In vivo tracking of adipose tissue grafts with cadmium-telluride quantum dots

Background Fat grafting, or lipofilling, represent frequent clinically used entities. The fate of these transplants is still not predictable, whereas only few animal models are available for further research. Quantum dots (QDs) are semiconductor nanocrystals which can be conveniently tracked in vivo...

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Published in:Archives of plastic surgery 2018, 45(2), , pp.111-117
Main Authors: Deglmann, Claus J., Błażków-Schmalzbauer, Katarzyna, Moorkamp, Sarah, Wallmichrath, Jens, Giunta, Riccardo E., Rogach, Andrey L., Wagner, Ernst, Baumeister, Ruediger G., Ogris, Manfred
Format: Article
Language:English
Subjects:
adipocytes
adipose tissue
Original
Original Article
quantum dots
transplantation
성형외과학
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Summary:Background Fat grafting, or lipofilling, represent frequent clinically used entities. The fate of these transplants is still not predictable, whereas only few animal models are available for further research. Quantum dots (QDs) are semiconductor nanocrystals which can be conveniently tracked in vivo due to photoluminescence. Methods Fat grafts in cluster form were labeled with cadmium-telluride (CdTe)-QD 770 and transplanted subcutaneously in a murine in vivo model. Photoluminescence levels were serially followed in vivo . Results Tracing of fat grafts was possible for 50 days with CdTe-QD 770. The remaining photoluminescence was 4.9%±2.5% for the QDs marked fat grafts after 30 days and 4.2%± 1.7% after 50 days. There was no significant correlation in the relative course of the tracking signal, when vital fat transplants were compared to non-vital graft controls. Conclusions For the first-time fat grafts were tracked in vivo with CdTe-QDs. CdTe-QDs could offer a new option for in vivo tracking of fat grafts for at least 50 days, but do not document vitality of the grafts.
ISSN:2234-6163
2234-6171
DOI:10.5999/aps.2017.01487