Chlorpromazine chemical structure
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Thorazine

Chlorpromazine was the first antipsychotic drug, used during the 1950s and 1960s. Used as chlorpromazine hydrochloride and sold under the tradenames Largactil® and Thorazine®, it has sedative, hypotensive and antiemetic properties as well as anticholinergic and antidopaminergic effects. It has also anxiolytic (alleviation of anxiety) properties. Today, chlorpromazine is considered a typical antipsychotic. more...

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Chemistry

Chlorpromazine is derived from phenothiazine, its chemical name is 2-chloro-10- phenothiazine monohydrochloride and its molecular formula is C17H19ClN2S•HCl. Chlorpromazine has an aliphatic side chain, typical for low to middle potency neuroleptics. The oral bioavailability is estimated to be 30% to 50% due to extensive first pass metabolization in the liver. Its elemination-halflife is 16 to 30 hours. It has many active metabolites (approx. 75 different ones) with greatly varying halflives and own pharmacological profiles. The CYP-450 isoenzymes 1A2 and 2D6 are needed for metabolization of chlorpromazine and the subtype 2D6 is inhibited by chlorpromazine (NB: possible interactions with other drugs).

Mechanism of action

Central

Chlorpromazine acts as an antagonist (blocking agent) on different postsysnaptic receptors -on dopaminergic-receptors (subtypes D1, D2, D3 and D4 - different antipsychotic properties on productive and unproductive symptoms), on serotonergic-receptors (5-HT1 and 5-HT2, with anxiolytic, antidepressive and antiaggressive properties as well as an attenuation of extrapypramidal side-effects, but also leading to weight gain, fall in blood pressure, sedation and ejaculation difficulties), on histaminergic-receptors (H1-receptors, sedation, antiemesis, vertigo, fall in blood pressure and weight gain), alpha1/alpha2-receptors (antisympathomimetic properties, lowering of blood pressure, reflex tachycardia, vertigo, sedation, hypersalivation and incontinence as well as sexual dysfunction, but may also attenuate pseudoparkinsonism - controversial) and finally on muscarinic (cholinergic) M1/M2-receptors (causing anticholinergic symptoms like dry mouth, blurred vision, obstipation, difficulty/inability to urinate, sinus tachycardia, ECG-changes and loss of memory, but the anticholinergic action may attenuate extrapyramidal side-effects).

Additionally, Chlorpromazine is a weak presynaptic inhibitor of Dopamine reuptake, which may lead to (mild) antidepressive and antiparkinsonian effects. This action could also account for psychomotor agitation and amplification of psychosis (very rarely noted in clinical use).

Peripheral

Antagonist to H1-receptors (antiallergic effects), H2-recptors (reduction of forming of gastric juice), M1/M2-receptors (dry mouth, reduction in forming of gastric juice) and some 5-HT receptors (different antiallergic/gastrointestinal actions).

Because it acts on so many receptors, chlorpromazine is often referred to as 'dirty drug', whereas the atypical neuroleptic amisulpride e.g. acts only on central D2/D3-receptors and is therefore a 'clean drug'. This distinction expresses no valuation of the drugs.

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3 days of Cipro better than amoxicillin-clavulanate for uncomplicated UTI
From Journal of Family Practice, 5/1/05 by T.M. Hooton

Hooton TM, Scholes D, Gupta K, Stapleton AE, Roberts PL, Stature WE. Amoxicillin-clavulanate vs ciprofloxacin for the treatment of uncomplicated cystitis in women. A randomized trial JAMA 2005; 293:949-955.

* Clinical Question

Are amoxicillin-clavulanate (Augmentin) and ciprofloxacin (Cipro) equivalent as a 3-day treatment for uncomplicated cystitis in women?

* Bottom Line

Three days of ciprofloxacin is superior to 3 days of amoxicillin-clavulanate in the treatment of uncomplicated cystitis in women. In areas where resistance is not yet a significant problem, clinicians should still use a less expensive option as a first-line agent. (LOE=lb-)

Study Design Randomized controlled trial (single-blinded)

Allocation Uncertain

Setting Outpatient (primary care)

Synopsis

The investigators identified 370 women, aged 18 to 45 years, with symptoms of acute uncomplicated cystitis and a positive urine culture for at least 100 colony-forming units of uropathogens per mL. Subjects were randomized (uncertain allocation concealment) to receive 3 days of amoxicillin-clavulanate 500 mg/125 mg twice daily, or ciprofloxacin 250 mg twice daily. Follow-up was available for 98% of the women at 4 months. The authors do not state whether individuals assessing outcomes were blinded to treatment group assignment.

Using intention-to-treat analysis, a clinical cure--defined as the absence of persistent or recurrent symptoms--occurred in 77% of women treated with ciprofloxacin vs 58% of women treated with amoxicillin-clavulanate (number needed to treat=5; 95% confidence interval, 4-12). Microbiological cure, defined as no uropathogens on a follow-up urine culture, was also more common in women treated with ciprofloxacin. Amoxicillin-clavulanate was still less effective than ciprofloxacin even when the cystitis was due to bacterial pathogens sensitive to both drugs.

DRUG BRAND NAMES

Amoxicillin-clavulanate * Augmentin Carbamazepine * Tegretol Chlorpromazine * Thorazine Ciprofloxacin * Cipro Citalopram * Celexa Donepezil * Aricept Galantamine * Reminyl Haloperidol * Haldol Levofloxacin * Levaquin Memantine * Namenda Olanzapine * Zyprexa Risperidone * Risperdal Rivastigmine * Exelon Thioridazine * Mellaril Thiothixene * Navane Valproate * Depakote

COPYRIGHT 2005 Dowden Health Media, Inc.
COPYRIGHT 2005 Gale Group

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