Cardiovascular 12 – Regulation of the Cardiovascular System

Anil Chopra

1.  Describe the local mechanisms that regulate blood flow.

Autoregulation (ability to compensate for changes in pressure intrinsically)

Myogenic theory – smooth muscle fibres in vessel walls will expand and contract when pressure is increased or decreased. This changes the wall tension.

Metabolic theory – if metabolites accumulate in the blood, then the muscles respond by causing vasodilation so that the metabolites are washed away quickly.

Injury – if vessels or tissues near the vessels are injured, the smooth muscle responds by vasoconstricting.

Substances released by endothelium

Endothelin-1 and thromboxane are vasoconstrictors

Nitric oxide and prostacyclin are vasodilators.

Hormones such as:

Bradykinin – causes vasodilation

ANP – atrial natiuretic – causes vasodilation.

Vasopressin, noradrenaline & angiotensin II – cause vasoconstriction.

2 & 3. Describe how blood vessel diameter, heart rate and forces of contraction are all affected by the autonomic nervous system.

Blood Vessel Diameter

Ø  Blood vessels receive postganglionic sympathetic innervation using noradrenaline as the neurotransmitter. (Some use nitric oxide).

Ø  There is always some tonic activity and the amount is regulated by the medulla (depressor and pressor centres).


Heart Rate & Force of Contraction

Sympathetic stimulation results in an increased heart rate and also causes a large Ca2+ influx into the cells on influx as well as increasing intracellular stores of Ca2+. This results in an increased force of conduction. Stroke volume is also increased with increased venous return and decreased intrathoracic pressure (both increase end-diastolic ventricular volume).

Parasympathetic stimulation results in decreased heart rate and does not increase contraction force.

4. State the location of the Baroreceptors.

Baroreceptors in the carotid sinus & aortic arch.

5. Define cardiac output, stroke volume, mean systemic arterial pressure and state the determinants.

Cardiac output: Vol of blood pumped out of the heart per minute

·  CO = SV x HR (stroke volume x heart rate)

Stroke volume: Vol of blood ejected on each pump

·  SV = EDV – ESV (End diastolic volume – end systemic volume).

Mean systemic arterial pressure: arterial pressure used; NOT average.

·  MAP = CO x TPR (cardiac output x total peripheral resistance)

·  MAP = DP x 1/3PP (diastolic pressure x 1/3 pulse pressure)


6. Indicate how Baroreceptors control blood pressure.

7 & 8. Describe the changes in impulse activity in the carotid sinus nerve, parasympathetic and sympathetic stimulation nerves following an increase or decrease in blood pressure & construct an integrated picture of the various systems that control blood pressure and be able to apply this to specific clinical examples involving blood loss or fluid overload.