Evaluation of resources for analyzing drug interactions

Patel, Risha I., Beckett, Robert D.

10 1900

Objective: The research sought to evaluate seven drug information resources, specifically designed for analyzing drug interactions for scope, completeness, and ease of use, and determine the consistency of content among the seven resources. Methods: A cross-sectional study was conducted where 100 drug-drug and drug-dietary supplement interactions were analyzed using 7 drug information resources: Lexicomp Interactions module, Micromedex Drug Interactions, Clinical Pharmacology Drug Interaction Report, Facts & Comparisons eAnswers, Stockley's Drug Interactions (10th edition), Drug Interactions Analysis and Management (2014), and Drug Interaction Facts (2015). The interaction sample was developed based on published resources and peer input. Two independent reviewers gathered data for each interaction from each of the 7 resources using a common form. Results: Eighty-two drug-drug and 18 drug-dietary supplement interactions were analyzed. Scope scores were higher for Lexicomp Interactions (97.0%), Clinical Pharmacology Drug Interaction Report (97.0%), and Micromedex Drug Interactions (93.0%) compared to all other resources (p<0.05 for each comparison). Overall completeness scores were higher for Micromedex Drug Interactions (median 5, interquartile range [IQR] 4 to 5) compared to all other resources (p<0.01 for each comparison) and were higher for Lexicomp Interactions (median 4, IQR 4 to 5), Facts & Comparisons eAnswers (median 4, IQR 4 to 5), and Drug Interaction Facts (4, IQR 4 to 5) compared to all other resources, except Micromedex (p<0.05 for each comparison). Ease of use, in terms of time to locate information and time to gather information, was similar among resources. Consistency score was higher for Micromedex (69.9%) compared to all other resources (p<0.05 for each comparison). Conclusions: Clinical Pharmacology Drug Interaction Report, Lexicomp Interactions, and Micromedex Drug Interactions scored highest in scope. Micromedex Drug Interactions and Lexicomp Interactions scored highest in completeness. Consistency scores were overall low, but Micromedex Drug Interactions was the highest.

Drug-Drug Interactions

Drug-Dietary Supplement Interactions

Pharmacy

Differences in Attitudes of Public School Students Toward Selected Drugs and the Relationship Between these Attitudes and Drug Knowledge

Brown, Jim Mack, 1940-

08 1900

The problem was to identify the differences in attitudes of public school students at various educational levels toward selected drugs, and to determine the relationship between those attitudes and students' knowledge of drugs.

teenage drug use

public schools

Drug abuse.

Youth -- Drug use.

THE SLC22 TRANSPORTER FAMILY: NOVEL INSIGHTS TO ROLES IN DRUG EFFICACY, DRUG-DRUG INTERACTIONS AND MOOD DISORDERS

Pan, Xiaolei

01 January 2015

Numerous studies have demonstrated the impact of organic cation (OCTs; SLC22 family) and anion transporters (OATs; SLC22 family) on the efficacy and safety of clinically important therapeutics. To be specific, OCTs and OATs have been identified as determinants for uptake into and secretion from enterocytes, hepatocytes and renal proximal tubular cells, and are frequent sites of drug-drug interaction (DDI). In addition, OCTs expressed in brain are components of the low-affinity, high capacity clearance pathway (uptake-2) for biogenic monoamine neurotransmitters. As a result, OCTs may represent novel targets for mood disorders. The inhibitory effects of several therapeutic agents, designed drugs and novel compounds were assessed on the function of OCTs/Octs and OATs/Oats. Among these compounds, the anthraquinone rhein showed significant inhibition on hOATs. While the antituberculosis drug ethambutol, the herbal products matrine and oxymatrine, synthetic cathinones, and all quinazoline and guanidine compounds produced significant inhibition on hOCT activity with most IC50 values in the micro- and even nanomolar ranges. Considering the clinically relevant unbound concentrations in biofluids, significant DDI potentials were found for rhein, ethambutol, matrine, oxymatrine and several synthetic cathinones affecting enterocytes, hepatocytes and/or proximal tubules. As hOCT2 and hOCT3 may participate in modulating neurotransmitter homeostasis in the CNS, these findings also suggested that the CNS pharmacological effects of synthetic cathinones, quinazoline and guanidine compounds might be due to their inhibitory effects on OCTs; although their impact may be limited solely to clearance of these compounds. Based upon their in vitro OCT/Oct inhibition profiles, three lead quinazoline and guanidine compounds were chosen for in vivo studies. Potent antidepressant-like effects of one lead hOCT-interacting compound (KEO-099) were re-confirmed in the tail suspension test. While in vivo results of the two newly identified hOCT-interacting lead compounds were somewhat less clear. Finally, homology modeling and docking studies for hOCT3 identified key amino acid residues that might be involved in interaction between hOCT3 and small molecules. Subsequent experiments confirmed a competitive mode of interaction between MPP+ and lead compounds on hOCT3. Thus, preliminary analysis indicates our hOCT3 homology model can be used to support rational drug design and high-throughput screening of novel hOCT substrates/inhibitors.

SLC22 transporter

drug-drug interaction

mood disorder

Pharmaceutics and Drug Design

Experimental studies on the ecology and evolution of drug-resistant malaria parasites

Huijben, Silvie

January 2010

Drug resistance is a serious problem in health care in general, and in malaria treatment in particular, rendering many of our previously considered ‘wonder drugs’ useless. Recently, large sums of money have been allocated for the continuous development of new drugs to replace the failing ones. We seem to be one step behind the evolution of antimalarial resistance; is it possible to get one step ahead? Are interventions which slow down the evolution and spread of drug-resistant malaria parasites achievable? In this thesis, I address these issues with experimental data, using the well-established rodent malaria model Plasmodium chabaudi to understand the selective advantages and disadvantages drug-resistant parasites endure within a vertebrate host and the selective pressures various drug treatment regimes exert on these parasites. Competitive interactions between drug-resistant and drug-sensitive parasites were observed within the host, with resistant parasites having a competitive disadvantage in the absence of drug treatment. The frequency of resistant parasites at the start of the infection was an important determinant of the strength of selection: the lower their frequency, the stronger the competitive suppression in non-treated hosts and the greater their competitive release following drug treatment. Genetically similar genotypes, one resistant and one sensitive, showed similar dynamics following drug treatment. Multiplicity of infection did not have an effect on the within-host dynamics: a larger number of co-infecting susceptible genotypes did not lead to greater competitive suppression or release of resistant parasites. Lastly, various drug treatment regimes were compared. Conventional drug treatment resulted in the greatest selective advantage for drug-resistant parasites, while less aggressive treatments were equally as effective, or even better, at improving host health and reducing overall infectiousness. These studies demonstrate that altering the within-host ecology of drug-resistant parasites by administering drugs and hence removing the drug-sensitive competitors has a large influence on the transmission potential of drug-resistant parasites. Furthermore, this thesis provides proof of principle that other drug treatment regimes different from those currently in use could better control drug-resistant parasites, without compromising other treatment goals. In the case of malaria, less drugs may mean extending the useful lifespan of that drug.

616.9883

Investigation of a Metabolic Pathway Leading to an Idiosyncratic Drug Reaction: Is the Sulfate of 12-Hydroxynevirapine Responsible for the Skin Rash in Brown Norway rats?

Novalen, Maria

13 January 2011

An animal model of nevirapine (NVP)-induced skin rash was used to test the hypothesis that sulfonation of 12-OH NVP, a metabolite of NVP proven essential for rash development, is the link between 12-OH NVP and the skin rash. Female Brown Norway (BN) rats were co-treated with NVP or 12-OH NVP and sulfation inhibitors dehydroepiandrosterone (DHEA) and salicylamide. Co-treatment with salicylamide markedly decreased formation of the sulfate conjugate but did not prevent development of the rash suggesting that the sulfate is not involved. However, it is not known whether the sulfate formation in the skin was affected. Co-treatments with DHEA decreased the sulfate formation and prevented the rash but also had other effects on NVP metabolism. This implies that the sulfate metabolite is responsible for the rash. Additional studies will be required to resolve these conflicting results.

nevirapine

drug metabolism

adverse drug reactions

idiosyncratic drug reactions

0383

Investigation of a Metabolic Pathway Leading to an Idiosyncratic Drug Reaction: Is the Sulfate of 12-Hydroxynevirapine Responsible for the Skin Rash in Brown Norway rats?

Novalen, Maria

13 January 2011

An animal model of nevirapine (NVP)-induced skin rash was used to test the hypothesis that sulfonation of 12-OH NVP, a metabolite of NVP proven essential for rash development, is the link between 12-OH NVP and the skin rash. Female Brown Norway (BN) rats were co-treated with NVP or 12-OH NVP and sulfation inhibitors dehydroepiandrosterone (DHEA) and salicylamide. Co-treatment with salicylamide markedly decreased formation of the sulfate conjugate but did not prevent development of the rash suggesting that the sulfate is not involved. However, it is not known whether the sulfate formation in the skin was affected. Co-treatments with DHEA decreased the sulfate formation and prevented the rash but also had other effects on NVP metabolism. This implies that the sulfate metabolite is responsible for the rash. Additional studies will be required to resolve these conflicting results.

nevirapine

drug metabolism

adverse drug reactions

idiosyncratic drug reactions

0383

Crime associated with the sugars drug in Durban.

Govender, L. M.

January 2008

Thesis (MTech. in Policing) / The sugars drug has affected Indian communities in KwaZulu Natal, and has resulted in the collapse and disintegration of socio economic conditions. There has also been a rise in crime. This research outlines the findings of questionnaires given to residents of communities, drug users and drug rehabilitees. It aims to provide recommendations to curb the sugars problem, and see a decrease in crime with regards to sugars.

Drug couriers.

Drug traffic.

An assessment of adolescents' perceptions of and attitudes toward police instructors in school-based drug prevention programs

Hammond, Augustine.

January 2005

Dissertation (Ph. D.)--University of Akron, Dept. of Urban Studies and Public Affairs, 2005. / "August, 2005." Title from electronic dissertation title page (viewed 01/15/2006) Advisor, Sonia Alemagno; Committee members, Peter Leahy, Lucinda Deason, Dennis Keating, Jesse Marquette, Zili Sloboda; Department Chair, Raymond Cox III; Dean of the College, Charles Monroe; Dean of the Graduate School, George R. Newkome. Includes bibliographical references.

Drug use, mental health and encounters with the legal system in Missoula County

Cumley, Samantha Renee.

January 2007

Thesis (M.A.)--University of Montana, 2007. / Title from title screen. Description based on contents viewed July 18, 2007. Includes bibliographical references (p. 25-29).

Extensively drug-resistant tuberculosis in Africa: prevalence and factors associated: a systematic review and meta-analysis

Kosmas, Petrus Ndiiluka

16 March 2020

Background: There is a dearth of information regarding prevalence of extensively drugresistant tuberculosis (XDR-TB) in Africa. Although countries in Africa conduct national tuberculosis surveys on a regular basis, this information has not been systematically reviewed to ascertain the overall prevalence of XDR-TB in Africa. Methods: The study aimed to perform a systematic review and meta-analysis of the prevalence and factors associated with prevalence of pulmonary XDR-TB among adults in Africa. Eligible studies, published between 2006 and 2018, were sourced from various electronic databases including PubMed, Scopus, and Web of Science. Meta-analysis was performed using STATA (version 14.2) statistical software. The protocol of this review was registered with PROSPERO, reg No CRD42018117037. Result: A total of 6242 records were retrieved. Forty-eight studies were screened for eligibility and seven, which varied in terms of country setting and study design, were included. The prevalence of XDR-TB is 4% (95%CI 2-7) among participants tested for second-line anti-TB drug resistance, and 3% (95%1-6) among participants with drug resistant TB. The prevalence of XDR-TB was 7% (95%CI 1-18) among participants with MDR-TB. A few studies reported on the factors associated with the prevalence of XDR-TB. Discussion: The reported prevalence of XDR-TB among participants tested for second-line anti-TB drug resistance is low compared to WHO estimates. The systematic review underscores a dearth of studies depicting the reality regarding the prevalence of XDR-TB in Africa. Policymakers and stakeholders interested in drug-resistant TB should apply prudence when considering XDR-TB prevalence reported for Africa.

prevalence

tuberculosis

extensively drug-resistant tuberculosis

drug resistance

drug susceptibil