about
Enhanced stability and permeation potential of nanoemulsion containing sefsol-218 oil for topical delivery of amphotericin B.Nanoemulsion gel-based topical delivery of an antifungal drug: in vitro activity and in vivo evaluation.Fabrication of lipidic nanocarriers of loratadine for facilitated intestinal permeation using multivariate design approach.Experimental design-based optimization of lipid nanocarrier as delivery system against Mycobacterium species: in vitro and in vivo evaluation.New insights into the diagnosis and chemotheraphy for visceral leishmaniasis.Biological voyage of solid lipid nanoparticles: a proficient carrier in nanomedicine.LC-ESI-MS/MS analysis of quercetin in rat plasma after oral administration of biodegradable nanoparticles.Development and characterization of a lovastatin-loaded self-microemulsifying drug delivery system.In vitro and in vivo evaluation of gastro-retentive carvedilol loaded chitosan beads using Gastroplus™.In silico-in vitro-in vivo studies of experimentally designed carvedilol loaded silk fibroin-casein nanoparticles using physiological based pharmacokinetic model.Evidences for anti-mycobacterium activities of lipids and surfactants.Optimized permeation enhancer for topical delivery of 5-fluorouracil-loaded elastic liposome using Design Expert: part IIFormulation by design of felodipine loaded liquid and solid self nanoemulsifying drug delivery systems using Box-Behnken designLC-ESI-MS/MS estimation of loratadine-loaded self-nanoemulsifying drug delivery systems in rat plasma: Pharmacokinetic evaluation and computer simulations by GastroPlus™Studies on Core-Shell Nanocapsules of Felodipine: In Vitro-In Vivo EvaluationsPreparation, Characterization and Biological Applications of Biosynthesized Silver Nanoparticles with Chitosan-Fucoidan CoatingIn vivo in silico pharmacokinetic simulation studies of carvedilol-loaded nanocapsules using GastroPlusNovel Approach for Transdermal Delivery of Rifampicin to Induce Synergistic Antimycobacterial Effects Against Cutaneous and Systemic Tuberculosis Using a Cationic Nanoemulsion GelMorphological transitions of Bacillus subtilis in the presence of food-grade lipidic nanoemulsionsRecent advances in liposomal drug delivery system of Quercetin for cancer targeting: A mechanistic approachSolidified SNEDDS for the oral delivery of rifampicin: Evaluation, proof of concept, in vivo kinetics, and in silico GastroPlusTM simulation
P50
Q35127147-4EC7C571-79B6-480B-9739-D4B2B47953F6Q35205294-D9F96B79-D25C-4FF0-8D4A-F17CA78E8C34Q35667693-2ACB5EEB-BDEA-42B6-8D75-B7D7CF9F8631Q36092898-B0A18746-6041-4745-8613-4F6E4071D29BQ38137207-23306EF1-E007-4AA9-9D61-88897B2B9165Q38558905-828FB60F-71DE-43B8-B6B3-25429DB6B5C6Q40940792-A1F688E6-3E81-4708-AAAE-6971088D7D73Q43269122-07232E33-067A-4522-B530-5BE72AEA306EQ50707192-B9CC7B72-17C9-4EFE-8EDA-8F9A859A1193Q50990989-CD71E424-3A6B-4A7D-9BD3-7F020E9C433EQ52666672-CB7E5CB2-1283-4F1F-9331-DB3FD5F51242Q86962035-9091FC22-A465-4CA2-914D-BFCACBED4842Q87136383-12955297-6500-44A3-9B57-24E7C332B8E8Q87384235-F11DE52E-89C2-4BB6-859E-A574AE318EA4Q87869945-557F0511-2D8F-45E2-8356-C26F9BAA4294Q89081657-A504D7B6-2ED9-4828-A570-12223C133148Q89179136-F95E5AF3-717B-41F6-AB96-505CA4C1D92AQ89907345-8A54BFEB-736C-4D86-A3FB-E09889A14CA2Q90140854-B98565D8-8912-4552-8E20-08512317C8FCQ91955097-7FDD8FB0-D54D-419C-9013-7EF172ADADC8Q92317113-9CC0A938-379F-45BF-BD88-3F8E06CAF477
P50
description
researcher (ORCID 0000-0001-5702-4554)
@en
name
Sandeep Kumar Singh
@en
type
label
Sandeep Kumar Singh
@en
prefLabel
Sandeep Kumar Singh
@en
P31
P496
0000-0001-5702-4554