Deer antlers are a mammalian appendage capable of regeneration. I don’t believe that eating deer antlers could induce growth plate regeneration but possibly the study of deer antlers could help enable growth plate regeneration. And perhaps studying deer antlers could enable the growth plates to be open for longer. One of the problems with limb lengthening surgery remains muscle and other soft tissue tightness. The growth plate is connected to these soft tissues via the enthesis so it is logical to think that perhaps the enthesis can help provide the cellular ingredients for those soft tissues to grow as needed via the enthesis.
A population of stem cells with strong regenerative potential discovered in deer antlers
<-perhaps for example there could be an osteotomy and an injection of these stem cells in a region near the enthesis to form new growth plates.
“The annual regrowth of deer antlers provides a valuable model for studying organ regeneration in mammals. We describe a single-cell atlas of antler regrowth. The earliest-stage antler initiators were mesenchymal cells that express the paired related homeobox 1 gene (PRRX1+ mesenchymal cells). We also identified a population of “antler blastema progenitor cells” (ABPCs) that developed from the PRRX1+ mesenchymal cells and directed the antler regeneration process.{could we use similar cells to form new growth plates?} Cross-species comparisons identified ABPCs in several mammalian blastema. In vivo and in vitro ABPCs displayed strong self-renewal ability and could generate osteochondral lineage cells. Last, we observed a spatially well-structured pattern of cellular and gene expression in antler growth center during the peak growth stage, revealing the cellular mechanisms involved in rapid antler elongation.”
“Lower vertebrates have a remarkable capacity to heal in a scar-free manner and regenerate lost appendages, even at the adult stage”
“deer antler offers a singular model to study spontaneous regeneration in mammals because its
regeneration is similar and clinically relevant to mammalian long-bone development”
“hard antlers are cast from their pedicles, then both antler bone and cartilage are regenerated from the pedicle periosteum located in the pedicle stumps”
“We further identified a population of regenerative progenitor cells, ABPCs, in the antler blastema, with impressive capacities for self-renewal, osteogenic–chondrogenic differentiation, and bone-tissue repair.”<-in the paper it goes over more what the cell characteristics of the progenitor cells might be. The question is: How do we translate what’s going on in the deer antlers to bone?