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Involvement of calvarial stem cells in healing: A regional analysis of large cranial defects
Author(s) -
Durham Emily L.,
Howie R. Nicole,
Houck Reed,
Oakes Brayden,
Grey Zachary,
Hall SarahRose,
Steed Martin,
LaRue Amanda,
MuiseHelmericks Robin,
Cray James
Publication year - 2018
Publication title -
wound repair and regeneration
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.847
H-Index - 109
eISSN - 1524-475X
pISSN - 1067-1927
DOI - 10.1111/wrr.12658
Subject(s) - mesenchyme , craniofacial , bone healing , bone morphogenetic protein 2 , fibrous joint , wound healing , calvaria , regeneration (biology) , mesenchymal stem cell , sagittal suture , vascularity , skull , medicine , osteoplasty , craniofacial surgery , anatomy , surgery , pathology , chemistry , biology , microbiology and biotechnology , biochemistry , psychiatry , in vitro
Large craniofacial defects present a substantial clinical challenge that often requires the use of osteoconductive matrices and osteoinductive cues (i.e., bone morphogenetic proteins [BMP2]) to augment healing. While these methods have improved clinical outcomes, a better understanding of how the osteogenic fronts surrounding the defect, the underlying dura mater, and the cranial suture area contribute to healing may lead to more targeted therapies to enhance bone regeneration. We hypothesized that healing within a large bone defect will be precipitated from cells within the remaining or available suture mesenchyme abutting the edges of a murine critical sized defect. To investigate this hypothesis, 39 adult, wild‐type mice were randomly arranged into groups (9 or 10 per group) by time (4 and 8 weeks) and treatment (control, acellular collagen sponge alone, or acellular collagen sponge loaded with a clinically relevant scaled dosage of BMP2). The skulls were then subjected to microcomputed tomography and histological analysis to assess bone regeneration in regions of interest within the defect area. A regional assessment of healing indicated that BMP2 drives greater healing than control and that healing emanates from the surgical margin, particularly from the margin associated with undisrupted suture mesenchyme. Though BMP2 treatment drove an increase in cell presence within the healing defect, there was no regional orientation of craniofacial stem cells or vascularity. Overall, these data reinforce that osteoconductive matrices in conjunction with osteoinductive peptides result in better healing of large calvarial defects. This healing is characterized as emanating from the surgical margin where there is an abundant supply of vasculature and progenitor cells.

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