Excretion and the Kidney
HL (Paper 1 and 2)
Excretion• What is excretion?
– Elimination of waste from the metabolic processes, to maintain homeostasis
• What are the products we excrete?– Undigested material (egested – feces)– Metabolites– CO2
– Urea
• Why do we eliminate waste?– Stop toxins from circulating in the body– Maintain homeostasis
The Kidney• Pair of reddish organs, smaller
than your fist, just under the last rib
• Blood flow– Each has a renal vein and renal
artery, which branches to a network of capillaries, forming the pyramid
– To empty urine, each has a ureter emptying into the bladder
The Kidney• Parts of the Kidney– Cortex – outer portion– Medulla – inner portion– Pyramid – collection of
capillaries– Pelvis – urine empties from
the collecting ducts, and collects before emptying into ureter to bladder
– Functional unit, called the nephron, microscopic structure
Functions of the Kidney• The main functions of the kidney are:
– To maintain water balance in the body.
– To remove nitrogenous metabolic wastes and salts. You call this ‘pee’, we call it Urea. Urine is the whole thing together.
– To allow the body to reabsorb substances it needs.
Urea
• Made from the breakdown of proteins, from the more toxic ammonia (NH3)
• Broken down in the liver
• Transported from liver, in blood to kidneys to be filtered and eliminated
Nephron – functional unit of the Kidney
• Principles of the functioning of the nephron:
– Ultra-filtration
– Reabsorption
– Secretion
Ultrafiltration• Achieved by pressure built up in the
glomerular vessels, due to the efferent vessel being more narrow exiting the Bowman’s capsule than the afferent vessel entering the Bowman’s capsule
• Fluid pushed into the Bowman’s capsule, is called the filtrate, consisting of ions, glucose and urea
Ultrafiltration
• Accomplished by:
– Wall of the glomerulus – fenestrations
– Basement membrane of the glomerulus
– Outer wall of the glomerulus - Podocytes
Glomerulus and Bowman’s Capsule
Osmoregulation and Reabsorption
• Osmoregulalation – the control of water balance of the blood, tissue and cytoplasm of a living organism.
• Achieved by the Proximal Convoluted Tubule and Loop of Henle– Using osmosis, diffusion and active transport
Osmoregulation and Reabsorption• Since the blood leaving the Bowman’s capsule
is more concentrated (low water), as the capillary comes close to the PCT:– osmosis drives the reabsorption of water– Sodium, glucose and other ions, are move by
active transport– Once the salts move into, more water moves by
osmosis• Large surface area is achieved by microvilli and
large amounts of mitochondria in microvilli cells, for active transport
Osmoregulation and Reabsorption• Filtrate leaving the PCT, is mostly water,
sodium, and urea, and goes into the Loop of Henle
• As filtrate goes into the descending loop, it goes into the medulla, which is concentrated with sodium
• More water is absorbed, into the capillaries along side the loop, along with some sodium, which stays in the tissue of the medulla
Osmoregulation and Reabsorption
• Ascending Loop is impermeable to water, and salts are removed by active transport– The sodium remains in the medulla tissue, to maintain
a concentration gradient• The concentration is maintained by the vasa recta,
vessels that run along the loop, exchanging salts• This process is called the vasa recta counter
current exchange• Filtrate leaving has only water and urea,
metabolites and some sodium
Secretion
• Filtrate goes into the distal convoluted tubule and collecting duct.
• DCT and CT are permeable to water, only if ADH is present
• If water is needed in body (ie. Low blood volume, High Osmotic Pressure)– ADH is secreted and water goes from the filtrate
to the blood– Concentrated Urine
Secretion
• If there is excess water (ie. High blood volume, low Osmotic Pressure)– no ADH will be secreted– Dilute Urine
• If the urine is too concentrated, this can lead to kidney stones