functions of urinary system:
-removes wastes from the blood
- helps regulate blood composition
- pH, volume, and pressure;
- maintains blood osmolarity
- and produces X
hormones
The urinary system consists of:
- Two Kidneys: regulate blood
volume and composition, produce
hormones and excrete wastes. - Two X: transport urine from
kidneys to urinary bladder. - One urinary bladder: stores urine
and expels it into urethra. - One urethra: discharges urine
from body.
ureters
Functions of the kidneys include the following:
1. Excretion of wastes
2. Regulation of blood ionic composition
3. Regulation of blood pH
4. Regulation of blood volume
5. Regulation of blood pressure (renin)
6. Maintenance of blood X
7. Production of hormones (calcitriol and erythropoietin)
8. Regulation of blood glucose level
osmolarity
What wastes do the kidneys excrete?
- …. wastes:
- urea and ammonia from the deamination of amino acids
- creatinine from the breakdown of creatine phosphate
- uric acid from the catabolism of nucleic acids
- urobilin from the breakdown of hemoglobin
- Other wastes: drugs and environmental toxins
Nitrogenous
Kidneys:
Regulation of blood pressure. The kidneys also help regulate blood pressure by
secreting the enzyme X, which activates the renin–angiotensin–aldosterone
pathway. Increased X causes an increase in blood pressure.
renin
The kidneys seperately regulate loss of water and loss of solutes in the urine
true/false
true (that way they maintain blood osmolarity)
Kidneys;
Production of hormones. The kidneys produce two hormones: X, the active
form of vitamin D, helps regulate calcium homeostasis, and erythropoietin stimulates
the production of X.
calcitriol
red blood cells
Renal medulla: deep, darker reddish-brown inner region. It consists of several
cone-shaped renal …..
pyramids
Together, the renal cortex and renal pyramids of the renal medulla constitute the
parenchyma or functional portion of the kidney.
- Within the parenchyma are the functional units of the kidney—about 1 million
microscopic structures called X - Filtrate (filtered fluid) formed by the nephrons drains into large X ducts, which
extend through the renal papillae of the pyramids.
nephrons
papillary
The papillary ducts drain into cuplike structures: X and X calyces. A X calyx
receives filtrate from the papillary ducts of one renal papilla and delivers it to a X
calyx. Once the filtrate enters the calyces it becomes urine because no further
reabsorption can occur.
- From the major calyces, urine drains into a single large cavity (renal pelvis) and then out
through the ureter to the urinary bladder.
minor and major
minor
major
Although the kidneys constitute less than 0.5% of total body mass, they receive 20–25%
of the resting cardiac output via the right and left X arteries.
renal
Finally, each nephron receives one e/afferent arteriole, which divides into a tangled, ballshaped capillary network called the X or glomerular capillaries.
- The glomerular capillaries then reunite to form the a/efferent arteriole that carries blood
out of the glomerulus.
afferent
glomerulus
efferent
Glomerular capillaries are unique among capillaries in the body because they are
positioned between two arterioles, rather than between an arteriole and a venule.
* Efferent arterioles divide to form the X capillaries.
peritubular
The peritubular capillaries eventually reunite to form X radiate veins, which also
receive blood from the vasa recta.
- Veins reunite and the blood finally leaves the kidney through a single X vein that
exits at the renal hilum and carries venous blood to the inferior vena cava
cortica
renal
Each nephron consists of two parts:
- Renal X: where blood plasma is filtered. It is composed by:
- Glomerulus: capillary network.
- Bowman’s capsule or glomerular capsule: a
double-walled epithelial cup that surrounds the
glomerular capillaries
- Renal X: into which the
filtered fluid (glomerular
filtrate) passes.
corpuscle
tubule
The glomerular (Bowman’s) capsule consists of two layers:
- Visceral layer: modified simple squamous epithelial cells called podocytes. The many
footlike projections of these cells (pedicels) wrap around the single layer of
endothelial cells of the glomerular capillaries and form the inner wall of the capsule. - Parietal layer: simple squamous epithelium and forms the outer wall of the capsule.
- Fluid filtered from the glomerular capillaries enters the X space, the space between
the two layers of the glomerular capsule, which is continuous with the lumen of the renal
tubule.
capsular
The renal tubule has three main sections:
- Proximal convoluted tubule
- Nephron loop (loop of X)
* Descending limb
* Ascending limb - Distal convoluted tubule
Henle
In each nephron, the final part of the ascending limb of the nephron loop
makes contact with the afferent arteriole serving that renal corpuscle.
* The columnar tubule cells in this region are: the macula X
densa.
Alongside the macula densa, the wall of the afferent arteriole (and
sometimes the efferent arteriole) contains modified X muscle
fibers: juxtaglomerular cells.
smooth
- Macula densa and juxtaglomerular cells constitute the juxtaglomerular
X (helps regulate blood pressure within the kidneys).
apparatus
To produce urine, nephrons and collecting ducts perform three basic processes:
- Glomerular filtration.
- Tubular X.
- Tubular secretion.
* By filtering, reabsorbing, and secreting, nephrons help maintain homeostasis of
the blood’s volume and composition.
reabsorption
Together, the glomerular capillaries and the
podocytes, form a leaky barrier known as the
filtration X: permits filtration of
water and small solutes but prevents filtration
of most plasma proteins and blood cells.
membrane
Substances filtered from the blood cross three
filtration barriers:
basement membrane (acellular)
glomerular endothelial cell
podocyte
put in right order
- First barrier: glomerular endothelial cell
- Second barrier: basement membrane
- Third barrier: podocyte
Located among the glomerular capillaries and in the cleft between afferent and
efferent arterioles are mesangial cells (contractile) cells: what do they do?
help regulate glomerular filtration?
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Chapter 130
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Chapter 117
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Chapter 247
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Chapter 3A58
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Chapter 3B36
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Chapter 3C37
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Chapter 3D43
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Chapter 3E11
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Chapter 3 F - special senses45
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Chapter 443
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Chapter 4B51
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Chapter 5A40
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Chapter 5A, 232
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Chapter 6A51
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Chapter 6B14
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Chapter 5B64
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Chapter 742
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Chapter 7B36
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Chapter 844
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Chapter 953
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Chapter 9B26
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Chapter 10: urinary system32
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Chapter 10B26
