grassi G, Casadei R, Zanchetti A (1987) Alerting reaction and rise in pressure during management by physician and nurse. Hypertension 9:209–215
McEwen BS (1998) Protective and damaging effects of stress mediators. N Engl J Med 338:171–179
Mills PJ, Dimsdale JE, Ziegler MG, Nelesen RA (1995) Racial differences in epinephrine and beta 2-adrenergic receptors. Hypertension 25:88–91
O’Rourke MF (1990) What is blood pressure? Am J Hypertens 3:803–810
Palatini P, Reboldi G, Beilin LJ, Casiglia E, Eguchi K, Imai Y et al (2014) Added predictive value of night-time blood pressure variability for cardiovascular events and mortality: the Ambulatory Blood Pressure International Study. Hypertension 64:487–493. doi:10.1161/HYPERTENSIONAHA.114.03694
Parati G, Mutti E, Omboni S, Mancia G (1992) How to deal with blood pressure variability. In: Brunner H, Waeber B (eds) Ambulatory blood pressure recording. Raven Press, Ltd, New York, pp 71–99
Parati G, Ochoa JE, Lombardi C, Bilo G (2015) Blood pressure variability: assessment, predictive value, and potential as a therapeutic target. Curr Hypertens Rep 17:23. doi:10.1007/s11906-015-0537-1
Paskalev D, Kircheva A, Krivoshiev S (2005) A centenary of auscultatory blood pressure measurement: a tribute to Nikolai Korotkoff. Kidney Blood Press Res 2:259–263. doi:10.1159/000090084
Pickering TG (1991) Ambulatory monitoring and blood pressure variability. Science Press, London
Pickering TG, Blank SG (1995) Blood pressure measurement and ambulatory pressure monitoring: evaluation of available equipment. In: Laragh JH, Brenner BM (eds) Hypertension: pathophysiology. diagnosis and management, 2nd edn. Raven Press, Ltd., New York, pp 1939–1952
Pickering TG, Gerin W (1990) Cardiovascular reactivity in the laboratory and the role of behavioral factors in hypertension: a critical review. Ann Behav Med 12:3–16
Pierdomenico SD, Cuccurullo F (2011) Prognostic value of white-coat and masked hypertension diagnosed by ambulatory monitoring in initially untreated subjects: an updated meta-analysis. Am J Hypertens 24:52–58
Richardson DW, Honour AJ, Fenton GW, Stott FH, Pickering GW (1964) Variation in pressure throughout the day and night. Clin Sci 26:445–460
Rogers WF, Palmer RS (1944) Transient hypertension as a military risk: its relation to essential hypertension. N Engl J Med 230:39–42
Rowell LB (1986) Human circulation: regulation during physical stress. Oxford University Press, New York
Schwartz JE, Warren K, Pickering TG (1994) Mood, location and physical position as predictors of ambulatory blood pressure and heart rate: application of a multilevel random effects model. Ann Behav Med 16:210–220
Shapiro A, Meyers T, Reier MF, Ferris EB (1954) Comparison of blood pressure response to Veriloid and to the doctor. Psychosom Med 16:478–488
Smith FH (2010) Species, populations, and assimilation in later human evolution. In: Larsen CS (ed) A companion to biological anthropology. Wiley-Blackwell, Malden, pp 357–378
Sokolow M, Werdegar D, Kain HK, Hinman AT (1966) Relationship between level of blood pressure measured casually and by portable recorders and severity of complications in essential hypertension. Circulation 34:279–298
Steegmann AG (1975) Human adaptation to cold. In: Damon A (ed) Physiological anthropology. Oxford University Press, New York, pp 130–166
Sterling P (2004) Principles of allostasis: optimal design, predictive regulation, pathophysiology, and rational therapeutics. In: Schulkin J (ed) Allostasis, homeostasis, and the costs of physiological adaptation. Cambridge University Press, Cambridge, pp 17–64
Sterling P, Eyer J (1988) Allostasis: a new paradigm to explain arousal pathology. In: Fisher S, Reason J (eds) Handbook of life stress. Wiley, New York, pp 629–649
Taylor KS, Heneghan CJ, Stevens RJ, Adams EC, Nunan D, Ward A (2015) Heterogeneity of prognostic studies of 24-hour blood pressure variability: systematic review and meta-analysis. PLoS ONE 10(5), e0126375. doi:10.1371/journal.pone.0126375
Treiber FA, Musante L, Braden D, Arensman F, Strong WB, Levy M, Leverett S (1990) Racial differences in hemodynamic responses to the cold face stimulus in children and adults. Psychosom Med 52:286–296
Van Berge-Landry HM, Bovbjerg DH, James GD (2008) The relationship between waking-sleep blood pressure and catecholamine changes in African American and European American women. Blood Press Monit 13:257–262
Young JH, Chang YC, Kim JD, Chretien J, Levine MA, Ruff CB, Wang N, Chakravarti A (2005) Differential susceptibility to hypertension is due to selection during the out-of-Africa expansion. PLoS Genet 1(6), e82
Zanstra YJ, Johnston DW (2011) Cardiovascular reactivity in real life settings: measurement, mechanisms and meaning. Biol Psychol 86:98–105
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2016 Springer International Publishing AG
About this chapter
Cite this chapter
James, G.D. (2016). Understanding Blood Pressure Variation and Variability: Biological Importance and Clinical Significance. In: Islam, M.S. (eds) Hypertension: from basic research to clinical practice. Advances in Experimental Medicine and Biology(), vol 956. Springer, Cham. https://doi.org/10.1007/5584_2016_83
Download citation
DOI: https://doi.org/10.1007/5584_2016_83
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-44250-1
Online ISBN: 978-3-319-44251-8
eBook Packages: MedicineMedicine (R0)