Wharton's Jelly for Augmented Cleft Palate Repair in a Rat Critical-Size Alveolar Bone Defect Model.

Secondary alveolar bone grafts (ABGs) are the standard treatment for the alveolar defect in patients with cleft lip and palate (CLP), but remain invasive and have several disadvantages such as delayed timing of alveolar repair, donor-site complications, graft resorption, and need for multiple surgeries. Earlier management of the alveolar defect (primary ABG) would be ideal, but is limited by the minimal bony donor sites available in the infant. In this study we used a critical-size alveolar bone defect model in the rat to investigate the use of Wharton's Jelly (WJ), the stem cell-rich connective tissue matrix of the umbilical cord, to generate bone within the alveolar cleft. Human WJ was isolated and implanted into a critical-size alveolar bone defect model representative of secondary cleft ABG surgery in 10-11-week-old male Sprague-Dawley rats. The defects were monitored with CT imaging of living animals to evaluate bone regrowth and healing over 24 weeks, followed by histomorphometric evaluation at 24 weeks, after the last CT scan. CT data confirmed that the defect size was critical and did not lead to the union of the bones in the control animals (n = 12) for the entire duration of the study. New bone growth was stimulated leading to partial-to-full closure of the defect in the animals treated with WJ (n = 12). Twenty four weeks postoperatively, the percent increase in new bone formation in the WJ-treated group (156.58% ± 20.67%) was markedly higher than that in the control group (50.36% ± 21.07%) (p < 0.05). Histomorphometric data also revealed significantly greater new bone formation in WJ-treated versus control animals, confirming CT findings. qPCR analysis of human Alu elements was unable to detect any appreciable long-term persistence of human cells in the new bone, indicating that WJ may enhance bone growth by mediating osteoinduction in the host tissue, rather than through osteogenic differentiation of WJ-embedded cells. Impact statement In this study, Wharton's Jelly enhanced bone growth in a preclinical alveolar defect model, indicating its potential use as a natural adjunct in the repair of the alveolar cleft defect in patients with cleft lip and palate (CLP). The clinical success of this approach would represent a paradigm shift in the treatment of patients with CLP by reducing or eliminating the need for subsequent secondary alveolar bone graft and reducing their number of lifetime surgeries.

A cost-effective method to immobilize hydrated soft-tissue samples for atomic force microscopy.

Immobilizing hydrated soft tissue specimens for atomic force microscopy (AFM) is a challenge. Here, we describe a simple and very cost-effective immobilization method, based on the use of transglutaminase in an aqueous environment, and successfully apply it to AFM characterization of human native Wharton's Jelly (nWJ), the gelatinous connective tissue matrix of the umbilical cord. A side-by-side comparison with a widely used polyphenolic protein-based tissue adhesive (Corning Cell-Tak), which is known to bind strongly to virtually all inorganic and organic surfaces in aqueous environments, shows that both adhesives successfully immobilize nWJ in its physological hydrated state. The cost of transglutaminase, however, is over 3000-fold lower than that of Cell-Tak, making it a very attractive method for immobilizing soft tissues for AFM characterization.