The Effects of High Intensity Interval Training on Systemic and Cardiac Parameters in a Mouse Model of Diabetic Cardiomyopathy

Dials, Justin

20 October 2011

No description available.

Medicine

Heart failure

diabetes

exercise

Cardiac responsivity and non-nutritive sucking patterns of full term, premature, and high risk infants /

Vranekovic, George Joseph

January 1980

No description available.

Psychology

Heart beat

Newborn infants

The type A and type B behavior patterns in a managerial population : a study of cardiovascular responsiveness /

Ward, Marcia M.

January 1981

No description available.

Psychology

Typology

Coronary heart disease

Cardiac cycle effects on the cardiovascular orienting response, habituation and perceptual disparity /

McGivern, Robert Francis

January 1982

No description available.

Psychology

Heart beat

Cardiovascular system

The effect of heart rate on left ventricular energy balance in chronically instrumented, anesthetized dogs /

Pantalos, George Michael

January 1983

No description available.

Biology

Heart beat

Bioenergetics

Dogs

Cardiovascular effects of cardiac sympathetic nerve stimulation on open chest dogs and cats with the influence of inhalation anesthesia on cardiac monoamine oxidase activity /

Harris, Stanley Grant

January 1970

No description available.

Health Sciences

Heart

Dogs

Cats

The effect of isometric exercise on the systolic time intervals of the cardiac cycle /

Harris, Charles D.

January 1972

No description available.

Education

Heart beat

Isometric exercise

Patterns of autonomic responding during human operant heart-rate conditioning /

McCanne, Thomas Robert

January 1974

No description available.

Psychology

Operant conditioning

Heart beat

Heart rate, cognitive response, and persuasion /

Cacioppo, John T.

January 1977

No description available.

Psychology

Heart beat

Cognition

Persuasion

Sympathetic Influences on the Human Heart: Measurement, Control and Role in Hypertension / Sympathetic Influences on the Human Heart

Swallow, Jonathan

09 1900

The pathological consequences of even mild increases in blood pressure warrant treatment for hypertension in its early stages. However, chronic drug treatment programmes are generally not advantageous during the early stages of hypertension. Augmented sympathetic outflow to the heart plays a role in the early stages of hypertension, and perhaps the development of hypertension. Environmental factors are often responsible for increases in sympathetic outflow to the heart. Therefore, an alternative hypertensive treatment involves behavioural control over increases in sympathetic activity. This treatment includes biofeedback training. The literature indicates that the R-wave to ear pulse wave interval (RPI) is the most appropriate index of sympathetic influences for biofeedback training. An experiment is reported in which unconstrained normotensive subjects were asked to produce changes in RPI with and without the aid of analog feedback. Five subjects learned to produce bidirectional changes in RPI. These subjects generally showed more RPI shortening than lengthening. The data indicate that moderately heavy levels of exercise were employed to shorten RPI. This is consistent with increased sympathetic activity. Some subjects were consistently able to lengthen RPI. However, this study produced converging evidence indicating that RPI lengthening was often a product of reduced left ventricular preload. Preload influences on RPI appear to have led subjects to adopt behavioural strategies which were inconsistent with reduced sympathetic activity during attempts to lengthen RPI. Therefore, caution must be employed when using RPI to index and teach control over sympathetic activity. It is suggested that incorporating information about left ventricular ejection time or cardiac interbeat interval will improve RPI as a measure of sympathetic influences on the human heart. / Thesis / Master of Arts (MA)

sympathetic influence

human heart

hypertension