Histology of Urinary System PDF

Summary

This document provides an overview of the histology of the urinary system, including the kidney's structure, functions, and associated processes. The presentation delves into the details of renal anatomy, focusing on the cortex, medulla, and the nephron, providing valuable information for students of anatomy and physiology.

Full Transcript

Abdeslem El Idrissi, PhD

Center for Developmental
Neuroscience

City University of New York
College of Staten Island

[email protected]
 THE URINARY SYSTEM
REPRODUCTIVE SYSTEM
DIGESTIVE SYSTEM
LYMPATIC SYSTEM
SENSORY ORGANS

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Histology of
the Urinary
System
 Introduction
Urinary system rids the body of waste products
Kidneys also play important roles in blood
volume, pressure, and composition
The urinary system is closely associated with the
reproductive system
– Shared embryonic development and adult
anatomical relationship
– Collectively called the urogenital (UG) system

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 Functions of the Urinary System
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Figure 23.1

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 Functions of the Kidneys
Filter blood and excrete toxic metabolic
wastes
Regulate blood volume, pressure, and
osmolarity
Regulate electrolytes and acid-base
balance
Secrete erythropoietin, which stimulates
the production of red blood cells
Help regulate calcium levels by
participating in calcitriol synthesis
Clear hormones from blood
Detoxify free radicals
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 Nitrogenous Wastes
Waste—any substance that is useless to the body or present in excess of
the body’s needs
Metabolic waste—waste substance produced by the body
Urea formation
– Proteins amino acids removed forms ammonia,
– Liver converts ammonia to urea
Uric acid
– Product of nucleic acid catabolism
Creatinine
– Product of creatine phosphate catabolism
Blood urea nitrogen (BUN)—level of nitrogenous waste in blood
– Normal concentration of blood urea is 10 to 20 mg/dL
– Azotemia: elevated BUN
May indicate renal insufficiency

– Uremia: syndrome of diarrhea, vomiting, dyspnea, and cardiac
arrhythmia stemming from the toxicity of nitrogenous waste
Treatment—hemodialysis or organ transplant

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 The Major Nitrogenous Wastes

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 Excretion
Excretion—separating wastes from body fluids
and eliminating them
Four body systems carry out excretion
– Respiratory system
, small amounts of other gases, and water
– Integumentary system
Water, inorganic salts, lactic acid, urea in sweat
– Digestive system
Water, salts, , lipids, bile pigments, cholesterol, and
other metabolic waste
– Urinary system
Many metabolic wastes, toxins, drugs, hormones, salts, ,
and water
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Retroperitoneal Position of the Kidney

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 Gross Anatomy of the Kidney
Shape and size
– About the size of a bar of bath soap
– Lateral surface is convex, and medial is concave with a slit,
called the hilum
Receives renal nerves, blood vessels, lymphatics, and ureter

Three protective connective tissue coverings
– Renal fascia immediately deep to parietal peritoneum
Binds it to abdominal wall
– Perirenal fat capsule: cushions kidney and holds it into place
– Fibrous capsule encloses kidney protecting it from trauma
and infection
Collagen fibers extend from fibrous capsule to renal fascia
Still drop about 3 cm when going from lying down to standing
up

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 Gross Anatomy of the Kidney
Two zones of renal parenchyma
– Outer renal cortex
– Inner renal medulla
Renal columns—extensions of the cortex that project inward
toward sinus
Renal pyramids—6 to 10 with broad base facing cortex and
renal papilla facing sinus
– Lobe of kidney: one pyramid and its overlying cortex
– Minor calyx: cup that nestles the papilla of each pyramid;
collects its urine
– Major calyces: formed by convergence of 2 or 3 minor
calyces
– Renal pelvis: formed by convergence of 2 or 3 major
calyces
– Ureter: a tubular continuation of the pelvis that drains urine
down to the urinary bladder

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 Rt. kidney Lt. kidney

Kidney
CT: Axial 1

Renal cortex Renal arteries

Renal pyramids Renal veins

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 Kidney Anatomy

Cortex Medulla Pyramids Papilla

Minor calyxes Major calyxes Pelvis Ureters

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 Gross Anatomy of the Kidney 5
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Figure 23.4b

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 Kidney Anatomy
Cortex Medulla

Pyramids Columns

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 Papilla Sinuses Minor Major
calyces calyces

Ureter Renal
pelvis
Kidney
Anatomy

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 Renal Circulation

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 Renal Circulation

Segmental
veins

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 Renal Circulation 3
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display.

Figure 23.5

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 Microcirculation of the Kidney

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 The Renal Corpuscle 1

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 The Renal Corpuscle 2
Vascular pole—the side of the corpuscle
where the afferent arterial enters the
corpuscle and the efferent arteriole leaves

Urinary pole—the opposite side of the
corpuscle where the renal tubule begins

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Microscopic Anatomy of the Nephron

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 Renal Cortex
LM: Medium Magnification
Glomerulus

Proximal
convoluted
tubule

Distal
convoluted
tubule

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 Renal Corpuscle
LM: High Magnification Distal convoluted
Renal corpuscle tubule

Glomerular
capsule (parietal Macula densa
layer)

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Proximal Vascular pole of
Capsular space convoluted tubule renal corpuscle

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 Renal Medulla
LM: Medium Magnification
Collecting duct
Vasa recta

Thick segment of
ascending limb of
nephron loop
Thin segment of the
nephron loop

Thick segment of
descending limb of
nephron loop

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 Renal Medulla (Longitudinal Section)
LM: Medium Magnification
Collecting duct Vasa recta

Thick segment of Thin segment of
nephron loop nephron loop

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 Structure of the Glomerulus

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The Glomerular Filtration Membrane 1
Turned back:
Blood cells
Plasma
proteins
Large anions
Protein-
minerals
bound
and
hormones
Most
> 8 nm
molecules
indiamet Passed through
er filter:
Water
Electrolytes
Glucose
Amino acids
Fatty acids
Vitamins
Urea
Uric acid
Creatinine

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The Glomerular Filtration Membrane 2
Glomerular filtration—a special case of
capillary fluid exchange in which water
and some solutes in the blood plasma pass
from the capillaries of the glomerulus into
the capsular space of the nephron

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The Glomerular Filtration Membrane 3
Filtration membrane—three barriers through which
fluid passes
– Fenestrated endothelium of glomerular capillaries
70 to 90 nm filtration pores – small enough to exclude blood
cells
Highly permeable
– Basement membrane
Proteoglycan gel, negative charge, excludes molecules greater
than 8 nm
Albumin repelled by negative charge
Blood plasma is 7% protein, the filtrate is only 0.03% protein
– Filtration slits
Podocyte cell extensions (pedicels) wrap around the capillaries
to form a barrier layer with 30 nm filtration slits
Negatively charged which is an additional obstacle for large
anions
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 Podocytes
SEM: High Magnification
Podocyte cell body Filtration slits

Podocyte primary Podocyte secondary
processes processes

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 Podocytes
Capillary Podocyte cell
body

TEM: High Magnification

Basement
membrane

Secondary
processes of
podocytes
(pedicels)

Capillary Erythrocyte Filtration pores Filtration slits
endothelium

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 Basic Stages of Urine Formation

1)Glomerular
filtration Creates
a plasmalike
filtrate of the
blood

2)Tubular
reabsorption
Removes useful
solutes from the
filtrate, returns
them to the blood

3)Tubular secretion
Removes additional
wastes from the
blood, adds them
to the filtrate

4)Water
conservation
Removes water
from the urine and
returns it to blood;
concentrates
wastes

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 The Proximal Convoluted Tubule
PCT reabsorbs about 65% of glomerular
filtrate, removes some substances from
blood, and secretes them into tubular fluid
for disposal in urine
– Prominent microvilli and great length
– Abundant mitochondria provide ATP for active
transport
– PCTs alone account for about 6% of one’s
resting ATP and calorie consumption

Tubular reabsorption—process of
reclaiming water and solutes from tubular
fluid and returning them to blood
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 Proximal Convoluted Tubule
TEM: Low Magnification

Proximal convoluted Basolateral
tubule interdigitations

Brush border of PCT
Epithelium of PCT Nuclei of epithelium of PCT
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The Distal Convoluted Tubule and Collecting Duct 1

Fluid arriving in the DCT still contains about
20% of the water and 7% of the salts from
glomerular filtrate
– If this were all passed as urine, it would
amount to 36 L/day

DCT and collecting duct reabsorb variable
amounts of water and salt and are regulated
by several hormones
– Aldosterone, atrial natriuretic peptide, ADH,
and parathyroid hormone

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 Distal Convoluted Tubule
TEM: Low Magnification
Distal
convoluted
tubule

Epithelium of
DCT

Nuclei of
epithelium of
DCT
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 Urine Storage and Elimination
Urine is produced continually
Does not drain continually from the body
Urination is episodic—occurring when we
allow it
Made possible by storage apparatus and
neural controls for timely release

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 The Ureters 1
Ureters—retroperitoneal, muscular tubes
that extend from each kidney to the
urinary bladder
– About 25 cm long
– Pass posterior to bladder and enter it from
below
– Flap of mucosa at entrance of each ureter acts
as a valve into bladder
Keeps urine from backing up into ureter when
bladder contracts

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 The Ureters 2
Ureters (Continued)
– Three layers of ureter
Adventitia—connective tissue layer that
connects ureter to surrounding structures
Muscularis—two layers of smooth muscle with
third layer in lower ureter
– Urine enters, it stretches and contracts in peristaltic wave

Mucosa—transitional epithelium
– Begins at minor calyces and extends through the bladder

– Lumen very narrow, easily obstructed by
kidney stones

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 Ureter
LM: Low Magnification
Transitional Adventitia of ureter
epithelium

Mucosa of ureter Muscularis of ureter

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 Ureter
LM: High Magnification

Mucosa of
ureter

Transitional
epithelium
of ureter

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 The Urinary Bladder 1
Urinary bladder—muscular sac located on
floor of the pelvic cavity
– Inferior to peritoneum and posterior to pubic
symphysis
Three layers
– Covered by parietal peritoneum, superiorly,
and by fibrous adventitia elsewhere
– Muscularis: detrusor: three layers of smooth
muscle
– Mucosa: transitional epithelium
Umbrella cells on surface of epithelium protect it
from the hypertonic, acidic urine
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 The Urinary Bladder 2
Trigone—smooth-surfaced triangular area
on bladder floor that is marked with
openings of ureters and urethra

Capacity—moderate fullness is 500 mL,
maximum fullness is 700 to 800 mL
– Highly distensible
– As it fills, it expands superiorly
– Rugae flatten
– Epithelium thins from five or six layers to two
or three

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 The Urinary Bladder 3

(a) Female

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 Urinary Bladder

Female
bladder

Detrusor Muscle Male
Trigone bladder
Rugae
Internal Urethral
Orifice

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 Urinary Bladder Histology

Bladder Transitional Lamina
wall epithelium propria

Detrusor
Submucosa
muscle

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 Urinary Bladder
LM: Low Magnification
Transitional epithelium of
bladder Detrusor muscle

Lamina propria of Submucosa of bladder
bladder

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 Transitional
epithelium of Lamina propria
urinary bladder of urinary bladder

Urinary Bladder
LM: High
Magnification
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 The Urethra 1
Urethra is tube that conveys urine out of body
Female urethra:
– 3 to 4 cm long, bound to anterior wall of vagina
– External urethral orifice is between vaginal orifice and
clitoris
External urethral sphincter
– Where urethra passes through the pelvic floor
– Skeletal muscle - voluntary control

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 The Female Urethra
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(a) Female

Figure 23.23a
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 The Urethra 2
Male urethra: 18 cm long
Three regions
– Prostatic urethra (2.5 cm)
Passes through prostate
– Membranous urethra (0.5 cm)
Passes through muscular floor of pelvic cavity
– Spongy (penile) urethra (15 cm)
Passes through penis in corpus spongiosum
Internal urethral sphincter
– Detrusor muscle thickening
External urethral sphincter
– Skeletal muscle of pelvic floor
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 The Male Urethra
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Figure 23.23b
(b) Male

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