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Biofeedback as a Procedure for Teaching Blood Pressure Control to Normotensives

Published online by Cambridge University Press:  06 October 2014

Robyn M. Mullins  and
Christopher F. Sharpley
Robyn M. Mullins*
Affiliation:
Monash University
Christopher F. Sharpley*
Affiliation:
Monash University
*
Faculty of Education, Monash University, Clayton, Vic. 3168
Faculty of Education, Monash University, Clayton, Vic. 3168
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Abstract

The previous research into training normotensives to control their blood pressure via biofeedback is reviewed. Beginning with the early ‘Harvard’ studies, methodological limitations are apparent in many of the ‘accepted’ reports. Issues of type and incidence of feedback, systolic vs. diastolic pressures, and number of training sessions necessary to achieve success are discussed, leading to a summary of the relevant research from the viewpoint of methodological considerations including: adequacy of adaptation and baseline periods, confounding of reward with feedback, use of post-tests and follow-ups, and generalisation of training to stressful situations. Several areas for future research are raised for discussion.

Type
Research Article
Information
Behaviour Change , Volume 5 , Issue 2 , June 1988 , pp. 51 - 65
Copyright
Copyright © The Author(s) 1988

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References

REFERENCES

Bell, I.R., & Schwartz, G.E. (1975). Voluntary control and reactivity of human heart rate. Psychophysiology, 12, 339348.Google Scholar
Benson, H., Shapiro, D., Tursky, B., & Schwartz, G. (1971). Decreased systolic blood pressure through operant conditioning techniques in patients with essential hypertension. Science, 173, 740742.CrossRefGoogle ScholarPubMed
Blanchard, E.B., Haynes, M.R., Kallman, M.D., & Harkey, L. (1976). A comparison of direct blood pressure feedback and electromyographic feedback on the blood pressure of normotensives. Biofeedback and Self-Regulation, 4, 445451.Google Scholar
Blanchard, E.B., & Young, L.D. (1973). Self control of cardiac functioning: A promise as yet unfulfilled. Psychological Bulletin, 73, 143163.Google Scholar
Blanchard, E.B., Young, L.D., & Haynes, M.R. (1975). A simple feedback system for the treatment of elevated blood pressure. Behavior Therapy, 6, 241246.Google Scholar
Blanchard, E.B., Young, L.D., Haynes, M.R., & Kallman, M.R. (1974). A simple feedback system for self-control of blood pressure. Perceptual and Motor Skills, 39, 891898.Google Scholar
Brener, J. & Kleinman, R.A. (1970). Learned control of decreases in systolic blood pressure. Nature, 226, 10631064.Google Scholar
Brener, J., Kleinman, R.A., & Goesling, W.J. (1969). The effects of different exposures to augmented sensory feedback on the control of heart rate. Psychophysiology, 5, 510516.Google Scholar
Carlson, J.G. (1977). Locus of control and frontal electromyographic response training. Biofeedback and Self-Regulation, 2, 259271.CrossRefGoogle ScholarPubMed
Cinciripini, P.M., & Epstein, L.H. (1981). Pulse transit time feedback and bidirectional blood pressure change. Psychophysiology, 18, 630634.Google Scholar
Elder, S.T., & Eustis, N.K. (1975). Instrumental blood pressure conditioning in outpatient hypertensives. Behavior Research and Therapy, 13, 185188.Google Scholar
Elder, S.T., Gamble, E.H., McAfee, R.D., & Van Veen, W.J. (1979). Conditioned diastolic blood pressure. Physiology and Behavior, 23, 875880.Google Scholar
Elder, S.T., Leftwich, D.A. & Wilkerson, L.A. (1974). The role of systolic-versus diastolic-contingent feedback in blood pressure conditioning. Psychological Record, 24, 171176.Google Scholar
Elder, S.T., Longacre, A., Welsh, D.M., & McAfee, R.D. (1977). Apparatus and procedure for training subjects to control their blood pressure. Psychophysiology, 14, 6972.Google Scholar
Elder, S.T., Verzwvelt, E.A., & McAfee, R. (1978). Conditioned diastolic blood pressure as a function of induced muscle tension. Psychophysiology, 15, 422428.Google Scholar
Elder, S.T., Welsh, D.M.Longacre, A., & McAfee, R. (1977). Acquisition, discriminative stimulus control, and retention of increases/decreases in blood pressure of normotensive human subjects. Journal of Applied Behavior Analysis, 10, 381390.Google Scholar
Erbeck, J.R., Elfner, L.F., & Driggs, D.F. (1983). Reduction of blood pressure by indirect biofeedback. Biofeedback and Self-Regulation, 8, 6372.CrossRefGoogle ScholarPubMed
Fey, S.G., & Lindholm, E. (1975). Systolic blood pressure and heart rate changes during three sessions involving biofeedback or no feedback. Psychophysiology, 12, 513519.Google Scholar
Frost, R.O., & Holmes, D.S. (1980). Effects of instructions and biofeedback for increasing and decreasing systolic blood pressure. Journal of Psychosomatic Research, 24, 31–27.Google Scholar
Gamble, E.H., & Elder, S.T. (1982). A factorial comparison of schedule and bilaterial locus of diastolic blood pressure-contingent feedback. Journal of Behavioral Medicine, 5, 117134.Google Scholar
Glass, G.V., Willson, V.L., & Gottman, J.M. (1975). Design and analysis of time-series experiments. Boulder, Colorado: Colorado Associated University Press.Google Scholar
Goldman, H., Kleinman, K.M., Snow, M.Y., Bidus, D.R., & Korol, B. (1975). Relationship between essential hypertension and cognitive functioning: Effects of biofeedback. Psychophysiology, 12, 569573.Google Scholar
Goldman, M.S., & Lee, R.M. (1978). Operant conditioning of blood pressure: Effects of mediators. Psychophysiology, 15, 531537.Google Scholar
Gottman, J.M. (1981). Time-series analysis. London: Cambridge University Press.Google Scholar
Hnatiow, M. (1971). Learned control of heart rate and blood pressure. Perceptual and Motor Skills, 33, 219226.Google Scholar
Holmes, D.S., Frost, R.O., & Lutz, D.J. (1981). Multiple sessions of systolic blood pressure biofeedback: Its effects on ability to control systolic pressure during training, after training, and its effects on pulse rate. Journal of Research in Personality, 15, 3043.Google Scholar
Kleinman, K.M., Goldman, H., Snow, M.Y., & Korol, B. (1977). Relationship between essential hypertension and cognitive functioning. II: Effects of biofeedback training generalize to non-laboratory environment. Psychophysiology, 14, 192197.Google Scholar
Kristt, D.A., & Engel, B.T. (1975). Learned control of blood pressure in patients with high blood pressure. Circulation, 51, 379–378.Google Scholar
Lang, P.J. (1975). Acquisition of heart rate control: Method, theory, and clinical implications. In Fowles, D.C. (Ed.), Clinical applications of psychophysiology. New York: Columbia University Press.Google Scholar
Lang, P.J., Troyer, W.G., Twentyman, C.T., & Gatchel, R.J. (1975). Differential effects of heart rate modification training on college students, older males, and patients with ischemic heart disease. Psychosomatic Medicine, 37, 429446.Google Scholar
Lutz, D.J., & Holmes, D.S. (1981). Instructions to change blood pressure and diastolic blood pressure biofeedback: Their effects on diastolic blood pressure, systolic blood pressure and anxiety. Journal of Psychosomatic Research, 25, 479485.Google Scholar
Ray, W.J. (1974). The relationship of locus of control, self-report measures, and feedback to the voluntary control of heart rate. Psychophysiology, 11, 527534.CrossRefGoogle Scholar
Ray, W.J., & Lamb, S.B. (1974). Locus of control and the voluntary control of heart rate. Psychosomatic Medicine, 36, 180182.CrossRefGoogle ScholarPubMed
Schwartz, G.E. (1972). Voluntary control of human cardiovascular integration and differentiation through feedback and reward. Science, 175, 9093.Google Scholar
Schwartz, G.E., Shapiro, D., & Tursky, B. (1971). Learned control of cardiovascular integration in man through operant conditioning. Psychosomatic Medicine, 33, 5762.Google Scholar
Schwartz, G.E., Shapiro, D., & Tursky, B. (1972). Self-control of patterns of human diastolic blood pressure and heart rate through feedback and reward. Psychophysiology, 9, 270.Google Scholar
Shannon, B.J., Goldman, M.S., & Lee, R.M. (1978). Biofeedback training of blood pressure: A comparison of three feedback techniques. Psychophysiology, 15, 5359.Google Scholar
Shapiro, D., Schwartz, G.E. & Tursky, B. (1972). Control of diastolic blood pressure in man by feedback and reinforcement. Psychophysiology, 9, 296304.Google Scholar
Shapiro, D., Tursky, B., Gershon, E., & Stern, M. (1969). Effects of feedback and reinforcement on the control of human systolic blood pressure. Science, 163, 588590.Google Scholar
Shapiro, D., Tursky, B., & Schwartz, G.E. (1970a). Control of blood pressure in man by operant conditioning. Circulation Research, 26, (Suppl. 1), 2732.Google Scholar
Shapiro, D., Tursky, B., & Schwartz, G.E. (1970b). Differentiation of heart rate and systolic blood pressure in man by operant conditioning. Psychosomatic Medicine, 32, 417423.Google Scholar
Sharpley, C.F. (1986). Fallibility in the visual assessment of behavioural interventions: Timeseries statistics to analyse time-series data. Behaviour Change, 3, 2633.Google Scholar
Stephens, J.H., Harris, A.H., Brady, J.V., & Shaffer, J.W. (1975). Psychological and physiological variables associated with large magnitude voluntary heart rate changes. Psychophysiology, 12, 381387.Google Scholar
Surwitt, R.S., Hager, J.L., & Feldman, T. (1977). The role of feedback in voluntary control of blood pressure in instructed subjects. Journal of Applied Behavior Analysis, 10, 625631.Google Scholar
Tursky, B., Shapiro, D., & Schwartz, G.E. (1972). Automated constant cuff-pressure system to measure average systolic and diastolic blood pressure in man. IEEE Transactions on Biomedical Engineering, 19, 271276.Google Scholar
Victor, R., Weipert, D., & Shapiro, D. (1984). Voluntary control of systolic blood pressure during postural change. Psychophysiology, 21, 673682.Google Scholar
Williamson, D.A., & Blanchard, E.B. (1979). Heart rate and blood pressure biofeedback. I. A review of the recent experimental literature. Biofeedback and Self-Regulation, 4, 134.Google Scholar
Yates, A.J. (1980). Biofeedback and the modification of behavior. New York: Plenum Press.Google Scholar
Your Heart. (1984). Canberra: National Heart Foundation of Australia.Google Scholar