Functional Histology Of The Kidney Flashcards

1
Q

How does homeostasis of plasma composition occur?

A

→ By regulated excretion of water, ions and organic waste products into the urine

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2
Q

How does homeostasis of blood pressure occur?

A

→ Through the enzyme renin

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3
Q

How does homeostasis of RBC content occur?

A

→ secretion of EPO

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4
Q

How much of the cardiac output do the kidneys receive?

A

→ 25%

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5
Q

What happens at the nephron?

A

→ blood is filtered at the molecular level (dialysis) to produce urine, while retaining cells and large proteins

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6
Q

How many nephrons are there in each kidney?

A

→ About 1 million

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7
Q

What is the glomerulus the site of?

A

→ site of ultrafiltration

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8
Q

What is ultrafiltration?

A

→Filtration/dialysis of blood through an extremely fine molecular filter
→A knot of capillaries

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9
Q

What capillaries are there in the glomerulus?

A

→ fenestrated capillaries

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10
Q

What happens during nephrotic syndrome?

A

→Glomerular basement membranes become damaged and more leaky

→So proteins are lost in the urine (proteinuria)

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11
Q

What happens to glomeruli during high pressure?

A

→Some glomeruli are destroyed and replaced by masses of clear “hyaline” material (H)

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12
Q

What is the function of the renal tubule?

A

→ adjust the composition of the ultrafiltrate, to recover nutrients, water etc, and to regulate plasma composition

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13
Q

What is the function of the proximal convoluted tubule?

A

Reabsorption from the ultrafiltrate
By active transport across the membrane into the cell
→Small molecules like Na+, glucose and amino acids
By pinocytosis: macromolecules, especially proteins
→These are broken down in lysosomes and returned to the blood
By passive flux
→Water, Cl-

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14
Q

What is the structure of the PCT?

A

→Long microvilli
→For high surface are for reabsorption
→Many mitochondria to fuel active transport
→Seen especially near the basolateral sodium pumps

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15
Q

What enzymes does the PCT have and what is this for?

A

→Lytic enzymes on the surface to break down macromolecules

→Has many lysosomes to break down and recycle macromolecules

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16
Q

What is the function of the loop of Henle?

A

→Reabsorption of water and salts from the filtrate

→Passive flux across the epithelium, by osmosis & concentration gradients

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17
Q

What is the function of epithelial cells in the loop of Henle?

A

→Thin, squamous epithelium to allow passive fluxes

A minimum of organelles

18
Q

What is the function of the distal convoluted tubule?

A

→Homeostasis by regulated active transport & exchange of ions
→(Na+/K+, H+, HCO3-)

19
Q

What is the structure of the DCT?

A

→Cuboidal epithelium
→Thicker than squamous, to reduce passive fluxes and accommodate organelles
→Few, short microvilli (unlike PCT)
→Many mitochondria to fuel active transport
→These are mainly basal and can show as a pale or striped basal area in H&E-stained sections

20
Q

What is the function of the collecting ducts?

A

→Transport of urine to ureter

→Water homeostasis, passive reabsorption of water, regulated through epithelial permeability

21
Q

What is the structure of the collecting ducts?

A

→Cuboidal to columnar epithelium
→To prevent passive flux of water (and urea etc)
→Specialised dense membranes at cell contacts (RED)
→Function is unclear – probably also helping to prevent passive flux

22
Q

As you go down the collecting duct what happens to the cells?

A

→cells get taller and taller

→ more impermeable to the water crossing them

23
Q

Where is the juxtaglomerular apparatus found?

A

→Is found where the DCT loops back to meet arterioles of the same nephron

24
Q

What does the macula densa do?

A

→Senses [Na+] in the DCT fluid

→Signals to the juxtaglomerular cells

25
Q

What do the juxtaglomerular cells release?

A

→Release renin

→More release of renin in response to lower [Na+] in DCT

26
Q

What does renin indirectly increase?

A

→Renin indirectly increases vascular tone and sodium resorption

27
Q

What are Lacis cells also known as?

A

→ extraglomerular mesangial cells

28
Q

What is transitional epithelium?

A

→special stratified epithelium, found only in ureters and bladder

29
Q

What is the transitional epithelium specialized for?

A

→Specialised to be impermeable to urine

30
Q

When does the transitional epithelium change appearance?

A

→It changes appearance on stretching

31
Q

What is transitional epithelium similar to?

A

→It is similar to stratified squamous epithelium (SSE) when distended

32
Q

What cells are the bigger in the transitional epithelium?

A

→But apical cells are the biggest and have a lot of apical cytoplasm
→In SSE, basal cells are the biggest, and apical cells are very flat

33
Q

What cells are biggest in stratified squamous epithelium?

A

→In SSE, basal cells are the biggest, and apical cells are very flat

34
Q

What is present in the apical cells of epithelium?

A

→There are plaques of specialised (urine-resistant) plasma membrane in the apical cells of transitional epithelium

35
Q

What do the rigid membrane patches in apical cells in the TE do?

A

→These impermeable, rigid membrane patches (plaques) protect apical cells from toxic urine

36
Q

What happens to the rigid membrane patches when the bladder is empty?

A

→rigid plaques are invaginated
→ forming pits and vesicles in the cell
→ allowing the cell surface are to decrease

37
Q

Why are urinary infections quite common?

A

→Transitional epithelium is highly impermeable

→The leukocytes of the immune system cannot readily penetrate

38
Q

Why are urinary infections common in women?

A

→The female urethra is shorter
→More risk of contamination
E.g. from anal region

39
Q

How do you prevent urinary infections?

A

→ Drinking water

40
Q

What are the layers of the ureter?

A

→Transitional epithelium- important because its unique to urinary system
→Dense connective tissue (lamina propria)
→Layers of smooth muscle(for peristalsis)
→Adventitia- connective tissue surrounding organs

41
Q

Describe the collecting duct epithelial cell

A

Cuboidal to columnar epithelium, to prevent unregulated passive flux of water (and urea)

Dense membranes at cell contacts.
Function unclear – probably also helping to prevent passive flux.