BLOOD PRESSURE Factors maintaing blood pressure Central factors
BLOOD PRESSURE
Factors maintaing blood pressure Central factors Cardiac out put Heart Rate Peripheral factors Peripheral resistance Blood volume venous return Elasticity of blood vessels Diameter of blood vessel Viscosity of blood
Cardiac out put To Systolic blood pressure depend upon CO&stroke volume –directly proportional Dystolic BP is directly Peripheral resistance when PR decreased dystolic pressure is decreased BP is directly proportion to blood volume BP is directly pro to venous return BP is inversly proport to elasticity of vessels& diameter of vessels
Control of blood pressure Outline Short term control (baroreceptors) � Location � Types of baroreceptor � Baroreceptor reflex Other stretch receptors Long-term control � Renin/ angiotensin/ aldosterone system � Vasopressin � Atrial natiuretic peptide Response to blood loss (shock)
Regulation of blood pressure Short term � Baroreceptors Long term � Kidney via renin angiotensin system
. 1. 2. 3. 4. 5. 6. Baro-receptors Nerve endings in all large thoracic and neck arteries 2 major populations: Carotid sinus and Arch of the aorta Activation on stretch Carotid: Hering’s nerve to Glossopharyngeal nerve to tractus solitarius in brainstem Aortic: Vagus nerve to tractus solitarius If baro-receptors sense increased BP Secondary signals from tractus solitarius: Inhibition of vasoconstrictor centre and excitation of vagal parasympathetic centre
Baro-receptors Important in maintaining postural blood pressure (When standing from lying down strong sympathetic discharge) Long term changes in blood pressure result in resetting of baroreflexes (i. e. not influential)
Location of baroreceptors • • Baroreceptors sense stretch and rate of stretch by generating action potentials (voltage spikes) Located in highly distensible regions of the circulation to maximise sensitivity
Overview of short-term control mechanisms
• • . Anatomy of the autonomic nervous control of blood pressure: Sympathetic vasomotor nerve fibres leave cord through (T+L) spinal nerves Sympathetic chain 1)Sympathetic nerves (viscera) 2)Spinal nerves (vasculature) Vagus nerve (PNS)
. Vasomotor centre: 1. Vasoconstrictor area • origin of excitatory pre-ganglionic vasoconstrictor neurones 2. Vasodilator area • internal inhibition of vasoconstrictor area 3. Sensory area • input from vagus and glossopharyngeal nerves modulate vasoconstrictor/dilator area activity
1. 2. 3. 4. 5. To raise the arterial pressure: SNS release NA from nerve terminals NA acts on the α adrenergic receptors of the VSMC All arterioles constricted Veins strongly constricted Heart directly stimulated
…. It’s all about intracellular calcium VSMC Cardiovascular Physiology Concepts, Richard E Klabunde. www. cvphysiology. com
Beta-adrenoceptors Heart: Increased contractility Blood vessel: reduced contractility Cardiovascular Physiology Concepts, Richard E Klabunde. www. cvphysiology. com
Long term control of blood pressure Involves control of blood volume/sodium balance by the kidneys � Hormonal control Renin-angiotensin-aldosterone system Antidiuretic hormone (vasopressin) Atrial natiuretic peptide � Pressure natriuresis
Glomerul Arterial Pressure Renin ar Hydrostatic pressure Macula Densa Na. CL GFR Na Cl resorption Flow rate in loop of Henle Angiotensi n II Efferent Arteriole Resistance Glomerul ar Filtration Pressure Afferent arteriole Resistance
Vasopressin
Atrial natiuretic peptide Increases salt excretion via kidneys � By reducing water reabsorption in the collecting ducts � relaxes renal arterioles � inhibits sodium reabsorption in the distal tubule Released in response to stimulation of atrial receptors
Atrial volume reflex Atrial stretch due to pressure Reflex dilation of renal afferent arteriole Increased glomerular capillary pressure Reduced secretion of antidiuretic hormone from hypothalamus Reduction in water resorbtion from renal tubule Increased filtration of fluid into renal tubule Fluid loss by kidneys
Summary of long term BP control Cardiac output and BP depend on renal control of extracellular fluid volume via: � � Pressure natriuresis, (increased renal filtration) Changes in: Vasopressin Aldosterone Atrial natiuretic peptide
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