Byung Ho Shin scite author profile

BackgroundSilicone implants are biomaterials that are frequently used in the medical industry due to their physiological inertness and low toxicity. However, capsular contracture remains a concern in long-term transplantation. To date, several studies have been conducted to overcome this problem. This review summarizes and explores these trends.Main bodyFirst, we examined the overall foreign body response from initial inflammation to fibrosis capsule formation in detail and introduced various studies to overcome capsular contracture. Secondly, we introduced that the main research approaches are to inhibit fibrosis with anti-inflammatory drugs or antibiotics, to control the topography of the surface of silicone implants, and to administer plasma treatment. Each study examined aspects of the various mechanisms by which capsular contracture could occur, and addressed the effects of inhibiting fibrosis.ConclusionThis review introduces various silicone surface modification methods to date and examines their limitations. This review will help identify new directions in inhibiting the fibrosis of silicone implants.

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Dual surface modification of PDMS-based silicone implants to suppress capsular contracture

Yoo

Kim

Lee

et al. 2018

Acta Biomaterialia

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Soft implantable device with drug-diffusion channels for the controlled release of diclofenac

Kim

Lee

et al. 2020

Journal of Controlled Release

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Development of Poly(HEMA-Am) Polymer Hydrogel Filler for Soft Tissue Reconstruction by Facile Polymerization

et al. 2018

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The number of breast reconstruction surgeries has been increasing due to the increase in mastectomies. Surgical implants (the standard polydimethylsiloxane (PDMS) implants) are widely used to reconstruct breast tissues, however, it can cause problems such as adverse immune reactions, fibrosis, rupture, and additional surgery. Hence, polymeric fillers have recently garnered increasing attention as strong alternatives for breast reconstruction materials. Polymeric fillers offer noninvasive methods of reconstruction, thereby reducing the possible adverse effects and simplifying the treatment. In this study, we synthesized a 2-hydroxylethylmethacrylate (HEMA) and acrylamide (Am) copolymer (Poly(HEMA-Am)) by redox polymerization to be used as a biocompatible filler material for breast reconstruction. The synthesized hydrogel swelled in phosphate buffered saline (PBS) shows an average modulus of 50 Pa, which is a characteristic similar to that of the standard dermal acrylamide filler. To investigate the biocompatibility and cytotoxicity of the Poly(HEMA-Am) hydrogel, we evaluated an in vitro cytotoxicity assay on human fibroblasts (hFBs) and human adipose-derived stem cells (hADSCs) with the hydrogel eluate, and confirmed a cell viability of over 80% of the cell viability with the Poly(HEMA-Am) hydrogel. These results suggest our polymeric hydrogel is a promising filler material in soft tissue augmentation including breast reconstruction.

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Efficacy study of the new polycaprolactone thread compared with other commercialized threads in a murine model

Cho

Shin

Heo

et al. 2021

J of Cosmetic Dermatology

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Background Polydioxanone (PDO) threads, poly‐L‐lactic acid (PLLA) threads, and polycaprolactone (PCL) threads have been used for lifting and antiaging purposes. The new PCL threads that have less residual monomer compared to the previous PCL are developed. Aims The efficacy of threads regarding collagen synthesis and wrinkle improvement was evaluated in vivo model. Methods In this study, threads were inserted into 30 six‐week‐old male SKH‐1 hairless mice. One of four threads was implanted at either side of the spine of each mouse. Biopsy specimens obtained at 1, 4, and 8 weeks were examined using hematoxylin and eosin (H&E) and Herovici's stain. Additionally, immunoblot analysis was performed using primary antibody for collagen type III and transforming growth factor‐β (TGF‐β) and visualized by chemiluminescence and densitometric quantification. Finally, skin replicas were used to calculate total wrinkle area (mm2). Results Neocollagenesis was significantly increased by 50% in the new PCL and pre‐existing PCL groups at 8 weeks (p value < 0.001). Additionally, new‐PCL‐implanted mice showed a significant increase in collagen type III and TGF‐β expressions at 8 weeks (p value < 0.001). The number of inflammatory cells was also increased in the skin of PCL‐implanted mice at 8 weeks. Finally, wrinkles were reduced about 20% in the new PCL group at 8 weeks. Conclusions The new PCL thread exhibited a superior skin rejuvenation effect. This suggests that the material processing technology can be applied not only to the thread but also to various products such as dermal filler and cosmetics.

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Byung Ho Shin

Silicone breast implant modification review: overcoming capsular contracture

Dual surface modification of PDMS-based silicone implants to suppress capsular contracture

Soft implantable device with drug-diffusion channels for the controlled release of diclofenac

Development of Poly(HEMA-Am) Polymer Hydrogel Filler for Soft Tissue Reconstruction by Facile Polymerization

Efficacy study of the new polycaprolactone thread compared with other commercialized threads in a murine model

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