Excretion Flashcards
(81 cards)
0
Q
Example waste products of metabolisms
A
- CO2
- Excess water
- Salts
- Nitrogenous wastes (e.g. Urea, uric acid, creatinine)
- Bile pigments
1
Q
Metabolism
A
All chemical reactions taking place in a cell
2
Q
Excretion definition
A
Removal of metabolic wastes from the body
3
Q
Egestion definition
A
Removal of undigested substances from the alimentary system
4
Q
Secretion
A
Release of useful substances produced by cells for important functions
5
Q
Where do waste products first go when they leave cells?
A
- Diffuse from cells into tissue fluid
- From here they are moved to the blood stream
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Q
Excretory organs
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- Lungs
- Kidneys and bladder
- Liver and intestines
- Skin
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Q
Origin of CO2 as a waste
A
- Product of cellular respiration
- All cells in the body
8
Q
Origin of excess water as a waste
A
- Product of cellular respiration
- Also from intake of fluid and food
9
Q
Origin of urea as a waste
A
- Formed largely in the liver
- from deanimation of excess amino acids
10
Q
Origin of uric acid as a waste
A
- End product of metabolism of nucleic acids
- e.g. DNA and RNA
11
Q
Origin of creatinine as a waste
A
Formed from creatinine phosphate in the cells
12
Q
Origin of bile pigments as a waste
A
- Formed in liver with haemoglobin breakdown.
- Haemoglobin from red blood cells
13
Q
Main parts of the urinary system
A
- Two kidneys
- Two ureters
- The bladder
- The urethra
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Q
Blood vessels associated with the kidneys
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- Renal artery carrying oxygenated blood and rich in wastes
- Renal vein carrying deoxygenated blood and purified of wastes
15
Q
What is the urinary bladder
A
- Thin walled muscular sac
- Urine is temporarily stored here
- Urine enters trough the two ureters
- Exits through the urethra
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Q
Function of the ureters
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Transport urine from the kidneys to the bladder
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Q
Function of the urethra
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Transport urine from the bladder to outside the body
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Q
Function of the sphincter muscle
A
- Found at the base of the bladder
- it controls the flow of urine to the urethra
19
Q
External structure of kidney
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- Dark bean shaped organ
- Kidneys enclosed in fat for insulation and protection
- Hilum - renal artery, vein and ureter enter/leave
- Renal capsule - membrane surrounding kidney
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Q
Internal (macro) structure of kidney - what you see when you dissect a kidney
A
- Renal capsule (outer membrane)
- Cortex (directly under capsule, dark red brown colour)
- Medulla (inner region, lighter in colour)
- Collecting tubes form pyramid (broad bases face cortex)
- Renal papilla (inner tips of pyramids)
- Renal calyx (renal papilla open into renal calyces)
- Renal pelvis (calyces open into this widened region of ureter)
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Q
Nephron
A
Structural and functional unit of kidney
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Q
Two main parts of a nephron
A
- Malpighian body
- Renal tubule
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Q
Two main parts of the Malpighian body
A
- Bowmans capsule
- Glomerulus
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Parts of the renal tubule
* Bowman's capsule
* proximal convoluted tubule
* loop of Henle
* distal convoluted tubule
* collecting duct
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Parts of the glomerulus
* Wide afferent arteriole
* Capillary network
* Narrow efferent arteriole
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Parts of the loop of Henle
* Descending limb
* Ascending limb
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Parts of the nephron in the cortex
* Malpighian body
* Proximal convoluted tubule
* Distal convoluted tubule
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Parts of the nephron in the medulla
* Loop of Henle
* Collecting duct
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Structure of the Bowman's capsule
* Inner lining of cells are specialised (called podocytes)
* Tiny slit pores between podocytes
* pores open into hollow capsular space
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Structure of the renal tubule
* Long and twisted to increase surface area
* Lined by cuboidal epithelial cells
* Cells have many mitochondria for active reabsorption
* Cells have microvilli to increase surface area
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Composition of blood plasma
* Water
* Dissolved gases
* Dissolved useful substances (glucoce, salts, amino acids etc.)
* Dissolved waste substances (urea, uric acid and creatinine)
* Large plasma proteins
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Where does the efferent arteriole lead to?
* A network of capillaries running closely alongside the renal tubules
* This is called the peritubular capillary network.
* these link up with other capillaries to join a branch of the renal vein.
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The three main processes taking place in the nephron
* Glomerular filtration / ultrafiltration
* Tubular re-absorption
* Tubular excretion
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Glomerular filtration
* Blood in glomerulus under great pressure (narrower efferent arteriole)
* small substances forced out through pores into capsular space
* i.e. Water, glucose, amino acids, glycerol, fatty acids, salts as well as waste products urea, uric acid and creatinine
* blood cells and plasma proteins stay behind in blood vessels
* this filtrate called glomerular filtrate
* process is not selective, contains waste and useful substances.
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Tubular re-absorption
* As glomerular filtrate passes proximal convoluted tubule
* water reabsorbed by osmosis into peritubular capillaries
* other useful substances re-absorbed actively
* cuboidal cells of the tubule have mitochondria for active transport and microvilli to increase surface area.
* filtrate with useful substances removed is now called dilute urine
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Tubular excretion
* Wastes actively transported from the blood into the renal tubule
* e.g. Creatinine, drugs, ammonia, potassium, hydrogen and bicarbonate ions
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How water is conserved (tubular reabsorption process)
* Sodium and chlorine ions pumped out of loop of Henle
* dilute urine leaving the loop of Henlee has a very high water potential
* because of a steep concentration gradient, water leaves the distal convoluted tubule by osmosis
* depending on the water levels of the body, urine is either more dilute or concentrated
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Hormone that regulates how much water is reabsorbed
Anti-diuretic hormone (ADH)
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The action of ADH on the distal convoluted tubules and collecting ducts
* It's presence reduces the permeability of the distal convoluted tubules and collecting ducts
* this reduces water reabsorption
* urine is more diluted
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Kidney tubule response if blood becomes too alkaline
* Hydrogen ions concentration in blood is too low (high pH)
* cells of tubules remove more bicarbonate ions
* Various ions act as buffer in filtrate (resists pH change)
* pH in blood returns to normal
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Homeostasis
* a process that keeps the amounts of substances and conditions of the body within narrow limits.
* maintained by constantly adjusting these to prevent any large changes.
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Homeostasis of water
Osmoregulation
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Osmoregulation process (shortage of water in body)
* osmoreceptors in hypothalamus stimulated
* pituitary stimulated to produce more ADH
* ADH via blood increases permeability of distal convoluted tubules
* more water passes from tubules into blood by osmosis
* less water remains in tubules
* concentrated urine is excreted
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Osmoregulation process (excess of water in body)
* osmoreceptors in hypothalamus stimulated
* pituitary stimulated to produce less ADH
* less ADH decreases permeability of distal convoluted tubules
* less water passes from tubules into blood by osmosis
* more water remains in tubules
* dilute urine is excreted
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What is aldosterone
* A hormone
* regulates the salt concentration of the blood and tissue fluid
* secreted from the cortex of adrenal glands
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Homeostasis of salt balance (e.g. when sodium in the body is too low)
* Sodium levels on the blood drop
* More aldosterone secreted from the adrenal glands
* The renal tubules are stimulated to increase active reabsorption of sodium ions from the filtrate into the blood
* Sodium levels in the blood increase
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Causes of kidney failure
* Overuse of painkillers
* Chronic high blood pressure
* Type 2 diabetes
* Injury
* Infection e.g. Bilharzia
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Kidney dialysis
* A short term treatment for those with kidney failure
* Entire blood volume is passed through a series of filters
* cleaned blood is returned to the body
* Done mainly in hospital with a dialysis machine
* several times per week
* expensive
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Long term solution for kidney failure
* Kidney transplant
* Dysfunctional kidney removed
* Replaced by a healthy donated kidney
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Process of dialysis
* Blood is removed from an artery
* A substance is added to prevent the blood from clotting
* It is pumped into semi-permeable tubes in the dialysis machine
* On the other side of these tubes is dialysis fluid
* This contains water, glucose and salts of same concentration as the blood
* Waste molecules move through the membrane into the dialysis fluid by diffusion
* useful molecules don't move through (no concentration gradient)
* cleaned blood returned to a vein of the person
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Issues with kidney transplants
* Risk of rejection (immune system attacks foreign cells)
* Finding a donor hard - often a close relative required
* shortage of donors
* Immuno-suppressants required for life
* Expensive
* public health system in SA will not treat those over 50 years old due to its cost
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Kidney stone
* A solid formed from minerals in the diet
* E.g. Calcium, uric acid
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Increased risk for getting kidney stones
* Dehydration
* Excess animal protein
* Sodium (salt)
* Sucrose
* Fructose
* High fructose corn syrup (e.g. In Coke)
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Getting rid of kidney stones
* Small ones pass with urination
* Larger ones need treatment as they can cause blockages
* ultrasound to shatter them
* surgery
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Effect and symptoms of kidney stones
* Blockage of different parts of the renal system
* Renal colic - intense pain
* Sometimes nausea and vomiting
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Kidney failure caused by medicines
* Analgesic nephropathy
* Irreversible damage
* Damage builds up through time
* Leads to kidney failure
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Common medicines causing kidney damage
* Paracetamol (e.g. Panado)
* Ibuprofen (e.g. Neurofen)
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Risk of damage to kidneys by medicines increases...
* With dehydration
* With large amounts of exercise (e.g. long distance runners) mainly due to dehydration
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An example parasite that affects the urinary system
Schistosomiasis / bilharzia
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Symptoms of bilharzia
* Painful urination
* Blood in urine
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Portal of entry for Bilharzia
* Schistosomiasis flatworms
* Burrow into skin from infected waters
* Female lays eggs in blood vessels lining the bladder
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Place of exit by bilharzia from humans
* Eggs have spike that cuts blood vessel
* They enter bladder
* Exit body with next urination
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Secondary host of bilharzia
A snail
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Complications from bilharzia infection
* Eggs or larvae can obstruct different part of the system
* If not treated, can lead to chronic kidney failure
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Ureters
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Urinary bladder
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Urethra
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Renal pelvis
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Adrenal glands
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Renal capsule
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Renal cortex
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Renal pyramids
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Renal calyces
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Renal pelvis
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Renal artery
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Renal vein
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Renal medulla
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A: Collecting duct
B: Malpighian body
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* A nephron
* Structural and functional unit of the kidney
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A: Afferent arteriole
B: Bowmans capsule
C: Glomerulus (capillaries)
D: Distal convoluted tubule
E: Collecting duct
F: Loop of Henle
G: Proximal convoluted tubule
