Chapter One - kilic-bio103
Download
Report
Transcript Chapter One - kilic-bio103
The Urinary System
Urinary System Contribution to
Homeostasis
Regulates body water levels
Excess water taken in is excreted
Output varies from 2-1/2 liter/day to 1 liter/hour
Regulates nitrogenous and other solute waste
Nitrogen from amino acids are made into urea in liver and
transported to kidney as waste
Other solutes
Sodium, chloride, potassium, calcium, hydrogen ions,
creatinine
Urinary System
Cortex
Kidney
Renal artery
Renal vein
Nephrons
Aorta
Inferior
vena cava
Cortex
Renal
pelvis
Medulla
Ureter
Bladder
Medulla
Collecting
duct
Ureter
Urethra
a) The components of the urinary system.
b) Internal structure of the kidney.
c) The cortex and medulla of the kidney
are composed of numerous nephrons.
Organs of the Urinary System
Kidneys
Principle organ
Cortex - outer
Medulla - inner
Urinary System
Cortex
Kidney
Renal artery
Renal vein
Nephrons
Aorta
Inferior
vena cava
Cortex
Renal
pelvis
Medulla
Ureter
Bladder
Medulla
Collecting
duct
Ureter
Urethra
a) The components of the urinary system.
b) Internal structure of the kidney.
c) The cortex and medulla of the kidney
are composed of numerous nephrons.
Organs of the Urinary System
Ureters
Transport urine to bladder
Urinary bladder
Stores urine (600–1000 ml)
Urethra
Carries urine from body
Two sphincters
Males about 20 cm, females about 4 cm
Organs of the Urinary System
Urinary
bladder
Rectum
Prostate
gland
Internal
urethral
sphincter
Uterus
Vagina
Penis
External
urethral
sphincter
Rectum
Urethra
Testis
a) The male
b) The female
Tubular and Vascular Nephron Components
Nephrons: Produce Urine
Tubules
Function
Filter fluid and reabsorb needed substances
Structures
Proximal tubule
Loop of Henle
Distal tubule
Collecting duct
Nephrons: Produce Urine
Blood vessels associated with tubules
Arterioles
Afferent
Efferent
Capillaries
Glomerular
Peritubular
Vasa recta
Formation of Urine
Formation of Urine: Glomerular
Filtration
Glomerular filtration
Filters fluid from capillaries into glomerular capsule
Rate of filtration
Resting rate under local chemical control
Stress causes sympathetic nervous system to reduce blood
flow to kidneys
Formation of Urine: Tubular
Reabsorption
Tubular reabsorption returns water and needed solutes
to blood capillaries
Sodium moved by active transport from tubule cells to
interstitial fluid and diffuses to capillaries
Chloride passively accompanies sodium (balanced
charge)
Water reabsorbed with salts
Movement of sodium creates energy to transport glucose
and amino acids into renal tubule then diffuses to the
interstitial fluid
Tubular Secretion
Tubular secretion removes other substances from
blood
Purpose
Regulation of chemical levels in body
Excretion of harmful chemicals
Substances secreted
Penicillin, cocaine, marijuana, pesticides, preservatives,
hydrogen ions, ammonium, potassium
Concentration or Dilution of Urine: ADH (antidiuretic hormone)
Formation of Dilute urine (see next slide for diagram)
Excreting excess water
Mechanism
Cycling of NaCl and urea create a concentration gradient in
the medulla that allows water to diffuse from the renal tubules
into the interstitial fluid and then into the blood capillaries
Formation of Dilute Urine
Concentration or Dilution of
Urine: ADH
Formation of concentrated urine (see next slide)
Conserving water
Mechanism
Countercurrent exchange
Increased ADH causes increased permeability to the
collecting tubules and increased conservation of water
Formation of Concentrated Urine
Urination
Micturition reflex
Internal urethral sphincter
Smooth muscle
External urethral sphincter
Skeletal muscle
Kidney’s Role in Homeostasis
Maintains water balance
Adjusts blood volume and blood pressure
Aldosterone, renin, ANH help maintain salt balance in
order to control blood volume
Maintains acid–base balance and blood pH
Regulates red blood cell production via erythropoietin
Activates an inactive form of vitamin D
Kidney’s Role in Homeostasis
Kidney’s Role in Homeostasis