Examples of Renal clearance in the following topics:
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- In renal physiology, clearance is a measurement of the renal excretion ability, which measures the amount of plasma from which a substance is removed from the body over an interval of time.
- Renal clearance depends mainly on GFR, tubular absorption, and tubular secretion.
- If any of those variables change, the renal clearance rate of a substance will change as well.
- It is also important to note that renal clearance is not the only form of clearance that occurs for the substances within the plasma of the body.
- Describe how clearance is a measure of the renal excretion ability
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- Besides the renal system, many other organs and body systems are directly involved in the excretion of waste products.
- Similar to renal clearance, these other organs have a clearance rate of their own, and also forms a part of total body clearance.
- The skin, lungs, and liver are the main waste removal organs outside of the non-renal system; however, their ability to remove wastes is generally less than that of the renal system.
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- The renal veins drain the kidney and the renal arteries supply blood to the kidney.
- Due to the position of the aorta, the inferior vena cava, and the kidneys in the body, the right renal artery is normally longer than the left renal artery.
- The renal arteries carry a large portion of the total blood flow to the kidneys—up to a third of the total cardiac output can pass through the renal arteries to be filtered by the kidneys.
- Renal blood supply starts with the branching of the aorta into the renal arteries (which are each named based on the region of the kidney they pass through) and ends with the exiting of the renal veins to join the inferior vena cava.
- The renal plexus are the source of nervous tissue innervation within the kidney, which surround and primarily alter the size of the arterioles within the renal cortex.
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- Eighty-five percent of nephrons are cortical nephrons, deep in the renal cortex; the remaining 15 percent are juxtamedullary nephrons, which lie in the renal cortex close to the renal medulla.
- A nephron consists of three parts: a renal corpuscle, a renal tubule, and the associated capillary network, which originates from the cortical radiate arteries.
- The renal tubule is a long, convoluted structure that emerges from the glomerulus.
- The third part of the renal tubule is called the distal convoluted tubule (DCT); this part is also restricted to the renal cortex.
- Urine leaves the medullary collecting ducts through the renal papillae, emptying into the renal calyces, the renal pelvis, and finally into the bladder via the ureter.
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- The renal cortex is a space between the medulla and the outer capsule.
- The kidneys are surrounded by a renal cortex, a layer of tissue that is also covered by renal fascia (connective tissue) and the renal capsule.
- The renal cortex is granular tissue due to the presence of nephrons—the functional unit of the kidney—that are located deeper within the kidney, within the renal pyramids of the medulla.
- The renal pelvis contains the hilium.
- The renal pelvis connects the kidney to the rest of the body.
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- It appears to have higher clearance rates than podophyllotoxin and imiquimod and causes less local irritation, but clearance takes longer than with imiquimod.
- Reported reactions include nausea, vomiting, fever, confusion, coma, renal failure, ileus, and leukopenia; death has been reported with extensive topical application, or application on mucous membranes.
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- Renal failure uremia is a syndrome of renal failure characterized by elevated levels of urea and creatinine in the blood.
- Renal failure (also kidney failure or renal insufficiency) is a medical condition in which the kidneys fail to adequately filter waste products from the blood.
- Renal failure uremia is a syndrome of renal failure that includes elevated blood urea and creatinine levels.
- Acute renal failure can be reversed if diagnosed early.
- It is considered to be chronic renal failure if the decline of renal function is to less than 25%.
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- Rarely, glycosuria is due to an intrinsic problem with glucose reabsorption within the kidneys themselves, a condition termed renal glycosuria.
- This point is called the renal threshold of glucose (RTG).
- If the RTG is so low that even normal blood glucose levels produce the condition, it is referred to as renal glycosuria.
- Renal glycosuria, also known as renal glucosuria, is a rare condition in which the simple sugar glucose is excreted in the urine despite normal or low blood glucose levels.
- However, in those with renal glycosuria, glucose is abnormally elevated in the urine due to improper functioning of the renal tubules, which are the primary components of the nephrons that act as the filtering units of the kidneys.
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- The outermost layer, the renal fascia, is a tough connective tissue layer.
- The third and innermost layer is the renal capsule.
- Renal blood supply starts with the branching of the aorta into the renal arteries (which are each named based on the region of the kidney they pass through) and ends with the exiting of the renal veins to join the inferior vena cava.
- Each segmental artery splits further into several interlobar arteries that enter the renal columns, which supply the renal lobes.
- Externally, the kidney is surrounded by the renal fascia, the perirenal fat capsule, and the renal capsule.
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- The renal system organs include the kidneys, ureters, bladder, and urethra.
- The renal system has many functions.
- The kidneys have an extensive blood supply from the renal arteries that leave the kidneys via the renal vein.
- The nephrons are made up of a capsule capillaries (the glomerulus) and a small renal tube.
- Urine passes from the renal tube through tubes called ureters and into the bladder.