Enhanced recellularization by using albumin coating with roller bottle cell culture Publications / ROKIT Get in touch Pages Follow us Enhanced recellularization by using albumin coating with roller bottle cell culture Read More »
Safety Assessment of a Three-dimensional-printed Autologous Omentum Patch: An Application on Kidney as a New Approach Publications / ROKIT Get in touch Pages Follow us Safety Assessment of a Three-dimensional-printed Autologous Omentum Patch: An Application on Kidney as a New Approach Read More »
Three-Dimensional Bio-Printed Autologous Omentum Patch Ameliorates Unilateral Ureteral Obstruction Induced Renal Fibrosis Publications / ROKIT Get in touch Pages Follow us Three-Dimensional Bio-Printed Autologous Omentum Patch Ameliorates Unilateral Ureteral Obstruction Induced Renal Fibrosis Read More »
The Evaluation of Cartilage Regeneration Efficacy of Three-Dimensionally Biofabricated Human-Derived Biomaterials on Knee Osteoarthritis: A Single-Arm, Open Label Study in Egypt Publications / ROKIT Get in touch Pages Follow us The Evaluation of Cartilage Regeneration Efficacy of Three-Dimensionally Biofabricated Human-Derived Biomaterials on Knee Osteoarthritis: A Single-Arm, Open Label Study in Egypt Read More »
Evaluation of Three-Dimensional Bioprinted Human Cartilage Powder Combined with Micronized Subcutaneous Adipose Tissues for the Repair of Osteochondral Defects in Beagle Dogs Publications / ROKIT Get in touch Pages Follow us Evaluation of Three-Dimensional Bioprinted Human Cartilage Powder Combined with Micronized Subcutaneous Adipose Tissues for the Repair of Osteochondral Defects in Beagle Dogs Read More »
Graft of 3D Bioprinted Autologous Minimally Manipulated Homologous Adipose Tissue for the Treatment of Diabetic Foot Ulcer Publications / ROKIT Get in touch Pages Follow us Graft of 3D Bioprinted Autologous Minimally Manipulated Homologous Adipose Tissue for the Treatment of Diabetic Foot Ulcer Read More »
New Paradigm in Diabetic Foot Ulcer Grafting Techniques Using 3D-Bioprinted Autologous Minimally Manipulated Homologous Adipose Tissue (3D-AMHAT) with Fibrin Gel Acting as a Biodegradable Scaffold Publications / ROKIT Get in touch Pages Follow us New Paradigm in Diabetic Foot Ulcer Grafting Techniques Using 3D-Bioprinted Autologous Minimally Manipulated Homologous Adipose Tissue (3D-AMHAT) with Fibrin Gel Acting as a Biodegradable Scaffold Read More »
Autologous Minimally Manipulated Homologous Adipose Tissue (AMHAT) for Treatment of Nonhealing Diabetic Foot Ulcers Publications / ROKIT Get in touch Pages Follow us Autologous Minimally Manipulated Homologous Adipose Tissue (AMHAT) for Treatment of Nonhealing Diabetic Foot Ulcers Read More »
Grafting Low-Temperature Micronized Adipose Tissue Niche to Treat Diabetic Foot Ulcers: A Pilot Study Publications / ROKIT Get in touch Pages Follow us Grafting Low-Temperature Micronized Adipose Tissue Niche to Treat Diabetic Foot Ulcers: A Pilot Study Read More »
A Pilot Study Comparing a Micronized Adipose Tissue Niche versus Standard Wound Care for Treatment of Neuropathic Diabetic Foot Ulcers Publications / ROKIT Get in touch Pages Follow us A Pilot Study Comparing a Micronized Adipose Tissue Niche versus Standard Wound Care for Treatment of Neuropathic Diabetic Foot Ulcers Read More »
