Sage Journals: Discover world-class research

Abstract

Six normal subjects and 12 patients with clinical angina and significant ST depressions during baseline ambulatory cardiac monitoring were given a single treatment with the end-diastolic pneumatic compression boot, the Circulator Boot™. With the use of contin uous electrical impedance measurements, multiple hemodynamic variables were followed in five situations: (1) baseline before pumping; during end-diastolic pumping (2) on both legs after every heartbeat, (3) on one leg after every heartbeat, and (4) on both legs on alternate beats; and (5) during pumping on both legs during every systole. Both an increase in venous return and a reduction in afterload likely contributed to significant increases in cardiac output (CO) (51.1 ± 33.6%), stroke volume (SV) (52.1 ± 35.6%), change in impedance over time (dZ/dT) (72.0 ± 68.1%), cardiac index (CI) (51.2 ± 33.8%), and acceleration index (50.7 ± 62.2%) during end-diastolic pumping on both legs after every heartbeat. A crucial role for afterload reduction was implied by opposite effects observed on CO, CI, dZ/dT, and SV during systolic pumping. Again, reductions (or a lack of an increase) in ventricular ejection time and/or the preejection period suggested a decrease in afterload during end-diastolic pumping. Pumping on one leg after every beat and on both legs on alternate beats was also effective but less so. After the initial study, the patients were given 14 additional end-diastolic treatments to both legs over 3 weeks. A clinical benefit for the patients was shown by symptomatic improvement in all patients along with a significant reduction in the amount and duration of the RST abnor malities in their ambulatory heart monitoring (p = 0.012).

Get full access to this article

View all access options for this article.

References

Guyton DP , Khayton A. , Husni EA , et al: Elevated levels of 6-keto-prostaglandin-F1a from lower extremity during external pneumatic compression. Surg Gynecol Obstet 166:338-342, 1988.

Inada K. , Koike S. , Shirai N. , et al: Effects of intermittent pneumatic leg compression for prevention of postoperative deep venous thrombosis with special reference to fibrinolytic activity. Am J Surg 155:602-605, 1988.

Palmer Rmj , Ferrige AG , Moncada S. : Nitric oxide release accounts for the biological activity of endothelium derived relaxing factor. Nature 327:524-526, 1987.

Dillon RS : Fifteen years of experience in treating 2,177 episodes of foot and leg lesions with the Circulator Boot—results of treatments with the Circulator Boot . Angiology 48 (suppl):S17-S34, 1997.

Dillon RS : Patient assessment and examples of a method of treatment. Use of the Circulator Boot in peripheral vascular disease. Angiology 48 (suppl) :S35-S58,1997.

Wang X. , Sun HH , Van de Water JM : Time-frequency distribution technique in biological signal processing . Biomed Instrum Technol 29:203-212, 1995.

Bucher N. : A safer way to get hemodynamic data. RN (November) 1992, pp 56-62.

Shoemaker WC , Wo Ccj , Bishop MH , et al: Multi-center trial of a new thoracic electrical bioimpedance device for cardiac output estimation. Crit Care Med 22:1907-1911, 1994.

Shoemaker WC , Wo Ccj , Bishop MH , et al: Noninvasive hemodynamic monitoring of critical patients in the emergency department. Acad Emerg Med 3:675-681, 1966.

10.

Lawson WE , Hui Jck , Zheng ZS , et al: Efficacy of enhanced external counterpulsation in treatment of angina pectoris. Am J Cardiol 70:859-862, 1992.

11.

Lawson WE , Hui Jck , Zheng ZS , et al: Three-year sustained benefit from enhanced external counterpulsation in chronic angina pectoris. Am J Cardiology 75:840-841, 1995.

12.

Dillon RS : Optimizing external cardiac-assist compressions in patients with atrial fibrillation by anticipating the next beat. Angiology 47:123-129, 1996.

13.

Levin RI : Quantitation of transient myocardial ischemia by digital, ambulatory electrocardiography . Am J Cardiol 61:13B-17B, 1988.

14.

Levin RI , Cohen D. , Frisbie W. , et al: Potential for real-time processing of the continuously monitored electrocardiogram in the detection, quantitation, and intervention of silent myocardial ischemia. Cardiol Clin 4:735-745, 1986.

15.

Jamal SM , Mitra-Duncan L. , Kelly DT , et al: Validation of a real-time electrocardiographic monitor for detection of myocardial ischemia secondary to coronary disease. Am J Cardiol 60:525-527, 1987.

16.

Pepine CP , Cohn PF , Deedwania PC , et al, for the ASIST Study Group : Effects of treatment on outcome in mildly symptomatic patients with ischemia during daily life. Circulation 90:762-768, 1994.

17.

Gill JB , Cairns JA , Roberts RS , et al: Prognostic importance of myocardial ischemia detected by ambulatory monitoring early after acute myocardial infarction. N Engl J Med 334:65-70, 1996.

18.

Nair VJ : Testing in industrial experiments with ordered categorical data. Technometrics 28:283-311, 1986.

19.

Barnes RW : Noninvasive diagnostic techniques in peripheral vascular disease. St. Louis: CV Mosby, 1980, pp 41-43.

20.

Goldman BS , Hill TJ , Rosenthal GA , et al: Complications associated with use of the intra-aortic balloon pump. Can J Surg 25:153-156, 1982.

21.

Makhoul RG , Cole CW , McCann RL : Vascular complications of the intra-aortic balloon pump: An analysis of 436 patients. Am Surg 59:564-568, 1993.

22.

Williams DO , Korr KS , Gewirtz H. , et al: The effect of intraaortic balloon counterpulsation on regional myocardial blood flow and oxygen consumption in the presence of coronary artery stenosis in patients with unstable angina . Circulation 66:593-597, 1982.

23.

Cohen LS , Mullens CB , Mitchell JH : Sequenced external counterpulsation and intraaortic balloon pumping in cardiogenic shock. Am J Cardiol 32 :656-666, 1973.

24.

Solignac A. , Ferguson RJ , Bourassa MG : External counterpulsation: Coronary hemodynamics and use in patients with stable angina pectoris. Cathet Cardiovasc Diagn 3:37-45, 1977.

25.

Kern MJ , Henry RH , Lembo N. , et al: Effects of pulsed external augmentation of diastolic pressure on coronary and systemic hemodynamics in patients with coronary artery disease . Am Heart J 110 :727-735, 1985.

26.

Parmley WW , Chatterjee K. , Charuzi Y. , et al: Hemodynamic effects of noninvasive systolic unloading (nitroprusside) and diastolic augmentation (external counterpulsation) in patients with acute myocardial infarction. Am J Cardiol 33:819-825, 1974.

27.

Amsterdam EA , Lee G. , Tonkon MJ , et al: Noninvasive circulatory assistance by external counterpulsation . In: Advances In Heart Disease , Vol. I, ed. by Mason DT. New York: Grune & Stratton, 1977 .

28.

Lawson WE , Hui Jck , Soroff HS , et al: Efficacy of enhanced external counterpulsation in the treatment of angina pectoris. Am J Cardiol 70:859-862, 1992

29.

Lawson WE , Hui Jck , Zheng ZS , et al: Can angiographic findings predict which coronary patients will benefit from enhanced external counterpulsation? Am J Cardiol 77:1107-1109, 1996.

30.

Soroff HS , Hui J. , Giron F. : Current status of external counterpulsation. Crit Care Clin 2:277-295, 1986.

31.

Parmley WW , Nesto RW , Singh BN , et al, and the N-CAP Study Group : Attenuation of the circadian patterns of myocardial ischemia with Nifedipine GITS in patients with chronic stable angina. J Am Coll Cardiol 19:1380-1389, 1992.

Improved Hemodynamics Shown by Continuous Monitoring of Electrical Impedance During External Counterpulsation with the End-Diastolic Pneumatic Boot and Improved Ambulatory EKG Monitoring After 3 Weeks of Therapy

Abstract

Get full access to this article

References