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Inquiry into Life Twelfth Edition
Lecture PowerPoint to accompany Inquiry into Life Twelfth Edition Sylvia S. Mader Chapter 16 Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display.
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16.1 Urinary System Functions of the Urinary System
Excretion of Metabolic Wastes Urea, Creatinine, Uric acid Maintenance of Water-Salt Balance NaCl, K+, HCO3-, Ca2+ Maintenance of Acid-Base Balance Excretion of H+, reabsorption of HCO3- Secretion of Hormones Renin, Erythropoietin
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The Urinary System
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16.1 Urinary System Organs of the Urinary System Kidneys Ureters
Located in lumbar region Behind peritoneum Covered by tough capsule of fibrous connective tissue Concave side has a depression called a hilum Location of renal artery and vein Ureters Conduct urine from kidney to bladder Three-layered wall Mucosa, smooth muscle, outer connective tissue Conveys urine by peristalsis
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16.1 Urinary System Organs of the Urinary System Urinary Bladder
Stores urine Has three openings Two for the ureters, one for the urethra The bladder wall is expandable Two sphincter muscles control the release of urine into the urethra
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16.1 Urinary System Organs of the Urinary System Urethra
A small tube that leads from the urinary bladder to an external opening It’s function is to remove urine from the body The urethra is longer males than females The urethra also transports semen in males
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16.1 Urinary System Urination Stretch receptors in wall of bladder
Send impulses when bladder fills to 250 ml Motor impulses from spinal cord Bladder contraction Micturition occurs
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16.2 Anatomy of the Kidney and Excretion
There are three regions to a kidney The renal cortex The renal medulla The renal pelvis Nephrons are the functional units of the kidney Each kidney has over one million nephrons
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Gross Anatomy of the Kidney
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Nephron Anatomy
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16.2 Anatomy of the Kidney and Excretion
Anatomy of a Nephron A nephron is composed of a system of tubules Each nephron has its own blood supply From renal artery, afferent arteriole leads into the glomerulus Blood leaves the glomerulus via an efferent arteriole Efferent arteriole takes blood to peritubular capillaries These surround rest of the nephron Blood then goes to renal vein
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16.2 Anatomy of the Kidney and Excretion
Parts of a Nephron Glomerular capsule (Bowman’s capsule) Cuplike structure Inner layer has podocytes Form pores for passage of small molecules Proximal convoluted tubule (PCT) Cuboidal epithelial cells with microvilli Increased surface area for absorption
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16.2 Anatomy of the Kidney and Excretion
Parts of a Nephron Loop of Henle U-shaped tube Simple squamous epithelium Distal Convoluted tubule (DCT) Lack microvilli Designed for tubular excretion rather than reabsorption Collecting Ducts
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Processes in Urine Formation
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16.2 Anatomy of the Kidney and Excretion
Urine Formation Glomerular Filtration Blood enters the afferent arteriole and glomerulus Blood pressure forces water and small molecules into the glomerular capsule (filtration) Large molecules and formed elements cannot leave the capillaries Remaining processes must reabsorb desirable substances and allow wastes to pass
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16.2 Anatomy of the Kidney and Excretion
Urine Formation Glomerular Filtration Filterable Blood Components Nonfilterable Blood Components Water Blood cells and platelets Nitrogenous wastes Plasma proteins Nutrients Salts
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16.2 Anatomy of the Kidney and Excretion
Urine Formation Tubular Reabsorption Molecules are reabsorbed both actively and passively Sodium reabsorbed by active transport Chloride follows passively Water absorbed by osmosis Only molecules recognized by carrier proteins are actively reabsorbed Glucose is an example There is a limited number of carrier proteins Excess glucose ends up being excreted
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16.2 Anatomy of the Kidney and Excretion
Urine Formation Tubular Reabsorption Reabsorbed Filtrate Components Nonreabsorbed Filtrate Components Most water Some water Nutrients Much nitrogenous wastes Required salts (ions) Excess salts (ions)
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16.2 Anatomy of the Kidney and Excretion
Urine Formation Tubular Secretion Hydrogen ions, potassium, creatinine, many drugs Actively transported from the blood Urine Contains Filtered substances that have not been reabsorbed Substances that have been actively secreted
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Excretion of hypertonic urine depends on reabsorption of water from the loops of the nephrons and the collecting ducts Reabsorption of water requires Reabsorption of salt Establishment of solute gradient Reabsorption of water
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Reabsorption of Salt Regulated by the absorption and excretion of ions Na+, K+, HCO3-, Mg2+ More than 99% of Na+ filtered at the glomerulus is returned to the blood 67% is reabsorbed at the proximal tubule 25% is reabsorbed at the ascending limb of the nephron loop The rest is reabsorbed from the distal convoluted tubule and the collecting duct
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Reabsorption of Salt Hormonal Regulation at the Distal Convoluted Tubule Occurs when blood pressure at the glomerulus is low Juxtaglomerular Apparatus secretes renin Renin is an enzyme that changes angiotensinogen into Angiotensin I Angiotensin I is then converted into Angiotensin II Angiotensin II stimulates the adrenal cortex to release aldosterone Aldosterone promotes the excretion of K+ and the reabsorption of Na+ The reabsorption of Na+ is followed by the reabsorption of H2O Blood volume and blood pressure increase
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Reabsorption of Salt Hormonal Regulation at the Distal Convoluted Tubule Atrial naturietic hormone (ANH) Another hormone regulating sodium Secreted by right atrium of heart in response to stretching Indicates increased blood volume Inhibits renin secretion by juxtaglomerular apparatus Inhibits aldosterone release Promotes sodium excretion - natriuresis
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Juxtaglomerular Apparatus
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16.3 Regulatory Functions of the Kidneys
Establishment of Solute Gradient A long loop of nephron has two parts Descending limb and ascending limb Salt diffuses out of lower part of ascending limb Upper part of ascending limb actively transports more salt out This creates high osmotic pressure (high solute concentration) within the tissues of the renal medulla Urea contributes to high solute concentration in medulla Leaks from lower collecting duct This results in a concentration gradient favoring reabsorption of water
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Reabsorption of Water
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Water leaves distal convoluted tubule because of the osmotic gradient Water also leaves descending limb of loop of the nephron Countercurrent multiplier As filtrate enters collecting duct it is hypotonic to cells of renal cortex Permeability of collecting duct under hormonal control
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16.3 Regulatory Functions of the Kidneys
Reabsorption of Water Permeability of collecting duct is under hormonal control Antidiuretic hormone (ADH) is produced by the posterior pituitary gland In the absence of ADH, a dilute urine is produced In the presence of ADH, the collecting duct become more permeable to water and a concentrated urine is produced
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16.3 Regulatory Functions of the Kidneys
Diuretics Increase flow of urine Alcohol Shuts off ADH Dehydration causes hangover Caffeine Increases glomerular filtration rate Decreases tubular reabsorption of sodium Diuretic drugs Many inhibit active transport of sodium at loop of the nephron or the distal convoluted tubule
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16.3 Regulatory Functions of the Kidneys
Acid-Base Balance Normal pH for most body fluids is 7.4 Alkalosis: pH is greater than 7.4 Acidosis: pH is less than 7.4 Several Mechanisms Maintain a pH of ~ 7.4 Acid-Base buffer system Respiratory Center The Kidneys
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16.3 Regulatory Functions of the Kidneys
Acid-Base Balance Acid-Base Buffer Systems Chemical or combination of chemicals Can take up excess H+ or OH- Prevents large changes in pH When H+ added to blood the following occurs H+ + HCO3- H2CO3 When OH- added to blood the following occurs OH- + H2CO3 HCO3- + H2O
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16.3 Regulatory Functions of the Kidneys
Acid-Base Balance Respiratory Center Increasing breathing rate removes CO2 Removes hydrogen ions Forces reaction to the right H+ + HCO3- H2CO3 H2O + CO2 Respiratory system adjusts proportion of bicarbonate and carbonic acid
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16.3 Regulatory Functions of the Kidneys
Acid-Base Balance The Kidneys Only kidneys can remove many acids and bases Slower acting than respiratory system but more powerful Reabsorbs bicarbonate ions Excretes hydrogen ions In urine ammonia can absorb hydrogen ions Phosphate provides another means of buffering hydrogen ions in urine
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Acid-Base Balance
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16.4 Disorders of the Urinary System
Disorders of the Kidneys Pyelonephritis: Infections of the kidneys Kidney infections usually result from bladder infections Most are curable with antibiotics if diagnosed in time Some infections can cause severe damage Kidney Stones Hard granules that form in the renal pelvis Composed of substances such as calcium, phosphate, uric acid and protein Excess animal protein in the diet, imbalanced urinary pH, and urinary tract infections may be contributing factors May pass unnoticed in the urine,large stones can be very painful The presence of albumin or blood cells in the urine are early signs of kidney damage
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16.4 Disorders of the Urinary System
Disorders of the Kidneys Hemodialysis Artificial kidney machine or continuous ambulatory peritoneal dialysis (CAPD) Dialysis Diffusion of dissolved molecules through a membrane Selective permeability Blood is cleansed pH is adjusted Water and salt balance maintained In CAPD the peritoneum is the dialysis membrane
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An Artificial Kidney Machine
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16.4 Disorders of the Urinary System
Disorders of the Bladder and Urethra Bladder Infections Urine leaving the bladder is usually bacteria-free The urethra is normally colonized with bacteria Sometimes bacteria make their way to the bladder Usually treatable with antibiotics Bladder Stones Occur as a result of bladder infections or prostate enlargement May actually be kidney stones that were carried to the bladder Can be removed surgically or broken apart by lithotripsy Bladder Cancer Smoking greatly increases the risk Some types are very malignant necessitating removal of the bladder.
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