P279
Hyaluronan (HA) interacting proteins RHAMM and hyaluronidase impact prostate cancer cell behavior and invadopodia formation in 3D HA-based hydrogelsCell-type specific four-component hydrogelInjectable polyethylene glycol-fibrinogen hydrogel adjuvant improves survival and differentiation of transplanted mesoangioblasts in acute and chronic skeletal-muscle degeneration.Hydrogel dressings for treating pressure ulcersHydrogel dressings for treating pressure ulcersHydrogel dressings for venous leg ulcersHydrogel dressings for healing diabetic foot ulcersHydrogel dressings for healing diabetic foot ulcersSilicone hydrogel contact lenses versus hydrogel daily wear contact lenses for the correction of simple refractive errorHydrogel dressings for healing diabetic foot ulcersSmall functional groups for controlled differentiation of hydrogel-encapsulated human mesenchymal stem cellsSmart Magnetically Responsive Hydrogel Nanoparticles Prepared by a Novel Aerosol-Assisted Method for Biomedical and Drug Delivery ApplicationsCell-controlled and spatially arrayed gene delivery from fibrin hydrogelsBioelectrocatalytic hydrogels from electron-conducting metallopolypeptides coassembled with bifunctional enzymatic building blocksInfluence of thrombin concentration on the mechanical and morphological properties of cell-seeded fibrin hydrogelsProduction of Prednisolone by Pseudomonas oleovorans Cells Incorporated Into PVP/PEO Radiation Crosslinked HydrogelsDendrimers and Dendrons as Versatile Building Blocks for the Fabrication of Functional HydrogelsBiocompatible Hydrogels for Microarray Cell Printing and Encapsulation.Recent Advances in the Synthesis and Biomedical Applications of Nanocomposite HydrogelsChitosan based hydrogels: characteristics and pharmaceutical applicationsHydrogels for Engineering of Perfusable Vascular NetworksMicro hydrogels: preparation, properties, and applications25th anniversary article: Rational design and applications of hydrogels in regenerative medicineHydrogels in spinal cord injury repair strategiesPeptide Hydrogels - Versatile Matrices for 3D Cell Culture in Cancer MedicineMechanical testing of hydrogels in cartilage tissue engineering: beyond the compressive modulusHyaluronic acid hydrogels for vocal fold wound healingEnhancing retention and efficacy of cardiosphere-derived cells administered after myocardial infarction using a hyaluronan-gelatin hydrogelNanocomposites for neurodegenerative diseases: hydrogel-nanoparticle combinations for a challenging drug deliveryTowards the use of hydrogels in the treatment of limbal stem cell deficiencyOphthalmic Uses of a Thiol-Modified Hyaluronan-Based HydrogelConnections matter: channeled hydrogels to improve vascularizationCarbon nanotubes hybrid hydrogels in drug delivery: a perspective reviewPain management via local anesthetics and responsive hydrogelsDefining and designing polymers and hydrogels for neural tissue engineeringHydrogel-based nanocomposites and mesenchymal stem cells: a promising synergistic strategy for neurodegenerative disorders therapyMucin-Inspired Thermoresponsive Synthetic Hydrogels Induce Stasis in Human Pluripotent Stem Cells and Human Embryos.Inherent interfacial mechanical gradients in 3D hydrogels influence tumor cell behaviorsIn vitro and in vivo evaluation of self-mineralization and biocompatibility of injectable, dual-gelling hydrogels for bone tissue engineering.Combinatorial hydrogel library enables identification of materials that mitigate the foreign body response in primates
P921
Q21090839-98D05547-B9C4-41FF-9D76-CA707248E8B7Q21132342-B9A9FC6D-9E6C-4815-AFC4-5352F7DA583EQ22001191-01721F60-A3B7-4B67-899E-8DCF8988D223Q24188123-B05CCD33-D020-46AB-9391-B125C692B010Q24194977-366FA0DA-FAF6-403E-9FDF-E10133198FA3Q24198817-5EF33CB6-3D93-4524-90ED-F2500AE8B3F9Q24201235-02D09ABC-99E6-4CEE-AFF6-36054EDF9A4FQ24234395-4B325F75-B4C4-4B7D-80FD-B80247E54A22Q24234779-CA57BE98-B557-4564-A195-F0616285F00DQ24234873-2967EB9F-E661-4974-B5EA-7B2F5FD021F2Q24622788-BC518039-112D-4344-85B9-957849A6B303Q24626269-47232B1C-10ED-4730-B5D6-BF19E32A0319Q24649486-8FCA5901-BBD7-42A3-9682-28E6F8E123C8Q24656260-30DC0685-4068-4D3B-8234-18D0EF7B484CQ24683317-9089F562-0C3F-4AA0-A763-61CD7D8E0DD6Q24805674-4DBB44B6-517D-40F9-BAB7-C2D00B562BDEQ26752397-744FBC05-E4C6-4594-AC58-88767A7AFDAEQ26777809-A2A93AB9-10EA-48A1-9F1B-AC9676B5DA84Q26782392-2D4B63D5-4A13-45D4-800C-4601B13512F2Q26782711-453024AA-488F-4B8B-ABD7-1C99F7E3601BQ26799978-B91347F7-2FBC-4425-A58F-A9B6C92C7DBBQ26825070-0D77FF93-48DC-4C1D-AAC9-E02BFD9800EFQ26827960-6C504A62-3AFB-421B-A38D-FA5AF1C87A32Q26852732-29FC893A-B63D-48ED-B288-9D9569ABA899Q26860533-D110215E-83D2-41E5-B993-D0AB7CF2FBF9Q26861566-D838A905-3248-4827-9A69-56A8D4C4C701Q26866950-FFABB6B4-1BE9-48F8-B7D4-1527A6F77F6EQ27002606-DBB326AF-D163-4D73-996F-34F58D90CFF8Q27005971-02D6B63C-82E5-4E90-AE91-6ABAB79BF637Q27010179-BBC01025-1E2F-4218-B79B-399C02AF3CDFQ27014963-CF70B74A-388B-423B-961E-8790E305CBCCQ27025521-3082F5E4-F0A0-4DAD-9E74-48C59D3B0DE4Q27026979-D59335F0-2EB6-430A-A3BA-4BF388FD612EQ27027236-44BF0A0A-B29F-4C04-B49F-25F8562A3AFAQ27027280-9D636DF0-69AC-40BC-B38C-2A689B211E3CQ27027614-45D73938-25D5-4A1D-86CE-23BB1079BD6AQ27300735-BEFA617D-B78C-44A6-855C-85F8B7149019Q27303927-846F3E25-1B9B-43DE-B1A7-FDB7F224CF8FQ27310017-1CFC5EF9-EB32-4A80-A985-116BCB8F4302Q27313644-D7551AEA-AD90-4115-8777-BFF32276B7F6
P921
description
Stoffgemisch mit zwei verschiedenen Phasen
@de
granulát bílé barvy
@cs
nettverk av hydrofile polymerkjeder
@nb
network of polymer chains that are hydrophilic
@en
name
Hydrogel
@cs
Hydrogel
@de
Hydrogel
@fr
Hydrogel
@nl
Idrogel
@it
hydrogel
@en
hydrogel
@nb
آبژل
@fa
type
label
Hydrogel
@cs
Hydrogel
@de
Hydrogel
@fr
Hydrogel
@nl
Idrogel
@it
hydrogel
@en
hydrogel
@nb
آبژل
@fa
altLabel
Hydro-gel
@nl
Hydrogel
@fa
Wet-gel
@nl
prefLabel
Hydrogel
@cs
Hydrogel
@de
Hydrogel
@fr
Hydrogel
@nl
Idrogel
@it
hydrogel
@en
hydrogel
@nb
آبژل
@fa