Autoregulation of Glomerular Filtration Rate
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Oct 03, 2014
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About This Presentation
The basics of autoregulation of Gloemrular filtration rate. This ppt deals with basic renal physiology, tubuloglomerular feedback, myogenic reflex, juxtaglomerular apparatus and renin angiotensin aldosterone system in brief. P.S.- The ppt has animations so kindly view in slide/presentation mode
Slide Content
Autoregulation of
GFR
-Dr. Garima Aggarwal
Resident, DM Nephrology
Amrita Institute of Medical Sciences
Kochi, India
GFR
-Dr. Garima Aggarwal
Resident, DM Nephrology
Amrita Institute of Medical Sciences
Kochi, India
Renal Blood Supply
Glomerular Filtration
•Glomerular Filtration Rate - Volume of fluid filtered from
glomerular capillaries into Bowman’s per unit time.-Renal anBonldaSu
RENAL PLASMA FLOWdpay-nypSelGSRddpGpRey
FILTRATION COEFFICIENTByn-apemrBl
dS-GRB
STARLING’S
FORCES
•Glomerular Filtration Rate - Volume of fluid filtered from
glomerular capillaries into Bowman’s per unit time.-Renal anBonldaSu
RENAL PLASMA FLOWdpay-nypSelGSRddpGpRey
FILTRATION COEFFICIENTByn-apemrBl
dS-GRB
STARLING’S
FORCES
•Glomerular Hydrostatic Pressure is determined by 3 variables, each
of which is under physiological control
Arterial Pressure
Afferent arteriolar resistance
Efferent arteriolar resisitance
of which is under physiological control
Arterial Pressure
Afferent arteriolar resistance
Efferent arteriolar resisitance
5
Changes in GFR by constriction or dilation of afferent Changes in GFR by constriction or dilation of afferent
(AA) or efferent (EA) arterioles(AA) or efferent (EA) arterioles
Changes in GFR by constriction or dilation of afferent Changes in GFR by constriction or dilation of afferent
(AA) or efferent (EA) arterioles(AA) or efferent (EA) arterioles
Autoregulation of GFR
•Feedback mechanisms which are intrinsic to the kidney
and keep the Renal Blood flow and GFR relatively
constant despite marked changes in arterial blood
pressure.
•Within a range of 70- 160 mmHg
•Without autoregulation even a slight change in BP
would cause a significant change in GFR
•For eg at 100mmHg – 180l/day GFR, 1 l/day of urine
If 25% rise in BP to 125mmHg – 225l/day of GFR
46l/day of Urine !!!!
•Feedback mechanisms which are intrinsic to the kidney
and keep the Renal Blood flow and GFR relatively
constant despite marked changes in arterial blood
pressure.
•Within a range of 70- 160 mmHg
•Without autoregulation even a slight change in BP
would cause a significant change in GFR
•For eg at 100mmHg – 180l/day GFR, 1 l/day of urine
If 25% rise in BP to 125mmHg – 225l/day of GFR
46l/day of Urine !!!!
Other Factors involved in Autoregulation
Neural
Hormonal
Vasoactive Substances
Neural
Hormonal
Vasoactive Substances
Myogenic Mechanism
•Arterial smooth muscle contracts and relaxes in response
to increases and decreases in vascular wall tension.
•It contributes upto 50% of total autoregulatory response
•Occurs very rapidly, reaching a full response in 3-10
seconds
•It is a property of the preglomerular resistance vessels –
arcuate, interlobular and the afferent
•It is not seen in efferent arterioles, probably because of
lack of voltage gated Ca channels
•Arterial smooth muscle contracts and relaxes in response
to increases and decreases in vascular wall tension.
•It contributes upto 50% of total autoregulatory response
•Occurs very rapidly, reaching a full response in 3-10
seconds
•It is a property of the preglomerular resistance vessels –
arcuate, interlobular and the afferent
•It is not seen in efferent arterioles, probably because of
lack of voltage gated Ca channels
Mechanism of Myogenic Autoregulation
Arterial Blood pressure
Afferent Arteriolar Blood pressure
Arterial wall stretch
Sensing by myogenic stretch receptors
Opening of voltage gated Calcium channels
Influx of Ca from ECF to Vascular SM cells
Contraction of Vascular Smooth Muscle cells
Vasoconstritction
Minimizes changes in Afferent arteriolar blood flow
Minimizes changes in GFR
Arterial Blood pressure
Afferent Arteriolar Blood pressure
Arterial wall stretch
Sensing by myogenic stretch receptors
Opening of voltage gated Calcium channels
Influx of Ca from ECF to Vascular SM cells
Contraction of Vascular Smooth Muscle cells
Vasoconstritction
Minimizes changes in Afferent arteriolar blood flow
Minimizes changes in GFR
Nephron is uniquely organised so that the same
tubule that descends from the cortex
eventually returns to the originating glomerulus
Tubuloglomerular Feedback
tubule that descends from the cortex
eventually returns to the originating glomerulus
Tubuloglomerular Feedback
Juxtaglomerular Apparatussw’.HwoPbe3wo’bHH3
MACULA DENSA CELLS
EXTRAGLOMERULAR MESANGIUM
RENIN SECRETING CELLS of the afferent arteriole
MACULA DENSA CELLS
EXTRAGLOMERULAR MESANGIUM
RENIN SECRETING CELLS of the afferent arteriole
Mechanism of Tubuloglomerular feedback
•This is a feedback mechanism that links sodium and chloride
concentration at the macula densa with control of renal arteriolar
resistance.
•It acts in response to acute perturbations in delivery of fluid and
solutes to the JGA.
•It has 2 components
Afferent arteriolar feedback
Efferent arteriolar feedback (hormonal)
It helps in
• Autoregulation of GFR
•Controls distal solute delivery, hence Tubular Reabsorption
•This is a feedback mechanism that links sodium and chloride
concentration at the macula densa with control of renal arteriolar
resistance.
•It acts in response to acute perturbations in delivery of fluid and
solutes to the JGA.
•It has 2 components
Afferent arteriolar feedback
Efferent arteriolar feedback (hormonal)
It helps in
• Autoregulation of GFR
•Controls distal solute delivery, hence Tubular Reabsorption
Tubuloglomerular feedback continued.
Arterial Pressure
Glomerular Filtration Pressure
GFR
Na and water retention by PCT
Na delivery at Macula Densa
Signal to Afferent arteriole Renin
Adenosine/ATP Angiotensin II
Aff A Resistance Eff A Resistance
Vasodilation of AA Vasoconstriction of EA
Arterial Pressure
Glomerular Filtration Pressure
GFR
Na and water retention by PCT
Na delivery at Macula Densa
Signal to Afferent arteriole Renin
Adenosine/ATP Angiotensin II
Aff A Resistance Eff A Resistance
Vasodilation of AA Vasoconstriction of EA
Tubuloglomerular feedback cellular level
TUBULE LUMEN
MACULA DENSA
INTERSTITIUM
MESANGIAL CELLS
GRANULAR CELLS
AFFERENT ARTERIOLE
TUBULE LUMEN
MACULA DENSA
INTERSTITIUM
MESANGIAL CELLS
GRANULAR CELLS
AFFERENT ARTERIOLE
ARTERIAL PRESSURE
GFR
SOLUTE DELIVERY TO MACULA DENSA
GFR
SOLUTE DELIVERY TO MACULA DENSA
Regulation of Tubuloglomerular
feedback
•Mediators
Adenosine
ATP
•Modulators
Neuronal NOS
Angiotensin II
Endothelin
feedback
•Mediators
Adenosine
ATP
•Modulators
Neuronal NOS
Angiotensin II
Endothelin
Neural regulation of GFR
Sympathetic nerve fibers innervate afferent and efferent
arteriole
•Normally sympathetic stimulation is low nd has no effect on
GFR
•During excessive Sympathetic stimulation (Defense, Brain
Ischemia, Severe Hemorrhage) lastin from few minutes to few
hours can stimulate the Renal vessels
•Vasoconstriction occurs as a result which conserves blood
volume(hemorrhage)and causes a fall in GFR.
Parasympathetic Nervous System – Acetylcholine causes
release of NO from the Endothelial cells, hence Vasodilation.
Sympathetic nerve fibers innervate afferent and efferent
arteriole
•Normally sympathetic stimulation is low nd has no effect on
GFR
•During excessive Sympathetic stimulation (Defense, Brain
Ischemia, Severe Hemorrhage) lastin from few minutes to few
hours can stimulate the Renal vessels
•Vasoconstriction occurs as a result which conserves blood
volume(hemorrhage)and causes a fall in GFR.
Parasympathetic Nervous System – Acetylcholine causes
release of NO from the Endothelial cells, hence Vasodilation.
Hormonal regulation of GFR
VASOCONSTRICTORS
•Norepinephrine
•Epinephrine
Released in stressful situations, alongside the Sympathetic stimulation
•Endothelin
ARF, Toxaemia of pregnacy, Vascular Injury, Chronic uraemia
•Angiotensin II.
Produced by Renin, released by JGA cells
•Leukotrienes – LTC4, LTD4
VASODILATORS
•NO
•Prostaglandin E2
•Prostaglandin I2
•Bradykinin
•Leukotriene LTB4
VASOCONSTRICTORS
•Norepinephrine
•Epinephrine
Released in stressful situations, alongside the Sympathetic stimulation
•Endothelin
ARF, Toxaemia of pregnacy, Vascular Injury, Chronic uraemia
•Angiotensin II.
Produced by Renin, released by JGA cells
•Leukotrienes – LTC4, LTD4
VASODILATORS
•NO
•Prostaglandin E2
•Prostaglandin I2
•Bradykinin
•Leukotriene LTB4
Renin
Aldosterone
Adrenal
cortex
Corticosterone
Angiotensinogen
(Lungs)
¯ renal blood flow &/or ¯ Na
+
++ Juxtaglomerular apparatus of kidneys
(considered volume receptors)
Angiotensin I
Converting
enzymes
Angiotensin II
(powerful
vasoconstrictor)
Angiotensin III
(powerful
vasoconstrictor)
Renin-Angiotensin System:
N.B. Aldosterone is the main regulator of Na
+
retention.
Aldosterone
Adrenal
cortex
Corticosterone
Angiotensinogen
(Lungs)
¯ renal blood flow &/or ¯ Na
+
++ Juxtaglomerular apparatus of kidneys
(considered volume receptors)
Angiotensin I
Converting
enzymes
Angiotensin II
(powerful
vasoconstrictor)
Angiotensin III
(powerful
vasoconstrictor)
Renin-Angiotensin System:
N.B. Aldosterone is the main regulator of Na
+
retention.
REFERENCES
1.Brenner and Rector’s- The Kidney, 9th Edition
2.Guyton and Hall- Textbook of Medical Physiology, 11
th
Edition
3.Uptodate.com
4.Tubuloglomerular Feedback and the Control of Glomerular
Filtration Rate Volker Vallon, Physiology 18:169-174, 2003
5.Glomerulotubular Balance, Tubuloglomerular Feedback, and
Salt Homeostasis, Journal of American society of Nephrology 19:
2272–2275, 2008
1.Brenner and Rector’s- The Kidney, 9th Edition
2.Guyton and Hall- Textbook of Medical Physiology, 11
th
Edition
3.Uptodate.com
4.Tubuloglomerular Feedback and the Control of Glomerular
Filtration Rate Volker Vallon, Physiology 18:169-174, 2003
5.Glomerulotubular Balance, Tubuloglomerular Feedback, and
Salt Homeostasis, Journal of American society of Nephrology 19:
2272–2275, 2008
Thank you for your
patience
patience
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