urine formation by the kidneys: i. glomerular filtration, renal blood flow and their control
DESCRIPTION
Urine Formation by the Kidneys: I. Glomerular Filtration, Renal Blood Flow and Their Control. L1- L2. University of Jordan Faculty of Medicine Department of Physiology and Biochemistry Renal Physiology ( Dental ) spring 2014 Textbook : Textbook of Medical Physiology - PowerPoint PPT PresentationTRANSCRIPT
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Urine Formation by the Kidneys: I. Glomerular Filtration, Renal Blood Flow and Their Control
L1- L2
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University of JordanFaculty of Medicine
Department of Physiology and BiochemistryRenal Physiology (Dental) spring 2014
Textbook: Textbook of Medical Physiology By : Arthur C. Guyton and John E. Hall, 12th ed. 2011*****************************************************************Lect. No. Topic 12th Ed.1-2 Glomerular Filtration, Renal 303-307 Blood Flow and their Control 310-321
3-5 Tubular Reabsorption and 323-343 Secretion
6-7 Urine concentration and Dilution 345-360
8 Acid-Base Regulation 379-3929. Micturition 307-310
Faisal I. Mohammed. MD, PhDEmail: [email protected]
Optional Reading:1.Physiology, by: Robert Berne & Matthew Levy, 6th. ed. 20102. Human physiology, by: Lauralee Sherwood, last edition.
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Objectives
List the functions of the renal system Describe the processes of urine formation Describe glomerular filtration Explain the control of glomerular filtration Describe renal blood flow and its control Explain the glomerulotubular feedback
mechanism as a way for control of GFR.
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Body fluid regulation.Body fluid regulation.
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Summary of Kidney Functions
• Excretion of metabolic waste productsurea,creatinine, bilirubin, hydrogen
• Excretion of foreign chemicals:drugs, toxins, pesticides, food additives
• Secretion, metabolism, and excretion of hormones- renal erythropoetic factor- 1,25 dihydroxycholecalciferol (Vitamin D)- renin
• Regulation of acid-base balance• Gluconeogenesis: glucose synthesis from
amino acids• Control of arterial pressure• Regulation of water & electrolyte excretion
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• Urea (from protein metabolism)
• Uric acid (from nucleic acid metabolism)
• Creatinine (from muscle metabolism)
• Bilirubin (from hemoglobin metabolism)
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• Pesticides
• Food additives
• Toxins
• Drugs
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Secretion, Metabolism, and Excretion of Hormones
• Renal erythropoetic factor• 1,25 dihydroxycholecalciferol (Vitamin D)• Renin
Hormones produced in the kidney
Hormones metabolized and excreted by the kidney
• Most peptide hormones (e.g. insulin, angiotensin II, etc.)
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O2 Delivery Kidney
Erythropoetin
Erythrocyte Production in Bone Marrow
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• Kidney produces active form of vitamin D(1,25 dihydroxy vitamin D3 )
• Vitamin D3 is important in calcium and phosphate metabolism
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• Excrete acids (kidneys are the only means of excreting non-volatile acids)
• Regulate body fluid buffers (e.g. Bicarbonate)
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Gluconeogenesis: kidneys synthesize glucose from precursors (e.g., amino acids) during prolonged fasting
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Endocrine Organ• renin-angiotensin system• prostaglandins• kallikrein-kinin system
Control of Extracellular Fluid Volume
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• Sodium and Water
• Potassium
• Hydrogen Ions
• Calcium, Phosphate, Magnesium
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University of Jordan 1515
Organs of the urinary system
University of Jordan
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University of Jordan 1616
Internal anatomy of the kidneys
University of Jordan
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University of Jordan 1717
Blood supply of the kidneys
University of Jordan
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Nephron Tubular Segments
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Cortical and juxtamedullary nephrons
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Basic Mechanisms of
Urine Formation
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University of Jordan 2121University of Jordan 21
Structures and functions of a nephron
Renal corpuscle Renal tubule and collecting duct
Peritubular capillaries
Urine(containsexcretedsubstances)
Blood(containsreabsorbedsubstances)
Fluid inrenal tubule
Afferentarteriole
Filtration from bloodplasma into nephron
Efferentarteriole
Glomerularcapsule
1
Renal corpuscle Renal tubule and collecting duct
Peritubular capillaries
Urine(containsexcretedsubstances)
Blood(containsreabsorbedsubstances)
Tubular reabsorptionfrom fluid into blood
Fluid inrenal tubule
Afferentarteriole
Filtration from bloodplasma into nephron
Efferentarteriole
Glomerularcapsule
1
2
Renal corpuscle Renal tubule and collecting duct
Peritubular capillaries
Urine(containsexcretedsubstances)
Blood(containsreabsorbedsubstances)
Tubular secretionfrom blood into fluid
Tubular reabsorptionfrom fluid into blood
Fluid inrenal tubule
Afferentarteriole
Filtration from bloodplasma into nephron
Efferentarteriole
Glomerularcapsule
1
2 3
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Excretion = Filtration - Reabsorption + Secretion
Filtration : somewhat variable, not selective (except for proteins), averages 20% of renal plasma flow
Reabsorption : highly variable and selective most electrolytes (e.g. Na+, K+, Cl-) and
nutritional substances (e.g. glucose) are almost completely reabsorbed; most waste products (e.g. urea) poorly reabsorbed
Secretion : highly variable; important for rapidly excreting some waste products (e.g. H+), foreign substances (including drugs), and toxins
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Renal Handling of
Different Substances
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Glucose 180 180(gm/day)
Filtration Reabsorption Excretion
Water 180 179 (liters/day)
Sodium 25,560 25,410 (mmol/day)
Creatinine 1.8 1.8(gm/day)
1
0
150
0
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GFR = 125 ml/min = 180 liters/day
• Plasma volume is filtered 60 times per day
• Glomerular filtrate composition is about thesame as plasma, except for large proteins
• Filtration fraction (GFR / Renal Plasma Flow)= 0.2 (i.e. 20% of plasma is filtered)
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Glomerular capillary filtration barrier
Glomerular capillary filtration barrier
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Effects of size and electrical charge of dextran on Effects of size and electrical charge of dextran on filterability by glomerular capillaries. filterability by glomerular capillaries.
Effects of size and electrical charge of dextran on Effects of size and electrical charge of dextran on filterability by glomerular capillaries. filterability by glomerular capillaries.
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Clinical Significance of Proteinuria
Early detection of renal disease in at-risk patients hypertension: hypertensive renal disease diabetes: diabetic nephropathy pregnancy: gestational proteinuric hypertension (pre-
eclampsia) annual “check-up”: renal disease can be silent
Assessment and monitoring of known renal disease
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Microalbuminuria
• Definition: urine excretion of > 30 but < 150mg albumin per day
• Causes: early diabetes, hypertension, glomerular hyperfiltration
• Prognostic Value: diabetic patients withmicroalbuminuria are 10-20 fold morelikely to develop persistent proteinuria
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Determinants of Glomerular Filtration Rate
Normal Values:GFR = 125 ml/minNet Filt. Press = 10 mmHg
Kf = 12.5 ml/min per mmHg, or4.2 ml/min per mmHg/ 100gm(400 x greater than inmany tissues)
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• Kf = hydraulic conductivity x surface area
• Disease that can reduce Kf and GFR- chronic hypertension- obesity / diabetes mellitus- glomerulonephritis
• Normally not highly variable
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Glomerular Injury in Chronic Diabetes
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• Normally changes as a function of GFR, not a physiological regulator of GFR
• Tubular Obstructionkidney stonestubular necrosis
• Urinary tract obstructionProstate hypertrophy/cancer
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• Filtration Fraction (FF) FF G
• Arterial Plasma Oncotic Pressure (A)
A G
FF = GFR / Renal plasma flow = 125 / 650 ~ 0.2 (or 20%)
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Increase in colloid osmotic pressure in plasmaflowing through glomerular capillary
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Net Filtration Pressure
PB = 18
PG = 60G = 28
PG = 60G = 36
Net Filtration Pressure Decreases Along the Glomerulus Because of Increasing Glomerular
Colloid Osmotic Pressure
14 6
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Factors Influencing Glomerular Capillary Oncotic Pressure ( G)
• Plasma Protein Concentration Arterial Plasma Oncotic Pressure (A)
A G
• Filtration Fraction (FF) FF G
FF= GFR / Renal plasma flow
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• Is the determinant of GFR most subjectto physiological control
• Factors that influence PG
- arterial pressure (effect is buffered by autoregulation)
- afferent arteriolar resistance- efferent arteriolar resistance
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50 100 150 2000
Arterial Pressure (mmHg)
GlomerularHydrostatic
Pressure(mmHg)
60
40
20
80
Autoregulation of Glomerular Hydrostatic Pressure
Normal kidney
Kidney disease
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Autoregulation of renal blood flow and GFR but not
urine flow
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Effect of afferent and efferent arteriolar constriction on glomerular pressure
PG
GFRBloodFlow
Ra
Ra GFR + Renal
Blood Flow
Re
PG
GFR
Blood Flow
Re GFR + Renal
Blood Flow
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Effect of changes in afferent arteriolar
or efferent arteriolar resistance
Effect of changes in afferent arteriolar
or efferent arteriolar resistance
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RE
RBF G
GFR
PG
+
_
G determined by : FF = GFR / RPF
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Kf GFR
PB GFR
G GFR
A G
FF G
PG GFR
RA PG
RE PG
Summary of Determinants of GFR
GFR
GFR
GFR(as long as RE < 3-4 x normal)
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Determinants of Renal Blood Flow (RBF)
RBF = P / R
P = difference between renal artery pressure and renal vein pressure
R = total renal vascular resistance = Ra + Re + Rv = sum of all resistances in kidney
vasculature
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• High blood flow (~22 % of cardiac output)
• High blood flow needed for high GFR
• Oxygen and nutrients delivered to kidneys normally greatly exceeds their metabolic needs
• A large fraction of renal oxygen consumption is related to renal tubular sodium reabsorption
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Renal oxygen consumption
and sodium
reabsorption
Renal oxygen consumption
and sodium
reabsorption
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Control of GFR and renal blood flow
• Neurohumoral
• Local (Intrinsic)
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1. Sympathetic Nervous System /catecholaminesRA + RE GFR + RBF
Control of GFR and renal blood flow
2. Angiotensin II RE GFR + RBF
(prevents a decrease in GFR)
e.g. severe hemorrhage
e.g. low sodium diet, volume depletion 50
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Control of GFR and renal blood flow
3. Prostaglandins RA + RE GFR + RBF
Blockade of prostaglandin synthesis → ↓ GFR
This is usually important only when there are other disturbances that are already tending tolower GFR
e.g. nonsteroidal antiinflammatory drugs in a volume depleted patient, or a patient with heart failure,cirrhosis, etc
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4. Endothelial-Derived Nitric Oxide (EDRF) RA + RE GFR + RBF
• Protects against excessive vasoconstriction
• Patients with endothelial dysfunction (e.g. atherosclerosis) may have greater risk for excessive decrease in GFR in response to stimuli such as volume depletion
Control of GFR and renal blood flow
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5. Endothelin RA + RE GFR + RBF
• Hepatorenal syndrome – decreased renal function in cirrhosis or liver disease?
• Acute renal failure (e.g. contrast media nephropathy)?
• Hypertensive patients with chronic renal failure?
Endothelin antagonists may be useful in these conditions
Control of GFR and renal blood flow
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Summary of neurohumoral control of GFR and renal blood flow
Effect on GFR Effect on RBF
Sympathetic activityCatecholaminesAngiotensin IIEDRF (NO)EndothelinProstaglandins
increase decrease no change
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Local Control of GFR and renal blood flow
7. Autoregulation of GFR and Renal Blood Flow• Myogenic Mechanism• Macula Densa Feedback
(tubuloglomerular feedback) • Angiotensin II ( contributes to GFR but
not RBF autoregulation)
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Renal ArteryPressure (mmHg)
100
Renal Blood Flow
Glomerular Filtration Rate
Renal Autoregulation
80
Time (min)0 1 2 3 4 5
120
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100 125 124 1.0
120 150 124
Importance of Autoregulation
Arterial GFR Reabsorption Urine Volume Pressure
Poor Autoregulation + no change in tubular reabsorption
Good Autoregulation + no change in tubular reabsorption120 130 124 5.0
26.0
Good Autoregulation+adaptive increase in tubular reabsorption 120 130 128.8 1.2
= 37.4 L/day!
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Arterial Pressure
Blood Flow and GFR
VascularResistance
Intracell. Ca++
Cell Ca++
EntryStretch ofBlood Vessel
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Structure of the
juxtaglomerular apparatus:
macula densa
Structure of the
juxtaglomerular apparatus:
macula densa
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GFR
Distal NaCl Delivery
Macula Densa NaCl Reabsorption
Afferent Arteriolar Resistance(macula densa feedback)
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Macula Densa Feedback
Proximal NaCl Reabsorption
Distal NaCl Delivery
Macula Densa NaCl Reabsorption
Afferent Arteriolar Resistance
GFR
(macula densa feedback)
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Regulation of GFR by Ang II
GFR Renin
AngII
Macula Densa NaCl
Efferent Arteriolar
Resistance
BloodPressure
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50 100 150 2000
Renal Blood Flow ( ml/min)
1600
1200
800
0
400
120
80
0
40
Glomerular Filtration Rate (ml/min)
Arterial Pressure (mmHg)
Ang II Blockade Impairs GFR Autoregulation
NormalAng II Blockade
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Macula densa feedback
mechanism for regulating GFR
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Other Factors That Influence GFR
• Fever, pyrogens: increase GFR
• Glucorticoids: increase GFR
• Aging: decreases GFR 10% / decade after 40 yrs
• Hyperglycemia: increases GFR (diabetes mellitus)
• Dietary protein: high protein increases GFR low protein decreases GFR
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Protein Ingestion
Amino Acids
Tubular Amino Acid Reabs.
Proximal Nacl Reabs.
GFR
Macula Densa NaCl
Afferent Arteriolar Resist.
(macula densa feedback)
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