This patient's hypotension, tachycardia, and cool extremities are indicative of hypovolemic shock most likely due to upper gastrointestinal bleeding from peptic ulcer disease (coffee ground emesis due to oxidation of heme iron by exposure to gastric acid).  Decreased intravascular volume from significant blood loss activates the sympathetic nervous system and renin-angiotensin-aldosterone system (RAAS), which help to maintain systemic blood pressure via the following compensatory mechanisms:

1. Stimulation of the heart results in increased contractility and heart rate, helping to maintain cardiac output.
2. Constriction of the arteriolar beds serves to increase total peripheral resistance and maintain end-organ perfusion.  This also shunts blood away from the extremities and skin and toward the vital organs.
3. Constriction of the systemic veins increases venous return to the heart, thereby assisting in maintaining preload.
4. Increased renal sodium and water retention help to prevent further volume loss.

In the treatment of hypovolemic shock, the most important intervention other than identifying and eliminating the source of bleeding is rapid infusion of blood products and crystalloid solutions such as normal saline.  By infusing intravenous fluids, intravascular volume and ventricular preload can be increased rapidly.  The increase in preload stretches the myocardium and increases the end-diastolic sarcomere length, leading to an increase in stroke volume and cardiac output by the Frank-Starling mechanism.

(Choice A)  Aortic wall elasticity is based on the intrinsic structure of the aortic media and is not affected by fluid infusions.

(Choice B)  The diastolic ventricular compliance is determined by intrinsic properties of the myocardium and is unaffected by crystalloid infusions.  Conditions that decrease ventricular compliance include left ventricular hypertrophy (aortic stenosis, hypertension), hypertrophic cardiomyopathy, and infiltrative disorders (amyloidosis, sarcoidosis).

(Choice D)  Adequate fluid resuscitation in a hypovolemic patient decreases the sympathetic drive and endogenous catecholamine release, resulting in decreased heart rate.

(Choice E)  Plasma renin activity increases in patients with hypovolemic shock due to activation of RAAS and would be expected to decrease after intravenous fluid resuscitation.

(Choices F and G)  In a patient with hypovolemic shock, total peripheral resistance and myocardial contraction velocity are high due to sympathetic activation.  Administration of fluids will reduce sympathetic activation and decrease both of these parameters.

Educational objective:
Intravenous fluids increase the intravascular and left ventricular end-diastolic volumes.  The increase in preload stretches the myocardium and increases the end-diastolic sarcomere length, leading to an increase in stroke volume and cardiac output by the Frank-Starling mechanism.