URINARY SYSTEM -CHAPTER 19 ANATOMY & PHYSIOLOGY
Endothelial cells
The thin layer of cells that line the interior surface of all blood vessels. Only one cell thick in capillaries.
Bowman's capsules
The top of the nephron
path of the blood through the kidneys
glomerulus, efferent arteriole, peritubular capillaries, renal vein
When blood plasma passes through the glomerulus and Bowman's capsule
important nutrient essential to the body are also filtered
Alkalosis
ph above 7.45
Acidosis
ph below 7.35
Buffer systems maintain pH balance by
preventing dramatic changes in hydrogen ion concentration
Renal tubules
proximal and distal convoluted tubules and loop of Henley
Receptors in the distal tubule
react to low sodium
Renal medulla
Inner portion of kidney, pyramids
blood leaves the urine via
the ureters
ADH targets
The collecting ducts
Nephron
each of the functional units in the kidney, consisting of a glomerulus and its associated tubule, through which the glomerular filtrate passes before emerging as urine. There are 1 million per kidney. (there two types of nephron: Cortical and juxtamedullary
The renal pelvis drains directly
into the ureter
As water leave the loop of Henley
ions glucose and amino acids find the way back into the bloodstream through the peritubular capillaries.
The juxtaglomerular apparatus
is a specialized structure formed by the distal convoluted tubule and the glomerular afferent arteriole. It is located near the vascular pole of the glomerulus and its main function is to regulate blood pressure and the filtration rate of the glomerulus.
Trigone
is a triangular shape estructure in the floor of the bladder, marked by the opening of the two ureters
Glomerular capsule
is another name for the Bowman's capsule, a structure surrounding the glomerulus, that performs the first step in the filtration of blood to form urine.
the external urethal sphincter
is made of skeletal muscle
Tubular reabsorption
is the movement of substances from tubular fluid back into the blood.
Urine production
kidney produces 180 liters per day of filtrate, only 1 to 2 liter of urine is produced, each day filtrates is reabsorbed back into the blood to several locations along the tubules
Distal convoluted tubule
main target for aldosterone regulates sodium potassium and PH
Bicarbonate is key in:
maintaining PH homeostasis
RENAL TUBULE
microscopic tube in the kidney where urine is formed after filtration
ADH make the walls of the conducting tubes
more permeable to water, as a result more water will be reabsorbed and less water will be secreted with urine.
fluid balance
negative feedback mechanism maintain composition and volume of body fluids, kidney activity helps keep water volume and electrolyte constant by adjusting the loss of water and dissolve substances in the urine.
Aldosterone
secreted by the adrenal glands, stimulates the kidneys to reabsorb more sodium, and therefore more water, resulting in concentrated urine & an increase blood pressure & volume (water retention)is release when BP is too low or potassium is too high
Reabsorption
substances being return to the blood after kidney filtration
In the presence of ADH
the collecting ducts concentrates the urine and reduces the volume excreted.
ORGANS OF THE URINARY SYSTEM:
-2 kidneys -2 ureters -bladder -urethra
other kidney functions
-Excretion of unwanted substances -Urea elimination -homeostasis of body fluids -blood pressure regulation -hormone production (EPO) -control blood PH
Part of the urinary system
-Kidneys -Urinary Bladder -Urethra
What are the three hormones secreted by the kidneys
-Renin -Erithropoietin -Vitamin D
role of the kidneys in acid balance and PH
-The kidneys also play an important role in maintaining acid-base homeostasis by regulating the* pH of the blood plasma*. -To maintain the acid-base balance: reabsorb bicarbonate from urine, and excrete hydrogen ions into urine.
Different roles of the kidneys
-blood pressure regulation -hormone production -maintain acid balance -productions of red blood cells -electrolyte balance
what vessels suplply blood to the kidneys
-inferior vena cava -abdominal aorta
substances found in urine
-urea (product of protein metabolism) -uric acid -creatinine (muscle creatine) 2. -electrolytes/sodiun,ions, chloride,sulphate, phosphate -pigments, like urochrome, yellow substance giving urine its color, is derived from the breakdown of hemoglobin -billirubin -bile pigments -vitamins, food dyes
how many ureters in the urinary system
........ 2 ureteres
Summary of urine formation
1. *Glumerular filtration*: moves water and solutesfrom the blood into the proximal convoluted tube of the nephron. 2. *Tubular reabsorption*: moves water and other useful substances back into the blood 3. *Tubular secretion*: moves unfiltered or reabsorbed substances from the blood i nto the nephron for elimination.
Which percent of body weight is composed of interstitial fluid?
15%
Average ph in urine
4.5 to 8.0
Anything above
7.0 is alkaline
Urine is approximately
95% water and 5% dissolved solid and gases (fresh urine average PH 6.0 ranging from 4.5 to 8.0)
How urine is produced
Filtration, reabsorption, and secretion
Glomerulus
A ball of capillaries surrounded by Bowman's capsule in the nephron and serving as the site of filtration in the kidney.
ADH or vassopresin
ADH is also called arginine vasopressin. It's a hormone made by the hypothalamus in the brain and stored in the posterior pituitary gland. It tells your kidneys how much water to conserve. ADH constantly regulates and balances the amount of water in your blood
Glomerular filtrate
Fluid forced from the blood out of the capillaries of the glomerulus into the Bowman's capsule. Composed of water, salts, glucose and urea.
Angiotensin II
Angiotensin stimulates numerous processes that all raise blood pressure.
Afferent arteriole
Baroreceptors that detect a increase in blood volume, arterial blood pressure above normal
Kidney failure is caused by:
Build up of toxic waste Lowing of pH (acidosis) secrete influx of H+ Electrolyte imbalances (secrete K+ from action potential) - K+ retention - Na+ levels depend on Na+ intake Loss of Plasma proteins = Edema (loss of plasma proteins) Inability to vary urine concentration, body fluids can become hypo or hypertonic. Anemia = Inadequate erythropoietin production (not secreting RBC) (Endocrine System)
Afferent Artery
Carries blood into the kidney
The kidney take 180mL per day, but only one liter of urine is produced
Efferent artery branches out form capillaries which surround the tubules of the nephron. re absorption is the movement of substances out of the tubules across the surrounding interstitial fluid
Low blood pressure
Estimulates the release of Aldosterone and ADH is released in the presence of high blood pressure. plasma/sodium concentration controls ADH directly to regulate water retention, which ultimately will lower blood pressure.
Fluid balance II
FB II . The constancy of body fluid is maintain this way: 1. Thirs mechanism 2. Kidney activity helps keep water volume and electrolytes constant by adjusting the loss of water and dissolved substances in the urine. 3. Buffers,respiration and kidney function regulates body PH (acidity or alkalinity)
Tonicity Effect on (GFR) Glomerular Filtration Rate
Hypotonic body fluids; too much water = increased GFR Hypertonic body fluids; too little water = decreased GFR
water rebsorption
Is controlled by the ADH (anti-diuretic hormone) as the blood become more concentrated, the hypothalamus releases ADH from the posterior pituitary gland, in the disease diabetes insipidous, there is an adecaute secretion of ADH
The male urethra
Is larger than the female approx. 20 cm 8 in. it serves as draining system and reproductive
Renin
Is produced by the kidneys, is an enzyme that activates the protein *angiotensin* which increases blood pressure.
Glomerular filtration
Is the process by which plasma 20%, and dissolved substances (Na+, K+, Ca+) pass through capillaries into the Bowman's capsule. Cells & plasma proteins remain in capillaries (can't escape) Circulate in peritubular capillaries
One of the functions of the kidneys is
Kidneys play a critical role in fluid balance, regulating balance of salt and water
loop of Henley
Middle portion of renal tubule
filtration
Plasma moving from the glomerulus to the Bowman's capsule
The kidneys are located
Posterior to the peritoneum
Erythropoietin
Secreted as a response to low O2 in renal artery, stimulates red blood cell (RBC) production in the bone marrow
Hormonal Control of Kidney Function - Antidiuretic hormone (ADH or Vasopressin
Secreted by the posterior pituitary gland if: Blood Volume is too low Distal convoluted tubule & Collecting duct become permeable to water (without ADH> Impermeable to water Reabsorption of water is increased, thereby conserving water, reducing the volume of urine.
ADH or Vassopresin
Secreted by the posterior pituitary gland, stimulates the kidneys to reabsorb water resulting in concentrated urine & an increase blood pressure & volume (if too much water in the body then ADH will be blocked in order to excrete dilute urine)
Vitamin D
Secretion of its active form (Cacitriol) which promotes calcium absorption from the gut
Substances reabsorbed by the Proximal Convoluted Tubule
Sodium, Amino Acids, Glucose. in this part essential ions are absorbed
Efferent arteriole
The arteriole that carries the concentrated blood (more cells, less plasma) away from the glomerulus and to the peritubular capillaries. It has a smaller lumen than the afferent arteriole.
Efferent Artery
The efferent arteriole carries blood away from the glomerulus into the tubules.
The loop of Henley is situated in the medulla
The medulla in the descending tube is very salty and concentrated, as the water leaves the concentration is greater and water is moved out back into the blood leaving behind more concentration.
The loop of Henley
The nephron structure that is especially important in the kidney's ability to produce urine of varying concentration; 15% of reabsorption takes place.
The glomerulus
The specialized nephron capillary bed where filtration occurs
steps of urine production
There are three main steps of urine formation: glomerular filtration, reabsorption, and secretion.
tubular reabsorption
Urine is formed by three processes. In this process the filtrate components that are useful to the body move from the nephron into the blood?
Proximal convoluted tubule
Where the greatest percentage of Na+ /sodium (65%) reabsorption takes place. is lining with villi that increases its surface area,,as well as the absorption rate. Active/passive transport take place(ATP) inside the tube
lobular artery
branches into Afferent and efferent
An excess of ADH
can cause water intoxication
urethra
carries urine from the bladder to the outside of the body
URINARY SYSTEM
also known as the renal system, consists of the kidneys, ureters, bladder, and the urethra. Each kidney consists of millions of functional units called nephrons
buffers
are substances that prevent drastic changes in hydrogen ion (H+), they work accepting or releeasing ions to keep PH steady.
The kidneys
are two bean-shaped organs, each about the size of a fist. They are located just below the rib cage, one on each side of the spine. Every day, the two kidneys filter about 120 to 150 quarts of blood to produce about 1 to 2 quarts of urine, composed of wastes and extra fluid.
cystecthomy
bladder removal
Function of the nepron
blood enter the nephron through the afferent artert into the *glomerulus* and leave by the efferent artery, as this occurs component of the blood are filtered out into an area called t he* Bowman's capsule*, the filters components are calectively called *glumerulus filtrate pass on into the tubules eventually filtrate enters the last part the collecting ducts exiting as urine.
Renal Artery
blood vessel that carries blood to the kidney, branching from the abdominal aorta
