Kidney glomerular filtration

Survivors had decreased kidney glomerular filtration rate within 24 h (Lock 1979)... 

Structure and physiology of the kidney glomerular filtration tubular activity selective reabsorption and secretion, often using specific carrier mechanisms carbonic anhydrase and acid-base balance. The kidney also produces, and is sensitive to, hormones actions of the hormones ADH, aldosterone and PTH the kidney as a secretory organ erythropoietin, the renin-angiotensin system vitamin D3. 

Cidofovir has extremely low oral bioavailability and so must be administered intravenously. Although the plasma elimination half-life averages 2.6 hours, the diphosphate form of the drug is retained within host cells and has an intracellular half life of 17 to 65 hours. A phosphocholine metabolite has a half-life of approximately 87 hours and may serve as an intracellular reservoir of the drug. Cidofovir is not significantly metabolized and is excreted unchanged by the kidney. Glomerular filtration and probenecid-sensitive tubular secretion are responsible for cidofovir elimination. 

Kidney Glomerular filtration and subsequent degradation processes (see Fig. 2.2) Molecular weight... 

Renal function is an indication of the physiological state of the kidney glomerular filtration rate (GFR) describes the flow rate of Altered fluid through the kidney, while creatinine clearance rate (Ccr) is the volume of blood plasma that is cleared of creatinine per unit time, and is a useful measure for approximating the GFR. Most clinical tests use the plasma concentrations of the waste substances of creatinine and urea, as well as electrolytes, to determine renal function. The nephron is the functional unit of the kidney (Figure 10.1) it consists of two parts ... 

Various in vivo and in vitro models have been described to study the elimination of drugs from the kidneys. Glomerular filtration and clearance rates require in vivo studies or are performed on perfused whole kidneys.121,122 Tubular secretion and reabsorption of substances have been studied in kidney slices, tubular segments, tubular suspensions, primary cultures, and established cell lines. 

The clinical use of cisplatin is limited by nephrotoxicity, characterized by a decline in glomerular filtration rate that is in proportion to the number of cycles of cisplatin chemotherapy. Progressive and persistent reductions in glomerular filtration rale and renal blood flow may follow each successive treatment cycle [17]. Renal plasma flow, whole kidney glomerular filtration rate, single nephron glomerular filtration rate, and stop-flow pressure are reduced compared to controls... 

Hackstein N, Heckrodt J, Rau WS (2003) Measurement of single-kidney glomerular filtration rate using a contrast-enhanced dynamic gradient-echo sequence and the Rutland-Patlak plot technique. JMagn Reson Imaging 18 714-725... 

The principal organs involved in the peripheral clearance of hGH from the plasma are the kidney and fiver. hGH is cleared via glomerular filtration at the kidney and by a receptor-mediated mechanism at the fiver (58,59). In animal models, derivatives of hGH such as the 20,000 mol wt variant, oligomeric forms, and hGH complexed with GH-binding protein have been shown to be cleared from the semm at significandy lower rates than 22,000 mol wt hGH (60—62). The prolonged plasma half-life of these derivatives probably reflects a combination of decreased receptor affinity and size constraints on glomerular filtration. 

Kidney Function. Prostanoids influence a variety of kidney functions including renal blood flow, secretion of renin, glomerular filtration rate, and salt and water excretion. They do not have a critical role in modulating normal kidney function but play an important role when the kidney is under stress. Eor example, PGE2 and -I2 are renal vasodilators (70,71) and both are released as a result of various vasoconstrictor stimuli. They thus counterbalance the vasoconstrictor effects of the stimulus and prevent renal ischemia. The renal side effects of NSAIDS are primarily observed when normal kidney function is compromised. 

Technetium-99m mertiatide (A/-[Ai-[A/-[(benzoylthio)acetyl]glycyl]glycine) is a renal imaging agent. It is excreted by the kidneys via active tubular secretion and glomerular filtration. The kit vial is reconstituted by using 740—3700 MBq (20—100 mCi) of Tc pertechnetate and boiling for 10 minutes. 

Three hormones regulate turnover of calcium in the body (22). 1,25-Dihydroxycholecalciferol is a steroid derivative made by the combined action of the skin, Hver, and kidneys, or furnished by dietary factors with vitamin D activity. The apparent action of this compound is to promote the transcription of genes for proteins that faciUtate transport of calcium and phosphate ions through the plasma membrane. Parathormone (PTH) is a polypeptide hormone secreted by the parathyroid gland, in response to a fall in extracellular Ca(Il). It acts on bones and kidneys in concert with 1,25-dihydroxycholecalciferol to stimulate resorption of bone and reabsorption of calcium from the glomerular filtrate. Calcitonin, the third hormone, is a polypeptide secreted by the thyroid gland in response to a rise in blood Ca(Il) concentration. Its production leads to an increase in bone deposition, increased loss of calcium and phosphate in the urine, and inhibition of the synthesis of 1,25-dihydroxycholecalciferol. 

Aldosterone, the most potent of the mineralocorticoids (Figure 25.43), is involved in the regulation of sodium and potassium balances in tissues. Aldosterone increases the kidney s capacity to absorb Na, Cl, and HgO from the glomerular filtrate in the kidney tubules. 

In the kidney, ANG II reduces renal blood flow and constricts preferentially the efferent arteriole of the glomerulus with the result of increased glomerular filtration pressure. ANG II further enhances renal sodium and water reabsorption at the proximal tubulus. ACE inhibitors thus increase renal blood flow and decrease sodium and water retention. Furthermore, ACE inhibitors are nephroprotective, delaying the progression of glomerulosclerosis. This also appears to be a result of reduced ANG II levels and is at least partially independent from pressure reduction. On the other hand, ACE inhibitors decrease glomerular filtration pressure due to the lack of ANG II-mediated constriction of the efferent arterioles. Thus, one important undesired effect of ACE inhibitors is impaired glomerular filtration rate and impaired kidney function. 

In the kidney, bradykinin increases renal blood flow, whereas glomerular filtration rate remains unaffected. 

Excretion via the kidney can be a straightforward question of glomerular filtration, followed by passage down the kidney tubules into the bladder. However, there can also be excretion and reabsorption across the tubular wall. This may happen if an ionized form within the tubule is converted into its nonpolar nonionized form because of a change in pH. The nonionized form can then diffuse across the tubular wall into plasma. Additionally, there are active transport systems for the excretion of lipophilic acids and bases across the wall of the proximal tubule. The antibiotic penicillin can be excreted in this way. 

Sodium and water balance are primarily regulated by the kidney Reductions in nephron mass decrease glomerular filtration and subsequent reabsorption of sodium and water, leading to edema. 

The kidneys are located on the posterior part of the abdomen on either side of the spine, below the diaphragm, and behind the liver and stomach. They are bean-shaped and weigh approximately 150 grams (0.33 lb) each. The primary function of the kidneys is excretion. They work to excrete waste products through a series of steps involving glomerular filtration, secretion, and reabsorption. The kidneys also have several endocrine (e.g., production of erythropoietin and renin) and metabolic (e.g., vitamin D activation and drug metabolism) functions. 

While carboplatin has the same mechanism of action as cisplatin, it has a much less toxic side-effect profile than cisplatin. The pharmacokinetics of carboplatin are best described by a two-compartment model, with an a half-life of 90 minutes and a terminal half-life of 180 minutes. Carboplatin is eliminated almost entirely by the kidney by glomerular filtration and tubular secretion. Many chemotherapy regimens dose carboplatin based on an area under the curve (AUC), which is referred to... 

Atrial natriuretic peptide (ANP), brain natriuretic peptide (BNP), and C-type natriuretic peptide (CNP) are members of a family of so-called natriuretic peptides, synthesized predominantly in the cardiac atrium, ventricle, and vascular endothelial cells, respectively (G13, Y2). ANP is a 28-amino-acid polypeptide hormone released into the circulation in response to atrial stretch (L3). ANP acts (Fig. 8) on the kidney to increase sodium excretion and glomerular filtration rate (GFR), to antagonize renal vasoconstriction, and to inhibit renin secretion (Ml). In the cardiovascular system, ANP antagonizes vasoconstriction and shifts fluid from the intravascular to the interstitial compartment (G14). In the adrenal cortex, ANP is a powerful inhibitor of aldosterone synthesis (E6, N3). At the hypothalamic level, ANP inhibits vasopressin secretion (S3). It has been shown that some of the effects of ANP are mediated via a newly discovered hormone, called adreno-medullin, controlling fluid and electrolyte homeostasis (S8). The diuretic and blood pressure-lowering effect of ANP may be partially due to adrenomedullin (V5). 

Information is available on the renal toxicity of ingested lead in several species, including rats, dogs, monkeys, and rabbits. The results indicate that histopathological changes in the kidneys of lead-treated animals are similar to those in humans (see Section 2.2.1.2). Reduced glomerular filtration rates and aminoaciduria were reported in some of the animal studies. Key animal studies on lead-induced renal toxicity will be discussed below. 

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