Progressive facial hemiatrophy, also known as Parry-Romberg syndrome, is a progressive and self-limited deformation of the subcutaneous tissue volume on one side of the face that creates craniofacial asymmetry. We present the case of a patient with a five-year history of progressive right facial hemiatrophy, who underwent facial volumetric restoration using cell-assisted lipotransfer (CAL), which consists of an autologous fat graft enriched with adipose-derived stem cells (ASCs) extracted from the same patient. ASCs have the capacity to differentiate into adipocytes. They also promote angiogenesis, release angiogenic growth factors, and some can survive as stem cells. The use of autologous fat as a filler in soft tissue atrophy has been satisfactory in patients with mild and moderate Parry-Romberg syndrome. Currently, CAL has showed promising results in the long term by decreasing the rate of fat reabsorption. The permanence and stability of the graft in all the injected areas has showed that autologous fat grafts enriched with stem cells could be a promising technique for the correction of defects caused by this syndrome.
SynopsisAdvances in burn care have been colossal, but while extra work is needed, it is clear that the organized effort of burn teams can continue making improvements in survival rates and quality of life possible for patients. Burn patients are unique, representing the most severe model of trauma, 33 and hence this necessitates treatment in the best facilities available for that endeavor. Burn centers have developed to meet these intricate needs but can only function productively and most efficiently through well organized, multifaceted, patient-centered teams in areas of clinical care and research.
Background
Topical exogenous lipase has been approved for cosmetic use and has been used to mobilize fat from adipocytes. The objective of this study was to determine the effects of exogenous lipase in the subcutaneous adipose tissue.
Methods
Three different concentrations of exogenous lipase 1× (2 Units per ml), 5× (10 units per ml), and 10× (20 units per ml) were applied in a porcine model. Normal saline (NS) solution (as negative control) and phosphatidylcholine (as positive control) were also injected. Skin and subcutaneous tissue biopsies, up to the fascia, were obtained from each injection site on the 3rd day after injection. The number of cells per 20× field was counted as an indirect measurement of the size of the adipocytes.
Results
For 1× lipase, the number of cells per field was 47.80 (±7.63) versus 27.26 (±4.93), and 34.66 (±6.84) for NS, and phosphatidylcholine, respectively. For 5× lipase, the count was 36.06 (±4.74) versus 24.13 (±5.18), and 33.2 (±9.34). For 10× lipase, it was 40.06 (±4.35) versus 29.26 (±2.34) and 32.66 (±6.30) (p < .05 for all groups).
Conclusions
A higher number of cells per field were observed in the lipase samples, inferring a decreased volume of adipocytes. No inflammation and/or loss of cell architecture were evidenced in the exogenous lipase groups.
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