1. Renal Physiology Laboratory Exercise KAAP310
Figures from Pearson Education and other sources.

2. Renal system 1) Excretion role
Filtering water and solutes  excrete excess water and waste products
2) Regulation role
Plasma osmolarity (concentration, Osm/L)
Plasma volume
Body’s acid-base balance
Body’s electrolyte balance
 maintaining HOMEOSTASIS

3. Figure 40.1a Organs of the urinary system.
Hepatic veins (cut)
Inferior vena cava
Esophagus (cut)
Adrenal gland
Renal artery
Renal hilum
Renal vein
Aorta
Kidney
Iliac crest
Ureter
Rectum (cut)
Uterus (part
of female
reproductive
system)
Urinary
bladder
Urethra
© 2016 Pearson Education, Inc.

4. Figure 40.1b Organs of the urinary system.
12th rib
© 2016 Pearson Education, Inc.

5. Figure 40.1c Organs of the urinary system.
Anterior
Inferior
vena cava
Aorta
Peritoneum
Peritoneal cavity
(organs removed)
Supportive
tissue layers
Renal
vein
Renal fascia
anterior
posterior
Renal
artery
Perirenal fat capsule
Kidney
Fibrous capsule
Body of
vertebra L2
Body wall
Posterior
© 2016 Pearson Education, Inc.

6. Peritoneum
Ureter
Rugae
Detrusor
Adventitia
Ureteric orifices
Trigone of bladder
Bladder neck
Internal urethral
sphincter
Prostate
Trigone
Prostatic urethra
Intermediate part of the urethra
External urethral
sphincter
Urogenital diaphragm
Urethra
External urethral
orifice
Figure 40.2 Detailed structure of urinary bladder, urethral sphincters, and urethra.
Spongy
urethra
Erectile tissue
of penis
External urethral
orifice
© 2016 Pearson Education, Inc.

7. Figure 40.3 Internal anatomy of the kidney.
Renal
hilum
Cortical radiate
vein
Cortical radiate
artery
Renal cortex
Arcuate vein
Arcuate artery
Renal medulla
Interlobar vein
Interlobar artery
Segmental
arteries
Major calyx
Renal vein
Papilla of
pyramid
Renal artery
Renal pelvis
Renal pelvis
Minor calyx
Ureter
Ureter
Renal pyramid in
renal medulla
Renal column
Fibrous capsule
© 2016 Pearson Education, Inc.

8. Nephrons Functional units (millions!) Renal corpuscle: Renal tubule:
Glomerulus (capillaries)
Bowman’s capsule
Afferent/efferent arteriole
Renal tubule:
Proximal convoluted tubule
Loop of Henle
Distal convoluted tubule
Collecting duct
Filtrate then drains in minor calyces
RBC, WBC and proteins not filtered through the glomerulus into Bowman’s capsule, everything else filtered.
PhysioEx 9.1

9. Nephrons Functions: Glomerular filtration Tubular reabsorption
Tubular secretion
Peritubular capillaries – surround the renal tubule, return reabsorbed substances to general circulation
Fluid passes from the lumen of the glomerular capillary into glomerular capsule of the renal tubule
Moves most of the filtrate back into the blood, leaving mainly salt water and the wastes in the lumen of the tubule. Active and passive reabsorption.
Reverse if tubular reabsorption. Kidneys can rid the blood of additional unwanted substances (eg. Creatinine, ammonia)

10. Figure 40.5 A schematic, uncoiled nephron.
Afferent arteriole
Glomerular
capillaries
Efferent
arteriole
Cortical
radiate
artery
Glomerular
capsular
space
Glomerular
capsule
Renal tubule
containing
filtrate
Figure A schematic, uncoiled nephron.
Peritubular
capillary
To cortical
radiate vein
Three major
renal processes:
Urine
Glomerular filtration
Tubular reabsorption
Tubular secretion
© 2016 Pearson Education, Inc.

11. Intravenous pyelogram (IVP)
X-ray image of kidneys, ureters, bladder. May be ordered if patient reports hematuria (blood in urine) or another renal-related symptom. IVPs are being replaced by CT images in many practices.
Dye is given by intravenous injection. Dye is filtered across glomerulus and accumulates in renal pelvis, then flows down ureters and into bladder. Dye shows up well on x-ray, giving an outline of the structures.

12. Normal IVP Scout image: before dye 5 min after dye 10 min after dye
Case courtesy of Dr Aditya Shetty, Radiopaedia.org, rID: 27157
Scout image: before dye
5 min after dye
Renal pelvis, ureters starting to appear
10 min after dye
Ureters clearer, bladder filling
15 min after dye
Bladder has more dye

13. Lab Activity Short Quiz 3 Models + worksheets
PhysioEx Exercise 9 (one per group):
1. The effect of arteriole radius on glomerular filtration
2. The effect of pressure on glomerular filtration
3. Renal response to altered blood pressure
4. Solute gradients and their impact on urine concentration
5. Reabsorption of glucose via carrier proteins
6. The effect of hormones on urine formation
No lab reports (see next slide)

14. Presentations Presentation of your group’s PhysioEx experiment
10-15 min + questions
Due next lab period
Structure: (must include but not limited to)
Introduction/background
Objective
Methods and materials
Results
Discussion and conclusions
Grading rubric posted in Lab Schedule tab.