Guidance on Drug and Substance Misuse in Mental Health Care Settings (PDF 954 KB)

Guidance on Drug and Substance Misuse in Mental Health Care Settings

Drug monographs on drugs which are frequently analysed in the context of Therapeutic Drug Monitoring = Arzneimittel-Monographien für Medikamente, die regelmässig im Rahmen des Therapeutic Drug Monitorings analysiert werden

In addition to the monographs which were published last year by the working group "Drug Monitoring" of the Swiss Society of Clinical Chemistry (SSCC) [1], new monographs have been written. The aim of these monographs is to give an overview of the most important information necessary for ordering a drug analysis or interpreting the results. Therefore, the targeted readers comprise laboratory health professionals and all receivers of laboratory reports. There is information provided on the indication for therapeutic drug monitoring, protein binding, metabolic pathways and enzymes involved, elimination half-life and elimination routes, and on therapeutic or toxic concentrations. Preanalytical considerations are of particular importance for therapeutic drug monitoring. Therefore, information is provided regarding a reasonable timing for the determination of drug concentrations as well as steady-state concentrations after changing the dose. Furthermore, the stability of the drug and its metabolite(s) after blood sampling is described. For readers with a specific interest in drug analysis, references to important publications are given. The number of monographs will be continuously enlarged. The updated files are presented on the homepage of the SSCC (www.sscc.ch).

Drug Problems - Can Substitute Prescribing Services Help You? Leaflet

Drug Problems - Can Substitute Prescribing Services Help You? Leaflet

Survey of Injecting Drug Users - 2002/2003 (PDF 152 KB)

Summary of the findings for 2002/03 from the five collaborating centres in NI

PAP1 [poly(A) polymerase 1] homozygosity and hyperadenylation are major determinants of increased mRNA stability of CDR1 in azole-resistant clinical isolates of Candida albicans.

Using genetically matched azole-susceptible (AS) and azole-resistant (AR) clinical isolates of Candida albicans, we recently demonstrated that CDR1 overexpression in AR isolates is due to its enhanced transcriptional activation and mRNA stability. This study examines the molecular mechanisms underlying enhanced CDR1 mRNA stability in AR isolates. Mapping of the 3' untranslated region (3' UTR) of CDR1 revealed that it was rich in adenylate/uridylate (AU) elements, possessed heterogeneous polyadenylation sites, and had putative consensus sequences for RNA-binding proteins. Swapping of heterologous and chimeric lacZ-CDR1 3' UTR transcriptional reporter fusion constructs did not alter the reporter activity in AS and AR isolates, indicating that cis-acting sequences within the CDR1 3' UTR itself are not sufficient to confer the observed differential mRNA decay. Interestingly, the poly(A) tail of the CDR1 mRNA of AR isolates was approximately 35-50 % hyperadenylated as compared with AS isolates. C. albicans poly(A) polymerase (PAP1), responsible for mRNA adenylation, resides on chromosome 5 in close proximity to the mating type-like (MTL) locus. Two different PAP1 alleles, PAP1-a/PAP1-alpha, were recovered from AS (MTL-a/MTL-alpha), while a single type of PAP1 allele (PAP1-alpha) was recovered from AR isolates (MTL-alpha/MTL-alpha). Among the heterozygous deletions of PAP1-a (Deltapap1-a/PAP1-alpha) and PAP1-alpha (PAP1-a/Deltapap1-alpha), only the former led to relatively enhanced drug resistance, to polyadenylation and to transcript stability of CDR1 in the AS isolate. This suggests a dominant negative role of PAP1-a in CDR1 transcript polyadenylation and stability. Taken together, our study provides the first evidence, to our knowledge, that loss of heterozygosity at the PAP1 locus is linked to hyperadenylation and subsequent increased stability of CDR1 transcripts, thus contributing to enhanced drug resistance.

Leishmania cysteine proteinases: from gene to subunit vaccine.

Whole genome sequences of microbial pathogens present new opportunities for clinical application. Presently, genome sequencing of the human protozoan parasite Leishmania major is in progress. The driving forces behind the genome project are to identify genes with key cellular functions and new drug targets, to increase knowledge on mechanisms of drug resistance and to favor technology transfer to scientists from endemic countries. Sequencing of the genome is also aimed at the identification of genes that are expressed in the infectious stages of the parasite and in particular in the intracellular form of the parasite. Several protective antigens of Leishmania have been identified. In addition to these antigens, lysosomal cysteine proteinases (CPs) have been characterized in different strains of Leishmania and Trypanosoma, as new target molecules. Recently, we have isolated and characterized Type I (CPB) and Type II (CPA) cysteine proteinase encoding genes from L. major. The exact function of cysteine proteinases of Leishmania is not completely understood, although there are a few reports describing their role as virulence factors. One specific feature of CPB in Leishmania and other trypanosomatids, is the presence of a Cterminal extension (CTE) which is possibly indicative of conserved structure and function. Recently, we demonstrated that DNA immunization of genetically susceptible BALB / c mice, using a cocktail of CPB and CPA genes, induced long lasting protection against L. major infection. This review intends to give an overview of the current knowledge on genetic vaccination used against leishmaniasis and the importance of CP genes for such an approach.

Survey of Injecting Drug Users - 2002 (PDF 165 KB)

Summary of the findings for 2002 from the five collaborating centres in NI

Drug and Alcohol Use Among Young People in NI (PDF 424 KB)

A Secondary Analysis of Drug and Alcohol Use Surveys - Final Report