1. Even Better Than the Real Thing? Xenografting in Pediatric Patients with Scald Injury
    Paul Diegidio et al, 2017, Clinics in Plastic Surgery CrossRef
  2. How Did This Happen? Xenograft Conversion to Dermal Scaffolding after Scalding Grease Burn
    Aurelie Tran et al, 2022, European Burn Journal CrossRef
  3. Stented Porcine Collagen Matrix to Treat Inadequate Facial Attached Tissue of Dental Implant Supported Fixed Partial Dentures
    Dennis Flanagan, 2016, Journal of Oral Implantology CrossRef
  4. Adipose-Derived Neural Stem Cells Combined with Acellular Dermal Matrix as a Neural Conduit Enhances Peripheral Nerve Repair
    Wei-Ze Syu et al, 2019, Cell Transplantation CrossRef
  5. Regenerative Biomaterials
    Derek A. Banyard et al, 2015, Plastic and Reconstructive Surgery CrossRef
  6. Hand Reconstruction After Burn Injury
    Günter Germann, 2017, Clinics in Plastic Surgery CrossRef
  7. Use of Xenogeneic Cells
    Elisabeth Kemter et al, 2020, Cell Engineering and Regeneration CrossRef
  8. Graves Lower Eyelid Retraction
    Sara Filipa Teixeira Ribeiro et al, 2016, Ophthalmic Plastic & Reconstructive Surgery CrossRef
  9. Porcine dermal matrix sandwich graft for lower eyelid reconstruction
    Philip L. Custer et al, 2021, Orbit CrossRef
  10. Systematic review of clinical outcome reporting in randomised controlled trials of burn care
    Amber E Young et al, 2019, BMJ Open CrossRef
  11. Co-Graft of Acellular Dermal Matrix and Split Thickness Skin Graft—A New Reconstructive Surgical Method in the Treatment of Hidradenitis Suppurativa
    Marcin Gierek et al, 2022, Bioengineering CrossRef
  12. Use of Xenogeneic Cells
    Elisabeth Kemter et al, 2018, Cell Engineering and Regeneration CrossRef
  13. Accelerated Regeneration of Skin Injury by Co-transplantation of Mesenchymal Stem Cells from Wharton’s Jelly of the Human Umbilical Cord Mixed with Microparticles
    Shengjun Shi et al, 2015, Cell Biochemistry and Biophysics CrossRef
  14. Applications of biomaterials in wound healing management: from fundamental physiology to advanced technology
    J. Dias-Ferreira et al, 2023, Nanotechnology and Regenerative Medicine CrossRef
  15. Autologous Skin Grafts, versus Tissue-engineered Skin Constructs: A Systematic Review and Meta-analysis
    Sara Kianian et al, 2023, Plastic and Reconstructive Surgery - Global Open CrossRef
  16. Biogenetic Acellular Dermal Matrix Maintaining Rich Interconnected Microchannels for Accelerated Tissue Amendment
    Yixin Wang et al, 2021, ACS Applied Materials & Interfaces CrossRef
  17. The clinical outcomes of xenografts in the treatment of burn patients: a systematic review and meta-analysis
    Rana Irilouzadian et al, 2023, European Journal of Medical Research CrossRef
  18. Ethics of facial transplantation revisited
    Kathy L. Coffman et al, 2014, Current Opinion in Organ Transplantation CrossRef
  19. Prospective Randomized Comparison of Scar Appearances between Cograft of Acellular Dermal Matrix with Autologous Split-Thickness Skin and Autologous Split-Thickness Skin Graft Alone for Full-Thickness Skin Defects of the Extremities
    Ju Won Yi et al, 2015, Plastic and Reconstructive Surgery CrossRef
  20. The Potential of Acellular Dermal Matrix Combined With Neural Stem Cells Induced From Human Adipose-Derived Stem Cells in Nerve Tissue Engineering
    Wei-Ze Syu et al, 2019, Annals of Plastic Surgery CrossRef
  21. Xenogenic (porcine) Acellular Dermal Matrix Promotes Growth of Granulation Tissues in the Wound Healing of Fournier Gangrene
    Zhaoxin Zhang et al, 2015, The American Surgeon CrossRef