Effects of surfaces and leachables on the stability of biopharmaceuticals.
about
Protein comparability assessments and potential applicability of high throughput biophysical methods and data visualization tools to compare physical stability profilesProtein quantity on the air-solid interface determines degradation rates of human growth hormone in lyophilized samples.Storage stability of keratinocyte growth factor-2 in lyophilized formulations: effects of formulation physical properties and protein fraction at the solid-air interface.Investigating Structure and Dynamics of Proteins in Amorphous Phases Using Neutron Scattering.Interfacial protein-protein associationsDetection and characterization of subvisible aggregates of monoclonal IgG in serumExtractables and leachables considerations for prefilled syringes.Influence of particle shedding from silicone tubing on antibody stability.Adsorption behavior of a human monoclonal antibody at hydrophilic and hydrophobic surfaces.Mechanisms of monoclonal antibody stabilization and release from silk biomaterials.Control of protein particle formation during ultrafiltration/diafiltration through interfacial protection.Factors affecting the physical stability (aggregation) of peptide therapeutics.Protein-protein interactions controlling interfacial aggregation of rhIL-1ra are not described by simple colloid models.Stabilization of a human recombinant factor VIII by poloxamer 188 in relation to polysorbate 80.Antibody adsorption on the surface of water studied by neutron reflection.Fully atomistic molecular-mechanical model of liquid alkane oils: Computational validation.
P2860
Q26998787-166A7532-B86E-4ACE-B4A1-3B5F06205C12Q30360134-67D10913-CF0B-425F-A210-905F5D1818F1Q30362843-91A44C05-B002-4204-B5C5-E774E03A73FBQ30398032-CB109456-AC9A-4DFB-A3D9-9A1C5B1947C2Q30565668-740F368E-1059-47A4-AA03-CC7D9E1B906CQ34216430-52B6A4D7-86DA-49BE-BC74-92B237891A4CQ38222479-7484C121-5B4C-45E8-B539-951A8F095A83Q39639332-4C0B93D2-8936-4225-84B9-7C13D085E8B7Q41931928-066B6BF2-E559-4F67-9952-D817582BCBBDQ42007640-A0F70587-ED8B-46DD-8D5D-D2C6781E7671Q42009419-99388BEB-1F76-48C4-B237-4E8777BD41DBQ46259884-BDA94CFE-07FC-4353-B3F4-7FAD6085AC1DQ47693273-A0DD2897-93C0-47FA-9EC3-3B32830F664AQ48158741-FD54E222-19F5-4B2B-9AE2-BCAE30FF9D35Q51082109-7FD4B1CA-5BBD-4D04-837F-44C1ED460EC0Q51110227-D756D506-9B2A-4417-9972-C98C1538FFBE
P2860
Effects of surfaces and leachables on the stability of biopharmaceuticals.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 26 April 2011
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@en
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@nl
type
label
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@en
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@nl
prefLabel
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@en
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@nl
P2093
P356
P1476
Effects of surfaces and leachables on the stability of biopharmaceuticals.
@en
P2093
Jared S Bee
John F Carpenter
Mariana N Dimitrova
Steven M Bishop
P304
P356
10.1002/JPS.22597
P407
P577
2011-04-26T00:00:00Z