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Drug Activity (drug + activity)
Selected AbstractsThe drug situation in Thailand: the role of government and the policeDRUG AND ALCOHOL REVIEW, Issue 1 2000Dr. SUTHAM CHEURPRAKOBKIT Abstract Thailand has long dealt with the drug problem and has used several strategies to control it, including promulgating and amending drug laws, implementing drug suppression and prevention policies, cooperating with international organizations and, more recently, developing treatment facilities. Although Thailand has recently received positive results regarding reducing the opium cultivation area in the Golden Triangle and in arresting some major drug-trafficking individuals, three important issues still remain: (1) the continuation of using Thailand's advanced transportation system for the movement of illicit drug activities, (2) the rapid increase of amphetamine use among teenagers and (3) the Thai police officers' lack of concern about the drug problem and insufficient knowledge about drug laws. The article concludes that the Thai government must emphasize drug prevention strategies and the interception of illicit transported drugs and motivate its police officers to more fully enforce drug laws. In addition, more research is needed to measure the effectiveness of the drug prevention strategies and treatment programs. [source] Rapid throughput screening of apparent KSP values for weakly basic drugs using 96-well formatJOURNAL OF PHARMACEUTICAL SCIENCES, Issue 6 2008Jeremy Guo Abstract A rapid-throughput screening assay was developed to estimate the salt solubility parameter, KSP, with a minimal quantity of drug. This assay allows for early evaluation of salt limited solubility with a large number of counter-ions and biologically promising drug leads. Drugs dissolved (typically 10 mM) in DMSO are robotically distributed to a 96-well plate. DMSO is evaporated, and drugs are equilibrated with various acids at different concentrations (typically <1 M) to yield final total drug concentrations around 2.5 mM. The plate is checked for precipitation. Filtrates from only those precipitated wells were subjected to rapid gradient HPLC analysis. An iterative procedure is employed to calculate all species concentrations based on mass and charge balance equations. The apparent KSP values assuming 1:1 stoichiometry are determined from counter-ion and ionized drug activities. A correlation coefficient >0.975 for eight drugs totaling 16 salts is reported. Intra-day and inter-day reproducibility was <10%. Conventional apparent KSP measurements were translated to 96-well format for increased throughput and minimal drug consumption (typically 10 mg) to evaluate at least eight different counter-ions. Although the current protocol estimates KSP from 10,3 to 10,7 M, the dynamic range of the assay could be expanded by adjusting drug and counter-ion concentrations. © 2007 Wiley-Liss, Inc. and the American Pharmacists Association J Pharm Sci 97:2079,2090, 2008 [source] Suppression of hepatitis C virus replication by protein kinase C-related kinase 2 inhibitors that block phosphorylation of viral RNA polymeraseJOURNAL OF VIRAL HEPATITIS, Issue 10 2009S.-J. Kim Summary., Hepatitis C virus (HCV) infection is a serious threat to human health worldwide. In spite of the continued search for specific and effective anti-HCV therapies, the rapid emergence of drug-resistance variants has been hampering the development of anti-HCV drugs designed to target viral enzymes. Targeting host factors has therefore emerged as an alternative strategy offering the potential to circumvent the ever-present complication of drug resistance. We previously identified protein kinase C-related kinase 2 (PRK2) as a cellular kinase that phosphorylates the HCV RNA-dependent RNA polymerase (RdRp). Here, we report the anti-HCV activity of HA1077, also known as fasudil, and Y27632, which blocks HCV RdRp phosphorylation by suppressing PRK2 activation. Treatment of a Huh7 cell line, stably expressing a genotype 1b HCV subgenomic replicon RNA, with 20 ,m each of HA1077 and Y27632 reduced the HCV RNA level by 55% and 30%, respectively. A combination of the inhibitors with 100 IU/mL interferon , (IFN-,) significantly potentiated the anti-HCV drug activities resulting in approximately a 2-log10 viral RNA reduction. We also found that IFN-, does not activate PRK2 as well as its upstream kinase PDK1 in HCV-replicating cells. Furthermore, treatment of HCV-infected cells with 20 ,m each of HA1077 and Y27632 reduced the levels of intracellular viral RNA by 70% and 92%, respectively. Taken together, the results identify PRK2 inhibitors as potential antiviral drugs that act by suppressing HCV replication via inhibition of viral RNA polymerase phosphorylation. [source] Pamidronate treatment of bone fibrous dysplasia in nine children with McCune-Albright syndromeACTA PAEDIATRICA, Issue 2 2000R Lala McCune-Albright syndrome is a rare genetic disorder consisting of skin and bone dysplasia and peripheral endocrinopathies. Little data have been collected regarding bisphosphonate treatment of bone fibrous dysplasia in paediatric patients with this syndrome. The aim of our study was to investigate the therapeutic efficacy of pamidronate in these patients. Nine patients with moderate to severe forms of bone fibrous dysplasia were treated with pamidronate intravenously (0.5-1 mg/ kg/daily for 2-3 d) at 0.5-1-y intervals. Patients were treated over a time period of 0.5-3.5 y. During treatment no spontaneous fracture occurred. Bone pain and gait abnormality due to pain disappeared after 2-3 therapeutic cycles. Cranial asymmetry and limb length discrepancy remained unchanged. Elevated serum alkaline phosphatase and urine hydroxyproline values were reduced by the treatment, demonstrating drug activity at the lesional level. The effectiveness of pamidronate was also seen at the non-lesional level through an increase in bone density. Radiographic and scintigraphic evidence of lesion healing was not attained. Pamidronate treatment can ameliorate the course of bone fibrous dysplasia in children and adolescents with McCune-Albright syndrome. [source] Cell microarray platform for anticancer drug development,DRUG DEVELOPMENT RESEARCH, Issue 5 2007Min-Jung Lee Abstract Pharmacodynamic assessment of whether a drug has interacted with and modified its target is an essential component of molecularly targeted clinical trials. Although many trials are written with the intent to assess tumor biopsies, if available, thus far the great majority of early drug trials have used peripheral blood mononuclear cells (PBMC) as a tumor surrogate. Typically, PBMC are studied by low-throughput techniques such as Western blot. We present the use of a cell-based tissue microarray for assessment of anticancer drug activity in vivo. We demonstrate the utility of this technique for analysis of protein hyperacetylation in response to treatment with the histone deacetylase inhibitor, SNDX-275 in PBMC treated in vitro and in PBMC and bone marrow aspirates from patients in Phase I clinical trials with SNDX-275. We demonstrate that the cell microarray can be used to measure drug response in a high-throughput manner, allowing analysis of an entire trial on one or two glass slides. The cell microarray technique brings the advantages of the tissue microarray platform to the pharmacodynamic assessment of single cells, such as those isolated from bone marrow aspirates, fine needle aspirates, or malignant effusions, and to analysis of PBMC, the most commonly studied surrogate in oncology trials. Drug Dev Res 68:226,234, 2007. Published 2007 Wiley-Liss, Inc. [source] Poly(glutamic acid) poly(ethylene glycol) hydrogels prepared by photoinduced polymerization: Synthesis, characterization, and preliminary release studies of protein drugsJOURNAL OF BIOMEDICAL MATERIALS RESEARCH, Issue 1 2002Zhiqiang Yang Abstract A class of new biodegradable hydrogels based on poly(ethylene glycol) methacrylate-graft-poly(glutamic acid) and poly(ethylene glycol) dimethacrylate was synthesized by photoinduced polymerization. Because all the polymeric constituents were highly hydrophilic, crosslinking could be performed in aqueous solutions. This type of crosslinked hydrogel was prepared by modifying a select number of acidic side-groups on poly(glutamic acid) with poly(ethylene glycol) methacrylate. These modified chains were then crosslinked in the presence of poly(ethylene glycol) dimethacrylate under a photoinduced polymerization at a wavelength of 365 nm. Swelling experiments were conducted to study the crosslinking density, pH-responsive behavior, and degradation of the hydrogel. Results showed that the degree of swelling of this type of hydrogels increased as the crosslinker concentration (or density) was reduced. Because of the presence of acidic side chains on poly(glutamic acid), swelling behavior was found to be pH-responsive, increasing at high pH in response to the increase in the amount of ionized acidic side chains. The degradation rate of these hydrogels also varied with pH. More rapid degradation was observed under stronger alkaline conditions because of the hydrolysis of the ester bonds between the crosslinker and the polymer backbone. Practically useful degradation rates could be achieved for such hydrogels under physiological conditions. Drug release rates from these hydrogels were found to be proportional to the protein molecular weight and the crosslinker density; increasing at lower protein molecular weight or crosslinker density. The preliminary findings presented in this article suggest that this class of biodegradable hydrogels could be an attractive avenue for drug delivery applications. The specific photoinduced crosslinking chemistry used would permit hydrogels to be synthesized in existence of the entrapped macromolecular drugs including peptides, proteins, and cells. In addition, the rapid feature of this polymerization procedure along with the ability to perform hydrogel synthesis and drug loading in an aqueous environment would offer great advantages in retaining drug activity during hydrogel synthesis. © 2002 Wiley Periodicals, Inc. J Biomed Mater Res 62: 14,21, 2002 [source] Unified QSAR & network-based computational chemistry approach to antimicrobials.JOURNAL OF COMPUTATIONAL CHEMISTRY, Issue 1 2010Abstract In the previous work, we reported a multitarget Quantitative Structure-Activity Relationship (mt-QSAR) model to predict drug activity against different fungal species. This mt-QSAR allowed us to construct a drug,drug multispecies Complex Network (msCN) to investigate drug,drug similarity (González-Díaz and Prado-Prado, J Comput Chem 2008, 29, 656). However, important methodological points remained unclear, such as follows: (1) the accuracy of the methods when applied to other problems; (2) the effect of the distance type used to construct the msCN; (3) how to perform the inverse procedure to study species,species similarity with multidrug resistance CNs (mdrCN); and (4) the implications and necessary steps to perform a substructural Triadic Census Analysis (TCA) of the msCN. To continue the present series with other important problem, we developed here a mt-QSAR model for more than 700 drugs tested in the literature against different parasites (predicting antiparasitic drugs). The data were processed by Linear Discriminate Analysis (LDA) and the model classifies correctly 93.62% (1160 out of 1239 cases) in training. The model validation was carried out by means of external predicting series; the model classified 573 out of 607, that is, 94.4% of cases. Next, we carried out the first comparative study of the topology of six different drug,drug msCNs based on six different distances such as Euclidean, Chebychev, Manhattan, etc. Furthermore, we compared the selected drug,drug msCN and species,species mdsCN with random networks. We also introduced here the inverse methodology to construct species,species msCN based on a mt-QSAR model. Last, we reported the first substructural analysis of drug,drug msCN using Triadic Census Analysis (TCA) algorithm. © 2009 Wiley Periodicals, Inc. J Comput Chem 2010 [source] Using the polymer partitioning method to probe the thermodynamic activity of poorly water-soluble drugs solubilized in model lipid digestion productsJOURNAL OF PHARMACEUTICAL SCIENCES, Issue 6 2003Ben J. Boyd Abstract The thermodynamic activity of solubilized drug is an important determinant of the extent of absorption of lipophilic drugs from the gastrointestinal tract. In this study, the polymer partitioning method was evaluated for its use in the determination of the thermodynamic activity of lipophilic drugs when solubilized in colloidal digestion products, using drug in dilute solution as a reference ideal solution. The lipophilic drugs griseofulvin, diazepam, and danazol partitioned into a polymeric receiver phase from non-micellar solution as a function of drug lipophilicity. The concentration of drug that partitioned into the polymer was linearly proportional to the concentration of free drug in solution, and this allowed the measured partition coefficient to be utilized as an indicator of the drug activity coefficient. The addition of a solubilizing species such as bile salt micelles caused a reduction in drug activity of a similar magnitude to that predicted from micelle equilibrium solubility data in the identical micellar solutions. The addition of micelle swelling lipids such as lecithin and fatty acids resulted in further reductions in activity coefficient. The ability to measure drug activity in model digestive systems has potential for application in the rational development of improved lipid-based formulations of poorly water-soluble drugs for oral administration. © 2003 Wiley-Liss, Inc. and the American Pharmaceutical Association J Pharm Sci 92:1262,1271, 2003 [source] Synthesis and characterization of core,shell-type polymeric micelles from diblock copolymers via reversible addition,fragmentation chain transferJOURNAL OF POLYMER SCIENCE (IN TWO SECTIONS), Issue 10 2006Ping Zhang Abstract A method was developed to enable the formation of nanoparticles by reversible addition,fragmentation chain transfer polymerization. The thermoresponsive behavior of polymeric micelles was modified by means of micellar inner cores and an outer shell. Polymeric micelles comprising AB block copolymers of poly(N -isopropylacrylamide) (PIPAAm) and poly(2-hydroxyethylacrylate) (PHEA) or polystyrene (PSt) were prepared. PIPAAm- b -PHEA and PIPAAm- b -PSt block copolymers formed a core,shell micellar structure after the dialysis of the block copolymer solutions in organic solvents against water at 20 °C. Upon heating above the lower critical solution temperature (LCST), PIPAAm- b -PHEA micelles exhibited an abrupt increase in polarity and an abrupt decrease in rigidity sensed by pyrene. In contrast, PIPAAm- b -PSt micelles maintained constant values with lower polarity and higher rigidity than those of PIPAAm- b -PHEA micelles over the temperature range of 20,40 °C. Structural deformations produced by the change in the outer polymer shell with temperature cycles through the LCST were proposed for the PHEA core, which possessed a lower glass-transition temperature (ca. 20 °C) than the LCST of the PIPAAm outer shell (ca. 32.5 °C), whereas the PSt core with a much higher glass-transition temperature (ca. 100 °C) retained its structure. The nature of the hydrophobic segments composing the micelle inner core offered an important control point for thermoresponsive drug release and the drug activity of the thermoresponsive polymeric micelles. © 2006 Wiley Periodicals, Inc. J Polym Sci Part A: Polym Chem 44: 3312,3320, 2006 [source] A pharmacodynamic assessment of the impact of antihypertensive non-adherence on blood pressure controlPHARMACOEPIDEMIOLOGY AND DRUG SAFETY, Issue 7 2000DrPh, Peter W. Choo MD Abstract Objectives To evaluate if antihypertensive regimens that conform to present FDA guidelines by maintaining ,,50% of their peak effect at the end of the dosing interval protect patients during sporadic lapses in adherence. Methods 169 patients on monotherapy for high blood pressure underwent electronic adherence monitoring for 3 months. Blood pressures were measured during non-study office visits and were retrieved from automated medical records. Questionnaires were used to obtain other covariate information. The ratio of the dosing interval to the half-life of drug activity (I,) was used to capture conformity with FDA guidelines. Data analysis focused on the interaction between I, and the impact on blood pressure of delayed dosing. Results The average (,±,standard deviation) blood pressure during the study was 139.0 (,±,12.0)/85.0 (,±,6.9) mm Hg. Lisinopril followed by sustained-release verapamil, atenolol, and hydrochlorothiazide were the most frequently prescribed agents. The majority of regimens (99%) conformed to FDA dosing guidelines. Of the patients 23% missed a dose before their blood pressure check. Non-adherence, however, did not have a direct impact on blood pressure, and no interaction with I, of was detected. Conclusions Among patients with relatively mild hypertension on single-drug therapy, regimens that conform to current FDA dosing guidelines may prevent losses of blood pressure control during episodic lapses of adherence. These findings should be replicated in other patient populations with standardized blood pressure measurement to confirm their validity. Copyright © 2000 John Wiley & Sons, Ltd. [source] Ef,ciency of antidepressant drugs as monoamine reuptake inhibitors: analysis of the hydrophobicity in,uence using biopartitioning micellar chromatographic dataBIOMEDICAL CHROMATOGRAPHY, Issue 7 2004C. Quiñones-Torrelo Abstract The reuptake blockade of biogenic amines by antidepressants is related not only to their therapeutics effects, but also to their side effects and potential drug,drug interactions. As an alternative to classical quantitative structure,activity relationships studies, in this work we propose different quantitative retention,activity relationships (QRAR) models that are able to describe the monoamine reuptake inhibition by antidepressants. The retention of compounds is measured using a biopartitioning micellar chromatography (BMC) system that can simulate the same hydrophobic, electronic and steric molecular interactions as those that condition drug activity. Since all the compounds considered in this work are structurally related because all of them share the same molecular features as the corresponding basic pharmacophore, the results obtained show that there is a retention range in which antidepressants present the highest monoamine reuptake inhibitor potency. Copyright © 2003 John Wiley & Sons, Ltd. [source] Metallotherapeutics: Novel Strategies in Drug DesignCHEMISTRY - A EUROPEAN JOURNAL, Issue 35 2009Lalintip Hocharoen Abstract A new paradigm for drug activity is presented, which includes both recognition and subsequent irreversible inactivation of therapeutic targets. Application to both RNA and protein biomolecules has been demonstrated. In contrast to RNA targets that are subject to strand scission chemistry mediated by ribose H-atom abstraction, proteins appear to be inactivated either through oxidative damage to amino acid side chains around the enzyme active site, or by backbone hydrolysis. [source] Using Space: Agency and Identity in a Public,Housing DevelopmentCITY & COMMUNITY, Issue 3 2002Kevin Fox Gotham Recent critiques of conventional poverty research have highlighted the need to move beyond the conceptual limitations of "neighborhood effects" models and the use of the tropes of "adaptation" or "resistance" to explain the behaviors and actions of the urban poor. We use ethnographic field observations and interviews with public,housing residents to address these limitations in the poverty literature, assess competing explanations of poor people's agency, and provide insight into the importance of space as a mediating link between macrostructural constraints and locally situated behaviors. We theorize agency and identity as spatial phenomena,with spatial attributes and spatial influences,and examine how different spatial meanings and locations enable or constrain particular forms of social action and behavior. Our ethnographic and interview data depict several strategies by which residents "use space" to provide a measure of security and protection, to designate and avoid areas of criminality and drug activity, and to challenge or support the redevelopment of public housing. From these data we show that urban space is not a residual phenomenon in which social action occurs, but a constitutive dimension of social life that shapes life experiences, social conflict, and action. [source] | ||||||||||||||||