1. Figure 24.1 The urinary system.
Hepatic veins (cut)
Esophagus (cut)
Inferior vena cava
Renal artery
Adrenal gland
Renal hilum
Aorta
Renal vein
Kidney
Iliac crest
Ureter
Rectum (cut)
Uterus (part of female
reproductive system)
Urinary
bladder
Urethra
© 2014 Pearson Education, Inc.

2. Figure 24.2a Position of the kidneys against the posterior body wall.
Anterior
Inferior
vena cava
Aorta
Peritoneum
Peritoneal cavity
(organs removed)
Supportive
tissue layers
Renal
vein
• Renal fascia
anterior
posterior
Renal
artery
• Perirenal
fat capsule
• Fibrous
capsule
Body of
vertebra L2
Body wall
Posterior
© 2014 Pearson Education, Inc.

3. Figure 24.3a Internal anatomy of the kidney.
Renal
hilum
Renal cortex
Renal medulla
Major calyx
Papilla of
pyramid
Renal pelvis
Minor calyx
Ureter
Renal pyramid in
renal medulla
Renal column
Fibrous capsule
© 2014 Pearson Education, Inc.
Photograph of right kidney, frontal section

4. Figure 24.5 Location and structure of nephrons. (1 of 7)
Renal cortex
Renal medulla
Renal pelvis
Ureter
Kidney
Renal corpuscle
• Glomerular capsule
• Glomerulus
Distal
convoluted
tubule
Proximal
convoluted
tubule
Cortex
Medulla
Thick
segment
Thin segment
Nephron loop
• Descending limb
• Ascending limb
Collecting duct
© 2014 Pearson Education, Inc.

5. Figure 24.7b Blood vessels of cortical and juxtamedullary nephrons.
Peritubular
capillary bed
Glomerulus
Afferent
arteriole
Efferent
arteriole
© 2014 Pearson Education, Inc.

6. Figure 24.6b Renal cortical tissue.
Scanning electron micrograph
of renal tubules (250x)
© 2014 Pearson Education, Inc.

7. Figure 24.6a Renal cortical tissue.
Distal convoluted
tubules (clear lumens)
Renal corpuscle
• Squamous epithelium
of parietal layer of
glomerular capsule
• Glomerular capsular
space
• Glomerulus
Proximal convoluted
tubules (fuzzy lumens
due to long microvilli)
Photomicrograph of renal cortical tissue (180x)
© 2014 Pearson Education, Inc.

9. Figure 24.7b Blood vessels of cortical and juxtamedullary nephrons.
Peritubular
capillary bed
Glomerulus
Afferent
arteriole
Efferent
arteriole
© 2014 Pearson Education, Inc.

10. Figure 24.5 Location and structure of nephrons. (1 of 7)
Renal cortex
Renal medulla
Renal pelvis
Ureter
Kidney
Renal corpuscle
• Glomerular capsule
• Glomerulus
Distal
convoluted
tubule
Proximal
convoluted
tubule
Cortex
Medulla
Thick
segment
Thin segment
Nephron loop
• Descending limb
• Ascending limb
Collecting duct
© 2014 Pearson Education, Inc.

11. Figure 24.8 Juxtaglomerular complex (JGC) of a nephron.
capsule
Glomerulus
Foot
processes
of podocytes
Efferent
arteriole
Parietal layer
of glomerular
capsule
Podocyte cell body
(visceral layer)
Capsular
space
Afferent
arteriole
Red blood cell
Efferent
arteriole
Proximal
tubule cell
Juxtaglomerular
complex •
Macula densa
cells
of the ascending
limb of nephron loop
Lumens of
glomerular
capillaries
• Extraglomerular
mesangial cells
• Granular
cells
Endothelial cell
of glomerular
capillary
Afferent
arteriole
Glomerular mesangial
cells
Juxtaglomerular complex
Renal corpuscle
© 2014 Pearson Education, Inc.

12. Figure 24.5 Location and structure of nephrons. (1 of 7)
Renal cortex
Renal medulla
Renal pelvis
Ureter
Kidney
Renal corpuscle
• Glomerular capsule
• Glomerulus
Distal
convoluted
tubule
Proximal
convoluted
tubule
Cortex
Medulla
Thick
segment
Thin segment
Nephron loop
• Descending limb
• Ascending limb
Collecting duct
© 2014 Pearson Education, Inc.

13. Figure 24.7a Blood vessels of cortical and juxtamedullary nephrons.
Cortical nephron
Juxtamedullary nephron
• Short nephron loop
• Glomerulus further from the cortex-medulla junction
• Efferent arteriole supplies peritubular capillaries
• Long nephron loop
• Glomerulus closer to the cortex-medulla junction
• Efferent arteriole supplies vasa recta
Renal
corpuscle
Glomerulus
(capillaries)
Efferent
arteriole
Cortical radiate vein
Glomerular
capsule
Cortical radiate artery
Afferent arteriole
Collecting duct
Proximal
convoluted
tubule
Distal convoluted tubule
Afferent
arteriole
Efferent
arteriole
Peritubular
capillaries
Ascending
limb of
nephron loop
Cortex-medulla
junction
Arcuate vein
Kidney
Arcuate artery
Vasa recta
Nephron loop
Descending
limb of
nephron loop
© 2014 Pearson Education, Inc.

14. 1 2 3 1 2 3 Afferent arteriole Glomerular capillaries
Figure A schematic, uncoiled nephron showing the three major renal processes that adjust plasma composition.
Afferent
arteriole
Glomerular
capillaries
Efferent arteriole
Cortical
radiate
artery
Glomerular capsule 1
Renal tubule and
collecting duct
containing filtrate
Peritubular
capillary 2 3
To cortical radiate vein
Three major
renal processes:
Urine 1
Glomerular filtration 2
Tubular reabsorption 3
Tubular secretion
© 2014 Pearson Education, Inc.

15. Figure 24.4b Blood vessels of the kidney.
Aorta
Inferior vena cava
Renal artery
Renal vein
Segmental artery
Interlobar vein
Interlobar artery
Arcuate vein
Arcuate artery
Cortical radiate vein
Peritubular
capillaries
or vasa recta
Cortical radiate artery
Afferent arteriole
Efferent arteriole
Glomerulus (capillaries)
Nephron-associated blood vessels
(see Figure 24.7)
© 2014 Pearson Education, Inc.
(b) Path of blood flow through renal blood vessels

16. Figure 24.7a Blood vessels of cortical and juxtamedullary nephrons.
Cortical nephron
Juxtamedullary nephron
• Short nephron loop
• Glomerulus further from the cortex-medulla junction
• Efferent arteriole supplies peritubular capillaries
• Long nephron loop
• Glomerulus closer to the cortex-medulla junction
• Efferent arteriole supplies vasa recta
Renal
corpuscle
Glomerulus
(capillaries)
Efferent
arteriole
Cortical radiate vein
Glomerular
capsule
Cortical radiate artery
Afferent arteriole
Collecting duct
Proximal
convoluted
tubule
Distal convoluted tubule
Afferent
arteriole
Efferent
arteriole
Peritubular
capillaries
Ascending
limb of
nephron loop
Cortex-medulla
junction
Arcuate vein
Kidney
Arcuate artery
Vasa recta
Nephron loop
Descending
limb of
nephron loop
© 2014 Pearson Education, Inc.

17. Figure 24.11 Forces determining net filtration pressure (NFP).
Glomerular
capsule
Efferent
arteriole
HPgc = 55 mm Hg
OPgc = 30 mm Hg
Afferent
arteriole
HPcs = 15 mm Hg
NFP = Net filtration pressure
= outward pressures – inward pressures
= (HPgc) – (HPcs + OPgc)
= (55) – ( )
= 10 mm Hg
© 2014 Pearson Education, Inc.

18. © 2014 Pearson Education, Inc.
Figure Physiological mechanisms regulating glomerular filtration rate (GFR) in the kidneys.
SYSTEMIC BLOOD PRESSURE
Blood pressure in
afferent arterioles; GFR
GFR
Granular cells of
juxtaglomerular
complex of kidney
Inhibits baroreceptors
in blood vessels of
systemic circulation
Release
Stretch of smooth muscle in walls of afferent arterioles
Filtrate flow andNaCl in ascendinglimb of nephron loop
Renin
Sympathetic
nervous system
Catalyzes cascade resulting in
formation of
Targets
Vasodilation of
afferent arterioles
Angiotensin II
Macula densa cells of juxtaglomerular complex of kidney
Aldosterone
secretion by
adrenal cortex
Vasoconstriction of
systemic arterioles;
peripheral resistance
Release of vasoactive chemicals inhibited
Na+ reabsorption
by kidney tubules;
water follows
Vasodilation of
afferent arterioles
Blood volume
GFR
Systemic
blood pressure
Tubuloglomerular
mechanism ofautoregulation
Myogenic mechanism
of autoregulation
Hormonal (renin-angiotensin-aldosterone)mechanism
Neural controls
Intrinsic mechanisms directly regulate GFR despite
moderate changes in blood pressure (between 80
and 180 mm Hg mean arterial pressure).
Extrinsic mechanisms indirectly regulate GFR
by maintaining systemic blood pressure, which
drives filtration in the kidneys.
© 2014 Pearson Education, Inc.

19. Figure 24.5 Location and structure of nephrons. (1 of 7)
Renal cortex
Renal medulla
Renal pelvis
Ureter
Kidney
Renal corpuscle
• Glomerular capsule
• Glomerulus
Distal
convoluted
tubule
Proximal
convoluted
tubule
Cortex
Medulla
Thick
segment
Thin segment
Nephron loop
• Descending limb
• Ascending limb
Collecting duct
© 2014 Pearson Education, Inc.

20. © 2014 Pearson Education, Inc.
Figure Transcellular and paracellular routes of tubular reabsorption.
The transcellular route
involves:
Filtrate
in tubule
lumen
Tubule cell
Interstitial fluid
Peri-
tubular
capillary
Transport across the apical membrane. 1
Tight junction
Lateral
intercellular
space
Diffusion through the cytosol. 2 3 4
Transport across the basolateral membrane. (Often involves the lateral intercellular spaces because membrane transporters transport ions into these spaces.) 3
H2O and solutes 1 2 3 4
Transcellular route
Movement through the interstitial fluid and into the capillary. 4
Apical
membrane
Capillary
endothelial
cell
The paracellular route involves:
Paracellular route
• Movement through leaky
tight junctions, particularly in
the PCT.
• Movement through the inter-
stitial fluid and into the
capillary.
H2O and solutes
Basolateral
membranes
© 2014 Pearson Education, Inc.

21. Figure 24.14 Reabsorption by PCT cells.
At the basolateral membrane, Na+ is pumped into the interstitial space by the Na+-K+ ATPase. Active Na+ transport
creates concentration gradients that drive: 1 3
Reabsorption of organic nutrients and certain ions by cotransport at the apical membrane.
“Downhill” Na+ entry at the
apical membrane. 2
Filtrate
in tubule
lumen
Nucleus
Interstitial
fluid 4
Reabsorption of water by osmosis through
aquaporins. Water reabsorption increases the concentration of the
solutes that are left behind. These solutes can then be reabsorbed as they move down their gradients:
Peri-
tubular
capillary
Tubule cell 2
Glucose
Amino
acids
Some
ions
Vitamins 1 3 5
Lipid-soluble substances diffuse by the transcellular route. 4
Lipid-
soluble
substances 5 6
Various ions (e.g., Cl−, Ca2+, K+) and urea diffuse by the paracellular route.
Various
Ions
and urea 6
Tight junction
Paracellular route
Primary active transport
Transport protein
Secondary active transport
Ion channel
Passive transport (diffusion)
Aquaporin
© 2014 Pearson Education, Inc.