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Physiology of Kidneys (Renal System)

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Physiology of Kidneys (Renal System) Dr. Sherwan Rahman Sulaiman ... PGC GFR and renal blood flow Renin/AII and Regulation of GFR GFR = Kf (PGC ... – PowerPoint PPT presentation

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Title: Physiology of Kidneys (Renal System)


1
Physiology of Kidneys(Renal System)
  • Dr. Sherwan Rahman Sulaiman
  • MD, MSc, PhD
  • www.doctorsherwan.com

2
Functions of the KidneyMaintaining balance
  1. Regulation of body fluid volume and osmolality
  2. Regulation of electrolyte balance
  3. Regulation of acid-base balance
  4. Excretion of waste products (urea, ammonia,
    drugs, toxins)
  5. Production and secretion of hormones
  6. Regulation of blood pressure

3
The Kidney and the Nephron
  • Renal Vein
  • Renal Artery
  • Ureter
  • Medulla
  • Renal Pelvis
  • Cortex
  • Ascending loop of Henle
  • Descending loop of Henle
  • Peritubular capillaries
  • Proximal tubule
  • Glomerulus
  • Distal tubule

4
The Nephron
  • Functional unit of the kidney (1,000,000)
  • Responsible for urine formation
  • Filtration
  • Secretion
  • Reabsorption

5
Components of the nephron
  • Glomerulus
  • Afferent and Efferent arterioles
  • Proximal Tubule
  • Loop of Henle
  • Distal Tubule
  • Collecting Duct

6
Overview of nephron function
7
Filtration
8
THE GLOMERULUS
9
Plasma is filtered through the glomerular barrier
  • Components of plasma cross the three layers of
    the glomerular barrier during filtration
  • Capillary endothelium
  • Basement membrane (net negative charge)
  • Epithelium of Bowmans Capsule (Podocytes
    filtration slits allow size lt60kD)
  • The ability of a molecule to cross the membrane
    depends on size, charge, and shape
  • Glomerular filtrate therefore contains all
    molecules not contained by the glomerular barrier
    - it is NOT URINE YET!

10
Glomerular Filtration Rate (GFR)
  • Measure of functional capacity of the kidney
  • Dependent on difference in pressures between
    capillaries and Bowmans space
  • Normal 120 ml/min 7.2 L/h180 L/day!! (99 of
    fluid filtered is reabs.)

11
Oncotic pressure
Oncotic pressure is the component of total
osmotic pressure due to colloid particles. Water
molecules cross the membrane to equalize the
concentration of colloid particles on each side.
12
Glomerular filtration rate (GFR)
  • Depends on the difference in hydrostatic and
    oncotic pressure on either side of the glomerular
    basement membrane

GFR Kf(PGC - PBS - COPGC) P hydrostatic
pressure COP colloid osmotic pressure Kf
determined by surface area and permeability of
H2O
Glomerular Capillary (GC)
Bowmans space (BS)
PGC
PBS
COPGC
COPBS
13
Reabsorption
  • Active Transport requires ATP
  • Na, K ATP pumps
  • Passive Transport-
  • Na symporters (glucose, a.a., etc)
  • Na antiporters (H)
  • Ion channels
  • Osmosis

14
Factors influencing Reabsorption
  • Saturation Transporters can get saturated by
    high concentrations of a substance - failure to
    resorb all of it results in its loss in the urine
    (eg, renal threshold for glucose is about
    180mg/dl).
  • Rate of flow of the filtrate affects the time
    available for the transporters to reabsorb
    molecules.

15
What is Reabsorbed? Where?
Proximal tubule - reabsorbs 65 of filtered Na
as well as Cl-, Ca2, PO4, HCO3-. 75-90 of H20.
Glucose, carbohydrates, amino acids, and small
proteins are also reabsorbed here. Loop of Henle
- reabsorbs 25 of filtered Na. Distal tubule -
reabsorbs 8 of filtered Na. Reabsorbs HCO3-.
Collecting duct - reabsorbs the remaining 2 of
Na only if the hormone aldosterone is present.
H20 depending on hormone ADH.
16
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17
Secretion
  • Proximal tubule uric acid, bile salts,
    metabolites, some drugs, some creatinine
  • Distal tubule Most active secretion takes place
    here including organic acids, K, H, drugs,
    Tamm-Horsfall protein (main component of hyaline
    casts).

18
Loop of Henle
  • Goal make isotonic filtrate into hypertonic
    urine (dont waste H20!!)
  • Counter-current multiplier
  • Descending loop is permeable to Na, Cl-, H20
  • Ascending loop is impermeable to H20- active NaCl
    transport
  • Creates concentration gradient in interstitium
  • Urine actually leaves hypotonic but CD takes adv
    in making hypertonic

19
Hormones Produced by the Kidney
  • Renin
  • Released from juxtaglomerular apparatus when low
    blood flow or low Na. Renin leads to production
    of angiotensin II, which in turn ultimately leads
    to retention of salt and water.
  • Erythropoietin
  • Stimulates red blood cell development in bone
    marrow. Will increase when blood oxygen low and
    anemia (low hemoglobin).
  • Vitamin D3
  • Enzyme converts Vit D to active form
    1,25(OH)2VitD. Involved in calcium homeostasis.

20
Renin, Angiotensin, Aldosterone Regulation of
Salt/Water Balance
21
Renin/AII and Regulation of GFR
GFR Kf(PGC - PBS - COPGC)
  • flight or fright
  • ? sympathetic tone
  • afferent arteriolar constriction (divert cardiac
    output to other organs)
  • ?PGC
  • ?GFR and renal blood flow

22
Renin/AII and Regulation of GFR
GFR Kf(PGC - PBS - COPGC)
  • Low BP sensed in afferent arteriole or low Na in
    distal tubule
  • renin released
  • renin converts angiotensinogen to Angiotensin I
  • ACE converts AI to AII
  • efferent gt afferent arteriolar constriction
  • ? PGC ? ? GFR (this is AUTOREGULATION of GFR)

PGC?
constricts
23
Aldosterone
  • Secreted by the adrenal glands in response to
    angiotensin II or high potassium
  • Acts in distal nephron to increase resorption of
    Na and Cl- and the secretion of K and H
  • NaCl resorption causes passive retention of H2O

24
Anti-Diuretic Hormone (ADH)
  • Osmoreceptors in the brain (hypothalamus) sense
    Na concentration of blood.
  • High Na (blood is highly concentrated)
    stimulates posterior pituitary to secrete ADH.
  • ADH upregulates water channels on the collecting
    ducts of the nephrons in the kidneys.
  • This leads to increased water resorption and
    decrease in Na concentration by dilution
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