RGD-coated polymeric microbubbles promote ultrasound-mediated drug delivery in an inflamed endothelium-pericyte co-culture model of the blood-brain barrier

2025

Verantwortlichkeitsangabevorgelegt von Christopher Bernhard Hark

ImpressumAachen 2025

UmfangSeite 2629-2641 : Illustrationen

Dissertation, Rheinisch-Westfälische Technische Hochschule Aachen, 2025

Genehmigende Fakultät
Fak10

Hauptberichter/Gutachter
Lammers, Twan (Thesis advisor)^RWTH* ; Weber, Yvonne Gerda (Thesis advisor)^RWTH*

Tag der mündlichen Prüfung/Habilitation
2025-06-26

Einrichtungen

Thematische Einordnung (Klassifikation)
DDC: 610

Kurzfassung
online nicht verfügbar

Dokumenttyp
Dissertation / PhD Thesis

Format
print

Sprache
English

Externe Identnummern
HBZ: HT031278947

Interne Identnummern
RWTH-2025-10609
Datensatz-ID: 1023318

Beteiligte Länder
Germany

Related:

Journal Article/Contribution to a book Hark, C.RWTH* ; Chen, J.RWTH* ; Blöck, J.RWTH* ; Buhl, E. M.RWTH* ; Radermacher, H.RWTH* ; Pola, R. ; Pechar, M. ; Etrych, T. ; Peña, Q.RWTH* ; Rix, A.RWTH* ; Drude, N. I. ; Kiessling, F.RWTH* ; Lammers, T. (Corresponding author)RWTH* ; May, J.-N. (Corresponding author)RWTH*
RGD-coated polymeric microbubbles promote ultrasound-mediated drug delivery in an inflamed endothelium-pericyte co-culture model of the blood-brain barrier
Drug Deliv Transl Res 14(10), 2629-2641 (2024) [10.1007/s13346-024-01561-6] special issue: "Unlocking the Potential of Nanomedicine: Advances in Precision Targeting Strategies / Guest Editors: Christian Celia, Tambet Teesalu, and Hélder A. Santos"2024 BibTeX | EndNote: XML, Text | RIS

Record created 2025-12-11, last modified 2025-12-12

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