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      정형외과 수술에서 골대체제로써 Beta-Tricalcium Phosphate 사용에 대한 방사선학적 결과 = Radiologic Outcome of Beta-Tricalcium Phosphate as a Bone Substitute in Orthopaedic Surgery

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      https://www.riss.kr/link?id=A106502195

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      Objectives: To analyze the radiologic results of patients treated with bone defects treated with beta-tricalcium phostphate (β-TCP) in orthopedic surgery. Methods: Medical records of 49 patients, consisting of 24 (49.0%) men and 25 (51.0%) women were retrospectively reviewed. Graft incorporation was evaluated based on Irwin’s radiologic staging. Results: The explanatory power of the total regression equation in Irwin’s stage at 3 months postoperatively according to three explanatory variables, namely graft tightness, age at diagnosis, and lesion volume, was 65.6%; the explanatory power of Irwin’s stage at 6 months postoperatively according to two variables, namely lesion volume and graft tightness, was 32.9%; and the explanatory power of Irwin’s stage at 9 months postoperatively for two variables, namely longitudinal lesion length and graft tightness in the total regression, was 30.8%. Conclusions: Graft tightness, lesion volume, age at diagnosis, and longitudinal lesion length are the common factors affecting graft incorporation.
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      Objectives: To analyze the radiologic results of patients treated with bone defects treated with beta-tricalcium phostphate (β-TCP) in orthopedic surgery. Methods: Medical records of 49 patients, consisting of 24 (49.0%) men and 25 (51.0%) women were...

      Objectives: To analyze the radiologic results of patients treated with bone defects treated with beta-tricalcium phostphate (β-TCP) in orthopedic surgery. Methods: Medical records of 49 patients, consisting of 24 (49.0%) men and 25 (51.0%) women were retrospectively reviewed. Graft incorporation was evaluated based on Irwin’s radiologic staging. Results: The explanatory power of the total regression equation in Irwin’s stage at 3 months postoperatively according to three explanatory variables, namely graft tightness, age at diagnosis, and lesion volume, was 65.6%; the explanatory power of Irwin’s stage at 6 months postoperatively according to two variables, namely lesion volume and graft tightness, was 32.9%; and the explanatory power of Irwin’s stage at 9 months postoperatively for two variables, namely longitudinal lesion length and graft tightness in the total regression, was 30.8%. Conclusions: Graft tightness, lesion volume, age at diagnosis, and longitudinal lesion length are the common factors affecting graft incorporation.

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      참고문헌 (Reference)

      1 최금자, "폐경 후 연령대별 골밀도 영향 요인" 보건의료산업학회 11 (11): 145-155, 2017

      2 G. Daculsi, "Transformation of biphasic calcium phosphate ceramics in vivo: ultrastructural and physicochemical characterization" 23 (23): 883-894, 1989

      3 S.P. Pilipchuk, "Tissue engineering for bone regeneration and osseointegration in the oral cavity" 31 (31): 317-338, 2015

      4 Y. Nishida, "Surgical treatment for fibrous dysplasia of femoral neck with mild but prolonged symptoms: a case series" 10 (10): 1-7, 2015

      5 S.R. Motamedian, "Smart scaffolds in bone tissue engineering: A systematic review of literature" 7 (7): 657-668, 2015

      6 Hoon-Sang Sohn, "Review of bone graft and bone substitutes with an emphasis on fracture surgeries" 한국생체재료학회 23 (23): 92-98, 2019

      7 S.R. Motamedian, "Response of Dental Pulp Stem Cells to Synthetic, Allograft, and Xenograft Bone Scaffolds" 37 (37): 49-59, 2017

      8 S. Zwingenberger, "Recommendations and considerations for the use of biologics in orthopedic surgery" 26 (26): 245-256, 2012

      9 V. Karageorgiou, "Porosity of 3D biomaterial scaffolds and osteogenesis" 26 (26): 5474-5491, 2005

      10 H.C. Schroder, "Polyphosphate in bone" 65 (65): 296-303, 2000

      1 최금자, "폐경 후 연령대별 골밀도 영향 요인" 보건의료산업학회 11 (11): 145-155, 2017

      2 G. Daculsi, "Transformation of biphasic calcium phosphate ceramics in vivo: ultrastructural and physicochemical characterization" 23 (23): 883-894, 1989

      3 S.P. Pilipchuk, "Tissue engineering for bone regeneration and osseointegration in the oral cavity" 31 (31): 317-338, 2015

      4 Y. Nishida, "Surgical treatment for fibrous dysplasia of femoral neck with mild but prolonged symptoms: a case series" 10 (10): 1-7, 2015

      5 S.R. Motamedian, "Smart scaffolds in bone tissue engineering: A systematic review of literature" 7 (7): 657-668, 2015

      6 Hoon-Sang Sohn, "Review of bone graft and bone substitutes with an emphasis on fracture surgeries" 한국생체재료학회 23 (23): 92-98, 2019

      7 S.R. Motamedian, "Response of Dental Pulp Stem Cells to Synthetic, Allograft, and Xenograft Bone Scaffolds" 37 (37): 49-59, 2017

      8 S. Zwingenberger, "Recommendations and considerations for the use of biologics in orthopedic surgery" 26 (26): 245-256, 2012

      9 V. Karageorgiou, "Porosity of 3D biomaterial scaffolds and osteogenesis" 26 (26): 5474-5491, 2005

      10 H.C. Schroder, "Polyphosphate in bone" 65 (65): 296-303, 2000

      11 K. Nagahara, "Osteogenesis of hydroxyapatite and tricalcium phosphate used as a bone substitute" 7 (7): 72-79, 1992

      12 S. Wenisch, "In vivo mechanisms of hydroxyapatite ceramic degradation by osteoclasts: fine structural microscopy" 67 (67): 713-718, 2003

      13 T. Lindner, "Fractures of the hip and osteoporosis: the role of bone substitutes" 91 (91): 294-303, 2009

      14 T.A. Damron, "Evidence of Negative Effects of Defect Size and Older Patient Age by Quantitative CT-Based 3D Image Analysis in Ultraporous Beta-Tricalcium Phosphate Grafted Extremity Bone Defects at One Year" 2018 : 1-9, 2018

      15 M. Chazono, "Electron microscopic study on bone formation and bioresorption after implantation of beta-tricalcium phosphate in rabbit models" 13 (13): 550-555, 2008

      16 R.B. Irwin, "Coralline hydroxyapatite as bone substitute in orthopedic oncology" 30 (30): 544-550, 2001

      17 K.J. Oh, "Comparison of osteoconductivity and absorbability of beta-tricalcium phosphate and hydroxyapatite in clinical scenario of opening wedge high tibial osteotomy" 27 (27): 179-, 2016

      18 정학순, "Clinical Outcome of Beta-Tricalcium Phosphate Use for Bone Defects after Operative Treatment of Benign Tumors" 대한정형외과학회 11 (11): 233-236, 2019

      19 S.E. Emery, "Ceramic anterior spinal fusion. Biologic and biomechanical comparison in a canine model" 21 (21): 2713-2719, 1996

      20 V. Campana, "Bone substitutes in orthopaedic surgery: from basic science to clinical practice" 25 (25): 2445-2461, 2014

      21 T. Tanaka, "Bone formation and resorption in patients after implantation of beta-tricalcium phosphate blocks with 60% and 75% porosity in opening-wedge high tibial osteotomy" 86 (86): 453-459, 2008

      22 R.S. Gali, "Autogenous Bone Marrow Aspirate Coated Synthetic Hydroxyapatite for Reconstruction of Maxillo-Mandibular Osseous Defects: A Prospective Study" 16 (16): 71-78, 2017

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      2027 평가예정 재인증평가 신청대상 (재인증)
      2021-01-01 평가 등재학술지 유지 (재인증) KCI등재
      2018-01-01 평가 등재학술지 유지 (등재유지) KCI등재
      2015-01-01 평가 등재학술지 선정 (계속평가) KCI등재
      2013-01-01 평가 등재후보학술지 유지 (기타) KCI등재후보
      2012-01-01 평가 등재후보학술지 유지 (기타) KCI등재후보
      2010-06-21 학회명변경 한글명 : 의료경영학회 -> 보건의료산업학회 KCI등재후보
      2010-01-01 평가 등재후보학술지 선정 (신규평가) KCI등재후보
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