ProfessorsProfessors of Johns Hopkins UniversityIkbal Choudhury

Ikbal Choudhury

Johns Hopkins University

H-index: 8

North America-United States

About Ikbal Choudhury

Ikbal Choudhury, With an exceptional h-index of 8 and a recent h-index of 7 (since 2020), a distinguished researcher at Johns Hopkins University, specializes in the field of Synthetic embryology, Tissue hydraulics, Mechanobiology.

His recent articles reflect a diverse array of research interests and contributions to the field:

Cells in the polyaneuploid cancer cell (PACC) state have increased metastatic potential

Mechanical compression creates a quiescent muscle stem cell niche

Trans-epithelial fluid flow and mechanics of epithelial morphogenesis

Migration and 3D traction force measurements inside compliant microchannels

Stiffening matrix induces age‐mediated microvascular phenotype through increased cell contractility and destabilization of adherens junctions

Kidney epithelial cells are active mechano-biological fluid pumps

Mechano-Biological Fluid Pumps

Device for measuring pressure pulses based on applanation tonometry

Ikbal Choudhury Information

University	Johns Hopkins University
Position	___
Citations(all)	236
Citations(since 2020)	208
Cited By	93
hIndex(all)	8
hIndex(since 2020)	7
i10Index(all)	6
i10Index(since 2020)	6
Email	Access Email
University Profile Page	Johns Hopkins University
Google Scholar	View Google Scholar Profile

Ikbal Choudhury Skills & Research Interests

Synthetic embryology

Tissue hydraulics

Mechanobiology

Top articles of Ikbal Choudhury

Title	Journal	Author(s)	Publication Date
Cells in the polyaneuploid cancer cell (PACC) state have increased metastatic potential	Clinical & Experimental Metastasis	Mikaela M Mallin Nicholas Kim Mohammad Ikbal Choudhury Se Jong Lee Steven S An ...	2023/8
Mechanical compression creates a quiescent muscle stem cell niche	Communications Biology	Jiaxiang Tao Mohammad Ikbal Choudhury Debonil Maity Taeki Kim Sean X Sun ...	2023/1/13
Trans-epithelial fluid flow and mechanics of epithelial morphogenesis		Mohammad Ikbal Choudhury Morgan A Benson Sean X Sun	2022/11/1
Migration and 3D traction force measurements inside compliant microchannels	Nano letters	Alexandros Afthinos Kaustav Bera Junjie Chen Altug Ozcelikkale Alice Amitrano ...	2022/9/15
Stiffening matrix induces age‐mediated microvascular phenotype through increased cell contractility and destabilization of adherens junctions	Advanced Science	Rahel Schnellmann Dimitris Ntekoumes Mohammad Ikbal Choudhury Sean Sun Zhao Wei ...	2022/8
Kidney epithelial cells are active mechano-biological fluid pumps	Nature communications	Mohammad Ikbal Choudhury Yizeng Li Panagiotis Mistriotis Ana Carina N Vasconcelos Eryn E Dixon ...	2022/4/28
Mechano-Biological Fluid Pumps		Mohammad Ikbal Choudhury	2022/3/28
Device for measuring pressure pulses based on applanation tonometry			2021/11/9
A novel, organ-on-a-chip device for assessing trans-epithelial transport, and uses thereof			2022/8/25
On the Transcriptomic Signature and General Stress State Associated with Aneuploidy	arXiv preprint arXiv:2007.14585	Hung-Ji Tsai Anjali R Nelliat Andrei Kucharavy Mohammad Ikbal Choudhury Sean X Sun ...	2020/7/28
Vascular Phenotype is Compromised in Dynamically Stiffening Hydrogel	The FASEB Journal	Rahel Schnellmann Zhao Wei Mohammad Ikbal Choudhury Sean Sun Sharon Gerecht	2020/4