Pulsatile diastolic increase and systolic decrease in arterial blood pressure: their mechanism of production and physiological role.

The diastolic pulsatile increase in arterial blood pressure is shown to occur earlier in the aorta than in other arteries. It is thus not a reflection of the systolic pressure wave, as has been generally assumed, but an independent pressure wave produced by the sequential contraction of the arterial tree. Conversely, a systolic pulsatile decrease in the rate of blood pressure rise is also produced by an active relaxation of the arterial tree.

Reflections on the mode of functioning of endocrine systems.

The concept of hormones as chemical messengers that transmit information from one organ to other organs by way of circulating blood has implications that have not been made explicit. In this paper the concept is analyzed and is shown to be inconsistent with many observations. The previously proposed concepts of hormone multifunctionalities, hormonal multisignal messages, and the conversion of hormones into other hormones are shown to clarify conflicting observations as well as the congruous mode of functioning of endocrine systems with multifunctional hormones.