Journal of Controlled Release
Journal Abbreviation: J CONTROL RELEASE
ISSN: 0168-3659
eISSN: 1873-4995
Publisher: Elsevier
Publications (16)
A cell-free, biomimetic hydrogel based on probiotic membrane vesicles ameliorates wound healing (2024)
Kuhn T, Aljohmani A, Frank N, Zielke L, Mehanny M, Laschke MW, Koch M, et al.
Journal article
Drug delivery as a sustainable avenue to future therapies (2023)
Fuhrmann G
Journal article
Merging bioresponsive release of insulin-like growth factor I with 3D printable thermogelling hydrogels (2022)
Beudert M, Hahn L, Horn A, Hauptstein N, Sticht H, Meinel L, Luxenhofer R, et al.
Journal article, Original article
Matrix metalloproteinase-1 decorated polymersomes, a surface-active extracellular matrix therapeutic, potentiates collagen degradation and attenuates early liver fibrosis (2021)
Geervliet E, Moreno S, Baiamonte L, Booijink R, Boye S, Wang P, Voit B, et al.
Journal article
CaCO3 crystals as versatile carriers for controlled delivery of antimicrobials (2020)
Ferreira AM, Vikulina AS, Volodkin D
Journal article, Review article
Imatinib-loaded gold nanoparticles inhibit proliferation of fibroblasts and macrophages from systemic sclerosis patients and ameliorate experimental bleomycin-induced lung fibrosis (2019)
Codullo V, Cova E, Pandolfi L, Breda S, Morosini M, Frangipane V, Malatesta M, et al.
Journal article
Visualizing treatment delivery and deposition in mouse lungs using in vivo x-ray imaging (2019)
Gradl R, Dierolf M, Yang L, Hehn L, Guenther B, Moeller W, Kutschke D, et al.
Journal article
Corrigendum to biocompatible bacteria-derived vesicles show inherent antimicrobial activity (Journal of Controlled Release (2018) 290 (46–55), (S0168365918305698) (10.1016/j.jconrel.2018.09.030)) (2019)
Schulz E, Goes A, Garcia R, Panter F, Koch M, Mueller R, Fuhrmann K, Fuhrmann G
Journal article, Erratum
Biocompatible bacteria-derived vesicles show inherent antimicrobial activity (2018)
Schulz E, Goes A, Garcia R, Panter F, Koch M, Mueller R, Fuhrmann K, Fuhrmann G
Journal article
Targeting of drug-loaded nanoparticles to tumor sites increases cell death and release of danger signals (2018)
Alev M, Egenberger L, Mühleisen L, Weigel B, Frey B, Friedrich RP, Poettler M, et al.
Journal article