Module 6 Part 1_removed.pdf

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The Renal System
The Renal System is part of
the Urinary System: kidneys,
ureters, urinary bladder and
urethra.
Kidneys filter the blood but
return most of the water
and solutes back to the
body.

Waste (urine) flows from
each kidney, down its ureter
to the bladder.

Passed to the exterior via the
urethra.

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Anatomy of the kidney
The kidney is bean shaped and
the size of a fist (11cm long)

It is surrounded by the renal
capsule (fibrous CT)

It is retroperitoneal (lies behind
the peritoneum on the posterior
abdominal wall on either side of
the vertebral column)

The right kidney is lower than
the left kidney.

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 Internal anatomy of the kidney
Regions of the kidney:
Cortex – outer portion
Medulla – inner portion consisting of 8-18
cone-shaped structures called pyramids
separated by renal columns
The renal hilus – small area on the medial
side: entrance/exit for renal artery and vein,
nerves, lymphatic vessels and ureter
Renal sinus is the drainage system fills the
cavity and contains cuplike structures
called minor and major calyx
Renal pelvis is the enlargement of the
ureter

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 The nephron
It is the structural and functional unit of the kidney.
There are two types of nephrons: Cortical (85%) and juxtamedullary (15%)

1. Renal corpuscle - plasma filtration
Glomerulus
Bowman's capsule

2. Renal tubules - reabsorption and secretion
Proximal convoluted tubule (PCT)
Loop of Henle (LoH)
Distal convoluted tubule (DCT)

3. Collecting ducts and papillary ducts drain
urine to the renal pelvis

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 Renal corpuscle

Glomerulus or glomerular capillaries arise from afferent arteriole before emptying
into efferent arteriole

Bowman's capsule surrounds the capsular space containing the glomerulus and
has two layers:
parietal layer made of simple squamous cells
visceral layer made of podocytes which cover glomerular capillaries

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 Renal tubules: Proximal Convoluted Tubule

Reabsorption of water (65%) and solutes
(glucose, amino acids, Na+, K+)

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Renal tubules: Loop of Henle
Sets up salt gradient in medulla

a) Short in cortical nephrons
b) Long in juxtamedullary nephrons
c) Made of two limbs:
1. Descending (simple squamous epithelium) is
permeable to water and moderately permeable
to Na+ , urea and other solutes
2. Ascending where Cl - are actively reabsorbed
followed passively by Na+
a) Thin (simple squamous epithelium)
b) Thick (simple cuboidal epithelium)

d) Surrounded by vasa recta (only in juxtamedullary
nephrons)

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Cortical vs justamedullary nephron

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Renal tubules: Distal Convoluted Tubule
Lies in the cortex

Made of simple cuboidal epithelium with a few
microvilli and many mitochondria

Impermeable to water

Reabsorption of water (15%) controlled by ADH

Reabsorption of Na+ controlled by aldosterone

Secretion of K+ , H+, drugs.

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Collecting duct
Receives filtrate from several nephrons

Found within the cortex and medulla
Empties into papillary ducts
Made of simple cuboidal epithelium
Site for reabsorption of Na+ controlled by
aldosterone
Site for reabsorption of water controlled by ADH

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 Kidney functions
1. Excretion: Filters blood (plasma) to remove wastes and
foreign substances

2. Regulation of blood volume and blood pressure

3. Release of erythropoietin (stimulates hemopoiesis)

4. Release of calcitriol (vitamin D) (helps calcium
reabsorption in kidneys)

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 Excretion: urine formation

1. Glomerular filtration within glomerulus
2. Tubular reabsorption mainly within PCT
3. Tubular secretion mainly within DCT

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 The glomerulus: adaptation for filtration
Passive, selective process (determined by size and
charge) in which pressure forces blood through the
filtration (glomerular) membrane is called filtration.

1. Very long
2. Presence of fenestrae and filtrations slits
3. Thin wall (< 0.1m)
4. Smaller diameter of the efferent arteriole
compare to the afferent arteriole

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Filtration membrane components

1. Fenestrated endothelium (glomerulus) stops all cells and platelets
2. Basement membrane or basal lamina stops large plasma proteins
3. Podocyte cell layer (filtration slits) stops medium-sized proteins

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 Peff = GCP - (BCOP + CHP)
This pressure is sufficient to produce an appropriate glomerular filtrate rate

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Glomerular Filtration rate (GFR) is the amount of filtrate formed in all renal
corpuscles of both kidneys/minute. Average GFR = 125 ml/min = 180 L/day

Homeostasis requires GFR be constant
a) If GFR is too high useful substances are lost due to the speed of fluid
passage through nephron
b) If GFR is too low waste products may not be removed from the body

GFR is maintained constant by intrinsic mechanisms collectively called
autoregulation via the juxtaglomerular apparatus, and extrinsic mechanisms via
the autonomic nervous system and hormones

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 Justaglomerular apparatus (JGA)
The Juxtaglomerular apparatus consists of two types of cells:
a. Juxtaglomerular cells are modified muscle cells around the afferent arteriole
which act as stretch receptors and monitor the blood pressure causing
vasoconstriction or vasodilation of the afferent arteriole
b. Macula densa cells are specialised cells of the distal convoluted tubule which
detect changes in filtrate flow and send a signal to the juxtaglomerular cells to
constrict or dilate

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 Autoregulation of GFR
Intrinsic mechanisms in the kidney are able to monitor GFR (via macula densa cells)
and adjust blood flow accordingly:

Autoregulation maintains GFR constant when MAP is between 80 and 180mmHg and
protects the kidneys from bp fluctuations

In case of very low blood pressure (hemorrhage or dehydration) the sympathetic nervous
system can override the process of autoregulation reducing the amount of blood to kidneys

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 Movement of solutes from filtrate to blood
Nephron reabsorbs 99.5% of the filtrate

It is a "DISCRIMINATING PROCESS":

a) Na+ reabsorbed by active transport

b) Glucose, amino acids and most
cations reabsorbed via cotransport
(symport)

c) Water follows by osmosis

PCT with their microvilli and mitochondria do
most of work

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Sodium reabsorption:

PCT (67%), LoH (25%), DCT and CD (8%)

DCT and CD controlled by aldosterone

Important for regulation of extra cellular fluid volume

Water reabsorption:

PCT (65%), LoH (15%), DCT and CD (20%)

Controlled by Na+ movement and ADH

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 Movement of solutes from the blood into the

filtrate

Most active in DCT

Helps control blood pH (secretion of H+)

Helps eliminate certain substances very

quickly, e.g. NH4+ , creatinine, some drugs,

K+.

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 Micturition Reflex

External urethral sphincter is made of skeletal muscle

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