- Development of an in vitro method to study vaginal arteries using myography
Morton, J.S; Daly, C.J; McGrath, J.C and Jackson, V.M
- Development of an in vitro tumour model to evaluate drug efficacy and epidermal mesenchymal transition in triple negative breast cancer
T. Azimi1, M. Dwek2. 1Biomedical science, university of Westminster, London, United Kingdom, 2Biomedical science, New Cavendish Street, London, United Kingdom
- Development of a novel assay for the human transient receptor potential channel TRPC6
Parmjit Bahra; Su Li; Chris Poll; John Westwick; Martin Gosling
- Development of a novel fluorescent ligand binding assay for the long chain fatty acid receptor FFA1
Watson SJ, Brown A, Holliday N
- Development of a novel TR-FRET-based competition kinetic binding assay to assess the kinetics of unlabeled adenosine A2a receptor ligands
S Chitlangia, J Resendedealmeida, N Groenewoud, S Briddon, M Arruda, S Charlton, D Sykes
- Development of a patient information leaflet for use following assessment of all patients with reported or suspected paracetamol overdose.
DM Wood, J Barrett, WL Chan, JRH Archer, PI Dargan
- Development of a PKPD model of dual-therapy for gout to assess the impact of medication adherence on treatment success
D Hill-McManus, E Soto, S Marshall, S Lane, D Hughes
- Development of a population-based ADME simulation to assess variability in raltegravir pharmacokinetics
Moss D, Siccardi M, Back D, Owen A
- Development of a receptor-based assay for the detection of cyclic imines using Luminex technology
Rodriguez LP, Vilarino N, Crespo A, Bueno C, Molgo J, Araoz R, Botana LM
- Development of a SF-7 AM based fluorescence assay for detection of Hydrogen Sulphide in the Porcine Heart
Y. Y. AL-TAIE, R. E. Roberts, M. J. Garle, S. P. Alexander. School of Life Sciences/ Cardiovascular Research Group, School of Life Sciences/ Medical School, Nottingham, United Kingdom
