Regenesis Repair Rehabilitation

Open access

ISSN: 2950-5755

Regenesis Repair Rehabilitation

Open access

Regenesis, Repair & Rehabilitation rapidly publishes rigorously peer-reviewed high-quality research articles, concise reviews, phase forwards (clinical trials), case reports, and short communicati...

Regenesis, Repair & Rehabilitation rapidly publishes rigorously peer-reviewed high-quality research articles, concise reviews, phase forwards (clinical trials), case reports, and short communications on topics relevant to the development, engineering, and regeneration of tissues and organs either in vitro, in vivo or in situ, which potentially will contribution to tissue/organ repair and rehabilitation. The journal has a strong mission to facilitating the transfer of findings from the laboratory to the clinical practice, thus to closing the gap between basic scientists and physicians. The journal covers the areas of stem/progenitor/precursors cells, gene editing for differentiation or maintaining stemness, organoids for grafting, biomaterials for bioengineering, 3D printing, which could improve the anatomical structure and function of tissue/organ, and victims integrated to society.
The fields of regenesis, repair and rehabilitation are crosstalk among translational medicine, clinical medicine, life sciences, materials and biomaterials, and tissue engineering in combined efforts to advance therapeutic strategies and solutions, and this rationale is in accordance with this journal. Clinical trials in human patients performed under strict regulatory and ethical review are particularly encouraged.
In vivo studies that failed to restore the tissues' and organs' structure and function will be considered only if the reviewers consider them valuable to other.

Regeneration: Stem Cell, differentiation, organoids for grafting, biomaterials for bioengineering, 3D printing
Surgery: Clinical study, surgical infections, cell/tissue/ organ transplantation, surgical intensive care, novel surgery approach
Rehabilitation: clinical study, VR, virtual reality, intensive rehabilitation, physical therapy, OT, Occupational Therapy

Editorial Board

Skin microecology and skin barrier repair, wound healing and appendage regeneration

Antibiotic-loaded bone cement applied to treatment of refractory hand burn wounds: 7 cases report

Low temperatures promote the healing of skin micro-injuries by inhibiting IL1β

View all ScienceDirect

1. Skin microecology and skin barrier repair, wound healing and appendage regeneration

2. Low temperatures promote the healing of skin micro-injuries by inhibiting IL1β

3. Antibiotic-loaded bone cement applied to treatment of refractory hand burn wounds: 7 cases report

View all ScienceDirect

Stay Informed

Register your interest and receive email alerts tailored to your needs. Sign up below.