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Chapter 16: Urinary System and Excretion

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Chapter 16: Urinary System and Excretion Urinary System Urinary Organs The urinary system consists of the kidneys, ureters, urinary bladder, and urethra. – PowerPoint PPT presentation

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Title: Chapter 16: Urinary System and Excretion


1
Chapter 16 Urinary System and Excretion
2
Urinary System
  • Urinary Organs
  • The urinary system consists of the kidneys,
    ureters, urinary bladder, and urethra.
  • The bean-shaped kidneys are at the back of the
    abdominal wall beneath the peritoneum, protected
    by the lower rib cage.
  • The renal artery and renal vein along with
    ureters exit the kidney at the hilum.

3
  • The kidneys produce urine which is conducted by
    two muscular tubes called ureters to the urinary
    bladder where it is stored before being released
    through the urethra.
  • Two urethral sphincters control the release of
    urine.
  • In females, the urethra is 4 cm long in males,
    the urethra is 20 cm long and conveys both urine
    and sperm during ejaculation.

4
The urinary system
5
Urination
  • As the bladder fills with urine, sensory
    impulses travel to the spinal cord where motor
    nerve impulses return and cause the bladder to
    contract and sphincters to relax.
  • With maturation, the brain controls this reflex
    and delays urination, the release of urine, until
    a suitable time.

6
Urination
7
Functions of the Urinary System
  • Excretion refers to the elimination of metabolic
    wastes that were cell metabolites this is the
    function of the urinary system.
  • Kidneys play a role in homeostasis of the blood
    by excreting metabolic wastes, and by maintaining
    the normal water-salt and acid-base balances of
    blood.

8
Excretion of Metabolic Wastes
  • Kidneys excrete nitrogenous wastes, including
    urea, uric acid, and creatinine.
  • Urea is a by-product of amino acid metabolism.
  • The metabolic breakdown of creatine phosphate in
    muscles releases creatinine.
  • Uric acid is produced from breakdown of
    nucleotides.
  • Collection of uric acid in joints causes gout.

9
Maintenance of Water-Salt Balance
  • Kidneys maintain the water-salt balance of the
    body which, in turn, regulates blood pressure.
  • Salts, such as NaCl, in the blood cause osmosis
    into the blood the more salts, the greater the
    blood volume and also blood pressure.
  • Kidneys also maintain correct levels of
    potassium, bicarbonate, and calcium ions in blood.

10
Maintenance of Acid-Base Balance
  • The kidneys regulate the acid-base balance of the
    blood.
  • Kidneys help keep the blood pH within normal
    limits by excreting hydrogen ions (H) and
    reabsorbing bicarbonate ions (HCO3-) as needed.
  • Urine usually has a pH of 6 or lower because our
    diet often contains acidic foods.

11
Secretion of Hormones
  • Kidneys secrete or activate several hormones
  • They secrete the hormone erythropoietin to
    stimulate red blood cell production,
  • They activate vitamin D to the hormone calcitriol
    needed for calcium reabsorption during digestion,
    and
  • They release renin, a substance that leads to the
    secretion of aldosterone.

12
Kidney Structure
  • The kidneys filter wastes from the blood, and
    thus the renal arteries branch extensively into
    smaller arteries and then arterioles inside each
    kidney.
  • Many venules unite to form small veins, which
    merge to become the renal vein.

13
Blood supply in a kidney
14
  • There are three regions to a kidney an outer
    renal cortex, an inner renal medulla, and a
    central space called the renal pelvis.
  • Microscopically, each contains over one million
    nephrons.
  • The nephrons produce urine which flows into a
    collecting duct several collecting ducts merge
    and drain urine into the renal pelvis.

15
Gross anatomy of a kidney
16
Anatomy of a Nephron
  • Each nephron has its own blood supply.
  • An afferent arteriole approaches the glomerular
    capsule and divides to become the glomerulus, a
    knot of capillaries.
  • The efferent arteriole leaves the capsule and
    branches into the peritubular capillary network.

17
Nephron anatomy
18
Parts of a Nephron
  • The closed end of the nephron is a cuplike
    glomerular capsule.
  • Spaces between podocytes of the glomerular
    capsule allow small molecules to enter the from
    the glomerulus via glomerular filtration.
  • The cuboidal epithelial cells of the proximal
    convoluted tubule have many mitochondria and
    microvilli to carry out active transport
    (following passive transport) from the tubule to
    blood.

19
Proximal convoluted tubule
20
  • The descending loop of the nephron allows water
    to leave and the ascending portion extrudes salt.
  • The cuboidal epithelial cells of the distal
    convoluted tubule have numerous mitochondria but
    lack microvilli.
  • They carry out active transport from the blood to
    the tubule or tubular secretion.
  • Collecting ducts gather in the renal medulla and
    form the renal pyramids.

21
Urine Formation
  • Glomerular Filtration
  • During glomerular filtration, small molecules
    including water, wastes, and nutrients are forced
    from the blood inside the glomerulus to the
    inside of the glomerular capsule.
  • Blood cells, platelets, and large proteins do not
    move across.
  • About 180 liters of water are filtered daily.

22
Reabsorption from Nephrons
Substance Amount Filtered Amount Excreted Reabsorp-tion ()
Water, L 180 1.8 99.0
Sodium, g 630 3.2 99.5
Glucose, g 180 0.0 100.0
Urea, g 54 30.0 44.0
23
Tubular Reabsorption
  • During tubular reabsorption, certain nutrients,
    water and some urea moves from the proximal
    convoluted tubule into the blood of the
    peritubular capillary network.
  • Tubular reabsorption is a selective process
    because only molecules recognized by carrier
    molecules are actively reabsorbed.
  • The rate of this process is limited by the number
    of carriers.

24
Tubular Secretion
  • During tubular secretion, specific substances
    such as hydrogen ions, creatinine, and drugs such
    as penicillin move from the blood into the distal
    convoluted tubule.
  • In the end, urine contains substances that have
    undergone glomerular filtration but have not been
    reabsorbed, and substances that have undergone
    tubular secretion.

25
Steps in urine formation
26
Maintaining Water-Salt Balance
  • The kidneys maintain the water-salt balance of
    the blood within normal limits.
  • By doing so, they also maintain blood volume and
    blood pressure.
  • Most of the water and salt (NaCl) present in the
    filtrate is reabsorbed across the wall of the
    proximal convoluted tubule.

27
Reabsorption of Water
  • Salt passively diffuses out of the lower portion
    of the ascending limb of the loop the upper
    thick portion actively extrudes salt into the
    tissue of the outer renal medulla.
  • Water is reabsorbed by osmosis from all parts of
    the tubule.
  • The ascending limb of loop of the nephron
    establishes an osmotic gradient that draws water
    from the descending limb of the nephron and the
    collecting duct.

28
  • The permeability of the collecting duct is under
    the control of antidiuretic hormone (ADH).
  • Diuresis is an increase in urine flow and
    antidiuresis is a decrease.
  • When ADH is present, more water is reabsorbed,
    blood volume and blood pressure rise, and there
    is a decreased amount of urine.
  • If there is insufficient water intake, the
    posterior pituitary releases ADH, causing more
    water to be reabsorbed with a decreased urine
    output.

29
Reabsorption of water
30
Reabsorption of Salt
  • Kidneys regulate salt balance by controlling
    excretion and reabsorption of ions.
  • Two hormones, aldosterone and atrial natriuretic
    hormone (ANH), control the kidneys reabsorption
    of sodium (Na).
  • When the juxtaglomerular apparatus detects low
    blood volume, it secretes renin that eventually
    results in the adrenal cortex releasing
    aldosterone that restores blood volume and
    pressure through reabsorption of sodium ions.

31
Juxtaglomerular apparatus
32
  • Reabsorption of salt increases blood volume and
    pressure because more water is also reabsorbed.
  • ANH is secreted by the atria of the heart when
    cardiac cells are stretched by increased blood
    volume.
  • ANH inhibits secretion of renin the resulting
    excretion of sodium also causes excretion of
    water and blood volume drops.

33
Diuretics
  • Diuretics are chemicals that lower blood pressure
    by increasing urine output.
  • Alcohol inhibits secretion of ADH dehydration
    after drinking may contribute to the effects of a
    hangover.
  • Caffeine increases the glomerular filtration rate
    and decreases tubular reabsorption of sodium.
  • Diuretic drugs inhibit active transport of Na so
    a decrease in water reabsorption follows.

34
Maintaining Acid-Base Balance
  • Kidneys rid the body of acidic and basic
    substances.
  • If the blood is acidic, hydrogen ions (H) are
    excreted and bicarbonate ions (HCO3-) are
    reabsorbed.
  • If the blood is basic, H are not excreted and
    HCO3- are not reabsorbed.
  • Breathing also ties up H when carbon dioxide is
    exhaled.

35
Acid-base balance
36
Chapter Summary
  • The urinary system has organs specialized to
    produce, store, and rid the body of urine.
  • Kidneys excrete nitrogenous wastes and maintain
    the water-salt and the acid-base balance of the
    blood within normal limits.

37
  • Kidneys have a macroscopic anatomy and a
    microscopic anatomy.
  • Urine is produced by many microscopic tubules
    called nephrons.
  • Urine formation is a multistep process.
  • Kidneys are under hormonal control as they
    regulate the water-salt balance of blood.
  • Kidneys excrete hydrogen ions and reabsorb
    bicarbonate ions to regulate the pH of blood.
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