2026 Michael Raghunath: Biology and Biochemistry Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Biology and Biochemistry	57	13902	12791	253	224	183	10984

Overview

Michael Raghunath is affiliated with the Zurich University of Applied Sciences in Switzerland. Their primary research focus lies within the field of Medicine, with contributions spanning Surgery, Biomedical Engineering, Cellular and Molecular Neuroscience, Cell Biology, and Biomaterials.

The scientist's work covers several main topics, including:

3D Printing in Biomedical Research
Tissue Engineering and Regenerative Medicine
Electrospun Nanofibers in Biomedical Applications
Nerve Injury and Regeneration
Mesenchymal Stem Cell Research
Neurogenesis and Neuroplasticity Mechanisms
Neuroscience and Neural Engineering

Michael Raghunath has contributed to multiple peer-reviewed publications. Notable papers include:

"Transforming eukaryotic cell culture with macromolecular crowding," 2021, Trends in Biochemical Sciences
"Engineering microparticles based on solidified stem cell secretome with an augmented pro-angiogenic factor portfolio for therapeutic angiogenesis," 2022, Bioactive Materials
"Stabilization and improved functionality of three-dimensional perfusable microvascular networks in microfluidic devices under macromolecular crowding," 2023, Biomaterials Research
"Enhancing the Efficacy of Stem Cell Therapy with Glycosaminoglycans," 2020, Stem Cell Reports
"Biomaterial-Mediated Factor Delivery for Spinal Cord Injury Treatment," 2022, Biomedicines

Frequent coauthors involved in their research collaborations include:

Dimitrios I. Zeugolis
Rocky S. Tuan
Anna Blocki
Fabio Pizzetti
Valeria Veneruso

The scientist has published in several journals repeatedly. Key venues where their research appears include:

Cells
International Journal of Molecular Biology Open Access
Trends in Biochemical Sciences
Bioactive Materials
Biomaterials Research

Best Publications

The Collagen Suprafamily: From Biosynthesis to Advanced Biomaterial Development

Anna Sorushanova;Luis M. Delgado;Zhuning Wu;Naledi Shologu

851
Citations
Electro-spinning of pure collagen nano-fibres - just an expensive way to make gelatin?

Dimitrios I. Zeugolis;Shih T. Khew;Elijah S.Y. Yew;Andrew K. Ekaputra

724
Citations
Concise Review: Multifaceted Characterization of Human Mesenchymal Stem Cells for Use in Regenerative Medicine.

Rebekah M. Samsonraj;Michael Raghunath;Victor Nurcombe;James H. Hui

656
Citations
Establishing Criteria for Human Mesenchymal Stem Cell Potency

Rebekah M. Samsonraj;Bina Rai;Padmapriya Sathiyanathan;Kia Joo Puan

244
Citations
Applying macromolecular crowding to enhance extracellular matrix deposition and its remodeling in vitro for tissue engineering and cell-based therapies ☆

Clarice Chen;Felicia Loe;Anna Blocki;Yanxian Peng

210
Citations
Macromolecular Crowding Meets Tissue Engineering by Self-Assembly: A Paradigm Shift in Regenerative Medicine

Abhigyan Satyam;Pramod Kumar;Xingliang Fan;Alexander Gorelov

205
Citations
Collagen matrix deposition is dramatically enhanced in vitro when crowded with charged macromolecules: the biological relevance of the excluded volume effect.

Ricky R. Lareu;Karthik Harve Subramhanya;Yanxian Peng;Paula Benny

196
Citations
The Scar‐in‐a‐Jar: studying potential antifibrotic compounds from the epigenetic to extracellular level in a single well

C Z C Chen;Y X Peng;Z B Wang;P V Fish

184
Citations
Focus on collagen: in vitro systems to study fibrogenesis and antifibrosis _ state of the art

Clarice Zc Chen;Michael Raghunath

179
Citations
Two forms of collagen XVII in keratinocytes. A full-length transmembrane protein and a soluble ectodomain.

Heike Schäcke;Hauke Schumann;Nadja Hammami-Hauasli;Michael Raghunath

177
Citations
Not all MSCs can act as pericytes: functional in vitro assays to distinguish pericytes from other mesenchymal stem cells in angiogenesis.

Anna Blocki;Yingting Wang;Maria Koch;Priscilla Peh

172
Citations
Delayed triple helix formation of mutant collagen from patients with osteogenesis imperfecta.

Michael Raghunath;Peter Bruckner;Beat Steinmann

165
Citations
Current and upcoming therapies to modulate skin scarring and fibrosis

João Q. Coentro;Eugenia Pugliese;Geoffrey Hanley;Michael Raghunath

161
Citations
Macromolecular crowding directs extracellular matrix organization and mesenchymal stem cell behavior.

Adam Scott Zeiger;Felicia C. Loe;Felicia C. Loe;Ran Li;Michael Raghunath;Michael Raghunath

151
Citations
Self-Healing Collodion Baby: a Dynamic Phenotype Explained by a Particular Transglutaminase-1 Mutation

Michael Raghunath;Hans Christian Hennies;Bijan Ahvazi;Melanie Vogel

141
Citations
In vitro enhancement of collagen matrix formation and crosslinking for applications in tissue engineering: a preliminary study.

Ricky R. Lareu;Irma Arsianti;Harve Karthik Subramhanya;Peng Yanxian

140
Citations
The Tight Skin Mouse: Demonstration of Mutant Fibrillin-1 Production and Assembly into Abnormal Microfibrils

Cay M. Kielty;Michael Raghunath;Linda D. Siracusa;Michael J. Sherratt

137
Citations
Macromolecularly crowded in vitro microenvironments accelerate the production of extracellular matrix-rich supramolecular assemblies

Pramod Kumar;Abhigyan Satyam;Xingliang Fan;Estelle Collin

137
Citations
SPINK5 and Netherton syndrome: novel mutations, demonstration of missing LEKTI, and differential expression of transglutaminases.

Michael Raghunath;Lambrini Tontsidou;Vinzenz Oji;Karin Aufenvenne

131
Citations
Cross-linking of the dermo-epidermal junction of skin regenerating from keratinocyte autografts. Anchoring fibrils are a target for tissue transglutaminase.

Michael Raghunath;Bianca Höpfner;Daniel Aeschlimann;Ursula Lüthi

128
Citations