• 한국생물공학회:학술대회논문집
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• 2002.04a
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• pp.59-61
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• 2002

The injury of meniscus, integral components of the knee joint, is a common sports-related problem and the most frequent injurγ to the knee joint.$^1$ This study was aimed to tissue-engineer meniscus in rabbit models. Cells isolated from rabbit meniscus were seeded onto meniscus-shaped, biodegradable polymer matrices and implanted to rabbit knee joints The tissue-engineered meniscus explanted at 6 and 10 weeks showed gross and histologic evidences similar to those of native meniscus. This study may lead to the development of tissue-engineered meniscus appropriate for clinical applications.

• Journal of the Korean Orthopaedic Association
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• v.54 no.6
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• pp.478-489
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• 2019

Osteoarthritis is a disease characterized by the progression of articular cartilage erosion, that increases pain during joint motion and reduces the ability to withstand mechanical stress, which in turn limits joint mobility and function. Damage to articular cartilage due to trauma or degenerative injury is considered a major cause of arthritis. Numerous studies and attempts have been made to regenerate articular cartilage. In the case of partial degenerative cartilage changes, microfracture and autologous chondrocyte implantation have been proposed as surgical treatment methods, but they have disadvantages such as insufficient mutual binding to the host cells, inaccurate cell delivery, and deterioration of healthy cartilage. Stem cell-based therapies have been developed to compensate for this. This review summarizes the drawbacks and consequences of various cartilage regeneration methods and describes the various attempts to treat cartilage damage. In addition, this review will discuss cartilage regeneration, particularly mesenchymal stem cell engineering-based therapies, and explore how to treat future cartilage regeneration using mesenchymal stem cells.

• Proceedings of the KOR-BRONCHOESO Conference
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• 1982.05a
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• pp.10.3-11
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• 1982

Recently through the advancement of medical and surgical managements and the development of low pressure cuffed endotracheal tube, incidence of tracheal stenosis was decreased significantly. Though its incidence was decreased markedly, stenosis was developted unfortunately in the situations such as long term use of respirator, heavy infection, trauma of the trachea and long term intubation etc. Tracheal stenosis had been handled with various methods such as mechanical dilatation, tissue graft techniques, luminal augumentation and end to end anastomosis due to their individual advantages but their effects were not satisfactory. In 1959 Lester had been found the regenerated cartilage from the perichondrium of the rib incidentaly. Since then Skoog, Sohn and Ohlsen were reported chondrogenic potential of perichondrium through the animal experiments. Though many different materials have been tried to rebuild stenosis and gaping defect of trachea, tracheal reconstruction has been a perplexing clinical problems. We choose the perichondrium as the graft material because cartilage is the normal supporting matrix of that structure and it will be an obvious advantage to be able to position perichondrium over a defect and obtain new cartilage there. The young rabbits, which were selected as our experimental animals, were sacrified from two to eight weeks after surgery. The results of our experiment were as follows; 1) In control group, the defect site of trachea was covered with fibrosis and vessels but graft site was covered with hypertrophied perichondrium and vessels. 2) Respiratory mucosa was completely regenerated in defect sites both control and grafted groups. 3) The histologic changes of the grafted sites were as follows: 2 weeks- microvessel dilatation, inflammatory reaction, initiation of fibrosis 4 weeks- decreased microvessel engorgement, submucosal fibrosis, decreased inflammatory reaction immatured cartilage island was noted in the grafted perichondrium (one specimen) 6 weeks- mild degree vascular engorgement submucosal fibrosis. chronic inflamatory reaction cartilage island and endochondrial ossification was noted in the grafted perichondrium (Two specimens) 8 weeks- minute vascular engorgement dense submucosal fibrosis. loss of inflammatory reaction. cartilage island was noted in the grafted perichondrium (two specimens) 4) There was no significant differences in regeneration between active surface in and out groups. 5) We observed immatured cartilage islands and endochondrial ossification in the perichondrial grafted groups where as such findings were not noted in control groups except fibrosis. We concluded that perichondrium was the adequate material for the reconstruction of defected trachea but our results was not sufficient in the aspect of chondrogenic potential of perichondrium. So further research has indicated possibility of chondrogenic potential of perichondrium.

• 한국생물공학회:학술대회논문집
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• 2003.10a
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• pp.761-762
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• 2003

Recently, several studies have reported on the successful repair of osteochondral defects by transplantation of cultured chondrocytes, but the method requires a sufficient number of cells obtained from the donor site in the articular cartilage. This can potentially be overcome by the use of undifferentiated or partially developed cartilage precursor cells drived from early embryos and fetal tissue. Neonatal cartilage unlike adult cartilage has the capacity for rapid regeneration. the purpose of this study is to determine effective regeneration method using early cartilage precursors for tissue-engineered cartilage. Cells isolated from neonatal (immediately postpartum, 2 hours of age) SD rats were seeded onto biodegradable polymer matrices and transplanted in nude mice's subcutaneous sites for 4 and 8 weeks. Tissue-engineered cartilage showed gross and histologic evidences similar to native articular cartilage.

• Journal of the Korean Orthopaedic Association
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• v.56 no.5
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• pp.404-412
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• 2021

Purpose: This study examined the degree of cartilage regeneration by performing second-look arthroscopy in a group of patients who underwent high tibial osteotomy and microfractures for unicompartmental osteoarthritis of the medial knee joint and to determine the factors affecting cartilage regeneration. In addition, this study analyzed whether there is a relationship between the degree of cartilage regeneration and functional results. Materials and Methods: From 2007 to 2015, this study evaluated 81 cases who underwent second-look arthroscopy at the time of plate removal after a microfracture and high tibial osteotomy with a minimum two-year follow-up. The degree of femoral cartilage injury before surgery was classified by ICRS (International Cartilage Research Society), and all were grade III and IV. After second-look arthroscopy, cartilage regeneration was classified into a well-regenerated group (grade I, II) and a poorly regenerated group (grade III, IV). The independent factors influencing cartilage regeneration were identified through multivariate logistic regression analysis. In addition, the functional results were compared before and after surgery between the two groups using the Knee Society score (KSS) and the Western Ontario and McMaster Universities Osteoarthritis Index score (WOMAC). Results: Age, sex, body mass index, postoperative radiologic factors, and preoperative joint condition did not affect the degree of cartilage regeneration significantly. The large cartilage defect (≥2.0 cm²) (p=0.011) and the presence of kissing lesions (p=0.027) were associated with poor cartilage regeneration. No significant difference in the KSS and WOMAC scores was observed between the group with good and poor cartilage regeneration. Conclusion: The presence of a large cartilage defect and kissing lesions is associated with poor cartilage regeneration after high tibial osteotomy and microfracture. On the other hand, the degree of the regenerated cartilage did not show any correlation with the functional outcome.

• Journal of Sericultural and Entomological Science
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• v.50 no.1
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• pp.15-19
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• 2012

A number of researcher have studied biomaterials for cartilage regeneration and are now proceeding. Silk protein was attempted for use as biomedical materials by many researchers because it is natural polymer with biocompatibility and excellent mechanical strength. In this study, we want to know a possibility of silk protein on the cartilage regeneration. We isolated chondrocytes from nasal cartilage and confirmed optimal culture condition of the cells. To observe the effects of silk fibroin on chondrogenesis, we added silk fibroin solutions to the culture medium of chondrocyte and detected gene expression levels related chondrogenesis such as col2, col10. The chondrocytes showed optimal growth when they were cultured in DMEM medium supplemented with 10% FBS 100 ${\cdot}{\ddot{I}}$M ascorbic acid. The levels of col2 gene expression were increased in non-autoclaved silk fibroin, but decreased in autoclaved one. Also the gene expression levels of col10 were increased in silk fibroin, particulary at 3D culture. Based on the results of this study, we had seen the possibility of silk fibroin for cartilage regeneration. In future studies, we should know more clearly the relationship between cartilage regeneration and the silk protein.

• Journal of the Korean Arthroscopy Society
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• v.12 no.3
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• pp.147-153
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• 2008

Several methods to resurface the lost cartilage of the knee have been used; multiple drilling, microfracture, abrasion arthroplasty. Resurfaced cartilages resulting from above techniques are mostly fibrocartilage. Autologous osteochondral graft transfer and autologous chondrocyte transfer are known to resurface the lost cartilage with mostly hyaline cartilage. This article reviews basic researches, indications, operative technique, and clinical results of autologous osteochondral graft transfer.

• Proceedings of the KOR-BRONCHOESO Conference
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• 1991.06a
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• pp.24-24
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• 1991

기관협착증은 이비인후과 영역에 있어서 치료가 어려운 질환중의 하나로 이의 재건에는 여러가지 자가조직이 각각의 장점에 따라 사용되어 왔지만 완전하고 만족할만한 결과를 얻지 못하는 실정이다. 저자들은 가토의 자가 늑연골 (1군) 및 늑연골막 (2군)을 이용한 기관 재건술을 시행하여 다음과 같은 결과를 얻었다. 1) 이식편은 술후 10주 (1군) 및 12주 (2군)에 흡수나 섬유조직으로의 대치는 없었으며, 기관강의 크기는 직상 하부의 정상기관과 큰 차이가 없었다. 2) 늑연골을 이식한 부위는 연골막의 내세포층에서 연골세포가 분화, 이동되어 절단된 연골사이로 이동하여 새로운 연골을 형성하였다. 3) 늑연골막을 이식한 부위는 연골막에서 형성된 연골세포 및 연골기질이 절단된 연골사이로 이동하여 새로운 연골을 형성하였다. 4)) 이식한 부위의 점막층은 점막재생이 이루어져 원주상피로 피복되었다. 5) 기관 전벽의 결손부위는 늑연골 및 늑연골막을 이용하여 성공적으로 재건되었다.

• Journal of Korean Orthopaedic Sports Medicine
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• v.4 no.1
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• pp.18-28
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• 2005

Purpose: The purpose of this study is to evaluate the clinical, radiological and histopathological results after microfracture surgery for degenerative arthritis of the knee. Materials and Methods: From Oct. 1997 to Dec. 1998, 48 knees in 46 patients were treated by microfracture technique. Their mean age at the time of operation was 56 years(range, 40-75 years) and mean period of follow-up study was one year(range, 7-20 months). For 24 knees in 22 patients, 'second-look' arthroscopies and biopsies were performed at 6 months following microfracture. At the last follow up clinical results were evaluated with Baumgaertner's scale. The specimens of 24 cases were stained with H-E, Safranin-O, and Masson's trichrome. Eighteen of 24 cases were stained immunohistochemically and the Western blotting test was performed on 12 cases for type II collagen. We analyzed the relationship of the Western blotting for type II collagen with clinical score, preoperative varus deformity, joint space widening in radiological result, extent of repaired articular cartilage in '2nd-look' arthroscopic findings, patient's age and weight. Results: Clinical results were excellent in 90% and good in 10%. Among the 24 knees, more than 80% of areas of chondral defect were covered with regenerated cartilage in 21 knees Histologically, the repaired tissue appears to be a hybrid of hyaline cartilage and fibrocartilage. Repaired cartilage contains variable amounts of type II collagen with immunohistochemical staining. The results of the Western blotting test were similar. The amounts of type II collagen formation had positive correlation with the extent of repaired cartilage and preoperative varus deformity. Conclusion: 'Second-look' showed that the chondral defect areas were covered with newly grown grayish white tissue. Articular cartilage repair was confirmed with histological and immunohisto-chemical study qualitatively, and the amount of type II collagen was calculated with the Western blotting test quantitatively. The exact nature and fate of repaired cartilagenous tissues need further long term follow-up study. The results of this study provide the rationale to select osteoarthritic patients indicated for microfracture surgery.

• Journal of the Korean Arthroscopy Society
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• v.3 no.2
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• pp.85-90
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• 1999

Purpose : The purpose of this study is to evaluate the clinical and histological results of the osteoarthritic patients who had second look arthroscopy after microfracture surgery. Materials and Methods : From Oct. 1997 to Dec. 1998, 46 patients, 48 knees were treated by microfracture technique. In the 22 patients, 24 knees, 'second-look' arthroscopies and biopsies were performed at 6 months following microfracture. Three patients were men and 19 patients were women. Average age of the patients were 58 years (range, 40-75 years). The average follow up period was 12 months(7-20 months). We analysed clinical results according to the nine-point scale. Also we observed type II collagen formation with immunohistochemical staining. Results : Clinical results were excellent in 83% and good in 17%. Among the 24 knees, more than 80% areas of chondral defect were covered with regenerated cartilage in 21 knees. Histologically, the regenerated tissue appears to be a hybrid of hyaline cartilage and fibrocartilage. Regenerated cartilage contains variable amount of type II collagen with immunohistochemical staining. Conclusion : Most of the patients had significant improvement clinically. 'Second-look' showed that the chondral defect areas were covered with newly grown grayish white tissue. Microfracture in the full thickness chondral defect provides and enriched environment for cartilaginous tissue regeneration.