Feedback Control in the CV System Flashcards
Blood Pressure
Outward hydrostatic pressure exerted by blood on blood vessel walls
Systemic Arterial Blood Pressure
Systolic Arterial BP (90-120mmHg) - pressure exerted by blood on walls of aorta and systemic arteries when heart contracts
Diastolic Arterial BP (60-80mmHg) - pressure exerted by blood on walls of aorta and systemic arteries when heart relaxes
Hypertension
Clinic –> 140/90mmHg or higher
Day time average –> 135/85mmHg or higher
Hypotension
90/60mmHg
Pulse pressure
Difference between systolic and diastolic BPs
Mean Arterial Blood Pressure (MAP)
MAP = (2D+S)/3
MAP + DBP + 1/3 Pulse Pressure
70-105mmHg
Average arterial blood pressure during a single cardiac cycle, which involves contraction and relaxation of the heart
Diastolic part of cardiac cycle is twice as long as systolic part
At least 60mmHg needed to perfuse vital organs but not too high as this will damage blood vessels and place extra strain on the heart and other organs
Baroreceptor Reflex
Negative Feedback
–> MAP deviates
–> Detected by the Baroreceptors (mechanoreceptors in carotid & aorta)
–> Informs Medulla (CV control centre)
–> Send instructions to Heart and Blood Vessels
–> Compensatory response
–> Restoration of MAP to desired range
Firing Rate in Baroreceptor Afferent Neurons
MAP Increases –> Increased Firing Rate
MAP Decreases –> Decreased Firing Rate
CV Control Centre in Medulla
Receives CVS afferent information
Nucleus tractus solitarius (NTS) - first synpase in medulla for CVS afferents
NTS integrates and relays information to other regions that cintrol pathways of two divisions –> Parasympathetic and Sympathetic of ANS to heart and blood vessels
Important Relationships
MAP = CO x SVR
CO = volume of blood pumped by each ventrice of the heart per minute
CO = SV x HR
SV = volume of blood pumped by each ventricle of the heart per heart beat
MAP = SV x HR x SVR
SVR = sum of resistance of all vasculature in systemic circulation
Heart Rate
Heart is electrically controlled
Electrical signals generated within heart
Can beat rhythmically without an external stimuli –> AUTORHYTHMICITY
Autonomic Nervous System
Sympathetic NS
- Increases heart rate -
- Noradrenaline binding on B1 receptors
Parasympathetic NS
- Vagus nerve stimulation reduces heart rate
- ACh binding on Muscarinic M2 receptors
Stroke Volume influence by ANS
SV increases if contractile strength of heart is increased
Sympathetic nerves –> Ventricular Myocardium (increases contraction force) –> Increases SV
Parasympathetic Vagus nerve –> Little direct effect on Ventricular contraction
Frank-Starling Law of the Heart
Intrinsic control of SV
SVR
Arterioles are the major resistance vessels
Smaller diameter which acts to slow blood flow
Are more rigid
50% - Arterioles
20% - Arteries
20% - Capillaries
10% - Veins
SVR regulated by vascular SM
- Vascular SM contraction –> Vasoconstriction –> Increases SVR and MAP
- Vascular SM relaxation –> Vasodilatation –> Decreases SVR and MAP
Vascular SM supplied by sympathetic nerve fibres (Noradrenaline binding to alpha receptors)
Vascular SM partially constricted at rest (Vasomotor tone) –> Tonic discharge of sympathetic nerves
Increased sympathetic discharge –> Increased Vasomotor tone –> Vasoconstriction
Decreased sympathetic discharge –> Decreased Vasomotor tone –> Vasodilatation
No significant parasympathetic innervation of arterial smooth muscles - expect penis and clitoris
