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Journal Abstract Search

144 related items for PubMed ID: 18785582

  • 1. [The study of bipolar radiofrequency chondroplasty to cartilage injure of goats].
    Zhang J, Wang Y, Hou XK, Shi DW.
    Zhonghua Wai Ke Za Zhi; 2008 Mar 15; 46(6):446-9. PubMed ID: 18785582
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  • 2. Monopolar radiofrequency treatment of partial-thickness cartilage defects in the sheep knee joint leads to extended cartilage injury.
    Kääb MJ, Bail HJ, Rotter A, Mainil-Varlet P, apGwynn I, Weiler A.
    Am J Sports Med; 2005 Oct 15; 33(10):1472-8. PubMed ID: 16009983
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  • 3. The effect of monopolar radiofrequency energy on partial-thickness defects of articular cartilage.
    Lu Y, Hayashi K, Hecht P, Fanton GS, Thabit G, Cooley AJ, Edwards RB, Markel MD.
    Arthroscopy; 2000 Oct 15; 16(5):527-36. PubMed ID: 10882450
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  • 4. Thermal chondroplasty with radiofrequency energy. An in vitro comparison of bipolar and monopolar radiofrequency devices.
    Lu Y, Edwards RB, Cole BJ, Markel MD.
    Am J Sports Med; 2001 Oct 15; 29(1):42-9. PubMed ID: 11206255
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  • 7. In vitro effects of 3 common arthroscopic instruments on articular cartilage.
    Green LM, King JS, Bianski BM, Pink MM, Jobe CM.
    Arthroscopy; 2006 Mar 15; 22(3):300-7. PubMed ID: 16517315
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  • 8. Comparison of radiofrequency treatment and mechanical debridement of fibrillated cartilage in an equine model.
    Edwards RB, Lu Y, Cole BJ, Muir P, Markel MD.
    Vet Comp Orthop Traumatol; 2008 Mar 15; 21(1):41-8. PubMed ID: 18288343
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  • 10. Treatment of grade III femoral chondral lesions: mechanical chondroplasty versus monopolar radiofrequency probe.
    Barber FA, Iwasko NG.
    Arthroscopy; 2006 Dec 15; 22(12):1312-7. PubMed ID: 17157730
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  • 11. Working conditions of bipolar radiofrequency on human articular cartilage repair following thermal injury during arthroscopy.
    Huang Y, Zhang Y, Ding X, Liu S, Sun T.
    Chin Med J (Engl); 2014 Dec 15; 127(22):3881-6. PubMed ID: 25421185
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  • 12. One intra-articular injection of hyaluronan prevents cell death and improves cell metabolism in a model of injured articular cartilage in the rabbit.
    Jansen EJ, Emans PJ, Douw CM, Guldemond NA, Van Rhijn LW, Bulstra SK, Kuijer R.
    J Orthop Res; 2008 May 15; 26(5):624-30. PubMed ID: 18176946
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  • 13. In vivo study on the short-term effect of radiofrequency energy on chondromalacic patellar cartilage and its correlation with calcified cartilage pathology in an equine model.
    Uthamanthil RK, Edwards RB, Lu Y, Manley PA, Athanasiou KA, Markel MD.
    J Orthop Res; 2006 Apr 15; 24(4):716-24. PubMed ID: 16514662
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  • 14. Chondrocyte death in mechanically injured articular cartilage--the influence of extracellular calcium.
    Amin AK, Huntley JS, Bush PG, Simpson AH, Hall AC.
    J Orthop Res; 2009 Jun 15; 27(6):778-84. PubMed ID: 19030171
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  • 15. Thermal chondroplasty with bipolar and monopolar radiofrequency energy: effect of treatment time on chondrocyte death and surface contouring.
    Lu Y, Edwards RB, Nho S, Heiner JP, Cole BJ, Markel MD.
    Arthroscopy; 2002 Sep 15; 18(7):779-88. PubMed ID: 12209437
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  • 17. Thermometric determination of cartilage matrix temperatures during thermal chondroplasty: comparison of bipolar and monopolar radiofrequency devices.
    Edwards RB, Lu Y, Rodriguez E, Markel MD.
    Arthroscopy; 2002 Apr 15; 18(4):339-46. PubMed ID: 11951190
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  • 20. Lavage solution temperature influences depth of chondrocyte death and surface contouring during thermal chondroplasty with temperature-controlled monopolar radiofrequency energy.
    Lu Y, Edwards RB, Nho S, Cole BJ, Markel MD.
    Am J Sports Med; 2002 Apr 15; 30(5):667-73. PubMed ID: 12238999
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