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2.
Ann Clin Biochem ; 34 ( Pt 5): 460-510, 1997 Sep.
Article in English | MEDLINE | ID: mdl-9293303

ABSTRACT

Requirements for the provision of an efficient and reliable service for drugs of abuse screening in urine have been summarized in Part I of this review. The requirements included rapid turn-around times, good communications between requesting clinicians and the laboratory, and participation in quality assessment schemes. In addition, the need for checking/confirmation of positive results obtained for preliminary screening methods was stressed. This aspect of the service has assumed even greater importance with widespread use of dip-stick technology and the increasing number of reasons for which drug screening is performed. Many of these additional uses of drug screening have possible serious legal implications, for example, screening school pupils, professional footballers, parents involved in child custody cases, persons applying for renewal of a driving licence after disqualification for a drug-related offence, doctors seeking re-registration after removal for drug abuse, and checking for compliance with terms of probation orders; as well as pre-employment screening and work-place testing. In many cases these requests will be received from a general practitioner or drug clinic with no indication of the reason for which testing has been requested. This also raises the serious problems of a chain of custody, provision of two samples, stability of samples, and secure and lengthy storage of samples in the laboratory-samples may be requested by legal authorities several months after the initial testing. The need for confirmation of positive results is now widely accepted but it may be equally important to confirm unexpected negative results. Failure to detect the presence of maintenance drugs may lead to the patient being discharged from a drug treatment clinic and, if attendance at the clinic is one of the terms of continued employment, to dismissal. It seems likely that increasing abuse of drugs and the efforts of regulatory authorities to control this, will lead to the manufacture of more designer drugs. Production of substituted phenethylamines was facilitated by the drug makers' cook book, 'PIHKAL' (Phenethylamines I Have Known And Loved) by Dr Alexander Shulgin and Ann Shulgin, and production of substituted tryptamines is promised in their next book, TIHKAL. Looking to the future, laboratories will need to ensure that they can detect and quantitate an ever-increasing number of drugs and related substances. The question of confidence in results of drugs of abuse testing raised in 1993 by Watson has assumed even greater importance as a result of attention focused on the OJ Simpson trial in Los Angeles. Toxicological investigations are likely to be challenged more frequently in the future. Even if analyses have been performed by GC-MS, there is a need to establish the level of match between the spectrum of the unknown substance and a library spectrum which is considered acceptable for legal purposes. It will also be essential to ensure that computer libraries contain spectra for all substances likely to be encountered in drugs of abuse screening.


Subject(s)
Barbiturates/urine , Buprenorphine/urine , Cannabinoids/urine , Lysergic Acid Diethylamide/urine , Substance Abuse Detection/methods , Benzodiazepines/blood , Benzodiazepines/urine , Buprenorphine/blood , Cyclizine/analysis , Dextropropoxyphene/analysis , Drug Combinations , Fentanyl/urine , Humans , Ketamine/blood , Ketamine/urine , Methadone/analogs & derivatives , Methadone/analysis , Methadone/blood , Methadone/urine , Pentazocine/analysis
4.
Ann Clin Biochem ; 32 ( Pt 2): 123-53, 1995 Mar.
Article in English | MEDLINE | ID: mdl-7785941

ABSTRACT

(1) In order to provide an efficient and reliable service for drugs of abuse screening in urine, the laboratory should analyse 20-30 samples per week, and the staff should include a scientist with special expertise in the subject. (2) Turnaround times should be between 2-3 days of sample collection. To achieve this aim it may be necessary to make special arrangements for the delivery of samples to the laboratory. Results should preferably be transmitted by electronic mail or facsimile with the necessary precautions for security and confidentiality: hardcopy reports may also be required. (3) Good communications between the requesting clinician and the laboratory are essential. An advisory service should be provided by the laboratory and clinicians should be encouraged to discuss requests and results with laboratory staff. It is important that the laboratory inform doctors of the range of substances detected and the sensitivity and specificity of laboratory assays. (4) Assays should be performed according to the manufacturer's protocols, or by modified methods that have been rigorously validated. Quality control samples should be included in each analytical run and participation in an external quality assessment scheme, e.g. UKNEQAS, is essential to provide independent confirmation and confidence that results compare with those from other laboratories. Other requirements include adequate training and supervision of staff, and careful recording of samples and results. (5) Drugs to be tested will depend on the drug 'scene' in the area but should include those drugs regularly prescribed for maintenance therapy (e.g. methadone, dihydrocodeine, benzodiazepines), and drugs frequently misused (e.g. heroin, buprenorphine, amphetamines, cocaine). (6) Positive results obtained by preliminary screening methods e.g. EMIT, should be confirmed by another analytical technique, e.g. TLC, GC or GC-MS. If there are potentially serious or legal implications, and in employment and preemployment testing, confirmation of positive results is mandatory. In some cases, e.g. checking for methadone or benzodiazepine compliance, it may be considered unnecessary to confirm positive results although possible spiking of samples cannot be excluded without checking for the presence of metabolites by a chromatographic procedure.


Subject(s)
Amphetamines , Cocaine , Narcotics , Substance Abuse Detection , Humans , Substance-Related Disorders/urine
7.
Chirality ; 3(1): 14-8, 1991.
Article in English | MEDLINE | ID: mdl-2039678

ABSTRACT

1. A single oral dose (50 mg) of quinidine significantly increased the debrisoquine metabolic ratio in six healthy volunteers. For four of the volunteers the metabolic ratio changed to that typical of the poor metaboliser (PM) phenotype. 2. The effect of quinidine in producing debrisoquine oxidation "poor metaboliser" phenocopies persisted for at least 3 days but had disappeared by 1 week. 3. The debrisoquine metabolic ratios for the same six subjects were not significantly altered by the oral administration of quinine (200 or 400 mg), the diastereoisomer of quinidine. 4. The plasma pharmacokinetic parameters of both nortriptyline and desipramine in healthy volunteers were all changed to those more typical of the debrisoquine PM phenotype following the concomitant administration of quinidine (50 mg). 5. It is concluded that quinidine, but not its diastereoisomer quinine, is a potent selective inhibitor of the in vivo oxidation of debrisoquine and can produce an artifactual PM phenocopy in persons who are phenotypically extensive metaboliser (EM) phenotype status. The clinical implications of this observation are discussed.


Subject(s)
Debrisoquin/metabolism , Desipramine/blood , Nortriptyline/blood , Quinidine/pharmacology , Quinine/pharmacology , Adult , Debrisoquin/urine , Female , Humans , Male , Metabolic Clearance Rate , Molecular Structure , Phenotype , Reference Values , Stereoisomerism
8.
Ann Clin Biochem ; 27 ( Pt 5): 473-7, 1990 Sep.
Article in English | MEDLINE | ID: mdl-2281927

ABSTRACT

A gas chromatographic method is presented to measure blood, serum or plasma concentrations of more than 40 basic drugs. The sensitivity is 0.05 mg/L or less, which represents medium-high therapeutic and overdose concentrations, and in many instances the major active metabolites are also quantified. The paper describes a single step extraction from basic solution into n-butyl acetate containing maprotiline internal standard. Disposable glass tubes are used, with direct chromatography of the upper organic layer. GLC analysis is conducted for 10 min isothermally on a packed column (3% SP2250) with nitrogen-phosphorus detection. The coefficient of variation (CV) of the assay is between 2% and 5%, and data on the reproducibility of retention times are presented.


Subject(s)
Forensic Medicine/methods , Poisoning/blood , Toxicology/methods , Calibration , Chromatography, Gas , Humans , Reproducibility of Results , Time Factors
9.
Ann Clin Biochem ; 27 ( Pt 5): 478-81, 1990 Sep.
Article in English | MEDLINE | ID: mdl-2281928

ABSTRACT

A gas chromatographic method is presented to measure cocaine in serum, plasma or blood. To reduce the in-vitro chemical and enzymic hydrolysis of cocaine, samples should be collected into fluoride oxalate tubes, frozen immediately and stored at -20 degrees C until analysis. Extractions are carried out in disposable glass tubes immersed in an ice-bath. The method uses a single step extraction from a mildly basic solution into n-butyl acetate containing maprotiline internal standard. A portion of the upper organic layer is chromatographed for 5 min isothermally on a packed column (3% SP2250) with nitrogen-phosphorus detection. The coefficient of variation (CV) of the assay is below 6% at 0.1 mg/L and the limit of accurate measurement is 0.02 mg/L. A case of acute cocaine intoxication is described to illustrate the application of the method.


Subject(s)
Cocaine/blood , Adult , Calibration , Chromatography, Gas , Cocaine/poisoning , Drug Overdose/blood , Humans , Male , Maprotiline , Plasma/chemistry
10.
Hum Toxicol ; 8(5): 389-92, 1989 Sep.
Article in English | MEDLINE | ID: mdl-2680899

ABSTRACT

1. Two fatal cases of deliberate self-poisoning with lignocaine are reported, one by oral ingestion and one by intravenous injection. Post-mortem blood lignocaine concentrations were 40 and 53 mg/l, respectively. 2. Lignocaine self-poisoning is rare since no formulations for oral use other than gels are available. However, serious toxicity can follow the oral application or ingestion of such gels, especially in children and in the elderly. Fatalities due to accidental oral overdosage with 10-25 g of lignocaine in adults have also been reported. 3. The frequent incidental occurrence of lignocaine in specimens submitted for toxicological analysis should not exclude the possibility of poisoning with this compound.


Subject(s)
Lidocaine/poisoning , Administration, Oral , Adult , Female , Humans , Injections, Intravenous , Male , Middle Aged , Suicide
11.
Ann Clin Biochem ; 25 ( Pt 6): 708-9, 1988 Nov.
Article in English | MEDLINE | ID: mdl-3254114
12.
13.
Hum Toxicol ; 7(5): 489-502, 1988 Sep.
Article in English | MEDLINE | ID: mdl-3056846

ABSTRACT

1. Major advances in analytical toxicology followed the introduction of spectroscopic and chromatographic techniques in the 1940s and early 1950s and thin layer chromatography remains important together with some spectrophotometric and other tests. However, gas- and high performance-liquid chromatography together with a variety of immunoassay techniques are now widely used. 2. The scope and complexity of forensic and clinical toxicology continues to increase, although the compounds for which emergency analyses are needed to guide therapy are few. Exclusion of the presence of hypnotic drugs can be important in suspected 'brain death' cases. 3. Screening for drugs of abuse has assumed greater importance not only for the management of the habituated patient, but also in 'pre-employment' and 'employment' screening. The detection of illicit drug administration in sport is also an area of increasing importance. 4. In industrial toxicology, the range of compounds for which blood or urine measurements (so called 'biological monitoring') can indicate the degree of exposure is increasing. The monitoring of environmental contaminants (lead, chlorinated pesticides) in biological samples has also proved valuable. 5. In the near future a consensus as to the units of measurement to be used is urgently required and more emphasis will be placed on interpretation, especially as regards possible behavioural effects of drugs or other poisons. Despite many advances in analytical techniques there remains a need for reliable, simple tests to detect poisons for use in smaller hospital and other laboratories.


Subject(s)
Toxicology/methods , Doping in Sports , Drug Evaluation, Preclinical , Environmental Exposure , Forecasting , Forensic Medicine , Humans , Illicit Drugs
15.
Lancet ; 1(8542): 1127-9, 1987 May 16.
Article in English | MEDLINE | ID: mdl-2883452

ABSTRACT

The standardisation of units for drug concentration measurement in clinical medicine is an urgent necessity. The obvious choice is mass units based on the litre. A change to molar units for drug concentrations would make no sense unless drugs were also prescribed in moles, which would cause disruption and inconvenience. There would be considerable danger to patients and the change would be expensive. Most importantly, molar units for drugs will not benefit doctors or their patients. Mass units should be retained and proposals for the adoption of molar units should be abandoned.


Subject(s)
Pharmaceutical Preparations/analysis , Weights and Measures , Humans , Pharmaceutical Preparations/administration & dosage
16.
Hum Toxicol ; 5(1): 11-4, 1986 Jan.
Article in English | MEDLINE | ID: mdl-3949363

ABSTRACT

Although it is many years since a haemodialysis and haemoperfusion over uncoated and later coated charcoal columns have been used for the treatment of intoxicated patients, the clinical efficacy of these extracorporeal techniques in the treatment of severely poisoned patients remains a matter of debate. Some of the reasons for this controversy may be the indiscriminate use of haemoperfusion in any form of intoxication, the lack of well-controlled studies and the wrong interpretation of the high haemoperfusion clearance values sometimes obtained. Simple pharmacokinetic principles are applied to this type of treatment and some practical guidelines as to how and when haemoperfusion should be applied or presented are reviewed. The limited place of haemoperfusion in the treatment of severe poisoning, its further declining use in the future, at least in its present design, and some promising new treatments are emphasized.


Subject(s)
Hemoperfusion/methods , Poisoning/therapy , Forecasting , Hemoperfusion/trends , Humans , Models, Biological , Poisoning/blood , Poisoning/etiology , Renal Dialysis/methods , Renal Dialysis/trends
18.
Lancet ; 1(8376): 561, 1984 Mar 10.
Article in English | MEDLINE | ID: mdl-6142269
20.
Br Med J (Clin Res Ed) ; 287(6393): 688, 1983 Sep 03.
Article in English | MEDLINE | ID: mdl-6411281
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