Marc H. Hedrick

Adipose-Derived Stem and Progenitor Cells as Fillers in Plastic and Reconstructive Surgery

Summary: Plastic surgeons are keenly aware of the principle “replace like with like.” This principle underlies much of the rationale behind the clinical use of autologous fat transplantation, despite the procedure’s drawbacks. Autologous fat transplantation is frequently used for a variety of cosmetic and reconstructive indications not limited to posttraumatic defects of the face and body, involutional disorders such as hemifacial atrophy, sequelae of radiation therapy, and many aesthetic uses such as lip and facial augmentation and wrinkle therapy. However, the limitations of fat transplantation are well known, particularly the long-term unpredictability of volume maintenance. Regenerative cell-based strategies such as those encompassing the use of stem cells hold tremendous promise for augmentation of the soft-tissue space. Preclinical studies and early clinical series show that adipose-derived stem cells offer the possibility of finally fulfilling the key principle of replacing like with like as an aesthetic filler, without the drawbacks of current technology.

PLASTICITY OF HUMAN ADIPOSE STEM CELLS TOWARD ENDOTHELIAL CELLS AND CARDIOMYOCYTES

Recent preclinical and clinical studies have suggested that adult stem cells have the ability to promote the retention or restoration of cardiac function in acute and chronic ischemia. Published clinical studies have used autologous donor cells, including skeletal muscle myoblasts, cultured peripheral blood cells, or bone marrow cells. However, our research and that of others indicates that human adipose tissue is an alternative source of cells with potential for cardiac cell therapy. These findings include the presence of cells within adipose tissue that can differentiate into cells expressing a cardiomyocytic or endothelial phenotype, as well as angiogenic and antiapoptotic growth factors. This potential is supported by preclinical studies in large animals.

Oncologic risks of autologous fat grafting to the breast.

As the frequency of fat grafting to the breast has increased, some investigators have raised the possibility that this procedure may potentially increase the risks associated with breast cancer. Their concerns included not only interference with cancer detection, but also promotion of tumor formation or recurrence mediated by mechanisms such as aromatase expression, angiogenesis, and tumor stromal cells. However, published clinical studies describing outcomes of fat grafting to the breast in more than 2000 patients have not reported any increase in new or recurrent cancers. The reason for this apparent disconnect may lie in the small sample sizes and relatively short follow-up, but it may also reside in the considerable gap between laboratory studies or theoretical considerations suggesting potential risks and the actual clinical practice. This review discusses potential risks of current and novel approaches to autologous fat grafting to the breast within the context of both the underlying science and clinical practice.

Stem Cells and the Art of Mesenchymal Maintenance

The most promising emergent medical technology of the early twenty-first century is stem-cell therapeutics. Traditionally, stem cells possess two important characteristics: the ability to undergo nearly unlimited self-renewal and the capability to differentiate into many (multipotent/pluripotent) or all (totipotent) mature cell phenotypes. The existence of stem cells and their ability to generate every tissue of the body during embryonic development has been known for many years. Transplant experiments performed in the 1970s, in which single stem cells were injected into early-stage blastulas, produced a chimera of donor and recipient cells in each organ of the resultant animal [29, 47].