Urinary System Learn this and you could be a real whiz!
Functions of the Urinary System Excretion Regulation of blood pressure and volume Regulation of blood solute concentrations Regulation of extracellular fluid ph Regulation of RBC synthesis Vitamin D synthesis
Organs of the Urinary System Kidney External Bean shaped, fist sized Perirenal fat encases each kidney Renal capsule surrounds each kidney Renal fascia surrounds perirenal fat Hilum renal artery and nerves, renal vein and ureter Renal sinus
Organs of the Urinary System Kidney Internal Cortex Medulla Renal columns Renal pyramids Bases of pyramids separate medulla from cortex Renal papillae points of pyramids Minor calyces Major calyces minor calyces merge to form these which merge to form renal pelvis
Organs of the Urinary System Kidney Internal Nephron Functional unit of kidney Juxtamedullary long loops of Henle Cortical shorter loops of Henle Renal Corpuscle Bowman s capsule glomerulus
Terms to Know Bowman s capsule (glomerular capsule) Glomerulus Proximal convoluted tubule Podocyte cells Fenestrae and filtration slits = filtration membrane Afferent arteriole Efferent arteriole Juxtaglomerular cells and macula densa = juxtaglomerular apparatus Proximal convoluted tubule Loop of Henle Distal convoluted tubule Collecting ducts
Pathway Through the Kidney
Pathway Through the Kidney Afferent arteriole glomerulus (Efferent arteriole) filtration membrane proximal convoluted tubule loop of Henle (descending limb) loop of Henle (ascending limb) distil convoluted tubule collecting ducts
Pathway Through the Kidney
Renal Arteries and Veins Renal artery segmental arteries interlobar arteries arcuate arteries interlobar arteries afferent arteriole efferent arteriole peritubular capillaries vasa recta interlobular veins arcuate veins interlobular veins renal vein
Renal Arteries and Veins
Urine Production 3 processes essential for urine production Filtration production of filtrate Tubular reabsorption Tubular secretion
Filtration Urine Production Movement of water and solutes across the filtration membrane Less than 1% of the 180L of filtrate produced daily becomes urine Filtrate contains small amounts of proteins that are reabsorbed by endocytosis in proximal convoluted tubule
Urine Production Filtration Pressure Glomerular capillary pressure (GCP) moves fluid out of the capillary into Bowman s capsule Afferent arteriole dilation, increase GCP Efferent arteriole constriction, increase GCP Capsular pressure (CP) pressure of filtrate inside Bowman s capsule Blood colloid osmotic pressure (BCOP) proteins do not move out of the blood and form an osmotic force
Regulation of Glomerular Filtration Rate (GFR) Autoregulation Kidneys maintain GFR Increase blood pressure = afferent arteriole constricts to prevent increase in renal blood flow and filtration pressure Filtrate rate of flow past macula densa will send signals to constrict/dilate afferent arteriole Sympathetic Stimulation Norepinephrine stimulates constriction of afferent arteriole
Urine Production Tubular Reabsorption Proximal Convoluted Tubule Apical surface = inside tubule Basal surface = outer wall of tubule 1. Sodium is in high concentration in the lumen of the tubule Many substances are symported with sodium into the cells lining the proximal tubule 2. Sodium concentration increases in the cells and must be actively transported out of the cells 3. Symported substances cross the basal membrane by facilitated diffusion Water will follow by osmosis
Urine Production
Urine Production
Tubular Reabsorption Loop of Henle Descending Urine Production Highly permeable to water and moderately to urea, sodium and ions Water moves out; solutes move into the filtrate Volume of filtrate reduced another 15% Ascending Permeable to solutes, not to water Solutes diffuse out of the filtrate in the thin segment sodium, potassium, chlorine are transported out of the filtrate in the thick segment
Urine Production
Tubular Reabsorption Urine Production Distil Convoluted Tubule and Collecting Ducts Chlorine is symported with sodium through the apical surface Interstitial fluid solute concentration is high, so osmosis occurs Permeability of the collecting duct and distil convoluted tubule to water is hormonally controlled Renal tubules are not as permeable to urea, urate ions, creatine, sulfates, phosphates, and nitrates
Tubular Secretion Urine Production Movement of materials that become toxic in high concentrations into the nephron for elimination Hydrogen produced by carbon dioxide combining with water is antiported with sodium
Medulla Concentration Gradient Cortex = 300 mosm/kg Medulla increases in concentration to 1200 mosm/kg Concentration of Medulla is maintained by Active transport of sodium and the symport of potassium, chlorine, and other ions out of the thick portion of the ascending limb into the medulla Impermeability of ascending limb to water Reabsorbed water and solutes enter the blood supply Active transport of ions into the medulla Urea diffuses into the medulla
Urine Concentration and Volume Hormonal Mechanisms Renin Angiotensin Aldosterone Renin is secreted by juxtaglomerular apparatus if Blood pressure in afferent arteriole decreases Sodium concentration of filtrate decreases as it passes the macula densa Renin angiotensinogen angiotensin I angiotensin II vasoconstriction increased blood pressure Angiotensin II increases aldosterone secretion and ADH secretion Aldosterone increased sodium transport back into blood Increased blood potassium stimulates aldosterone secretion; decreases in blood potassium decreases aldosterone secretion
Urine Concentration and Volume Hormonal Mechanisms Antidiuretic Hormone (ADH) Secreted by posterior pituitary Hypothalamus osmoreceptor cells sense small osmolarity changes Osmolarity too high ADH released Osmolarity too low ADH shut off Blood pressure also influences ADH secretion BP too high ADH shut off BP too low ADH released
Urine Concentration and Volume Hormonal Mechanisms Atrial Naturetic Hormone (ANH) Secreted by cardiac cells (stretch) Inhibits sodium reabsorption in kidney Inhibits ADH to increase urine volume to lower blood pressure and blood volume Dilates arteries and veins
Urine Concentration and Volume CVP central venous pressure AVP vasopressin or ADH ANH atrial naturetic hormone (peptide)
Plasma Clearance Represents the volume of plasma that is cleared of a specific substance each minute Can be use to determine GFR (Inulin used) Clearance value for urea and creatinine Increase plasma concentration and lower than normal clearance = kidney failure and reduced GFR Can also be used to determine the volume of plasma flowing through the kidney each minute
Tubular Load and Tubular Maximum Tubular Load total amount of a substance that passes into the nephron each minute Tubular Maximum maximum rate at which a substance can be actively reabsorbed
Urine Movement Micturition Reflex activated when the bladder is stretched and results in micturition, the elimination of urine Urine, you re out!