1.Pattern of immune deposits in articular cartilage.
Dae Hyun YOO ; Sung Soo JUNG ; In Hong LEE ; Sang Cheol BAE ; Seong Yoon KIM ; Think You KIM ; Hyun Kee CHUNG ; Il Yong CHOI
Korean Journal of Medicine 1993;45(6):788-794
No abstract available.
Cartilage, Articular*
2.Cell-based therapy for the treatment of focal articular cartilage lesions: a review of six years of studies in a Malaysian University Medical Centre
Journal of University of Malaya Medical Centre 2014;17(2):1-11
Autologous chondrocyte implantation (ACI) is a significant technique that has gained widespread use for the
treatment of focal articular cartilage damage. Since its inception in 2004, the Tissue Engineering Group (TEG)
of the Faculty of Medicine, University Malaya has been dedicated to carrying out extensive research on this
cell-based therapy. The objective of this report, comprising one clinical case report, six animal studies and
one laboratory study, is to summarise and discuss TEG’s key findings. On the whole, we observed that the
ACI technique was effective in regenerating hyaline-like cartilage in treated defects. Autologous chondrocytes
and mesenchymal stem cells (MSC) were found to produce comparable tissue repair irrespective of the state
of MSC differentiation, and the use of alginate-based scaffolding and oral pharmacotherapy (Glucosamine
and Chondroitin Sulphate) was shown to enhance ACI-led tissue repair. ACI is suggested to be an efficient
therapeutic option for the treatment of articular cartilage defects of the knee.
Cartilage, Articular
3.Correlation of Laminated MR Appearance of Artcular Cartilage with Histology.
Dong Joon KIM ; Jin Suck SUH ; Eun Kee JEONG ; Kyu Ho SHIN ; Woo Ick YANG
Journal of the Korean Radiological Society 1999;40(2):355-361
PURPOSE: To determine the correlation of laminae of different signal intensities (SI) of articular cartilage,as seen on magnetic resonance (MR) imaging with histologic layes, using artificially constructed landmarks. MATERIALS AND METHODS: For a landmark that can exactly correlate the cartilage specimen with the MR image, five'V'-shaped markings of different depths were made on the surface of bovine patella. Both T1-weighted (TR/TE :300/14) and FSE T2-weighted images (TR/TE : 2000/53) were obtained on a 1.5T system with high gradient echostrength (25mT/m) and a voxel size of 78x78x2000 micrometer. Images were obtained with 1) changed frequency-encodingdirections on T1-weighted study, and 2) changed readout gradient strength (x2, x1/2) on T2-weighted sequence.Raw image data were transferred to a workstation and signal intensity profile was generated for each image. 1 : 1correlation of histologic specimens and MR images was performed. RESULTS: Line Profile through the cartilageshowed few peaks, suggesting changes in signal intensity profile in the cartilage. On the basis of artificiallandmarks, the histologic zone was accurately identified. The histologic tangential and transitional zonescorrelated with superficial high SI on T1WI, as well as high and low SII on T2WI. On T1WI, the radial zonecorrelated with a lamina of intermediate SI, and on T2WI, with a lamina for which SI gradually decreased from highto low. Additional well-defined low and intermediate SI bands were noted on bovine T1WI in the lower radial zone.In both T1 and T2 studies, calcified cartilage layers were of low SI. On T1-weighted study, changes in thedirection of frequency gradient did not lead to changes in the laminae. The alteration of readout gradientstrengths did not result in an inversely proportional difference in the thickness of the laminae. These becamemore distinct thus ruling out chemical shift and susceptibility artifacts. CONCLUSION: The laminated appearanceof articular cartilage, as seen on spin echo and fast spin-echo MR images, correlated with histologic layersrather than susceptibility or chemical shift artifacts.
Artifacts
;
Cartilage*
;
Cartilage, Articular
;
Patella
4.Treatment of Articular Cartilage Injury Using Mesenchymal Stem Cells.
Sung Ryeoll PARK ; Seok Jung KIM
Journal of Korean Orthopaedic Research Society 2015;18(1):18-24
Articular cartilage lesions can be a debilitating disease resulting in the development of osteoarthritis (OA). In recent years, mesenchymal stem cell (MSC) strategies combined with the microfracture technique are emerging as a powerful tool for cartilage repair. Even though there are some successful reports of MSCs treatments, many aspects have to be optimized such as best cell source and application method. The interest in this field is growing and randomized controlled trials are needed to show the potential of MSC treatment.
Cartilage
;
Cartilage, Articular*
;
Mesenchymal Stromal Cells*
;
Osteoarthritis
5.An experimental study on the healing process of the damaged articular cartilage after removal and replantation of the mandibular condyle.
Journal of the Korean Association of Oral and Maxillofacial Surgeons 1991;17(4):46-54
No abstract available.
Cartilage, Articular*
;
Mandibular Condyle*
;
Replantation*
6.An experimental study on the healing process of the damaged articular cartilage after removal and replantation of the mandibular condyle.
Journal of the Korean Association of Oral and Maxillofacial Surgeons 1991;17(4):46-54
No abstract available.
Cartilage, Articular*
;
Mandibular Condyle*
;
Replantation*
7.Study on transport of small molecule rhodamine B within different layers of cartilage.
Zhou QUAN ; Yansong TAN ; Lilan GAO ; Yanping SHI ; Ruixin LI ; Chunqiu ZHANG
Journal of Biomedical Engineering 2022;39(6):1149-1157
The small molecule nutrients and cell growth factors required for the normal metabolism of chondrocyte mainly transport into the cartilage through free diffusion. However, the specific mass transfer law in the cartilage remains to be studied. In this study, using small molecule rhodamine B as tracer, the mass transfer models of cartilage were built under different pathways including surface pathway, lateral pathway and composite pathway. Sections of cartilage at different mass transfer times were observed by using laser confocal microscopy and the transport law of small molecules within different layers of cartilage was studied. The results showed that rhodamine B diffused into the whole cartilage layer through surface pathway within 2 h. The fluorescence intensity in the whole cartilage layer increased with the increase of mass transfer time. Compared to mass transfer of 2 h, the mean fluorescence intensity in the superficial, middle, and deep layers of cartilage increased by 1.83, 1.95, and 3.64 times, respectively, after 24 h of mass transfer. Under lateral path condition, rhodamine B was transported along the cartilage width, and the molecular transport distance increased with increasing mass transfer time. It is noted that rhodamine B could be transported to 2 mm away from cartilage side after 24 h of mass transfer. The effect of mass transfer under the composite path was better than those under the surface path and the lateral path, and especially the mass transfer in the deep layer of cartilage was improved. This study may provide a reference for the treatment and repair of cartilage injury.
Cartilage, Articular
;
Rhodamines/pharmacology*
;
Chondrocytes
8.Effect of Culture Condition on Chondrocyte Viability Isolated from Articular Cartilage.
Sang Gyung KIM ; Jung Yoon CHOE ; Chang Hyuk CHOI ; Gi Hwan CHOI ; Jong Ki KIM
The Korean Journal of Laboratory Medicine 2004;24(4):237-243
BACKGROUND: Recent advance in tissue engineering in the biomedical field shed light on the replacement or regeneration of various organs with synthetic substitutes. Currently emerging cartilage tissue engineering therapies involve artificial cartilage fabricated from three dimensional cultures using appro-priate scaffolds. It is mandatory to expand or proliferate the chondrocytes in vitro to prepare the artificial cartilage. The purpose of this study was to find out the most favorable culture conditions for chon-drocyte viability in vitro. METHODS: Articulr chondrocytes or cartilage explants were isolated from the patellofemoral groove of adult pigs. And then we standardized the size and thickness of the cartilage explants as well as preparing alginate-chondrocyte beads for three-dimensional cultures. The cartilage explants, including 10% fetal bovine serum for 10 days, 36 days and passage 6. Cellualr viability was measured by methylthiazol tetrazolium (MTT) assay on monolayer, alginate bead and cartilage explant. SPSS 11.5 was used for data anaylsis. RESULTS: Chondrocytes cultured on monolayers in vitro showed no significant difference in cellular viability until passage 6 following isolation from the patellofemoral groove of adult pigs (P>0.05, n=4). Chondrocyte viability was markedly increased by day 16 both in the monolayer (148%) and three dimensional cultures (245%), and then slightly decreased 126% and 200%, respectively, at day 36. Three dimensional cultures using alginate bead were more favorable for chodrocyte viability than monolayer culture in chondrocyte primary culture (P=0.003, n=6). Chondrocyte viability in the algi-nate bead was increased 300% during 36 days' incubation period (P=0.001, n=3). Cellular viability in the cartilage explant culture was decreased after day 4 in both MTT score (P=0.022, n=10) and MTT OD (P=0.039, n=10). CONCLUSIONS: Three dimensional cultures using alginate bead were the most favorable for chon-drocyte viability in chondrocyte primary cultures.
Adult
;
Cartilage
;
Cartilage, Articular*
;
Chondrocytes*
;
Humans
;
Regeneration
;
Swine
;
Tissue Engineering
9.MR Imaging of Articular Cartilage: Comparison of Magnetization Transfer Contrast and Fat - Suppression inMultiplanar and 3D Gradient-Echo, Spin-Echo, Turbo Spin-Echo Techniques.
Young Joon LEE ; Eun Young JOO ; Choong Ki EUN
Journal of the Korean Radiological Society 1999;40(3):577-584
PURPOSE: The purpose of this study was to evaluate the effects of magnetization transfer contrast(MTC) andfat-suppression(FS) in variable spin-echo and gradient-echo sequences for articular cartilage imaging and todetermine the optimal pulse sequences. MATERIALS AND METHODS: Using variable 7-pulse sequences, the knees of 15pigs were imaged Axial images were obtained using proton density and T2-weighted spin-echo (PDWSE and T2WSE),turbo spin-echo (TSE), multiplanar gradient-echo (MPGR), and 3D steady-state gradient-echo (3DGRE) sequences, andthe same pulse sequences were then repeated using MTC. Also T1-weighted spin-echo(T1WSE) and 3D spoiledgradient-echo(3DSPGR) images of knees were also acquired, and the procedure was repeated using FS. For each knee,a total of 14 axial images were acquired, and using a 6-band scoring system, the visibility of and thevisibilities of the the articular cartilage was analyzed. The visual effect of MTC and FS was scored using a4-band scale. For each image, the signal intensities of articular cartilage, subchondral bone, muscles, and salinewere measured, and signal-to-noise ratios(SNR) and contrast-to-noise ratios(CNR) were also calculated. RESULTS: Visibility of the cartilage was best when 3DSPGR and T1WSE sequences were used. MTC imaging increased the negativecontrast between cartilage and saline, but FS imaging provided more positive contrast. CNR between cartilage andsaline was highest when using TSE with FS(-3 5 1 . 1 +/-15.3), though CNR between cartilage and bone then fell to-1 4 . 7 +/-10.8. In MTC imaging using MPGR showed the greatest increase of negative contrast between cartilage andsaline(CNR change=-74.7); the next highest was when 3DGRE was used(CNR change=-34.3). CNR between cartilage andbone was highest with MPGR(161.9 +/-17.7), but with MTC, the greatest CNR decrease(-81.8) was observed. Thegreatest CNR increase between cartilage and bone was noted in T1WSE with FS. In all scans, FS provided acartilage-only positive contrast image, though the absolute value of CNR was lower than that of MTC imaging. CONCLUSION: The most prominent effects of MTC and FS were seen in MPGR and T1WSE, respectively, though forcartilage, optimal high signal intensity and contrast can be achieved using 3DGRE with MTC, and 3DSPGR with FS.
Cartilage
;
Cartilage, Articular*
;
Knee
;
Magnetic Resonance Imaging*
;
Muscles
;
Protons
10.Autologous Chondrocyte Implantation for Articular Cartilage Defect of Femoral Condyle.
Chol SONG ; Jung Man KIM ; Byeong Yoon SUNG ; Yoon Bae KONG ; Ki Hang RA
The Journal of the Korean Orthopaedic Association 2009;44(2):210-218
PURPOSE: To evaluate the midterm clinical and histological results after autologous chondrocyte implantation (ACI) for an articular cartilage defect of the distal femoral condyle. MATERIALS AND METHODS: Twenty four cases with an articular cartilage defect (Outerbridge grade IV) of the femoral condyle that was confirmed by MRI and the arthroscopic findings underwent ACI. Their mean age at the time of surgery was 42.8 years and the mean follow-up period was 53.2 months (range, 20-82 months). At the last follow up, the articular cartilage view (SPGR) of MRI was examined and the clinical results were evaluated using the HSS and Lysholm scores. In 8 cases, second-look arthroscopy and biopsy were performed and evaluated using histological and histochemical methods. RESULTS: All cases except for one showed well-regenerated articular cartilage on MRI. All cases showed significant clinical improvement in the HSS and Lysholm scores (p<0.0001), with the exception of the Lysholm score of an articular cartilage fracture. Histologically, the regenerated tissue appeared to be a hyaline-like cartilage in all specimens. CONCLUSION: ACI for the treatment of articular cartilage defects of the distal femoral condyle showed a good clinical and MRI results. In OA, the clinical results were relatively acceptable after an associated high tibial valgus osteotomy. However, a longer term follow-up study will be needed to reach a final conclusion.
Arthroscopy
;
Biopsy
;
Cartilage
;
Cartilage, Articular
;
Chondrocytes
;
Follow-Up Studies
;
Osteotomy