The Renal Function
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Transcript of The Renal Function
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The Renal
Function
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AnatomyAnatomy The kidneys are a pair of
fist-sized organs that are located on either side of the spinal column.
A kidney consists of an outer layer (renal cortex) and an inner region (renal medulla).
The functional unit of the kidney is the nephron.
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NephronNephron Structural and functional unit of the
kidney 1 million nephrons per kidney Consists of 2 parts
1. Glomerulus (filtering system) tuft of capillaries surrounded by
Bowman’s capsule2. Tubules
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NephronNephron
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Nephron - Bowman’s Nephron - Bowman’s capsulecapsule Bowman’s capsule: funnel
with tubules as stem Blood carried to
glomerulus by afferent arteriole
Afferent arteriole divides to form capillary network.
These capillaries reunite to form efferent arteriole, which carries blood out of the glomerulus
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Nephron - Bowman’s Nephron - Bowman’s capsulecapsule Blood filtered in glomerulus; some
water and small molecules removed
Glomerular filtrate collected in Bowman’s capsule and enters tubules.
Specific reabsorption occurs in tubules. Most water and soluble nutrients
reabsorbedM. Zaharna Clin. Chem. 2009
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Tubule SystemTubule System Proximal convoluted tubule
located in the cortex Reabsorption of Glucose, water, amino acids,
Na, Cl & others Loop of Henle
composed of the thin descending limb, which spans the medulla, and the ascending limb, which is located in both the medulla and the cortex,
More water reabsorbed Distal convoluted tubule
located in the cortex Sodium and hydrogen ion reabsorption
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Tubule SystemTubule System The collecting duct
formed by two or more distal convoluted tubules as they pass back down through the cortex and the medulla to collect the urine that drains from each nephron.
collecting tubules, then ureters → bladder → urethra
1000 liter of blood through glomerulus per day; 100 liters of glomerular filtrate formed; 1 liter of urine produced
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Functions of KidneyFunctions of Kidney Urine formation Regulate body fluid, osmolality and
volume Regulate electrolyte balance Regulate acid-base balance Excrete waste products and foreign
substances Produce and excrete hormones
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Urine FormationUrine Formation Removal of potentially toxic waste products 3 processes involved
Filtration Reabsorption Secretion
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Glomerular FiltrationGlomerular Filtration Glomerular filtration rate (GFR) is
approximately 130 mL/min Cells and large plasma proteins
unable to pass through the semipermeable membrane
Glomerular filtrate is essentially plasma without proteins.
water, electrolytes, glucose, amino acids, low-molecular-weight proteins, urea, and creatinine, pass freely through the basement membrane and enter the proximal convoluted tubule
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Proximal Convoluted Proximal Convoluted TubulesTubules The next part of the nephron to receive
filtrate This filtrate contains
waste products, and substances that are valuable to the body.
One function of the PCT is to return the bulk of each valuable substance back to the blood circulation. Glucose, water, amino acids, Na, Cl & others
Organic acids and bases, hydrogen ions and ammonia may be secreted into the tubular fluid
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Proximal Convoluted Proximal Convoluted TubulesTubules Reabsorption may be active or
passive Active — against a concentration
gradient (glucose, amino acids, low mw proteins, sodium, etc.) — regulated by kidney according to levels of
these substances in the blood Passive — no energy involved — water
and urea Tubular secretion may also be
passive or active M. Zaharna Clin. Chem. 2009
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Loop of HenleLoop of Henle Descending limb is highly permeable
to water Passive reabsorption of water in
descending loop Ascending loop is impermeable to
water but actively reabsorbs sodium and chloride
it lowers the salt concentration
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Distal Convoluted tubuleDistal Convoluted tubule The function is to effect small
adjustments to achieve electrolyte and acid-base homeostasis
Small amount of sodium, chloride, water are reabsorbed
Under influence of AVP (ADH) increase water permeability of tubule (reabsorbs water)
Potassium also reabsorbed or secreted Aldosterone - sodium reabsorption and
potassium secretion M. Zaharna Clin. Chem. 2009
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Collecting Duct Collecting Duct The collecting ducts are the final
site for either: concentrating or diluting urine
Also under control of ADH & aldosterone
Reabsorption of water, sodium and chloride
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Regulation of Fluid and Regulation of Fluid and Electrolyte Balance Electrolyte Balance Water:
body water (weight) remains constant day to day — ability of kidney to excrete or conserve water
Water balance is controlled by voluntary intake (thirst) and urinary loss
Sodium: freely filtered through the glomerulus and
reabsorbed by tubules Active reabsorption of Na results in passive
transport of Cl and bicarb and passive reabsorption of water.
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Potassium: Both the distal convoluted tubule and the
collecting ducts can reabsorb and excrete potassium, and this excretion is controlled by aldosterone
Chloride: parallels sodium but reabsorption is passive in proximal tubules and active in distal tubules and collecting duct
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Regulation of Fluid and Regulation of Fluid and Electrolyte Balance Electrolyte Balance
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Acid-Base Balance Acid-Base Balance Secretion of hydrogen ions from tubular
cells Hydrogen ions generated in proximal and
distal tubules as a result of carbonic acid
H2O+CO2 → H2CO3 → H + HCO3
React with bicarbonate ions React with buffers — phosphate ions React with ammonia (deamination of
gluatamine) to form ammonium ion Excretion as free hydrogen ions
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Nitrogenous Waste Nitrogenous Waste Excretion Excretion When low GFR, levels of
nitrogenous wastes increase in blood — NPN’s Urea Creatinine Uric Acid
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Primary Endocrine Primary Endocrine FunctionsFunctions Kidneys synthesize renin,
prostaglandins and erythropoietin Renin:
Renin is the initial member of the renin-angiotensin-aldosterone system
help regulate sodium and potassium in the blood, fluid levels in the body, and blood pressure.
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Primary Endocrine Primary Endocrine FunctionsFunctions Prostaglandins
A group of potent cyclic fatty acids Behave like hormones Prostaglandins produced by the kidney
increase renal blood flow, sodium & water excretion
They oppose renal vasoconstriction due to angiotensin
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Primary Endocrine Primary Endocrine FunctionsFunctions Erythropoietin
It is a single chain polypeptide. It is produced by cells close to the proximal
tubules. Its production is regulated by blood oxygen
levels "hypoxia increases its production". Erythropoietin acts on the erythroid progenitor
cells in the bone marrow, causing their maturation and increasing the number of RBCs.
In chronic renal insufficiency, erythropoietin production is significantly reduced causing anemia.
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Secondary Endocrine Secondary Endocrine FunctionsFunctions The kidneys are the target locus for the
action of aldosterone For the catabolism of insulin, glucagon
and aldosterone The point of activation for vitamin D
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Renal DisordersRenal Disorders Acute Glomerulonephritis Nephrotic Syndrome Tubular Diseases Urinary Tract Infection Acute Renal Failure
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Acute Acute GlomerulonephritisGlomerulonephritis Acute inflammation of the glomeruli Results in oliguria, hematuria, increased
BUN and serum creatinine, decreased GFR and hypertension
Red cell cast finding are of great importance
Proteinuria also present
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Nephrotic SyndromeNephrotic Syndrome Massive proteinuria, edema,
hypoalbuminemia, hyperlipidemia, and lipiduria
Has many cuases Characterized by increased
glomerular membrane permeability — loss of protein (greater than 2-3 grams per day)
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Tubular Diseases Tubular Diseases Depressed secretion or reabsorption
of specific biochemicals Or Impairment of urine dilution and
concentration mechanisms Renal Tubular Acidosis — most
important Low values of phosphorus in serum,
and presence of glucose and AA in urine
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Urinary Tract Infection Urinary Tract Infection Bladder — cystitis Kidneys — pyelonephritis Bacterial concentrations
>100,000 colonies/mL
Increased number of white blood cells
Increased number of red blood cells may be present
White blood cell casts is considered diagnostic of pyelonephritis
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Acute Renal FailureAcute Renal Failure Defined as occurring when the GFR is
reduced to less than 10 mL/minute. Prerenal — before blood reaches the
kidney Hypovolemia Cardiovascular failure
Renal — occuring in kidney Acute tubular necrosis Glomerulonephritis
Postrenal — after urine leaves kidney Obstruction
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Usually accompanied by oliguria Associated with varying degrees of
proteinuria, hematuria, and presence of red cell casts and other casts
BUN and creatinine increase rapidly Can progress to chronic renal
insufficiency or failure
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Renal Function Tests Renal Function Tests Tests of Glomerular Function
Creatinine Clearance Most sensitive method of assessing renal function
Tests of Tubular Function Concentration — Dilution Studies
Non-protein nitrogen compounds Urea nitrogen Creatinine Uric acid
Urinalysis and Microscopy pH, Chemical Analyses (glucose, protein,
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