Sedatives overdose

Narcotic or sedative overdose Brain stem or cervical cord injury Guillain-Barre syndrome Myasthenia gravis Status epilepticus Mechanical ventilator Ventilator malfunction... 

Should ipecac be administered to a patient with a sedative overdose ... 

The short-acting clomethia2ole [533-45-9] (1), sometimes used as therapy for sleep disorders ia older patients, shares with barbiturates a risk of overdose and dependence. Antihistamines, such as hydroxy2iae [68-88-2] (2), are also sometimes used as mild sedatives (see HiSTAMlNES AND HISTAMINE antagonists). Antidepressants and antipsychotics which have sedative effects are used to treat insomnia when the sleep disorder is a symptom of some underlyiag psychiatric disorder. 

Pharmacodynamic tolerance to the psychomotor effects of benzodiazepines has been demonstrated after single or multiple doses (File 1985 Greenblatt and Shader 1978 Rosenberg and Chiu 1985). Pharmacodynamic tolerance to the anxiolytic effect (over a 6-month period) has not been demonstrated (Rickels et al. 1983), and clinical experience supports the view that many patients with anxiety disorders require long-term therapy with benzodiazepines or alternative antianxiety agents. An important clinical consequence of tolerance to sedative effects is observed in benzodiazepine overdoses, when patients may initially be... 

Patients with the lethargy pattern of PCP toxicity may be clinically indistinguishable from patient with mild sedative/hypnotic intoxication, although hypertension and grand mal seizures which may occur with PCP intoxication, are not expected with sedative/ hypnotic overdose. The remaining minor patterns are differentiated as follows. 

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-... 

Forced diuresis is occasionally useful. It may cause volume overload or electrolyte disturbances. Forced diuresis is useful for phenobarbital, bromides, lithium, salicylate, or amphetamines overdoses. Do not use for tricyclic antidepressants, sedative-hypnotics, or highly protein-bound medications. The most common agents employed are furosemide and osmotic diuretics with mannitol. 

Flumazenil is a benzodiazepine antagonist and is used to accelerate the recovery from the sedative actions of benzodiazepines in overdosed patients or af-... 

Toxic effects, such as seizures and arrhythmias, of other drugs taken in overdose, especially tricyclic antidepressants, may emerge with reversal of sedative effect of benzodiazepines,... 

Benzodiazepines are remarkably safe in overdose. Dangerous effects occur when the overdose includes several sedative drugs, especially alcohol, because of synergistic effects at the chloride ion site and resultant membrane hyperpolarization. 

Anxiolytics and Sedative-Hypnotics. Because of their large therapeutic index, measurement of anxiolytic or sedative-hypnotic serum concentrations is not usually necessary in clinical practice, unless abuse, overdose, or inadvertent toxicity are suspected. Some data indicate that plasma alprazolam levels of 40 ng/mL may be required to manage panic disorder ( 51) (see the sections Adverse Effects of Anxiolytics and Adverse Effects of Sedative-Hypnotics in Chapter 12). 

The benzodiazepines (BZDs), which were introduced nearly 40 years ago, were hailed as a breakthrough because they have fewer of the drawbacks of prior anxiolytics and sedative-hypnotics, are effective in a range of disorders, and are safe in combination with most drugs (except other sedatives), as well as alone in overdose, and are generally mild in terms of side effects. For these reasons, BZDs quickly became, and remain, among the most widely prescribed drugs worldwide. 

Solanine hydrochloride has been used as a commercial pesticide. It has sedative and anticonvulsant properties, and has sometimes been used for the treatment of asthma, as well as for cough and common cold. However, gastrointestinal and neurological disorders result from solanine poisoning. Symptoms include nausea, diarrhoea, vomiting, stomach cramps, burning of the throat, headaches and dizziness. Other adverse reactions, in more severe cases, include hallucinations, loss of sensation, paralysis, fever, jaundice, dilated pupils and hypothermia. Solanine overdose can be fatal. 

At hypnotic doses in healthy patients, the effects of sedative-hypnotics on respiration are comparable to changes during natural sleep. However, even at therapeutic doses, sedative-hypnotics can produce significant respiratory depression in patients with pulmonary disease. Effects on respiration are dose-related, and depression of the medullary respiratory center is the usual cause of death due to overdose of sedative-hypnotics. 

Nontolerant individuals who consume alcohol in large quantities develop typical effects of acute sedative-hypnotic drug overdose along with the cardiovascular effects previously described (vasodilation, tachycardia) and gastrointestinal irritation. Since tolerance is not absolute, even chronic alcoholics may become severely intoxicated if sufficient alcohol is consumed. 

An understanding of common mechanisms of death due to poisoning can help prepare the care-giver to treat patients effectively. Many toxins depress the central nervous system (CNS), resulting in obtundation or coma. Comatose patients frequently lose their airway protective reflexes and their respiratory drive. Thus, they may die as a result of airway obstruction by the flaccid tongue, aspiration of gastric contents into the tracheobronchial tree, or respiratory arrest. These are the most common causes of death due to overdoses of narcotics and sedative-hypnotic drugs (eg, barbiturates and alcohol). 

Patients with ethanol or sedative-hypnotic overdose may be euphoric and rowdy ("drunk") or in a state of stupor or coma ("dead drunk"). Comatose patients often have depressed respiratory drive. Depression of protective airway reflexes may result in aspiration of gastric contents. Hypothermia may be present because of environmental exposure and depressed shivering. Ethanol blood levels greater than 300 mg/dL usually cause deep coma, but regular users are often tolerant to the effects of ethanol and may be ambulatory despite even higher levels. Patients with GHB overdose are often deeply comatose for 3-4 hours and then awaken fully in a matter of minutes. 

Salvia leaf is physically quite safe. It is very gentle on the body. No one has ever died from a salvia overdose. Salvia is not a stimulant, it is not a sedative, it is not a narcotic, it is not a tranquilizer. Like many entheogens, it can induce visions, yet it is quite different from other entheogens. Dale Pendell, in his book... 

FIGURE 8-26. The benzodiazepine (BZ) receptor antagonist flumazanil is able to reverse a full agonist benzodiazepine acting at the benzodiazepine receptor of the GABA A receptor complex. This may be helpful in reversing the sedative effects of full agonist benzodiazepines when administered for aesthetic purposes or when taken in an overdose by a patient. 

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