Tissue Engineering - Part C: Methods
Published by Mary Ann Liebert
ISSN : 1937-3384 eISSN : 1937-3392
Abbreviation : Tissue Eng. Part C Method
Aims & Scope
Tissue Engineering is the preeminent, biomedical journal advancing the field with cutting-edge research and applications that repair or regenerate portions or whole tissues.
This multidisciplinary journal brings together the principles of engineering and life sciences in the creation of artificial tissues and regenerative medicine.
Tissue Engineering is divided into three parts, providing a central forum for groundbreaking scientific research and developments of clinical applications from leading experts in the field that will enable the functional replacement of tissues.
Tissue Engineering Methods (Part C) presents innovative tools and assays in scaffold development, stem cells and biologically active molecules to advance the field and to support clinical translation.
Part C publishes monthly.
View Aims & ScopeMetrics & Ranking
Impact Factor
| Year | Value |
|---|---|
| 2025 | 2.6 |
| 2024 | 2.70 |
SJR (SCImago Journal Rank)
| Year | Value |
|---|---|
| 2024 | 0.621 |
Quartile
| Year | Value |
|---|---|
| 2024 | Q2 |
h-index
| Year | Value |
|---|---|
| 2024 | 92 |
Journal Rank
| Year | Value |
|---|---|
| 2024 | 9337 |
Journal Citation Indicator
| Year | Value |
|---|---|
| 2024 | 440 |
Impact Factor Trend
Abstracting & Indexing
Journal is indexed in leading academic databases, ensuring global visibility and accessibility of our peer-reviewed research.
Subjects & Keywords
Journal’s research areas, covering key disciplines and specialized sub-topics in Chemical Engineering, Engineering and Medicine, designed to support cutting-edge academic discovery.
Most Cited Articles
The Most Cited Articles section features the journal's most impactful research, based on citation counts. These articles have been referenced frequently by other researchers, indicating their significant contribution to their respective fields.
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Design and Fabrication of Human Skin by Three-Dimensional Bioprinting
Citation: 628
Authors: Vivian, Gurtej, John P., Chris, Xiawei, Thanh Nga, Seung-Schik, Guohao, Pankaj
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Dynamic Three-Dimensional Culture Methods Enhance Mesenchymal Stem Cell Properties and Increase Therapeutic Potential
Citation: 406
Authors: Jessica E., Brian, Paul G.
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Laser Printing of Skin Cells and Human Stem Cells
Citation: 402
Authors: Lothar, Stefanie, Heiko, Martin, Sabrina, Ralf, Bianca, Kerstin, Stephanie, Nan, Peter M., Gustav, Boris
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Effects of Humidity and Solution Viscosity on Electrospun Fiber Morphology
Citation: 382
Authors: Roya M., Michelle B., Elizabeth
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<i>In Vitro</i> Perfused Human Capillary Networks
Citation: 371
Authors: Monica L., Yu-Hsiang, Abraham P., Christopher C.W., Steven C.
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Biofabrication of Osteochondral Tissue Equivalents by Printing Topologically Defined, Cell-Laden Hydrogel Scaffolds
Citation: 360
Authors: Natalja E., Wouter, Hans M., Henk-Jan, P. René, Jos, Jacqueline, Wouter J.A.
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Buffered Platelet-Rich Plasma Enhances Mesenchymal Stem Cell Proliferation and Chondrogenic Differentiation
Citation: 302
Authors: Allan, Padmaja, Aaron, Byung, Mark, Victor, Christopher R.
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Automated Video-Based Analysis of Contractility and Calcium Flux in Human-Induced Pluripotent Stem Cell-Derived Cardiomyocytes Cultured over Different Spatial Scales
Citation: 277
Authors: Nathaniel, Peter, Mohammad A., Natalie C., Alice S., Zhen, Anurag, Trieu N., Jennie C., Luke M., C. Ian, Anand C., Caitlin R., Po-Lin, Bruce R., Kevin E.
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A Whole-Organ Regenerative Medicine Approach for Liver Replacement
Citation: 269
Authors: Alejandro, Li, Chris, Ken, Denver, Hongbin, Janet, Roberto, Junji, Mark, Masaki, Eric, Donna, Stephen C., Ira J., Stephen F.
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Rapid Prototyping: Porous Titanium Alloy Scaffolds Produced by Selective Laser Melting for Bone Tissue Engineering
Citation: 265
Authors: Patrick H., Timothy, Patrick, Eugene, Martin, Sebastian, Stephan T., Ingo N., Jörg, Sureshan