Sedative, opioid

Dextromethorphan (Mediquell, Benylin DM, PediaCare 1, Delsym, Others) [OTC] [Antitussive] Uses Control nonproductive cough Action Suppresses medullary cough center Dose Adults. 10-30 mg PO q4h PRN (max 120 mg/24 h) Peds. 2-6 y 2.5-7.5 mg q4-8h (max 30 mg/24 h) 7-12 y 5-10 mg q4-8h (max 60 mg/24/h) Caution [C, /-] Not for persistent or chronic cough Contra < 2 y. Disp Caps, lozenges, syrup, Liq SE GI disturbances Interactions T Effects W/ amiodarone, fluoxetine, quinidine, terbinafme T risk of serotonin synd Wf sibutramine, MAOIs T CNS depression Wf antihistamines, antidepressants, sedative, opioids, EtOH EMS Will not affect cough caused by asthma,... 

Sedatives, opioids and ethanol cause signs that may include respiratory depression, miosis, hypo-reflexia, coma, hypotension and hypothermia. 

The treatment of this condition has proved to be difficult and is usually accomplished with antidepressant medications. However, anticonvulsants, antispasticity, anxiolytics, sedatives, opioids, and N SAIDS have been used as well. The most effective results have been seen with antidepressants and specifically TCAs. 

Angst MS, Chu LF, Tingle MS, Shafer SL, Clark JD, Drover DR. No evidence for the development of acute tolerance to analgesic, respiratory depressant and sedative opioid effects in humans. Pain 2009 142(1) 17-26. 

The CCK system shares one property with the opioid system, ie, the existence of selective nonpeptide antagonists. These include aspedicine, a natural benzodiazepine (136), and Devazepide (L-364,718 MK-329) (137). Selective, potent peptide antagonists for CCK, eg, Cl-988 and PD 134308, have been developed that maybe useful as anxiolytics and as dmgs which increase the analgesic effect of morphine but at the same time prevent morphine tolerance (138) (see Hypnotics, sedatives, anticonvulsants, and anxiolytics). 

Glassification of Substance-Related Disorders. The DSM-IV classification system (1) divides substance-related disorders into two categories (/) substance use disorders, ie, abuse and dependence and (2) substance-induced disorders, intoxication, withdrawal, delirium, persisting dementia, persisting amnestic disorder, psychotic disorder, mood disorder, anxiety disorder, sexual dysfunction, and sleep disorder. The different classes of substances addressed herein are alcohol, amphetamines, caffeine, caimabis, cocaine, hallucinogens, inhalants, nicotine, opioids, phencyclidine, sedatives, hypnotics or anxiolytics, polysubstance, and others. On the basis of their significant socioeconomic impact, alcohol, nicotine, cocaine, and opioids have been selected for discussion herein. 

See Hormones, brain peptides Hypnotics, sedatives, and anticonvulsants Neuroregudators Opioids, endogenous. 

At present, no diugs exist that can selectively activate a2-receptor subtypes. Clonidine stimulates all three a2-subtypes with similar potency. Clonidine lowers blood pressure in patients with hypertension and it decreases sympathetic overactivity during opioid withdrawal. In intensive and postoperative care, clonidine is a potent sedative and analgesic and can prevent postoperative shivering. Clonidine and its derivative brimonidine lower... 

CYP3A4, may contribute to methadone metabolism. Even with adequate methadone plasma levels, some patients continue to abuse drugs, such as sedatives, possibly because they are seeking some form of intoxication rather than relief of opioid hunger (Bell et al. 1990). Relapse to illicit drug use is also common during periods of high stress, even in patients with adequate plasma levels. 

Comparable findings for lifetime prevalence of psychiatric disorders were obtained in another study of 133 persons, which also found that 47% received a concurrent DSM-III diagnosis of substance abuse or dependence (Khantzian and Treece 1985). The most frequently abused substances were sedative-hypnotics (23%), alcohol (14%), and cannabis (13%). Similar rates of psychiatric disorders were found in other studies of drug abusers (Mirin et al. 1986 Woody et al. 1983). Although such diagnoses do not imply causality, and, in many cases, opioid dependence causes or exacerbates psychiatric problems, some causal link seems likely (Regier et al. 1990). 

Benzodiazepines and similar agents occupy a position of intermediate abuse potential, compared with most other sedative-hypnotics (Griffiths and Weerts 1997). Animal models of abuse habihty indicate that the reinforcing effects of benzodiazepines are less pronounced than are those of the barbiturates, opioids, and stimulants. Differences in abuse potential within the class have not been consistently demonstrated however, most chnicians agree that benzodiazepines with a rapid onset and short duration of action pose the greatest risk in susceptible individuals. 

Sporadic use (e.g., for the induction of sleep after a psychostimulant binge) does not require specific detoxification. Sustained use can be treated as described in the previous sections on detoxification from therapeutic or high dosages but with added caution. In mixed opioid and benzodiazepine abuse, the patient should be stabilized with methadone (some clinicians use other oral preparations of opioids) and a benzodiazepine. Buprenorphine should not be administered with benzodiazepines, because a pharmacodynamic interaction is possible (Ibrahim et al. 2000 Kilicarslan and Sellers 2000) and fatalities have been reported with the combination (Reynaud et al. 1998). Sedative-hypnotic withdrawal is the more medically serious procedure, and we usually... 

Information about prescription drag use alcohol or other substance use family medical history and history of trauma, depression, or head injury should be obtained. It is important to rule out medication use as a contributor or cause of symptoms (e.g., anticholinergics, sedatives, hypnotics, opioids, antipsychotics, and anticonvulsants) as contributors to dementia symptoms. Other medications may contribute to delirium, e.g.,... 

Opioid A recent study has shown activity of hypericum extracts at opioid receptors (Simmen et al. 1998). Extracts displace naloxone from p and x opioid receptors in the micromolar range (IC50 25 and 90 pg/ml, respectively). In contrast, extracts of the sedative herb Valeriana officinalis do not have this effect. This effect is due to unidentified constituents and not by the flavonoids quercetin or kaemferol. Opioids are known to have effects on emotion, so it is conceivable that activity of hypericum at p and k receptors contributes to its therapeutic effects (Gerra et al. 1998 Tejedor-Real et al. 1995 Walker and Zacny 1998). Although they are not conventional treatment for depression, opioids such as buprenorphine have been effective in treatment of refractory depression (Bodkin et a. 1995). However, for any further conclusions to be drawn, it would be necessary to further e uddate the opioid effects of hypericum to determine what functional effect, if any, hypericum has on the receptors. 

Morphine generally has sedative effects, reducing overall activity. But local injections into dopaminergic systems can increase locomotor activity, and daily administration can also sensitize one to the locomotor effect (Kalivas and Duffy 1987). High does of opioids create muscle rigidity and catalepsy. 

Naloxone (Narcan). Naloxone, like naltrexone, is a potent opioid receptor blocker. Its primary use has been to reverse opiate toxicity after an overdose. However, some physicians have found it is also useful for a process known as rapid opiate detoxification. Although opiate withdrawal is not life threatening, it can be extremely unpleasant. Most opiate addicts are fearful of the withdrawal symptoms therefore, it usually requires a slow, deliberate detoxification to keep the withdrawal symptoms in check. Rapid opiate detoxification is an alternative approach that keeps the taper and detoxification as brief as possible. In this approach, naloxone is used in conjunction with general anesthesia or a nonopiate sedative such as the benzodiazepine mid-... 

The synthesis of these compounds will be described in Section 3.1, Opioid analgesics. Besides opioids, benzodiazepines (diazepam, lorazepam, and midazolam), which have anxiolytic, sedative, and anticonvulsant effects, that cause amnesia and muscle relaxation, are frequently used to relieve patients anxiety during anesthesia. 

Take care to use low initial doses of CR tablets in patients who are not already opioid tolerant, especially those who are receiving concurrent treatment with muscle relaxants, sedatives, or other CNS-active medications. 

Alkaloids such as boldine, codeine, narceine and morphine are active factors in their receptors. Boldine has morphine-like properties and is active on opioid receptors. It may be used to treat stomach disorders and as metabolic stimulant. As it is similar to morphine, boldine can also be considered in the possible development of treatments for narcotic dependence. Codeine also binds to opiate receptors, and specifically functions to reduce bronchial secretions. Codeine can also be used as a cough suppressant when acting on the centre of the medulla oblongata and as a sedative agent. 

Pain Action Unknown but may stimulate opioid sites, sedation and analgesia Dose Adults. Self administered inhalation (generally 25-50% w/ oxygen) until pain relief or pt drops mask/falls asleep Peds. Same as adult (onset w/in 2-5 min) Caution [ , ] Do not use after full meal Contra EtOH intox AMS following head injury COPD, thoracic trauma Disp Supplied in blue cylinders SE N/V, Light-headedness, AMS and hallucinations Interactions T CNS depression Wf opiates, EtOH, sedatives EMS Do not strap mask to pt s face, allow pt to hold the mask to their face dosing is self-limiting when pt drops mask d/t CNS depression typically used for bums and fractures... 

Flurazepam (Dalmane) [C-IV] [Sedative/Hypnotic/ Benzodiazepine] Uses Insomnia Action Benzodiazepine Dose Adults Beds >15 y. 15-30 mg PO qhs PRN X in elderly Caution [X, /-] Elderly, low albumin, hepatic impair Contra NAG PRG Disp Caps SE Hangover d/t accumulation of metabolites, apnea, anaphylaxis, angioedema, amnesia Interactions T CNS depression W/ antidepressants, antihistamines, opioids, EtOH T effects OF digoxin, phenytoin T effects W/ cimetidine, disulfiram, fluoxetine, iso-niazid, ketoconazole, metoprolol, OCPs, propranolol, SSRIs, valproic acid. 

Quazepam (Doral) [C IV] [Sedative/Hypnotic/ Benzodiazepine] Uses Insomnia Action Benzodiazepine Dose 7.5-15 mg PO hs PRN i in elderly hqjatic failure Caution [X, /-] NA glaucoma Contra PRG, sleep apnea Disp Tabs SE Sedation, hangovCT, somnolence, resp depression Interactions T Effects W/ azole antifungals, cimetidine, digoxin, disulfiram, INH, levodopa, macrolides, neuroleptics, phenytoin, quinolones, SSRIs, verapamil, grapefruit juice, EtOH effects W/carbamazepine, rifampin, rifabutin, tobacco EMS Use caution w/ other benzodiazepines, antihistamines, opioids and verapamil, can T CNS depression concurrent EtOH and grapefruit juice use T CNS depression OD May cause profound CNS depression, confusion, bradycardia, hypotension, and altered reflexes flumazenil can be used as antidote activated charcoal may be effective... 

---