Kidney Function & Structure PDF

Summary

This document details the structure and function of the kidneys, including nephrons, blood flow, and urine composition. It also covers various tests for renal and bladder function and age-related changes in kidney function.

Full Transcript

Structure of the Kidney
 The Nephron
There are 1.2 million nephrons
per kidney!

- They are the functional unit
of the kidney
- What would be the functional
unit of the lung??
- Bowman's Capsule; where
the Glomerulus resides
- Blood flows through the
glomerulus & filters out
wastes and water into the
tubule
 The Nephron
Tubular reabsorption
and secretion

- Forms a filtrate of
protein-free fluid
- Regulates the
filtrate to
maintain fluid
volume,
electrolytes, and
pH
Renal Blood Flow
Glomerular Filtration Rate (GFR)

- The rate at which the glomeruli filter blood
- Normal GFR is 87-139 mL/minute

Creatinine Clearance

- The most accurate measure of glomerular
filtration, as creatinine is filtered by the
glomeruli but not reabsorbed by the tubules
- The volume of blood (mL) that the kidney can
clear of creatinine in 1 minute
- Creatinine is a waste product of skeletal
muscles

The higher the blood creatinine level, the lower the
estimated GFR
Urinary Structures
Ureters: bring urine from kidneys to
bladder
Bladder: muscular container for urine,
holds 300-500 mL (urge to urinate at
250-300 mL)
Urethra: a narrow passageway from
the bladder to the outside of the
body, it has internal and external
sphincters; 3-4 cm in females, 18-20
cm in males
Urine Composition
Urine is normally clear yellow of amber in colour
Cloudiness may indicate presence of bacteria, cells, or high solute
concentration
pH ranges from 4.6 - 8.0, but is normally acidic providing protection against
bacteria
Normal urine does not contain glucose of blood cells, and only occasionally
contains trace protein; usually in association with rigorous exercise
A healthy human should create 0.5 - 1 cc of urine/ kg per hour (average 30
cc/hr)
Functions of the Kidneys
Maintaining fluid & electrolyte
concentration
○ Hormones such as ADH & Aldosterone
Maintaining acid-base balance
○ Secreting H+ ions (if in a state of alkalosis)
or reabsorbing HCO3 ions (if in a state of
acidosis)
Detoxifying the blood and eliminating
wastes
Regulating blood pressure (RAAS
system)
Aiding RBC production
(erythropoiesis)
Regulating vitamin D and calcium
formation
Hormones and Renal Function
Antidiuretic hormone (ADH): produced by your pituitary gland; alters the tubules’
permeability to water
○ ↑ADH means increased permeability to water (reabsorbed) resulting in a concentrated low volume of
urine
○ ↓ or no ADH means there is less permeability to water, causing more water to be excreted creating a larger
volume of less concentrated urine
Aldosterone: produced by the adrenal cortex; regulates water and sodium
reabsorption
○ ↑Aldosterone increases H2O & Na reabsorption
○ ↓Aldosterone promotes H2O & Na reabsorption
Renin: secreted in response to decreased extracellular volume; step one of the
renin-angiotensin-aldosterone system
Vitamin D: the kidneys help vitamin D convert into its active form! Necessary for the
absorption of calcium and phosphate
Erythropoietin: released when decreased oxygen to the kidney; stimulates RBC
production
Renin-Angiotensin-Aldosterone System
https://www.youtube.com/watch?v=tiirLoa5jK0

For review of RAAS
Tests of Renal and Bladder Function
Renal Function Tests

Blood Studies
○ Blood Urea Nitrogen (BUN) → urea is a cellular waste product removed from the blood
○ Creatinine → waste product of skeletal muscles
○ Electrolytes (K+, Na+)
Glomerular filtration rate (GFR)
○ If your GFR < 60 this indicates renal injury!
Urinalysis
○ Appearance: Colour, turbidity (cloudiness), pH, specific gravity (density of water), blood
○ Microscopic Urine: bacteria, RBC, WBC, crystals, fat, casts
○ Urinary Chemistry: bilirubin, ketones, glucose, sodium, potassium, protein

Bladder Function Tests

Cystometry: measures bladder pressure by using a pressure-measuring catheter
Uroflowmetry: measures the time it takes to empty a full bladder (faster with urge incontinence or slower
with prostatic obstruction)
Post Void Residual (PVR): measures residual urine in the bladder after voiding (usually with US--bladder
scanner). >200ml is abnormal!
Direct visualization tests
○ Cystoscopy: camera inserted through the urethra and visualizes inside of the bladder
○ Ureteroscopy: camera inserted through the urethra and bladder directly into ureter to visualise upper urinary tract
Age-Related Renal Function
Pediatric Geriatric

Decreased ability to remove excess water and Decrease in renal blood flow and GFR
solutes
Altered sodium and water balance
Decreased concentrating ability
Number of nephrons decrease due to renal
Narrow margin for fluid and electrolyte vascular and perfusion changes
balance
Response to acid–base changes delayed
Increased risk of medication toxicity
Increased risk for medication toxicity

Alterations in thirst and water intake