Renal Physiology Categorisation Drills for the exam - podcast episode cover

Renal Physiology Categorisation Drills for the exam

Anaesthesia Coffee Break
Aug 07, 202123 minEp. 27
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Episode description


Here are renal categorisation drills!

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Functions of the kidney
How does the kidney establish a concentration gradient?
Handling of acid
Factors that govern GFR
                  Flow         =                Kf [(PGC  –  PBS) -  s (PGC  -  PBS)]


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 The information contained in this podcast is for medical practitioner education only. It is not and will not be relevant for the general public.

This contains general information about medical conditions and treatments. The information is not advice and should not be treated as such. 

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 Medical information can change rapidly, and the author/s make all reasonable attempts to provide accurate information at the time of filming. There is no guarantee that the information will be accurate at the time of viewing

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Transcript

Renal categories 

 

Aim to show systematic approach to move through quickly.

 

Functions of the kidney

1)    H20 balance

2)    Electrolytes

3)    Waste

a.     Urea

b.     Uric acid

c.     Creatinine

d.     Hb

e.     Drugs

4)    Endocrine

a.     Vit D EPO,protsglandins 

5)    RBC

6)    Gluconeogenesis

7)    Blood pressure 

 

 

How does the kidney establish a concentration gradient?

 

1)    Countercurrent multiplier

2)    Counter current exchanger

3)    Role of urea

 

Handling of acid

1)    Reabsorption of bicarb

2)    Titrateable acid PO4 and organic acid excretion

3)    Ammonium

 

Factors that govern GFR

1)    Filtration barrier

a.     Endothelium fenestrations

b.     Basement membrane 

c.     Podocyte foot processes

2)    Molecule

a.     size

b.     Electrical charge

3)    Starling forces

a.      Flow         =                Kf [(PGC  –  PBS) -  s (PGC  -  PBS)]

 

The net movement of H2O in the glomerular capillaries = GFR 

 

PGC :          Glomerular capillary hydrostatic pressure

• High and does not decrease much along length of capillary

• Arterial end 60mmHg, venous end 58mmHg
• increased by:         afferent arteriole vasodilation

                                    efferent arteriole vasoconstriction

                                    increased MAP (although autoregulation keeps GFR fairly constant)

• ­ PGC = ­ GFR

 

PBS :           Bowman’s space hydrostatic pressure

• 15mmHg

• increased by: obstruction to urine flow

• ­ PBS = ¯ GFR

 

PGC :         Glomerular capillary oncotic pressure

• Because of large fluid loss and impermeabilty to protein, Pc increases along the length of the capillary

• Arterial end = 21mmHg, Venous end = 33mmHg

• increased by decreased RBF

• ­ PGC = ¯ GFR

 

PBS :          Bowman’s space osmotic pressure

• 0mmHg (Glomerular capillaries essentially impermeable to protein)

• increased by: disease states causing increased membrane permeability

• ­ PBS = ¯ GFR

 

Kf:             high (due to high H2O permeability)

 

Kf = product of: 

                  Surface area for filtration

                  Glomerular capillary hydraulic conductivity (permeability to H2O)

• increased by – relaxation of mesangial cells (angiotensin II contracts mesangial cells and reduces K thus reduces GFR)

 

s sigma: relfection coefficient

                  high ~1.0 as glomerular capillaries are essentially impermeable to protein 

 

At arterial end of capillary:

Flow          =                K (PGC  –  PBS) -  s (PGC  -  PBS)

                  =                (60 - 15) – (21 – 0)

                  =                45 – 21

                  =                24mmHg (net fluid out)

 

At venous end of capillary:

Flow          =                K (PGC  –  PBS) -  s (PGC  -  PBS)

                  =                (58 - 15) – (33 – 0)

                  =                43 – 33

                  =                10mmHg (net fluid out)

 

There is a net outward filtration pressure along the whole length of the capillary

4)    Other

a.     Autoregulation myogenic

b.     TG feedback

c.     SNS, AT2, ANP

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