Drug metabolism lidocaine

Drugs metabolized by CYP that interact with cimetidine include, but are not limited to, the following lidocaine, quinidine, midazolam, triazolam, nifedipine, verapamil, and fentanyl (4). In each instance, inhibition of CYP by cimetidine results in reduced metabolic clearance and increases in serum concentrations of the other drug, which can lead to the expected toxicity and adverse experiences characteristic of the other drug. 

SCHEME 11.13 Ethylmorphine exemplifies drugs metabolized by N-dealkylation other drugs similarly metabolized include lidocaine, aminopyrine, acetophenetedine, and 6 - me thy 1 thio p Lir ine. 

Patients with liver disease have an increased susceptibility to certain drugs due to decreased hepatic clearance for drugs metabolized by the liver or due to enhanced sensitivity. For example, impaired hepatic metabolism can precipitate central nervous system (CNS) toxicity in patients on theophylline, phenytoin, or lidocaine or ergot poisoning on ergotamine. ... 

A recent study has employed deuterium labeling to show that the mechanism for the oxidative N-demethylation of nicotine may involve two modes of breakdown for a proposed carbinolamine intermediate, dealkylation with formaldehyde formation and dehydration to an iminium ion.72 The formation of such an sp2-hybrid intermediate may help to explain why both a primary and substantial / -secondary deuterium isotope effect were observed for the N-deethylation of the antiarrhythmic agent, lidocaine.73 In contrast, only a primary isotope effect was observed on the rate of oxidative O-deethylation of deuterated analogs of the analgesic, phenacetin. 77 These results indicate differences in the mechanism of oxidative 0- and N-dealkylation. A final example of the use of secondary deuterium isotope effects in studying enzymes involved in drug metabolism revealed an SN-2-like transition state for the transfer of a methyl group catalyzed by catechol-O-methyl transferase.73... 

The liver is the most important site of presystemic elimination because of high levels of drug-metabolizing enzymes, its ability to rapidly metabolize different types of drugs, and its unique anatomical location. The following are selected examples of drugs that are subject to considerable hepatic first-pass metabolism the 3-blockers propranolol and metoprolol the analgesics propoxyphene, meperidine, and pentazocine the antidepressants imipramine and nortriptyline and the antiarrhythmic lidocaine. 

Jindal SP, Lutz T (1986) Ion cluster techniques in drug metabolism use of labelled and unlabelled cocaine to facilitate metabolite identification. J Anal Toxicol 10 150-155 Jindal SP, Lutz T, Vestergaard P (1979) Gas-liquid chromatographic-mass spectrometric determination of lidocaine in an illicit sample of cocaine. J Chromatogr 179 357-360 Keller WJ, Zelenski SG (1978) Alkaloids from Lupinus argenteus var. stenophyllus. J Pharm Sci 67 430-431... 

Chemicals that are metabolized rapidly by the liver cannot be given for systemic effect by the enteral route because the portal circulation carries them directly to the liver. For example, lidocaine, a drug of value in controlling cardiac arrhythmias, is absorbed well from the gut, but is completely inactivated in a single passage through the liver. 

Y. Azuma, K. Ohura (2004). Immunological modulation by lidocaine-epinephrine and prilocaine-felypressin on the functions related to natural immunity in neutrophils and macrophages. Curr. Drug Targ. Immune, Endocr. Metabol. Disord. 4 29-36. 

It is a cleavage of drug molecule by taking up a molecule of water. The most hydrolytic enzymes are found outside the endoplasmic reticulum, and in higher concentrations in liver, kidney and plasma. The metabolism of an ester by an enzyme esterase results in the formation of an acid and alcohol. The examples are meperidine, procaina-mide, pethidine and lidocaine etc. Meperidine is catalyzed by esterases to be changed into meperidinic acid and procainamide is catalyzed by amidases. 

Omeprazole can inhibit the metabolism of drugs metabolised mainly by the cytochrome P-450 enzyme subfamily 2C (diazepam, phenytoin), but not of those metabolished by subfamilies lA (caffeine, theophylline), 2D (metoprolol, propranolol), and 3A (ciclosporin, lidocaine (lignocaine), quinidine). Since relatively few drugs are metabolised mainly by 2C compared with 2D and 3A, the potential for omeprazole to interfere with the metabolism of other drugs appears to be limited, but the half lives of diazepam and phenytoin are prolonged as much as by cimetidine. 

Lopinavir/Ritonavir (Kaletra) [Anrirelroviral/Protease Inhibitor] Uses HIV Infxn Action Protease inhibitor Dose Adults. Tx naive 2 tab PO daily or 1 tab PO bid Tx experiencedpt 1 tab PO bid (T dose if w/ amprenavir, efavirenz, fosamprenavir, nelfinavir, nevirapine) Peds. 7-15 kg 12/3 mg/kg PO bid 15-40 kg 10/2.5 mg/kg PO bid >40 kg Adult dose w/ food Caution [C, /-] Numerous interactions Contra w/drugs dependent on CYP3A/CYP2D6 (Table VI-8) Disp Tab, soln SE Avoid disulfiram (soln has EtOH), metronidazole GI upset, asthenia, T cholesterol/triglycerides, pancreatitis protease metabolic synd Interactions T Effects Wl clarithromycin, erythromycin T effects OF amiodarone, amprenavir, azole andfungals, bepridil, cisapride, cyclosporine, CCBs, ergot alkaloids, flecainide, flurazepam, HMG-CoA reductase inhibitors, indinavir, lidocaine, meperidine, midazolam, pimozide, propafenone, propoxyphene, quinidine, rifabutin, saquinavir, sildenafil, tacrolimus, terfenadine, triazolam, zolpidem 1 effects Wl barbiturates, carbamazepine, dexamethasone, didanosine, efavirenz, nevirapine, phenytoin, rifabutin, rifampin, St. John s wort 1 effects OF OCPs, warfarin EMS Use andarrhythmics and benzodiazepines... 

If a drug undergoes an extensive first-pass metabolism (e.g., morphine, metoclopramide, ergotamine, or lidocaine), rectal administration may produce an even higher plasma level. The prolonged rectal administration of multiple drugs may produce local irritation or even rectal ulceration. 

The cardiac arrhythmias are life-threatening, so the patient must be closely monitored, with facilities available for possible resuscitation. Drugs such as quinidine and procainamide are contraindicated, but lidocaine, propranolol, or phenytoin has been used safely and effectively. The arterial blood gas levels, pH, and electrolyte concentrations should be monitored so that metabolic acidosis or hypokalemia can be identified that would further aggravate the arrhythmias. Electrical pacing may be required if the antiarrhythmic drugs fail. Hyperpyrexia is treated by cooling. Seizures may be managed by intravenous doses of diazepam. 

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