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Dr. rer. nat. Asma Siddique

Kontakt

work +49 6151 16-21928
fax +49 6151 16-21921

Work L2|07 203
Peter-Grünberg-Straße 16
64287 Darmstadt

  • Biomikrofluidik
  • Biokompatible PolymereBiocompatible polymers
  • Oberflächenfunktionalisierungen
  • Grenzflächen zwischen Zellen und Oberflächen
  • Imitation von vaskulären Mikro-Umgebungen bei hohen Scherkräften
  • Kultivierung von Zellen (Säugetiere etc.)
Oberflächenmodifizierung von PDMS-basierten mikrofluidischen Sytemen für verbesserte Zelladhäsion bei hohen Scherkräften
9 MF Kilb, VI Engemann, A Siddique, RW Stark, K Schmitz (2021):
Immobilisation of CXCL8 gradients in microfluidic devices for migration experiments
Colloids and Surfaces B: Biointerfaces 2021 198, 111498.
DIO: https://doi.org/10.1016/j.colsurfb.2020.111498
[Artikel]
8 A Siddique, I Pause, S Narayan, L Kruse, RW Stark (2021):
Endothelialization of PDMS-based microfluidic devices under high shear stress conditions
Colloids and Surfaces B: Biointerfaces 2021 197, 111394
DOI: https://doi.org/10.1016/j.colsurfb.2020.111394
[Artikel]
7 MF Kilb, V Engemann, A Siddique, RWvStark, K Schmitz (2021)
Immobilisation of CXCL8 gradients in microfluidic devices formigration experiments
DOI: https://doi.org/10.1016/j.colsurfb.2020.111498
[Artikel]
6 Siddique, Asma ; Meckel, Tobias ; Stark, Robert W. ; Narayan, Suman :
Improved cell adhesion under shear stress in PDMS microfluidic devices.
[Online-Edition: http://dx.doi.org/10.1016/j.colsurfb.2016.11.011]
In: Colloids and Surfaces B-Biointerfaces, 150 S. 456-464. ISSN 0927-7765
[Artikel] , (2017)
5 Siddique, Asma ; Gul, Ambreen ; Irfan, Muhammad ; Nadeem, Muhammad ; Syed, Quratulain
Comparison of different pretreatment methods for efficientconversion of bagasse into ethanol
[Online-Edition: DOI: 10.1080/17597269.2016.1215066]
In: Biofuels, 8:1, 135-141
[Artikel], (2017)
4 Siddique, Asma ; Bashir, Aftab ; Latif, Farooq
Exploration of unique relationamong industrial fungi by statistical analysis
In: Songklanakarin J. Sci. Technol. 34(6), 607-613
[Artikel], (2012)
3 Khan, S.A. ; Siddique, A. ; Latif, F.
Fibrolytic enzyme production fromHumicola insolens and its applications in animal feed
In: Pakistan J. Zool. Suppl.Ser. 9:41-45
[Artikel], (2009)
2 Anwar, Farooq ; Siddique, Asma ; Iqbal, Shahid ; Asi, M. Rafique
Stabilization of sunflower oil with Moringa oleifera leaves under ambient storage
In: Journal of Food Lipids, 14: 35-49
[Artikel], (2007)
1 Siddique, A. ; Anwar, F. ; Manzoor, M. ; Fatima, A
Antioxidant activity ofdifferent solvent extracts of Moringa oleifera leaves under accelerated storage of Sunflower oil
In: Asian Journal of Plant Science, 4(6): 630-635
[Artikel], (2005)
2 Asma Siddique, Isabelle Pause, Suman Narayan and Robert W. Stark
Stability of protein coatings inside microfluidic devices under flow conditions
µFlu’18-NEGF’18, Feb. 2018, Strasbourg, Frankreich
1 Asma Siddique and Robert W. Stark
Microfluidics; A competent analytical tool in life science
Emerging trends in life sciences for sustainable development, Oct. 2014, Lahore Pakistan
3 Asma Siddique, Isabelle Pause, Suman Narayan and Robert W. Stark
Stability of protein coatings inside microfluidic devices under flow conditions
µFlu’18-NEGF’18, Feb. 2018, Strasbourg, Frankreich
2 Asma Siddique, Suman Narayan and Robert W. Stark
Stable protein coating inside PDMS microfluidic devices for improved cell adhesion under shear stress
Lab-on-Chip & Microfluidics 2017, May 2017, München, Deutschland
1 Asma Siddique, Suman Narayan and Robert W. Stark
Stable protein coating inside PDMS microchannels for cell growth under flow conditions
EMBL Conference, Microfluidics 2012, Jul. 2014, Deutschland
  • Fortgeschrittenenpraktikum II (Materialwissenschaften)
  • Betreuung von Bachelor- und Masterarbeiten, sowie Forschungspraktika
Many of the vascular functions, hemodynamic forces, cellular interactions and related diseases are strictly related to of physical geometry of vasculature. Combination of microfluidics and cell biology offers a physiologically realistic platform to reproduce various vascular models in laboratory leading to better understandings about cell and tissue physiology in 3D environment. Under a shear flow, however, the stability of cells that were grown on physically adsorbed proteins is short lived, which limits long-term cell studies. Focusing on this issue various protein-substrate linkages were developed for stable cell growth under high flow conditions (at physiological shear stress in human vasculature). APTES (3-Aminopropyl)triethoxysilane is primarily used to immobilized collagen on PDMS surface for stable endothelial cells growth at long term, high shear stress.