Browsing by Subject "Clinical Trials, Phase I as Topic"
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Item Open Access An update on the progress of galidesivir (BCX4430), a broad-spectrum antiviral.(Antiviral research, 2021-09-20) Julander, Justin G; Demarest, James F; Taylor, Ray; Gowen, Brian B; Walling, Dennis M; Mathis, Amanda; Babu, YSGalidesivir (BCX4430) is an adenosine nucleoside analog that is broadly active in cell culture against several RNA viruses of various families. This activity has also been shown in animal models of viral disease associated with Ebola, Marburg, yellow fever, Zika, and Rift Valley fever viruses. In many cases, the compound is more efficacious in animal models than cell culture activity would predict. Based on favorable data from in vivo animal studies, galidesivir has recently undergone evaluation in several phase I clinical trials, including against severe acute respiratory syndrome coronavirus 2, and as a medical countermeasure for the treatment of Marburg virus disease.Item Open Access Andexanet alfa for the reversal of Factor Xa inhibitor related anticoagulation(Expert review of hematology, 2016-01) Ghadimi, K; Welsby, IJ; Levy, JH; Dombrowski, KEAndexanet alfa is a specific reversal agent for Factor Xa inhibitors. The molecule is a recombinant protein analog of factor Xa that binds to Factor Xa inhibitors and antithrombin:LMWH complex but does not trigger prothrombotic activity. In ex vivo, animal, and volunteer human studies, andexanet alfa (AnXa) was able to dose-dependently reverse Factor Xa inhibition and restore thrombin generation for the duration of drug administration. Further trials are underway to examine its safety and efficacy in the population of patients experiencing FXa inhibitor-related bleeding.Item Open Access Evaluation and recommendations on good clinical laboratory practice guidelines for phase I-III clinical trials.(PLoS Med, 2009-05-26) Sarzotti-Kelsoe, Marcella; Cox, Josephine; Cleland, Naana; Denny, Thomas; Hural, John; Needham, Leila; Ozaki, Daniel; Rodriguez-Chavez, Isaac R; Stevens, Gwynneth; Stiles, Timothy; Tarragona-Fiol, Tony; Simkins, AnitaItem Open Access Longitudinal Impact of Acute Spinal Cord Injury on Clinical Pharmacokinetics of Riluzole, a Potential Neuroprotective Agent.(Journal of clinical pharmacology, 2021-09) Nguyen, Ashley; Chow, Diana S-L; Wu, Lei; Teng, Yang Angela; Sarkar, Mahua; Toups, Elizabeth G; Harrop, James S; Schmitt, Karl M; Johnson, Michele M; Guest, James D; Aarabi, Bizhan; Shaffrey, Christopher I; Boakye, Maxwell; Frankowski, Ralph F; Fehlings, Michael G; Grossman, Robert GRiluzole, a benzothiazole sodium channel blocker that received US Food and Drug Administration approval to attenuate neurodegeneration in amyotrophic lateral sclerosis in 1995, was found to be safe and potentially efficacious in a spinal cord injury (SCI) population, as evident in a phase I clinical trial. The acute and progressive nature of traumatic SCI and the complexity of secondary injury processes can alter the pharmacokinetics of therapeutics. A 1-compartment with first-order elimination population pharmacokinetic model for riluzole incorporating time-dependent clearance and volume of distribution was developed from combined data of the phase 1 and the ongoing phase 2/3 trials. This change in therapeutic exposure may lead to a biased estimate of the exposure-response relationship when evaluating therapeutic effects. With the developed model, a rational, optimal dosing scheme can be designed with time-dependent modification that preserves the required therapeutic exposure of riluzole.Item Open Access Microdosing and drug development: past, present and future.(Expert Opin Drug Metab Toxicol, 2013-07) Lappin, Graham; Noveck, Robert; Burt, TalINTRODUCTION: Microdosing is an approach to early drug development where exploratory pharmacokinetic data are acquired in humans using inherently safe sub-pharmacologic doses of drug. The first publication of microdose data was 10 years ago and this review comprehensively explores the microdose concept from conception, over the past decade, up until the current date. AREAS COVERED: The authors define and distinguish the concept of microdosing from similar approaches. The authors review the ability of microdosing to provide exploratory pharmacokinetics (concentration-time data) but exclude microdosing using positron emission tomography. The article provides a comprehensive review of data within the peer-reviewed literature as well as the latest applications and a look into the future, towards where microdosing may be headed. EXPERT OPINION: Evidence so far suggests that microdosing may be a better predictive tool of human pharmacokinetics than alternative methods and combination with physiologically based modelling may lead to much more reliable predictions in the future. The concept has also been applied to drug-drug interactions, polymorphism and assessing drug concentrations over time at its site of action. Microdosing may yet have more to offer in unanticipated directions and provide benefits that have not been fully realised to date.