ILA9 - Renal

Question 1

What are the layers surrounding the kindney? (deep to superficial)

Answer 1

Renal capsule (tough), perirenal fat, renal fascia, pararenal fat

Question 2

Name some functions of the kidney.

Answer 2

• Filter and excrete waste from the blood (metabolic waste, water and xs electrolytes)
• Maintain H2O and electrolyte balance

Question 3

What is the position of the kidneys?

Answer 3

Retroperitoneal
Left T12-L1
Right L1-L3 (due to liver)

Question 4

What are the layers of the kidney (deep to superficial)?

Answer 4

Pelvis, medulla, cortex

Question 5

Describe the renal cortex.

Answer 5

• Roughly 7mm in healthy adult
• Composed of renal corpuscles (filtering part), PCTs and DCTs
• Medullary ray= collection of L of Hs and collecting ducts which have corpuscles in outer part of cortex, give striated appearance

Question 6

Describe the renal medulla.

Answer 6

• Around 20 inverted pyramids (papilla is the tip)
• Drain into calicies then into pelvis
• Contains L of Hs, CDs and blood vessels (vasa recta)

Question 7

Describe the renal pelvis.

Answer 7

• Contains fat, urine collecting system
• Urothelium
• Continuous with CDs and ureters

Question 8

Describe the course of the ureters.

Answer 8

Retroperitoneal. Renal pelvis, run along ant. surface of psoas muscle, passes under uterine artery and vas (water under the bridge), cross sacroiliac joint and pelvic ridge, at iliac spine they angle towards the bladder

Question 9

What is the supply to the ureters?

Answer 9

in abdomen it is renal and gonadal arteries
In pelvis it is superior and inferior visceral
Venous drainage is identical

Question 10

What is the nerve supply to the ureters?

Answer 10

Testicular, renal and hypogastric nerve plexus

Question 11

What are the parts of the bladder?

Answer 11

• Apex (superior part, near pubic symphysis)
• Body (main part)
• Fundus (main part)
• Neck (bladder to ureter)

Question 12

What is the trigone in the bladder?

Answer 12

The bit between the openings of the urters and the ureter (triangle shape), it is the only part of the inner surface which is not trabeculated

Question 13

What type of mucosa is in the bladder?

Answer 13

Rugose, urothelium

Question 14

What is the function of the bladder?

Answer 14

Collection, temporary storage and expulsion of the urine

Question 15

What is the blood supply to the bladder?

Answer 15

Internal iliac

Question 16

What controls the outflow of urine from the baldder?

Answer 16

Internal and external urethral sphincters

Question 17

What muscle is in the wall of the bladder?

Answer 17

Smooth (detrusor), has sympathetic and para. innervation

Question 18

What is the innervation to the bladder?

Answer 18

• Sympathetic: hypogastic (T12-L2) relaxes detrusor
• Parasympathetic: pelvic (S2-4) contracts detrusor
• Somatic: pudendal (S2-4) external sphincter

Question 19

How long is male & female urethra?

Answer 19

Male = 15-20cm
Female = 4-5 cm

Question 20

What are the parts of the male urethra?

Answer 20

1) Pre-prostatic
- int urethral orifice ends at prostate, urothelium
2) Prostatic
- through prostate gland, urothelium
3) Membranous
- ext urethral sphincter (voluntarty control), urothelium
4) Penile/spongy
- corpra spongiosa, navicula fossa, pseudo then stratified squamous

Question 21

Where does the urethra open in females?

Answer 21

Between the labia minora, anterior to the vagina

Question 22

What are the two types of nephron?

Answer 22

Juxtamedullary and corticular

Question 23

What is the order of the renal tract?

Answer 23

Pelvis, ureter (uteropelvic junction), bladder (forming valves), urethra, pee pee

Question 24

What is the type of muscle in the urethral sphincters in males and females?

Answer 24

Male- internal is smooth, external is skeletal

Female- internal isnt functional, external is skeletal

Question 25

Which substances are mainly excreted/reabsorbed at the PCT, desc. limb of LoH, asc. limb of LoH, DCT and CD?

Answer 25

PCT- glucose,AA,H20 and salts reabsorbed, drugs and poisions exreted
Desc- H2O reabsorbed
Asc- salts reabsrobed
DCT- salts, Ca and H2O reabsorbed. K, H and urea exreted
CD- H20 reabsorbed

Question 26

Describe the corpuscle?

Answer 26

a) Glomerulus= tuft of capillaries from afferent arteriole
b) Bowman’s capsule is double walled
c) Capillary tuft supported by Mesangial cells (smooth muscle)
- produce extracellular matrix protein
- reg of GFR,
- phagocytosis
d) Filtration barrier
- capillary endothelium fenestrated (covered by fibrils)
- basement memb is double and has -ive charge
- podocyte foot processes (-ive charge)
e) Juxtaglomerular apparatus (2 cell types)

Question 27

What are the 2 cell types in the juxtaglomerular apparatus?

Answer 27

a) Juxtaglomerular cells (granular)
- endothelial cells of afferent arteriole expanded
- detect changes in bp, decreased leads to secreted renin to increase water reabsorption and so increase bp
b) Macula densa
- Detect changes in Na+ in the DCT
- lie between the DCT and corpuscle
- uses amount of Na in DCT as indication for GFR, if drops it decreases resistance in afferent arteriole also signals to juxtaglomerular cells using prostaglandin to secrete renin

Question 28

Describe the PCT.

Answer 28

• Cuboidal epithelium with microvilli = increased surface area
• Many mitochondria for active transport of Na+&K+ back in
• Lysosomes which breakdown absorbed proteins
• Na/K ATPase pumps Na in, water follows

Question 29

Describe the LoH.

Answer 29

a) Desc. limb (thin, H2O permeable)- H2O reabsorb= concentrate urine (osmosis)
b) Asc. limb (thick, impermeable to H2O)- reabsorb salts by AT, leaves waste and H2O in tubules
c) Countercurrent multiplication
- desc limb, osmolality in filtrate increases due to H2) leaving, impermeable to salts (osmolality 200 to 1200)
- asc limb, Na reabsorbed by diffusion and active transport

Question 30

What is the order of blood flow in the kidney?

Answer 30

Renal artery, segmental, interlobar, arcuate, interlobular, afferent arterioles (peritubular capillaries and vasa recta), glomerular capillaries, efferent arteriole, interlobular veins, arcuate veins, interlobar veins, segmental veins and then renal vein

Question 31

Describe DCT.

Answer 31

• Cuboidal, no microvilli, cells are shorter than PCT
• Distal end drains into papillae and calicies
• Cells:a)principle (responds to aldosterone=Na for K, responds to ADH = increased aquaporin 2)
  b) intercalated (H+ for HCO3-)

Question 32

What is the hydrostatic pressure in the glomerulus and bowman’s space?

Answer 32

45mmHg and 10mmHg meaning forces solutes out

Question 33

What is the osmotic pressure in the glomerulus and bowman’s space?

Answer 33

25mmHh (rises) and 0 meaning fluid drawn out

Question 34

What is the rough Cardiac output? How much of that goes to the kidneys? How much urine is produced in a minute by the kidneys?

Answer 34

5L/min, 1L/min and 1mL/min

Question 35

What are the volume sensors and where are they?

Answer 35

a) Baroceptors (aorta and carotid sinus)
b) Low pressure (aorta and pulmonary veins)
c) Afferent arteriole pressure and distension
d) Juxtaglomerular apparatus
- Juxtaglomerular cells and macula densa

Question 36

How does renin bring about a change in BP?

Answer 36

1) Decreased H2O in ECF= decreased circulating vol = decreased renal flow, this is detected by the stretch receptors in the renal vascular walls
2) Renin is secreted from juxta. cells (renin is a proteolytic enzyme)
3) Renin is released to the afferent arteriole cells
4) Renin converts Angiotensinogen to Angiotensin I
5) Angiotensin I to Angiotensin II by ACE in lung
6) Angiotensin II causes vasoconstriction, aldosterone release from adrenal medulla, Na+ reabsorption in PCT, thirst and increased ADH

Question 37

Describe the action of aldosterone on cytoplasmic receptors.

Answer 37

• Translocated to nucleus where acts as transcription factor
• Causes increased synthesis of epithelial Na+ channels (ENaC) and Na/K ATPase channels
• H2O moves with Na+ into cell (principal) and blood

Question 38

Describe the action of aldosterone on cell membrane receptors.

Answer 38

Increases the number of open ENaC

So more Na+ into blood and more H2O

Question 39

Where is ADH (vasopressin) synthesised?

Answer 39

Supraoptic and paraventricular nuclei of hypothalamus

Question 40

Where is ADH secreted?

Answer 40

Posterior pituitary

Question 41

How is ADH secretion controlled?

Answer 41

1) Mainly by hypothalamic osmoreceptors
- low water conc in blood (high osmolality) means water moves out of receptors = shrinkage= stimulation to post pituitary to release ADH= increased water reabsorption
2) Inputs from baroreceptors and Angiotensin II which override osmolality

Question 42

Describe what happens when dehydrated.

Answer 42

1) Dehydration sense by osmoreceptors
2) Impulse to post pituitary causing ADH release
3) ADH binds to adenyl cyclase coupled Vasopressin 2 receptors in collecting duct
4) This causes:
- activation of cAMP
- activation of phosphate kinase
- increased transcription and insertion of aquaporin 2 to apical membrane
- increased thirst

Question 43

What is the limiting factor in the production of angiotensin II?

Answer 43

Rate of production of renin

Question 44

What is acute kidney injury (AKI)?

Answer 44

• Abrupt loss of kidney function which develops within 7 days
• Damage to kidney caused by decreased renal blood flow (renal-ischaemia) from any cause, exposure to harmful substances, inflammatory process within the kidney or obstruction of the urinary tract

Question 45

What are the three categories of causes of AKI?

Answer 45

Pre renal, renal and post renal

Question 46

Name some pre-renal causes of AKI.

Answer 46

Anything that decreases the blood flow to the kidney

E.g. low blood volume, low blood pressure, heart failure, damage to vessels supplying the kidneys, liver cirrhosis

Question 47

Name some renal causes of AKI.

Answer 47

• Damage to the kidney
• Inflammation
• PKD

Question 48

Name some post-renal causes of AKI.

Answer 48

• Obstruction of tract
• Kidney stones
• Enlarged prostate
• Blood clots

Question 49

Name some common causes of chronic renal failure.

Answer 49

• Conditions that put strain on the kidneys
• High BP damages the capillaries
• Diabetes (glucose damages the filters)
• Inflammation
• Polycystic kidney disease

Question 50

List some complications of chronic renal failure.

Answer 50

Anemia, weak immune system, increased cardiovascular disease risk, CNS damage, metabolic acidosis, myoclanic twitching, weak bones

Question 51

What effect do ACE inhibitors have on the kidneys?

Answer 51

• efferent arteriole dilation= reduced GFR

- reduced aldosterone= increased exretion of Na and water & increased reabsorption of K