Half-life plasma

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. 

Mifepristone. After oral adininistration, peak plasma levels of mifepristone (84) (RU 486) are reached in 1 h and over 95% was bound to plasma proteins (351,352). The plasma half-life of RU 486 is approximately 24 h (352,353). In humans, monodemethylated (98), didemethylated (99) and alcohoHc nondemethylated (100) metaboHtes of RU 486 have been identified (351). These metaboHtes show some progestin-binding affinity, approximately five to ten times lower than that of RU 486 itself. RU 486 and its metaboHtes can be measured by radioimmunoassay and hplc (353,354). 

Clenbuterol [37148-27-9] C 2H gCl2N20, (6) (54), a nonphenolic analogue of terbutaline, is not susceptible to COMT or to conjugation. It has a long plasma half-life (20 h), but does not seem to differ ia pharmacological half-life from albuterol (55). 

Generic name R CAS Registry Number SolubiHty in water, 25°C, mg/100 ml. Lip 0 solubiHty, %" Human plasma half-life", h Protein binding % bound... 

Generic name Stmcture CAS Registry Number Solubihty in water, 25°C mg/lOOmL Human plasma half-life"... 

Although several metaboUtes of propylthiouracil have been found (36,44), it is mainly excreted in urine as the glucuronide. Its relatively short plasma half-life requires that it be adniinistered four times daily. 

Calcitonin is secreted when abnormally high calcium levels occur in plasma. Although plasma concentrations are normally minute (<100 pg/mL), they increase two- to threefold after calcium infusion. Calcitonin has a short plasma half-life (ca 10 min). Certain thyroid tumors are the result of CT concentrations 50—500 times normal. The mechanism of action is a direct inhibition of bone resorption. Calcitonin is used clinically in various diseases in which hypercalcemia is present, eg, Paget s disease (46). 

Calcitonin. Calcitonin is available commercially from pork and salmon extracts (Calcimar, Armour) as well as by synthesis. Preparations are bioassayed on the basis of their calcium-lowering activity in comparison to the potency of pure pork calcitonin of which ca 4 p.g is equivalent to 1 MRC unit (Medical Research Council, U.K.). For clinical use, vials containing 400 units in 4 mL are available. The recommended daily dosage is 100 units to be adrninistered subcutaneously or intramuscularly because its plasma half-life is short (4—12 min). 

Phenytoin s absorption is slow and variable yet almost complete absorption eventually occurs after po dosing. More than 90% of the dmg is bound to plasma protein. Peak plasma concentrations are achieved in 1.5—3 h. Therapeutic plasma concentrations are 10—20 lg/mL but using fixed po doses, steady-state levels are achieved in 7—10 days. Phenytoin is metabolized in the fiver to inactive metabolites. The plasma half-life is approximately 22 h. Phenytoin is excreted primarily in the urine as inactive metabolites and <5% as unchanged dmg. It is also eliminated in the feces and in breast milk (1,2). Prolonged po use of phenytoin may result in hirsutism, gingival hyperplasia, and hypersensitivity reactions evidenced by skin rashes, blood dyscrasias, etc... 

Mexifitene is well absorbed from the GI tract and less than 10% undergoes first-pass hepatic metabolism. In plasma, 60—70% of the dmg is protein bound and peak plasma concentrations are achieved in 2—3 h. Therapeutic plasma concentrations are 0.5—2.0 lg/mL. The plasma half-life of mexifitene is 10—12 h in patients having normal renal and hepatic function. Toxic effects are noted at plasma concentrations of 1.5—3.0 lg/mL, although side effects have been noted at therapeutic concentrations. The metabolite, /V-methy1mexi1itene, has some antiarrhythmic activity. About 85% of the dmg is metabolized to inactive metabolites. The kidneys excrete about 10% of the dmg unchanged, the rest as metabolites. Excretion can also occur in the bile and in breast milk (1,2). 

Elecainide is weU absorbed and 90% of the po dose is bioavailable. Binding to plasma protein is only 40% and peak plasma concentrations are attained in about 1—6 h. Three to five days may be requited to attain steady-state plasma concentrations when multiple doses are used. Therapeutic plasma concentrations are 0.2—1.0 lg/mL. Elecainide has an elimination half-life of 12—27 h, allowing twice a day dosing. The plasma half-life is increased in patients with renal failure or low cardiac outputs. About 70% of the flecainide in plasma is metabolized by the Hver to two principal metaboUtes. The antiarrhythmic potency of the meta-O-dealkylated metaboUte and the meta-O-dealkylated lactam, relative to that of flecainide is 50 and 10%, respectively. The plasma concentrations of the two metaboUtes relative to that of flecainide are 3—25%. Elecainide is mainly excreted by the kidneys, 30% unchanged, the rest as metaboUtes or conjugates about 5% is excreted in the feces (1,2). 

Adenosine is not active orally, but adrninistered as an iv bolus dmg adenosine rapidly eliminates supraventricular tachycardias within 1—2 min after dosing. The dmg slows conduction through the AV node. Adenosine is rapidly removed from the circulation by uptake into red blood ceUs and vascular endothehal ceUs. Thus the plasma half-life is less than 10 s. Adenosine is rapidly metabolized to inosine or adenosine monophosphate and becomes part of the body pool for synthesis of adenosine-triphosphate. 

The GI absorption of the dmg after po adrninistration is slow and variable with estimates ranging from 20—55%. Once absorbed, 96% of the dmg is bound to plasma proteins and other tissues on the body. Whereas peak plasma concentrations may be achieved in 3—7 h, the onset of antiarrhythmic action may occur in 2—3 days or more. This may result, in part, from distribution to and concentration of the dmg in adipose tissue, Hver, spleen, and lungs. Therapeutic plasma concentrations are 1—2 p.g/mL, although there appears to be no correlation between plasma concentration and antiarrhythmic activity. The plasma half-life after discontinuation of the dmg varies from 13—103 days. The dmg is metabolized in the Hver and the principal metaboHte is desethylamiodarone. The primary route of elimination is through the bile. Less than 1% of the unchanged dmg is excreted in the urine. The dmg can also be eliminated in breast milk and through the skin (1,2). 

Because bretylium is poody absorbed from the GI tract (- 10%), it is adrninistered iv or im. Very litde dmg is protein bound in plasma. Bretylium is taken up by an active transport mechanism into and concentrated in postganglionic nerve terminals of adrenergicahy innervated organs. Peak plasma concentrations after im injections occur in about 30 min. Therapeutic plasma concentrations are 0.5—1.0 p.g/mL. Bretylium is not metabolized and >90% of the dose is excreted by the kidneys as unchanged dmg. The plasma half-life is 4—17 h (1,2). 

Sotalol is rapidly and almost completely (>90%) absorbed. Bioavahabhity of absorbed dmg is 89—100%. Peak plasma levels are achieved in 2—4 h. Sotalol is 50% bound to plasma proteins. Plasma half-life of the compound is about 5.2 h. No metabolites of sotalol have been identified indicating littie metabolism. The dmg is excreted mainly by the kidneys (80—90%) and about 10% is eliminated in the feces. The plasma half-life is prolonged in patients having renal failure. Kinetics of the compound are not affected by changes in liver function (1,2). Sotalol has ah the adverse effects of -adrenoceptor blockers including myocardial depression, bradycardia, transient hypotension, and proarrhythmic effects (1,2). 

After po dosing, verapamil s absorption is rapid and almost complete (>90%). There is extensive first-pass hepatic metabolism and only 10—35% of the po dose is bioavahable. About 90% of the dmg is bound to plasma proteins. Peak plasma concentrations are achieved in 1—2 h, although effects on AV nodal conduction may be apparent in 30 min (1—2 min after iv adrninistration). Therapeutic plasma concentrations are 0.125—0.400 p.g/mL. Verapamil is metabolized in the liver and 12 metabolites have been identified. The principal metabolite, norverapamil, has about 20% of the antiarrhythmic activity of verapamil (3). The plasma half-life after iv infusion is 2—5 h whereas after repeated po doses it is 4.5—12 h. In patients with liver disease the elimination half-life may be increased to 13 h. Approximately 50% of a po dose is excreted as metabolites in the urine in 24 h and 70% within five days. About 16% is excreted in the feces and about 3—4% is excreted as unchanged dmg (1,2). 

Streptokinase has an initial plasma half-life (/ 2 of 18 min, and a P half-life of 83 min (73) it is well recognized that the thrombolytic efficacy of the enzyme decreases as the age of the thrombus increases thus, thrombolysis is significantly decreased when therapy is initiated more than three hours after an occlusion (74). 

Poly(ethylene glycol) (PEG) molecules attached to adenosine deaminase (ADA) have been used in patients exhibiting symptoms of the severe combined immunodeficiency syndrome (SCID) caused by ADA deficiency. The modified enzyme has a plasma half-life of weeks as compared to the unmodified enzyme (minutes) (248). PEG-L-asparaginase has induced remissions in patients with non-Hodgkin s lymphoma (248). However, one disadvantage of PEG-enzyme treatment is its expense, ie, a year s treatment costs about 60,000 (248). 

Pyrazine, 2-methoxy-3-sulfanilamido-plasma half-life, 1, 162 Pyrazine, methyl-chlorination, 3, 168 oxidation, 3, 168 reactions... 

The plasma half-life of 6-MP after intravenous bolus injection is 21 min in children and is twofold greater in adults. After oral intake peak levels are attained within 2 h. 6-MP is used for the treatment of ALL and has shown certain activity in chronic myelogenous leukemia. The major side effects involve myelosuppression, nausea, vomiting, and hepatic injury. 

The drug is metabolized rapidly in the liver, kidney, intestinal mucosa, and even red blood cells. Therefore it has a plasma half-life of only 10 min after bolus intravenous application. The major metabolite, uracil arabinoside (ara-U), can be detected in the blood shortly after cytarabine administration. About 80% of the dose is excreted in the urine within 24 h, with less than 10% appearing as cytarabine the remainder is ara-U. After continuous infusion, cytarabine levels in the liquor (cerebro-spinal fluid) approach 40% of that in plasma. Continuous infusion schedules allow maximal efficiency, with uptake peaks of 5-7 pM. It can be administered intrathecally as an alternative to methotrexate. 

The therapeutic utility of systemically administered ASON had been limited by their short plasma half life (sometimes even less than 3 min). This is due to their sensitivity to nuclease digestion. When the first-generation ASON were chemically modified, e.g., by replacing the oxygen in the phosphodiester bond with sulfur (phosphorothiorate) they obtained an increased stability in biological fluids while their antisense effect has been maintained. First-generation agents can be delivered via intravitreal injection, parenterally, by topical cream, enema, and inhaled aerosol. These antisense... 

After oral administration, acetylsalicylic acid is rapidly and almost completely absorbed but in the intestinal mucosa it is partly deacetylated to salicylic acid, which also exhibits analgesic activity. The plasma half-life of acetylsalicylic acid is 15 min whereas that of salicylic acid, at low dosages of acetylsalicylic acid, is 2-3 h. Salicylic acid is eliminated more slowly when acetylsalicylic acid is administered at high dose rates because of saturation of the liver enzymes. The metabolites are mainly excreted via the kidney. 

Diclofenac is an exceedingly potent COX inhibitor slightly more efficacious against COX-2 than COX-1. Its absorption from the gastrointestinal tract varies according to the type of pharmaceutical formulation used. The oral bioavailability is only 30-80% due to a first-pass effect. Diclofenac is rapidly metabolised (hydroxylation and conjugation) and has a plasma half-life of 1.5 h. The metabolites are excreted renally and via the bile. 

The diverse effects of somatostatin, such as inhibition of cell proliferation and hormone release, led to the suggestion that it could be used for the treatment of various diseases. However, its short plasma half-life (less than 3 min) and its relative low receptor subtype... 

Methadone is a p receptor agonist with special properties that make it particularly useful as a maintenance agent. Rehably absorbed orally, it does not reach peak concentration until about 4 hours after administration and maintains a large extravascular reservoir (Kreek 1979). These properties minimize acute euphoric effects. The reservoir results in a plasma half-life of 1—2 days, so there are usually no rapid blood level drops that could lead to withdrawal syndromes between daily doses. Effective blood levels are in the range of 200-500 ng/mL. Trough levels of 400 ng/mL are considered optimal (Payte and Khouri 1993). There is wide variability among individuals in blood levels with identical doses (Kreek 1979), and some have inadequate levels even with doses as high as 200 mg/day (Tennant 1987 Tenore 2003). 

Figure 15.5 Sammon map with SVM classification of drugs based on their volume of distribution (a) and plasma half-life (b) [95].

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