1.Safety and efficacy of a novel non-invasive monopolar radiofrequency device for skin tightening in a porcine model in Republic of Korea: pre-clinical study
Jumi HONG ; Hye Guk RYU ; Jinyoung PARK ; Wanil KIM ; Sangjune KIM ; Soo Il CHUN
Medical Lasers 2025;14(4):215-222
Background:
Monopolar radiofrequency devices for facial skin tightening offer a promising non-invasive approach that targets the deep dermis to prompt immediate collagen contraction and subsequent remodeling.However, non-clinical evidence supporting the efficacy and mechanisms of action of these treatments remains limited, despite their increasing use. This study aimed to evaluate the effectiveness and safety of a dualfrequency non-invasive monopolar radiofrequency (NMRF) device using a porcine model, directly comparing a conventional 6.78 MHz setting with a dual-frequency (6.78 + 2 MHz) mode.
Methods:
Female porcine subjects were treated using an innovative NMRF device (XERF; Cynosure Lutronic Inc.). Efficacy was assessed histologically for up to 1 month. Safety was evaluated through thermal skinsurface monitoring and standard assessments.
Results:
When compared with 6.78 MHz alone, the dual-frequency (6.78 + 2 MHz) mode produced greater immediate thickening and shortening of deep dermal collagen bundles and more prominent remodeling of subcutaneous fibrous septa. At 1 month, the dual-frequency treatment yielded larger increases in dermal collagen density, more regular bundle alignment, and higher elastin signals. Surface temperature remained below 43ºC, and no tissue damage was observed following NMRF treatment.
Conclusion
Our research strongly indicates that immediate tissue contraction occurs following treatment and that dual-frequency application results in more substantial collagen reconstruction. In the long term, NMRF stimulates the production of new collagen and elastin. The dual-frequency mode enhances these effects, supporting its use in effective and safe skin tightening and rejuvenation.
2.rhBMP-2-Conjugated Three-Dimensional-Printed Poly(L-lactide) Scaffold is an Effective Bone Substitute
Yu Ri HONG ; Tae-Ho KIM ; Kyeong-Hyeon PARK ; Jumi KANG ; Kyueui LEE ; Eui Kyun PARK ; Tae-Geon KWON ; Jeong Ok LIM ; Chang-Wug OH
Tissue Engineering and Regenerative Medicine 2023;20(1):69-81
BACKGROUND:
Bone growth factors, particularly bone morphogenic protein-2 (BMP-2), are required for effective treatment of significant bone loss. Despite the extensive development of bone substitutes, much remains to be desired for wider application in clinical settings. The currently available bone substitutes cannot sustain prolonged BMP-2 release and are inconvenient to use. In this study, we developed a ready-to-use bone substitute by sequential conjugation of BMP to a three-dimensional (3D) poly(L-lactide) (PLLA) scaffold using novel molecular adhesive materials that reduced the operation time and sustained prolonged BMP release.
METHODS:
A 3D PLLA scaffold was printed and BMP-2 was conjugated with alginate-catechol and collagen. PLLA scaffolds were conjugated with different concentrations of BMP-2 and evaluated for bone regeneration in vitro and in vivo using a mouse calvarial model. The BMP-2 release kinetics were analyzed using ELISA. Histological analysis and microCT image analysis were performed to evaluate new bone formation.
RESULTS:
The 3D structure of the PLLA scaffold had a pore size of 400 lm and grid thickness of 187–230 lm. BMP-2 was released in an initial burst, followed by a sustained release for 14 days. Released BMP-2 maintained osteoinductivity in vitro and in vivo. Micro-computed tomography and histological findings demonstrate that the PLLA scaffold conjugated with 2 lg/ml of BMP-2 induced optimal bone regeneration.
CONCLUSION
The 3D-printed PLLA scaffold conjugated with BMP-2 enhanced bone regeneration, demonstrating its potential as a novel bone substitute.
3.Current Status and Prospects of Liquid Biopsy for Hepatocellular Carcinoma
The Korean Journal of Gastroenterology 2023;82(1):1-9
Hepatocellular carcinoma (HCC) is a leading cause of cancer-related deaths globally. Early detection and treatment response monitoring of HCC are vital for improved outcomes. Traditional diagnostic methods rely on imaging, serum tumor markers, and invasive liver tissue biopsy. The advent of liquid biopsy has revolutionized cancer diagnostics and management. Liquid biopsy involves the detection and analysis of tumor-derived components, such as circulating tumor DNA, circulating tumor cells, and extracellular vesicles, in various body fluids. These components reflect tumor characteristics, genetic alterations, and functional changes, providing valuable information for HCC diagnosis and treatment response monitoring. Liquid biopsy offers several advantages, including its non-invasive nature, potential for repetitive sampling, and real-time monitoring of disease progression and treatment response. However, challenges remain, including the sensitivity of detection methods, and standardization. In this review, we discuss the methods, current status, and prospects of liquid biopsy for HCC, highlighting its potential as a valuable tool in HCC management.
4.Licochalcone H Induces Cell Cycle Arrest and Apoptosis in Human Skin Cancer Cells by Modulating JAK2/STAT3 Signaling
Kyung-Ho PARK ; Sang Hoon JOO ; Ji-Hye SEO ; Jumi KIM ; Goo YOON ; Young-Joo JEON ; Mee-Hyun LEE ; Jung-Il CHAE ; Woo-Keun KIM ; Jung-Hyun SHIM
Biomolecules & Therapeutics 2022;30(1):72-79
Licochalcone H (LCH) is a phenolic compound synthetically derived from licochalcone C (LCC) that exerts anticancer activity. In this study, we investigated the anticancer activity of LCH in human skin cancer A375 and A431 cells. The 3-(4,5-dimethylthiazol-2-yl)-5-(3-carboxymethoxyphenyl)-2-(4-sulfophenyl)-2H-tetrazolium (MTS) cell viability assay was used to evaluate the antiproliferative activity of LCH. Cell cycle distribution and the induction of apoptosis were analyzed by flow cytometry. Western blotting assays were performed to detect the levels of proteins involved in cell cycle progression, apoptosis, and the JAK2/STAT3 signaling pathway. LCH inhibited the growth of cells in dose- and time-dependent manners. The annexin V/propidium iodide double staining assay revealed that LCH induced apoptosis, and the LCH-induced apoptosis was accompanied by cell cycle arrest in the G1 phase. Western blot analysis showed that the phosphorylation of JAK2 and STAT3 was decreased by treatment with LCH. The inhibition of the JAK2/STAT3 signaling pathway by pharmacological inhibitors against JAK2/STAT3 (cryptotanshinone (CTS) and S3I-201) simulated the antiproliferative effect of LCH suggesting that LCH induced apoptosis by modulating JAK2/STAT3 signaling.

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