1) Endothelial cells(1)-leakiest in the body located on top of a basement membrane

2) Mesangial cells (5a): may play a role in changing size of surface area of glomerus capillaries

3) Podocytes (3b): locate outside the basement membrane, these are arranged alongside each other, leaving filtration 'slits' between them. This allows small solutes to pass through but prevents albumin & larger proteins from exiting the blood stream

This area is where all blood once passed through glomerular capillary membrane passes into. This space then drains into the proximal convoluted tubule

Afferent arteriole conducts blood into the glomerulus

Efferent arteriole conducts the unwanted blood away from the glomerulus back to the circulation

Loop of Henle

Ureters

1) Juxtaglomerular (JG)/Granular cells (6)

Macula Densa Cells (7)

Extraglomerular mesangial cells (5b)

Zona Glomerulosa Cells of the adrenal glands

If osmolarity becomes higher than normal, cells will shrink in the hypothalamus, which stimulutes thirst centres and the production of ADH

Secreted in the atria, it inhibits Na+/H20 reabsorption by decreasing secretion of Renin & Aldosterone. Also acts by vasodilating the afferent arteriole & increasing GFR & decreasing reabsorption of Na+. Overall effect is Total Blood Volume is reduced.

Test: bland urinary sedement (little protein/cells, high serum urea compared to creatinine.

Tubulo-interstitial: 1) Acute tubular necrosis (usually resolves), from unresolved pre-renal problem 2) Interstitial nephritis: DRUGS like penicillins, aspirin, NSAIDS (Analgesic nephropathy).

Glomerular (presence of haemeturia, lipiduria & proteinuria): glomerularnephritis is usual cause & is divided into types:

Vascular: Hypertension, Polyarteritis

Test: Hydronephrosis on abdominal U.S

No. 1: ACE INHIBITORS to disrupt renin-angiotensin system. ACts as an antihypertensive, anti A.M.I

Specialisations: Brush border filled with protein carrier molecules & Na+/K+/ATP pumps. Also a Na+/H+ pump in luminal membrane & a basolateral HCO3-/Na+ co-transporter for bicarbonate handling.

Bicarbonate reabsorption: H+ from Na+/H+ pump combines with HCO3- in lumen forming H2CO3. This then dissociates into CO2 + H20. These then diffuse into tubular cell. They thnen reform and H+ is pumped out while HCO3 is co-pumped with Na+ into capillary.

Specialisations: Part of the counter current mechanism in the vasa recta. H20 is drawn out via oncotic pressure differences and not via active transport

Specialisations: Na+/K+/ATPase pumps in basolateral membrane. A co-transporter that moves 1Na+, 2Cl-, 1K+ into tubular cell. This also drives Ca2+ & Mg2+ into cell. This section is also part of counter-current mechanism.

Specialisations: Na+/K+/ATPase pump in basolateral membrane that may be up-regulated by Aldosterone. Also a Na+/Cl+ co-transported using energy from other pump to drive.

Na+/K+ antiporter in luminal membrane. ADH causes insertion of aquaporins, increasing H20 reabsorption.

1) PASSIVE carrier mediated facilitated diffusion (channel) into tubular cell

2) Na+/K+/ATPase pumps move Na+ into capillary & K+ into tubular cell then into lumen by diffusion

1) Co-symporter with Na+

2) Via Secondary Active Transport. Energy from Na+/K+/ATP pump facilitates glucose moving against its concentration gradient into capillary