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CHNB Urinary System 1 URINARY SYSTEM The urinary system consists of two kidneys, two ureters, the urinary bladder, and the urethra. The formation of urine is the function of the kidneys, and the rest of the system is responsible for eliminating the urine. Body cells produce waste products such as urea, creatinine, and ammonia, which must be removed from the blood before they accumulate to toxic levels. As the kidneys form urine to excrete these waste products, they also accomplish several other important functions: 1. Regulation of the volume of blood by excretion or conservation of water 2. Regulation of concentration of electrolytes (Na+, K+, HCO3 and other ions) in the plasma and the pH of plasma by controlling the loss hydrogen ions and bicarbonate ions in urine. 3. Regulation of all of the above in tissue fluid. 4. Conserving valuable nutrients, by preventing their loss in urine while removing organic wastes especially nitrogenous wastes such as urea and uric acid. 5. Gluconeogenesis during prolonged fasting. 6. Producing the hormones renin and erythropoietin. Renin acts as an enzyme to help regulate blood pressure and kidney function. Erythropoietin stimulates red blood cell production. 7. Metabolizing vitamin D to its active form. These activities are carefully regulated to keep the composition of blood within acceptable limits. A disruption of any one of them has immediate consequences and can be fatal. Kidney: The two kidneys are located in the upper abdominal cavity on either side of the vertebral column. The upper portions of the kidneys rest on the lower surface of the diaphragm and are enclosed and protected by the lower rib cage. Kidneys are reddish, bean shaped organs situated posteriorly, below the diaphragm in the lower thoracic and lumbar vertebrae (T12-L3). The right kidney is crowded by the liver and lies slightly lower than the left. An adult’s kidney has a mass of about 150 g and its average dimensions are 12 cm long, 6 cm wide, and 3 cm thickabout the size of owner’s fist . The lateral surface is convex and the medial surface is concave. The hilum, a prominent medial indentation, is the point of entry for the renal artery and renal nerves. The hilum is also the point of exit for the renal vein and the ureter.

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URINARY SYSTEM

The urinary system consists of two kidneys, two ureters, the urinary bladder, and the urethra. The formation

of urine is the function of the kidneys, and the rest of the system is responsible for eliminating the urine.

Body cells produce waste products such as urea, creatinine, and ammonia, which must be removed from the

blood before they accumulate to toxic levels. As the kidneys form urine to excrete these waste products, they

also accomplish several other important functions:

1. Regulation of the volume of blood by excretion or conservation of water

2. Regulation of concentration of electrolytes (Na+, K+, HCO3 – and other ions) in the plasma and the pH

of plasma by controlling the loss hydrogen ions and bicarbonate ions in urine.

3. Regulation of all of the above in tissue fluid.

4. Conserving valuable nutrients, by preventing their loss in urine while removing organic wastes—

especially nitrogenous wastes such as urea and uric acid.

5. Gluconeogenesis during prolonged fasting.

6. Producing the hormones renin and erythropoietin. Renin acts as an enzyme to help regulate blood

pressure and kidney function. Erythropoietin stimulates red blood cell production.

7. Metabolizing vitamin D to its active form.

These activities are carefully regulated to keep the composition of blood within acceptable limits. A

disruption of any one of them has immediate consequences and can be fatal.

Kidney:

The two kidneys are located in the upper abdominal cavity on either side of the vertebral column. The upper

portions of the kidneys rest on the lower surface of the diaphragm and are enclosed and protected by the lower

rib cage. Kidneys are reddish, bean shaped organs situated posteriorly, below the diaphragm in the lower

thoracic and lumbar vertebrae (T12-L3). The right kidney is crowded by the liver and lies slightly lower than

the left. An adult’s kidney has a mass of about 150 g and its average dimensions are 12 cm long, 6 cm wide,

and 3 cm thick—about the size of owner’s fist. The lateral surface is convex and the medial surface is

concave. The hilum, a prominent medial indentation, is the point of entry for the renal artery and renal

nerves. The hilum is also the point of exit for the renal vein and the ureter.

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Internal Anatomy

A frontal section of a kidney reveals three distinct regions: cortex, medulla, and pelvis. The most superficial

region, the renal cortex, is light in color and has a granular appearance. Deep to the cortex is the darker,

reddish-brown renal medulla, which exhibits cone-shaped tissue masses called medullary or renal pyramids.

The pyramids appear striped because they are formed almost entirely of parallel bundles of microscopic urine-

collecting tubules and capillaries. Minor calyces are funnel-shaped chambers into which the renal papillae

extend. The minor calyces of several pyramids merge to form larger funnels, the major calyces. Each kidney

contains 8–20 minor calyces and 2 or 3 major calyces. The major calyces converge to form an enlarged

chamber called the renal pelvis, which is surrounded by the renal sinus. The renal pelvis narrows into a small

diameter tube, the ureter, which exits the kidney at the hilum and connects to the urinary bladder. The walls

of the calyces, pelvis, and ureter contain smooth muscle that contracts rhythmically to propel urine along its

course by peristalsis.

Kidneys are highly vascularized organs since they are concerned with the purification of blood and also help

in maintaining its composition. About 25% of the total blood (i.e., 1200ml/min) passes through the kidneys

each minute. Kidneys account for only 1% of body weight but consume 20–25% of all oxygen used by the

body at rest. The blood supply occurs via the left and right renal arteries. Each renal artery after entering the

kidney, gives off branches termed as segmental arteries, which supply blood to various segments of the

kidney. Within the kidney, there is repeated branching of the artery, with the branches becoming smaller and

smaller. These branches pass along the sides and bases of the renal pyramids, project into the cortex, and give

rise to afferent arterioles supplying the glomerular capillaries inside the Bowman capsule. Efferent

arterioles arise from the glomerular capillaries and carry blood away from the glomeruli.

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After each efferent arteriole exits the glomerulus, it gives rise to a plexus of capillaries, called the peritubular

capillaries, around the proximal and distal convoluted tubules. The vasa recta are specialized portions of the

peritubular capillaries that extend deep into the medulla of the kidney and surround the loops of Henle and

collecting ducts. The peritubular capillaries, which include the vasa recta, join small veins. These veins form

larger veins that run parallel to the arteries.

Nephron- The Functional unit:

The functional unit of the kidney is the nephron, and there are approximately 1.3 million of them in each

kidney. Each nephron consists of a renal corpuscle; a proximal convoluted tubule, a loop of Henle and a

distal convoluted tubule. The renal corpuscle consists of a Bowman capsule and a glomerulus. The Bowman

capsule is the enlarged end of the nephron surrounding the glomerulus, which is a network of capillaries.

Fluid from the blood in the glomerulus enters the Bowman capsule and then flows into the proximal

convoluted tubule. From there, it flows into the loop of Henle. Each loop of Henle has a descending limb,

which extends toward the renal sinus, and an ascending limb, which extends back toward the cortex.

The fluid flows through the ascending limb of the loop of Henle to the distal convoluted tubule. Many distal

convoluted tubules empty into a collecting duct, which carries the fluid from the cortex, through the medulla.

Many collecting ducts empty into a papillary duct and the papillary ducts empty their contents into a minor

calyx.

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Physiology of Urine Formation:

Of the approximately 1200 ml of blood that passes through the glomeruli each minute, some 650 ml is

plasma, and about one-fifth of this (120–125 ml) is forced into the renal tubules. This is equivalent to filtering

out entire plasma volume more than 60 times each day.

Filtrate and urine are quite different. Filtrate contains everything found in blood plasma except proteins, but

by the time filtrate flows into the collecting ducts, it has lost most of its water, nutrients, and ions. What

remains, now called urine, contains mostly metabolic wastes and unneeded substances. The kidneys process

about 180 L of blood-derived fluid daily. Of this amount, less than 1% (1.5 L) typically leaves the body as

urine; the rest returns to the circulation. Urine formation and the adjustment of blood composition involve

three major processes:

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Glomerular filtration by the glomeruli,

Tubular reabsorption and

Tubular secretion in the renal tubules.

Step 1: Glomerular Filtration:

Glomerular filtration is a passive process in which hydrostatic pressure forces fluids and solutes through a

membrane. The glomerulus is a much more efficient filter than are other capillary beds because:

1. Its filtration membrane has a large surface area and is thousands of times more permeable to water and

solutes, and

2. Glomerular blood pressure is much higher than that in other capillary beds (approximately 55 mm Hg

as opposed to 18 mm Hg or less), resulting in a much higher net filtration pressure.

As a result of these differences, the kidneys produce about 180 L of filtrate daily, in contrast to the 3 to 4 L

formed daily by all other capillary beds of the body combined.

Molecules smaller than 3 nm in diameter such as water, glucose, amino acids, and nitrogenous wastes pass

freely from the blood into the glomerular capsule. Hence, these substances usually show similar

concentrations in the blood and the glomerular filtrate. Larger molecules pass with greater difficulty, and

those larger than 5 nm are generally barred from entering the tubule. Keeping the plasma proteins in the

capillaries maintains the colloid osmotic pressure of the glomerular blood, preventing the loss of all its water

to the renal tubules. The presence of proteins or blood cells in the urine usually indicates a problem with the

filtration membrane.

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The net filtration pressure (NFP), responsible for filtrate formation, involves forces acting at the glomerular

bed. Glomerular hydrostatic pressure (HPg) is the chief force pushing water and solutes out of the blood and

across the filtration membrane. The HPg is opposed by two forces that inhibit fluid loss from glomerular

capillaries. These filtration-opposing forces are (1) colloid osmotic pressure of glomerular blood (OPg) and

(2) capsular hydrostatic pressure (HPc) exerted by fluids in the glomerular capsule. Thus, the NFP

responsible for forming renal filtrate from plasma is 10 mm Hg:

Glomerular Filtration Rate:

The glomerular filtration rate or GFR is

the volume of filtrate formed each minute

by the combined activity of all 2 million

glomeruli of the kidneys. Factors

governing filtration rate at the capillary

beds are:

Total surface area available for filtration,

Filtration membrane permeability, and

NFP.

In adults the normal GFR in both kidneys

is 120–125 ml/min. Because glomerular

capillaries are exceptionally permeable

and have a huge surface area (collectively

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equal to the surface area of the skin), huge amounts of filtrate can be produced even with the usual modest

NFP of 10 mm Hg.

Because the GFR is directly proportional to the NFP, any change in any of the pressures acting at the

filtration membrane changes both the NFP and the GFR. In the absence of regulation, an increase in arterial

(and glomerular) blood pressure in the kidneys increases the GFR. As we shall see in the next section

however, GFR is tightly regulated.

Regulation of Glomerular Filtration

GFR is regulated by both intrinsic and extrinsic controls. These two types of controls serve two different (and

sometimes opposing) needs. The kidneys need a relatively constant GFR in order to do their job and maintain

extracellular homeostasis. On the other hand, the body as a whole needs a constant blood pressure, and

therefore a constant blood volume. Intrinsic controls (renal autoregulation) act locally within the kidney to

maintain GFR, while extrinsic controls by the nervous and endocrine systems maintain blood pressure. In

extreme changes of blood pressure (mean arterial pressure less than 80 or greater than 180 mm Hg), extrinsic

controls take precedence over intrinsic controls. Both types of control are examined next.

Intrinsic Controls:

Renal Autoregulation: By adjusting its own resistance to blood flow, a process called renal autoregulation,

the kidney can maintain a nearly constant GFR despite fluctuations in systemic arterial blood pressure. Renal

autoregulation entails two types of controls: (1) a myogenic mechanism and (2) a tubuloglomerular feedback

mechanism.

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2. Extrinsic Controls: Neural and Hormonal Mechanisms: The purpose of the extrinsic controls

regulating the GFR is to maintain systemic blood pressure—sometimes to the detriment of the

kidneys.

1. Sympathetic nervous system controls: Norepinephrine released by sympathetic nerve fibers acts

on alpha-adrenergic receptors on vascular smooth muscle, strongly constricting afferent arterioles,

thereby inhibiting filtrate formation. This, in turn, indirectly trips the renin-angiotensin mechanism

by stimulating the macula densa cells. The sympathetic nervous system also directly stimulates the

granular cells to release renin.

2. Renin-angiotensin mechanism

Step 2: Tubular Reabsorption

Our total plasma volume filters into the renal tubules about every 22 minutes, so all our plasma would be

drained away as urine in less than 30 minutes were it not for the fact that most of the tubule contents are

quickly reclaimed and returned to the blood. This process, called tubular reabsorption, the movement of

water and solutes from the filtrate back into the blood, makes this possible. Almost all of the water and useful

solutes are reabsorbed, whereas waste products, excess solutes, and a small amount of water are not. The

reabsorbed substances enter the peritubular capillaries and vasa recta and flow through the renal veins to enter

the general circulation.

Mechanisms of Reabsorption

1. Active transport—the cells of the renal tubule use ATP to transport most of the useful materials from the

filtrate to the blood. These useful materials include glucose, amino acids, vitamins, and positive ions.

For many of these substances, the renal tubules have a threshold level of reabsorption. This means that there

is a limit to how much the tubules can remove from the filtrate. For example, if the filtrate level of glucose is

normal (reflecting a normal blood glucose level), the tubules will reabsorb all of the glucose, and none will be

found in the urine.

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What happens is this: The number of glucose transporter molecules in the membranes of the tubule cells is

sufficient to take in the number of glucose molecules passing by in the filtrate. If, however, the blood glucose

level is above normal, the amount of glucose in the filtrate will also be above normal and will exceed the

threshold level of reabsorption. The number of glucose molecules to be reabsorbed is more than the number of

the transporter molecules available to do so. In this situation, therefore, some glucose will remain in the

filtrate and be present in urine.

The reabsorption of Ca+2 ions is increased by parathyroid hormone (PTH). The parathyroid glands secrete

PTH when the blood calcium level decreases. The reabsorption of Ca+2 ions by the kidneys is one of the

mechanisms by which the blood calcium level is raised back to normal.

The hormone aldosterone, secreted by the adrenal cortex, increases the reabsorption of Na+ ions and the

excretion of K+ ions. Besides regulating the blood levels of sodium and potassium, aldosterone also affects the

volume of blood.

2. Passive transport—many of the negative ions that are returned to the blood are reabsorbed following the

reabsorption of positive ions, because unlike charges attract.

3. Osmosis—the reabsorption of water follows the reabsorption of minerals, especially sodium ions. The

hormones that affect reabsorption of water are discussed in the next section.

4. Pinocytosis—small proteins are too large to be reabsorbed by active transport. They become adsorbed to

the membranes of the cells of the proximal convoluted tubules. The cell membrane then sinks inward and

folds around the protein to take it in. Normally all proteins in the filtrate are reabsorbed; none is found in

urine.

Step-3: Tubular Secretion

This mechanism also changes the composition of urine. In tubular secretion, substances are actively secreted

from the blood in the peritubular capillaries into the filtrate in the renal tubules. Waste products, such as

ammonia and some creatinine, penicillin and the metabolic products of medications may be secreted into the

filtrate to be eliminated in urine. Hydrogen ions may be secreted by the tubule cells to help maintain the

normal pH of blood.

In the end, urine contains (1) substances that have undergone glomerular filtration but have not been

reabsorbed, and (2) substances that have undergone tubular secretion.

Hormones That Influence Reabsorption of Water

Aldosterone is secreted by the adrenal cortex in response to a high blood potassium level, to a low blood

sodium level, or to a decrease in blood pressure. When aldosterone stimulates the reabsorption of Na+ ions,

water follows from the filtrate back to the blood. This helps maintain normal blood volume and blood

pressure.

You may recall that the antagonist to aldosterone is atrial natriuretic peptide (ANP), which is secreted by

the atria of the heart when the atrial walls are stretched by high blood pressure or greater blood volume. ANP

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decreases the reabsorption of Na+ ions by the kidneys; these remain in the filtrate, as does water, and are

excreted. By increasing the elimination of sodium and water, ANP lowers blood volume and blood pressure.

Antidiuretic Hormone (ADH) is released by the posterior pituitary gland when the amount of water in the

body decreases. Under the influence of ADH, the distal convoluted tubules and collecting tubules are able to

reabsorb more water from the renal filtrate. This helps maintain normal blood volume and blood pressure, and

also permits the kidneys to produce urine that is more concentrated than body fluids. Producing concentrated

urine is essential to prevent excessive water loss while still excreting all the substances that must be

eliminated. If the amount of water in the body increases, however, the secretion of ADH diminishes, and the

kidneys will reabsorb less water. Urine then becomes dilute, and water is eliminated until its concentration in

the body returns to normal. This may occur following ingestion of excessive quantities of fluids.

Renal Clearance

The rate at which a particular chemical is removed from the plasma indicates kidney efficiency. This rate is

called renal clearance.

The Ureters

The ureters are a pair of muscular tubes that extend from the kidneys to the urinary bladder—a distance of

about 30 cm. Each ureter begins at the funnel-shaped renal pelvis. The paths taken by the ureters in men and

women are different, due to variations in the nature size, and position of the reproductive organs. The ureters

penetrate the posterior wall of the urinary bladder without entering the peritoneal cavity. They pass through

the bladder wall at an oblique angle.

Histology of the Ureters

The wall of each ureter consists of three layers:

(1) an inner mucosa, made up of a transitional epithelium and the surrounding lamina propria;

(2) a middle muscular layer made up of longitudinal and circular bands of smooth muscle; and

(3) an outer connective tissue layer that is continuous with the fibrous capsule and peritoneum.

About every 30 seconds, a peristaltic contraction begins at the renal pelvis. As it sweeps along the ureter, it

forces urine toward the urinary bladder.

The Urinary Bladder

The urinary bladder is a hollow, muscular organ that serves as a temporary reservoir for urine. The

dimensions of the urinary bladder vary with its state of distension. A full urinary bladder can contain as much

as a liter of urine.

A layer of peritoneum covers the superior surfaces of the urinary bladder.

In sectional view, the mucosa lining the urinary bladder is usually thrown into folds, or rugae, that disappear

as the bladder fills. The triangular area bounded by the openings of the ureters and the entrance to the urethra

makes up a region called the trigone of the urinary bladder. There, the mucosa is smooth and very thick. The

trigone acts as a funnel that channels urine into the urethra when the urinary bladder contracts.

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The region surrounding the urethral opening is known as the neck of the urinary bladder. It contains a

muscular internal urethral sphincter. The smooth muscle fibers of this sphincter provide involuntary control

over the discharge of urine from the bladder. The urinary bladder is innervated by postganglionic fibers.

Histology of the Urinary Bladder

The wall of the urinary bladder contains mucosa, submucosa, and muscularis layers. The muscularis layer

consists of inner and outer layers of longitudinal smooth muscle, with a circular layer between the two.

The Urethra

The urethra extends from the neck of the urinary bladder and transports urine to the exterior of the body. The

urethra of males and females differ in length and in function. In males, the urethra extends from the neck of

the urinary bladder to the tip of the penis. This distance may be 18–20 cm. In females, the urethra is very

short. It extends 3–5 cm from the bladder to the vestibule. The external urethral orifice is near the anterior

wall of the vagina.

In both sexes, a circular band of skeletal muscle forms the external urethral sphincter. This muscular band

acts as a valve. The external urethral sphincter is under voluntary control. This sphincter has a resting muscle

tone and must be voluntarily relaxed to permit micturition.