The Urinary System
Show the Table of Contents...
Hide
Urinary System
The series of organs in this system function to produce, store, and eliminate
soluble waste products from the body. The filtrates from the kidney are transported by
the ureter to the bladder for storage, and are eliminated by way of the urethra. A major
function of the system is to salvage water, sugars, and ions from the filtrate and return
them to the blood. In addition, specialized structures within the kidney secrete the
vasopressor renin, which increases systemic blood pressure.
Kidney
For orientation, examine R-P, Figs. 20.1 & 20.6. The kidney has a thin, tough
connective tissue capsule beneath which lies the glandular tissue. The glandular tissue
surrounds a large central cavity called the renal sinus. Adjacent to the renal sinus on the
medial side of the organ is a notch called the hilus where the renal vessels and the ureter
enter and leave the organ. The glandular portion of the kidney is composed of a number
of conical pyramids, the renal lobes. Each renal lobe has its base on the capsule, and its
apex (the renal papilla) projects into a minor calyx. The renal lobe consists of two
regions, the cortex and the medulla. The cortex has a granular appearance due to the
presence of renal corpuscles and renal tubules. These are components of the nephron, the
functional unit of the kidney. The medulla has a striated appearance due to the presence
of collecting tubules. Structures called medullary rays appear as vertical striations in the
cortical substance. Renal columns are projections of cortical tissue between the bases of
medullary pyramids.
Renal Corpuscle
Study a section of the kidney, referring to R-P, Figs. 20.1, 20.3, 20.6 & Pl. 70. In
the cortex, locate a renal (Malpighian) corpuscle (slide B-67, H&E [
2.5x-labeled,
10x,
20x,
40x; B-68, PAS [
2.5x,
10x,
20x,
40x-labeled]; B-69, PAS [
2.5x,
10x,
20x,
40x]; B-70, carmine [
2.5x,
10x,
20x,
40x-labeled]; B-71, H&E [
2.5x,
10x,
20x,
40x]).
A renal corpuscle is the invaginated blind end of a renal tubule called Bowman's capsule.
The capsule is composed of a simple squamous epithelium referred to as the parietal
layer. Internally (the visceral layer) is a capillary tuft, the glomerulus, and specialized
cells (refer to R-P, Fig. 20.7 & Pls. 71 & 72) that are intimately associated with the
capillary tuft. These cells are the podocytes. In H&E stained sections the podocytes are
difficult to see but have pale cytoplasm, and lightly stained, slightly larger, oval nuclei.
The podocytes extend finger-like processes (pedicels) that wrap around the capillaries.
Between the pedicels are basal lamina-covered slits that act as a filter, allowing fluid
from the blood to enter the corpuscle. In the electron microscope, podocytes are seen to
consist of a central cell body and numerous foot processes applied to the basal lamina of
the capillary. Note the pores between the foot processes and fenestrations in the capillary
wall (R-P, Figs. 20.8 & 20.11). The other major cell type within the corpuscle is the
mesangial cell. These cells are difficult to distinguish from endothelial cells. Between
the visceral and parietal layers of Bowman's capsule is Bowman's space, which fills up
with the filtrate.
The corpuscle is a polarized structure with a vascular pole and a urinary pole (RP,
Fig. 20.7). At the vascular pole, the vessel bringing blood to the glomerulus is called
the afferent arteriole, and the vessel taking blood away is called the efferent arteriole.
These vessels anchor the glomerulus to the wall of Bowman's capsule.
Renal Corpuscle Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B67, Renal Corpuscle, 2.5x Labeled (H&E) . |
B67, Renal Corpuscle, 10x (H&E) . |
B67, Renal Corpuscle, 20x (H&E) . |
B67, Renal Corpuscle, 40x (H&E) . |
 |
 |
 |
 |
| B68, Renal Corpuscle, 2.5x (PAS) . |
B68, Renal Corpuscle, 10x (PAS) . |
B68, Renal Corpuscle, 20x (PAS) . |
B68, Renal Corpuscle, 40x Labeled (PAS) . |
 |
 |
 |
 |
| B69, Renal Corpuscle, 2.5x (PAS) . |
B69, Renal Corpuscle, 10x (PAS) . |
B69, Renal Corpuscle, 20x (PAS) . |
B69, Renal Corpuscle, 40x (PAS) . |
 |
 |
 |
 |
| B70, Renal Corpuscle, 2.5x (Carmine) . |
B70, Renal Corpuscle, 10x (Carmine) . |
B70, Renal Corpuscle, 20x (Carmine) . |
B70, Renal Corpuscle, 40x Labeled (Carmine) . |
 |
 |
 |
 |
| B71, Renal Corpuscle, 2.5x (H&E) . |
B71, Renal Corpuscle, 10x (H&E) . |
B71, Renal Corpuscle, 20x (H&E) . |
B71, Renal Corpuscle, 40x (H&E) . |
|
Renal Corpuscle Identifications
| Row | Structure | Abbreviation | Optimal Stain | Representative Section | Note |
|---|
| 1 | Renal Corpuscle | RC | H&E |  B67, Kidney, 2.5x | |
| 2 | Cortex | C | H&E | B67, Kidney, 2.5x | |
| 3 | Medullary Ray | MR | H&E | B67, Kidney, 2.5x | |
| 4 | Bowman's Capsule (Parietal Layer) | BC | PAS |  B68b, Kidney, 40x | |
| 5 | Bowman's Space | BS | PAS | B68b, Kidney, 40x | |
| 6 | Podocyte (visceral layer of Bowman's capsule) | Pod | PAS | B68b, Kidney, 40x | |
| 7 | Glomerulus (capillary tuft) | G | PAS | B68b, Kidney, 40x | |
| 8 | Vascular Pole | VP | Carmine |  B70, Kidney, 40x | |
| 9 | Urinary Pole | UP | Carmine | B70, Kidney, 40x | |
Proximal Convoluted Tubule (PT)
The filtrate formed in Bowman's space flows towards the urinary pole to enter the
proximal tubule. The proximal tubule consists of an initial convoluted portion (the
proximal convoluted tubule) and a distal straight portion (the pars recta). In cross
section, the tubular epithelial cells are simple cuboidal cells, with a prominent brush
border (microvilli) and basal striations (elongated mitochondria) (R-P, Figs. 20.10, 20.14,
20.15 & Pl. 72). The PCTs often have star-shaped lumens, which are generally larger in
diameter than the distal tubules (see below). Cells of the PCT are generally more
eosinophilic than cells of other tubules in the kidney, and stain particularly well with PAS
(B-66, PAS [
10x,
20x,
40x]; B-67, H&E [
10x,
20x,
40x-labeled]; B-68, PAS [
10x,
20x,
40x-labeled]; B-71, H&E [
10x,
20x,
40x-labeled]). Try to identify
PCTs. Also, examine regions near glomeruli in order to identify urinary poles in
longitudinal section that are continuous with a PCT.
Proximal Convoluted Tubule Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B66, PCT, 10x (PAS) . |
B66, PCT, 20x (PAS) . |
B66, PCT, 40x (PAS) . |
B67, PCT, 10x (H&E) . |
 |
 |
 |
 |
| B67, PCT, 20x (H&E) . |
B67, PCT, 40x Labeled (H&E) . |
B68, PCT, 10x (PAS) . |
B68, PCT, 20x (PAS) . |
 |
 |
 |
 |
| B68, PCT, 40x Labeled (PAS) . |
B71, PCT, 10x (H&E) . |
B71, PCT, 20x (H&E) . |
B71, PCT, 40x Labeled (H&E) . |
|
Proximal Convoluted Tubule Identifications
Thin Tubules
The straight portion of the proximal tubule (pars recta) enters a medullary ray and
descends toward the medulla. Both parts of the proximal tubule are lined by cuboidal
epithelial cells. The next tubular segment that the filtrate passes through is the thin tubule
or thin loop of Henle which is mainly located in the medulla. Here the diameter of the
tubule narrows markedly and the epithelium becomes simple squamous (see R-P, Fig.
20.17 & Pl. 73 or R-K-P, Fig. 19.17 & Pl. 73). The thin segment descends toward the
apex of the pyramid. Before reaching the apex of the pyramid, however, it makes a
hairpin turn and returns toward the cortex. Don’t confuse the thin segments of the
tubules with the capillaries they associate with. Tubular epithelial cells are somewhat
thicker, tubular diameter is somewhat greater, and the tubules do not contain RBCs. The
next tubular segment is the distal thick tubule. The distal thick segment ascends through
the medullary ray as the straight ascending segment. The straight ascending segment
exits the medullary ray and returns to its corpuscle of origin.
Try to identify each of these tubules by studying sections of the cortex and the
medulla. Note the frequent appearance of arcuate artery and vein profiles along the
boundary between the cortex and the medulla (B-67, H&E [
2.5x-labeled,
10x,
20x,
40x-labeled]).
Thin Tubules Gallery
Show the Gallery of Thumbnails...Hide
Thin Tubules Identifications
| Row | Structure | Abbreviation | Optimal Stain | Representative Section | Note |
|---|
| 1 | Arcuate Artery | AA | H&E |  B67b, Kidney, 2.5x | |
| 2 | Arcuate Vein | AV | H&E | B67b, Kidney, 2.5x | |
| 3 | Collecting Tubules of Renal Medulla | CT | H&E |  B67, Kidney, 40x | |
| 4 | Thin Limb (of Loop of Henle) | TL | H&E | B67, Kidney, 40x | |
| 5 | Thick Ascending (distal) Tubule | TA | H&E | B67, Kidney, 40x | |
Distal Convoluted Tubule (DCT)
The distal tubule becomes convoluted and eventually empties into a collecting
tubule. The cells of the distal convoluted tubule are cuboidal. In contrast to cells of the
PCT, cells of the DCT are smaller, have less cytoplasm and hence appear more
basophilic, and they have no brush border (B-67, H&E [
10x,
20x,
40x-labeled]; B-68, PAS
[
10x,
20x,
40x-labeled]; B-69, PAS [http://www.medicalhistology.us/twiki/bin/viewfile/Main/Main.DistalConvolutedTubuleImages?rev=1;filename=b69_distal_convoluted_tubule_10x_pas.jpg][10x]],
20x,
40x-labeled]; B-71, H&E [
10x,
20x,
40x]). Also,
DCTs are smaller than proximal tubules (see R-P, Fig. 20.18 & Pl. 72). Look for DCTs
in slides B-67 through B-71. Since the DCTs lack a brush border, they will be more
readily distinguished from PCTs in sections stained with PAS.
Distal Convoluted Tubule Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B67, DCT, 10x (H&E) . |
B67, DCT, 20x (H&E) . |
B67, DCT, 40x Labeled (H&E) . |
B68, DCT, 10x (PAS) . |
 |
 |
 |
 |
| B68, DCT, 20x (PAS) . |
B68, DCT, 40x Labeled (PAS) . |
B69, DCT, 10x (PAS) . |
B69, DCT, 20x (PAS) . |
 |
 |
 |
 |
| B69, DCT, 40x Labeled (PAS) . |
B71, DCT, 10x (H&E) . |
B71, DCT, 20x (H&E) . |
B71, DCT, 40x Labeled (H&E) . |
|
Distal Convoluted Tubule Identifications
Juxtaglomerular Apparatus
As the straight ascending segment of the distal tubule approaches its corpuscle of
origin, it passes between the afferent and efferent arterioles and contributes to the
juxtaglomerular apparatus (JGA) (refer to R-P, Fig. 20.7 & Pl. 72). Locate a corpuscle
showing an afferent arteriole entering and an efferent arteriole exiting at the vascular
pole. Closely inspect the wall of the afferent arteriole. At this point, the vessel is closely
applied to the wall of the distal convoluted tubule. The smooth muscle cells of the
arteriole have spherical nuclei and are known as juxtaglomerular cells (JG cells). JG cells
produce renin. Another structure to look for is the macula densa, which occurs where the
cells of the DCT contact the afferent arteriole. Here they become taller and thinner
forming the macula densa. Together, the macula densa and juxtaglomerular cells make
up the juxtaglomerular apparatus (B-67, H&E [
2.5x,
10x,
20x,
40x-labeled,
40x-labeled2];
B-71, H&E [
40xA,
40xB,
40xC]).
Juxtaglomerular Apparatus Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B67, JG Apparatus, 2.5x (H&E) . |
B67, JG Apparatus, 10x (H&E) . |
B67, JG Apparatus, 20x (H&E) . |
B67, JG Apparatus, 40x Labeled (H&E) . |
 |
 |
 |
 |
| B67, JG Apparatus, 40x Labeled2 (H&E) . |
B71, JG Apparatus, 40xA (H&E) . |
B71, JG Apparatus, 40xB (H&E) . |
B71, JG Apparatus, 40xC (H&E) . |
|
Juxtaglomerular Apparatus Identifications
Collecting Tubules
The DCT ends in the collecting duct system which carries the urine through the
medulla to the end of the papilla. Collecting tubules are regularly shaped in cross section
as compared with the often irregularly shaped sections of the nephron. The lining
epithelium of the collecting system gradually increases in height from a simple cuboidal
epithelium in the arched tubules to a tall columnar epithelium in the papillary ducts (see
R-P or R-K-P, Pl. 79). Look carefully at the epithelium lining the renal calyx at the apex
of the medullary pyramid and identify collecting ducts. Collecting ducts have large,
more regular, diameters, and are comprised of uniform, lightly stained columnar
epithelial cells (B-67, H&E [
2.5x-labeled,
10x,
20x-labeled,
40x]; B-71, H&E [
2.5x,
10x,
20x,
40x].
Basement membranes are unusually important structures for the functioning of the
kidney. Since a principal constituent of the basement membrane is polysaccharide, this
structure stains well with the PAS stain. Study a PAS-stained section of kidney (
B-66,
B-68,
B-69) and carefully note where the prominent basement membranes are found. The stain also shows the brush border of the proximal convoluted tubules and may selectively
demonstrate granules in the juxtaglomerular cells of afferent arterioles (B-66 [
20x,
40x]).
Collecting Tubules Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B67, Collecting Tubule, 2.5x Labeled (H&E) . |
B67, Collecting Tubule, 10x (H&E) . |
B67, Collecting Tubule, 20x Labeled (H&E) . |
B67, Collecting Tubule, 40x (H&E) . |
 |
 |
 |
 |
| B71, Collecting Tubule, 2.5x (H&E) . |
B71, Collecting Tubule, 10x (H&E) . |
B71, Collecting Tubule, 20x (H&E) . |
B71, Collecting Tubule, 40x (H&E) . |
 |
 |
 |
 |
| B66, Basement Membrane, 20x (PAS) . |
B66, Basement Membrane, 40x (PAS) . |
B68, Basement Membrane, 40x (PAS) . |
B69, Basement Membrane, 40x (PAS) . |
|
Collecting Tubules Identifications
Ureter
On slide B-72 (ureter, human, H&E [
2.5x,
10x,
20x,
40x-labeled]), identify the mucosa (comprised of transitional
epithelial cells), the lamina propria (which lacks a muscularis mucosa), and the
muscularis. As these sections were obtained from the upper 2/3 of the ureter, there are
only two layers to the muscularis. The inner smooth muscle layer is oriented
longitudinally, and outer layer is circular smooth muscle. External to the muscularis is
the tunica adventitia. Refer to R-P or R-K-P, Pl. 74.
Ureter Gallery
Show the Gallery of Thumbnails...Hide
Ureter Identifications
Urinary bladder
On slide B-75 (cat urinary bladder, contracted, H&E [
2.5x-labeled,
10x,
20x,
40x]) identify the transitional epithelium. Notice that a transitional epithelium is usually
thinner than a stratified squamous epithelium. The transitional epithelium of the urinary
system is usually comprised of 6-8 cell layers in the contracted state with many of the
cells on the luminal surface being dome-shaped. Identify the lamina propria and observe
that like the ureter, there is very little (if any) muscularis mucosa. In the bladder, as in
the lower 1/3 of the ureter, the muscularis externa consists of 3 layers of smooth muscle:
an inner longitudinal layer, a middle circular layer, and an outer longitudinal layer.
External to the muscularis, the tunica adventitia contains fat, blood vessels, and nerves of
various sizes.
Compare the thickness of the contracted bladder with a section of distended
bladder (B-76, H&E [
2.5x,
10x,
20x,
40x]). The transitional epithelium appears almost
squamous due to distension. The epithelium is only 3-5 cell layers thick. The muscular
layer also is thin. Transitional epithelial cells must be able to endure a highly
concentrated urine to survive. To protect them they have membrane plaques that are
thick and rigid. When the bladder is empty they fold into the cell, and return to the cell
surface when the bladder is stretched. These structures render the epithelium
impermeable to urine, and prevent water from diffusing in. This adaptive feature can be
seen in the electron micrographs of transitional epithelium (see R-P, Figs. 20.23, 20.24 &
Pl. 75).
Urinary Bladder Gallery
Show the Gallery of Thumbnails...Hide
 |
 |
 |
 |
| B75, Bladder (contracted), 2.5x Labeled (H&E) . |
B75, Bladder (contracted), 10x (H&E) . |
B75, Bladder (contracted), 20x (H&E) . |
B75, Bladder (contracted), 40x (H&E) . |
 |
 |
 |
 |
| B76, Bladder (distended), 2.5x (H&E) . |
B76, Bladder (distended), 10x (H&E) . |
B76, Bladder (distended), 20x (H&E) . |
B76, Bladder (distended), 40x (H&E) . |
|
Urinary Bladder Identifications
| Row | Structure | Abbreviation | Optimal Stain | Representative Section | Note |
|---|
| 1 | Transitional Epithelium | TE | H&E |  B75, Urinary Bladder, 2.5x | |
| 2 | Lamina Propria | LP | H&E | B75, Urinary Bladder, 2.5x | |
| 3 | Inner Longitudinal Muscularis | IL | H&E | B75, Urinary Bladder, 2.5x | |
| 4 | Middle Circular Muscularis | MC | H&E | B75, Urinary Bladder, 2.5x | |
| 5 | Outer Longitudinal Muscularis | OL | H&E | B75, Urinary Bladder, 2.5x | |
Review of The Urinary System
Review of Slides
Click on the thumbnail to begin a complete review of all urinary system slides.
 |
|
|
|
| B66, PCT, 10x (PAS) . |
| | |
Summary of Identifications
Show the Table of Identifications...Hide
Back to
LayoutVotingPage?
Begin Topic
Comments
- Checking comments -- JoelThompson - 31 May 2007
- Probably... perhaps... who knows?
- Question about the table editing feature-- I noticed that when you use a plugin inside the table, such as how I display the thumbs, and you click "Edit" you end up getting the rendered html (and it's far from easy to edit because it's extensive). I think these tables would be better without the edit feature at some point, since I have to go into Topic Edit view to alter the thumbs or enter new ones, anyway. -- AshleyLPistorio - 25 May 2007
- So what are you thinking about with the initial view when the remember cookie has not kicked in? I agree about hiding the TOC but I don't know about the gross table. I foresee complaints/confusion either way. Life is tough. This upcoming meeting will be your show. -- LorenEvey - 25 May 2007
- Thanks for the CR fix. I swear I redid that link three times thinking there was a space or a return in there that should not be. For some odd reason it must have copied over with the CR (I was way too lazy to type out that whole link!). Shortcuts aren't always leading where you think, huh? -- AshleyLPistorio - 24 May 2007
- Regarding the version error. I had to load additional Perl modules that were undocumented dependencies required of the index addon. TWiki is written in Perl. I doubt it, but you might have hit the Perl engine during the 10-20 S that it was being modified. -- LorenEvey - 24 May 2007
- Considering that your using an external link for the Grey's images, why not use the image plugin on a topic page and include a figure caption? Just a thought. -- LorenEvey - 24 May 2007
- I don't know about the version error. Scary! Have you ever lost half a page from the bottom? On a rare instance, you might edit the top of a page not realizing that the bottom has not successfully loaded. Save the page and thank goodness for the "r" links. -- LorenEvey - 24 May 2007
- You had a carriage return in the middle of the b68 link. Linefeed/carriage returns are the bane of Unix versus Windows programing. Unix takes carriage returns seriously. I am not sure, but for readability of the source, you might be able to use a backslash within a link to escape a carriage return. You would just have to try it. BTW, notice that the CRs are ignored for the text. If you, however, try to bold the text you will have to strip every carriage return between the asterisks. Stripping the CRs would also reduce the scrolling when in raw view or edit mode.
A trick I use when hunting CRs is to vary the width of the window while watching for failures in word wrapping. -- LorenEvey - 24 May 2007
- Also, at one point I got an error ("version error") when trying to save my work... I forced the revision and it saved OK. What was that about? -- AshleyLPistorio - 24 May 2007
- What the heck is wrong with the code for the link in Collecting Tubules... second paragraph (basement membranes), second link??? It looks fine to me but it keeps appearing as all text instead of the link. -- AshleyLPistorio - 24 May 2007
Begin Topic
--
AshleyLPistorio - 24 May 2007
Archive Web > AtlasDemos > UrinarySystem6
B67, Kidney, 2.5x 
B68b, Kidney, 40x 
B70, Kidney, 40x 
B68, Kidney, 40x 
B67b, Kidney, 2.5x 
B67, Kidney, 40x 
B67, Kidney, 40x 
B72, Ureter, 40x 
B75, Urinary Bladder, 2.5x 
gif 
Archive Web
Create New Topic
Index
Search
Changes
Notifications
Statistics
Preferences
Archive
Copyright © by the contributing authors. All material on this collaboration platform is the property of the contributing authors.