Scope of the journal

The Scope of the Journal includes research that focuses on developing new techniques of tissue engineering, defining the biomechanical and physiological properties of engineered tissues, and reports of animal and clinical studies employing engineered tissues and cell-based therapies to facilitate tissue regeneration and repair. View More..

Special Sections

Articles published in the journal will also be included under the special section that falls within the scope of each section. The special sections are as follows:
Mesenchymal stem cells | Biomaterials | Biomedicine and Drug Delivery | Angiogenesis

Original Research | Biomaterials Open Access

Direct and indirect co-culture of bone marrow stem cells and adipose-derived stem cells with chondrocytes in 3D scaffold-free culture

Loraine L.Y Chiu, Juares Bianco, Renata Giardini-Rosa, Kristina Collavino, Stephen D Waldman
Journal of Regenerative Medicine & Tissue Engineering 5 : 1
Abstract | Full text |  PDF

Original Research | Mesenchymal stem cells Open Access

In vitro BMP2 stimulation of osteoblast citrate production in concert with mineralized bone nodule formation

Leslie C Costello, Meenakshi A Chellaiah, Jing Zou, Mark A. Reynolds, Renty B Franklin
Journal of Regenerative Medicine & Tissue Engineering 4 : 2
Abstract | Full text |  PDF | ePUB

Review | Biomedicine and Drug Delivery Open Access

Role of regeneration in tissue repairing and therapies

Ravi Kant Upadhyay
Journal of Regenerative Medicine & Tissue Engineering 4 : 1
Abstract | Full text |  PDF

Original ResearchOpen Access

The status of citrate in the hydroxyapatite/collagen complex of bone; and Its role in bone formation

Leslie C Costello, Meena Chellaiah, Jing Zou, Renty B Franklin, Mark A Reynolds
Journal of Regenerative Medicine & Tissue Engineering 3 : 4
Abstract | Full text |  PDF | ePUB

Original Research | Biomedicine and Drug Delivery Open Access

Porcine urinary bladder extracellular matrix activates skeletal myogenesis in mouse muscle cryoinjury

Juquan Song, Peter Hornsby, Morgan Stanley, Kareem R. AbdelFattah, Steven E. Wolf
Journal of Regenerative Medicine & Tissue Engineering 3 : 3
Abstract | Full text |  PDF | ePUB

Review | Mesenchymal stem cells Open Access

Bone marrow mesenchymal stem cells for tissue engineered pulmonary valves (TEPV)

Faizal Z. Asumda, Victor Lamin
Journal of Regenerative Medicine & Tissue Engineering 3 : 2
Abstract | Full text |  PDF

Original Research | Biomedicine and Drug Delivery Open Access

Modulation of mTOR and autophagy in hibernating hamster lung and the application of the potential mechanism to improve the recellularization process of decellularized lung scaffolds

Fate Talaei
Journal of Regenerative Medicine & Tissue Engineering 3 : 1
Abstract | Full text |  PDF | ePUB

Original ResearchOpen Access

Chitosan-collagen scaffolds can regulate the biological activities of adipose mesenchymal stem cells for tissue engineering

Idiberto José Zotarelli Filho, Luiz Fernando Frascino, Oswaldo Tadeu Greco, José Dalmo de Araújo, Aldemir Bilaqui, Elias Naim Kassis, Roberto Vito  Ardito, Gustavo O. Bonilla-Rodriguez
Journal of Regenerative Medicine & Tissue Engineering 2 : 12
Abstract | Full text |  PDF | ePUB

Original ResearchOpen Access

A clinical and radiographic evaluation of the management of periodontal osseous defects with alloplast and platelet rich plasma

Shreya Shetty, Aditi Bose
Journal of Regenerative Medicine & Tissue Engineering 2 : 11
Abstract | Full text |  PDF | ePUB

Original ResearchOpen Access

Culture conditions for growth of clinical grade human tissue derived mesenchymal stem cells: comparative study between commercial serum-free media and human product supplemented media

Arati A. Inamdar, Ajinkya C. Inamdar
Journal of Regenerative Medicine & Tissue Engineering 2 : 10
Abstract | Full text |  PDF | ePUB

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Senior Editors

Dr. Robert G. Gourdie
is a Professor, Virginia Tech-Wake Forest Regenerative Medicine Institute, School of Biomedical Engineering and Sciences, Virginia Tech. His Research areas include cell/molecular mechanisms of Cx43/ZO-1 interaction, and in translational research, on the role of targeting this molecular interaction in promoting regenerative healing of skin wounds and reducing arrhythmias of the heart following myocardial infarction.
Dr. Ronald James Neufeld
is a Professor in the department of Chemical Engineering at Queen's University, Canada. His research interests are in micro and nanoencapsulation and controlled delivery of biological and bioactive materials.
Dr. Amit Bandyopadhyay
is a Professor, in School of Mechanical and Materials Engineering at Washington State University (WSU). His research expertise lies with materials processing, solid freeform fabrication (SFF), bio-materials, piezoelectric materials and piezoelectric microelectromechanical systems (piezo-MEMS), Laser engineered net shaping (LENS™) and its application to biomedical devices.
Dr. Paul Sanberg
is a Distinguished University Professor, and Executive Director of the Center of Excellence for Aging and Brain Repair at the University of South Florida. His research areas include Stem Cells, Cord Blood, Stroke, Neurodegeneration, Cell Transplantation, Bone Marrow, ALS, Huntington's disease.

Journal of Regenerative Medicine & Tissue Engineering Subject Areas

All aspects of tissue engineering, Organ fabrication, Tissue printing, Biomaterials, Biologic scaffolds, Hydrogels, Cell seeded matrices, Bioreactor design, Mechanical conditioning of engineered tissues, Mechanical properties of engineered tissues, Physiological properties of engineered tissues, Clinical outcomes of engineered tissue implantation, Cell-based therapies.

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