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High-resolution 3-D scanning electron microscopy (SEM) images of DOT™ polynucleotides (PN): Unique scaffold characteristics and potential applications in biomedicine

Authors
 Kim, Michael James  ;  Park, Hyun-Jun  ;  Jung, Rae-Jun  ;  Won, Chee-Youb  ;  Ohk, Seul-Ong  ;  Kim, Hong-Taek  ;  Roh, Nark-Kyung  ;  Yi, Kyu-Ho 
Citation
 SKIN RESEARCH AND TECHNOLOGY, Vol.30(4), 2024-04 
Article Number
 e13667 
Journal Title
SKIN RESEARCH AND TECHNOLOGY
ISSN
 0909-752X 
Issue Date
2024-04
Keywords
polydeoxyribonucleotide ; Polynucleotide ; scaffold ; scanning electron microscopy
Abstract
Introduction: Polynucleotides (PN) are becoming more prominent in aesthetic medicine. However, the structural characteristics of PN have not been published and PN from different companies may have different structural characteristics. This study aimed to elucidate the structural attributes of DOT (TM) PN and distinguish differences with polydeoxyribonucleotides (PDRN) using high-resolution scanning electron microscopy (SEM) imaging. Materials and methods: DOT (TM) PN was examined using a Quanta 3-D field emission gun (FEG) Scanning Electron Microscope (SEM). Sample preparation involved cryogenic cooling, cleavage, etching, and metal coating to facilitate high-resolution imaging. Cryo-FIB/SEM techniques were employed for in-depth structural analysis. Results: PDRN exhibited an amorphous structure without distinct features. In contrast, DOT (TM) PN displayed well-defined polyhedral shapes with smooth, uniformly thick walls. These cells were empty, with diameters ranging from 3 to 8 micrometers, forming a seamless tessellation pattern. Discussion: DOT (TM) PN's distinct geometric tessellation design conforms to the principles of biotensegrity, providing both structural reinforcement and integrity. The presence of delicate partitions and vacant compartments hints at possible uses in the field of pharmaceutical delivery systems. Within the realms of beauty enhancement and regenerative medicine, DOT (TM) PN's capacity to bolster cell growth and tissue mending could potentially transform approaches to rejuvenation treatments. Its adaptability becomes apparent when considering its contributions to drug administration and surgical procedures. Conclusion: This study unveils the intricate structural scaffold features of DOT (TM) PN for the first time, setting it apart from PDRN and inspiring innovation in biomedicine and materials science. DOT (TM) PN's unique attributes open doors to potential applications across healthcare and beyond.
DOI
10.1111/srt.13667
Appears in Collections:
7. Others (기타) > Others (기타) > 1. Journal Papers
URI
https://ir.ymlib.yonsei.ac.kr/handle/22282913/201973
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