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Archives of Orthopaedic and Trauma Surgery

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09.04.2016 | Orthopaedic Surgery

Cartilage repair surgery for full-thickness defects of the knee in Germany: indications and epidemiological data from the German Cartilage Registry (KnorpelRegister DGOU)

verfasst von: Philipp Niemeyer, Matthias J. Feucht, Jürgen Fritz, Dirk Albrecht, Gunter Spahn, Peter Angele

Erschienen in: Archives of Orthopaedic and Trauma Surgery | Ausgabe 7/2016

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Abstract

Purpose

Treatment of cartilage defects of the knee remains an important issue with high relevance. In October 2013 the German Cartilage Registry (KnorpelRegister DGOU) was initiated in order to study indications, epidemiology and (clinical) outcome of different cartilage repair techniques. The present evaluation of the registry baseline data was initiated to report common practices of cartilage repair surgery in Germany.

Materials and methods

1065 consecutive patients who underwent surgical cartilage treatment of the knee have been included (complete data sets available in 1027 cases; FU rate 96.4 %) between October 1, 2013 and June 30, 2015. Data collection was performed using a web-based RDE System. All data were provided by the attending physician at the time of arthroscopic or open surgery of the affected knee.

Results

In 1027 cartilage repair procedures, single defects were treated in 80 % of the cases with the majority of the defects located on the medial femoral condyle, followed by the patella. Degenerative defects grade III or IV according to ICRS were treated in 60 % of the cases and therefore were found more frequently compared to traumatic or post-traumatic lesions. Autologous chondrocyte implantation (ACI) was the most common technique followed by bone marrow stimulation (BMS) and osteochondral transplantation (OCT). While ACI was performed in defects with a mean size of 4.11 cm² SD SD 2.16), BMS and OCT (1.51 cm², SD 1.19; p < 0.01) were applied in significantly smaller defects (both p < 0.01). Independent of defect size, the ratio of ACI versus BMS applications differed between different defect locations. ACI was used preferably in defects located on the patella.

Conclusion

The present analysis of data from the German Cartilage Registry shows that the vast majority of cartilage repair procedures were applied in degenerative, non-traumatic cartilage defects. Experts in Germany seem to follow the national and international guidelines in terms that bone marrow stimulation is applied in smaller cartilage defects while cell-based therapies are used for the treatment of larger cartilage defects. In patellar cartilage defects a trend towards the use of cell-based therapies has been observed.

Basad E, Ishaque B, Bachmann G, Sturz H, Steinmeyer J (2010) Matrix-induced autologous chondrocyte implantation versus microfracture in the treatment of cartilage defects of the knee: a 2-year randomised study. Knee Surg Sports Traumatol Arthrosc 18(4):519–527CrossRefPubMed

Becher C, Ettinger M, Ezechieli M, Kaps C, Ewig M, Smith T (2015) Repair of retropatellar cartilage defects in the knee with microfracture and a cell-free polymer-based implant. Arch Orthop Trauma Surg 135(7):1003–1010CrossRefPubMed

Cicuttini F, Ding C, Wluka A, Davis S, Ebeling PR, Jones G (2005) Association of cartilage defects with loss of knee cartilage in healthy, middle-age adults: a prospective study. Arthritis Rheum 52(7):2033–2039CrossRefPubMed

Cole BJ, Pascual-Garrido C, Grumet RC (2009) Surgical management of articular cartilage defects in the knee. J Bone Joint Surg Am 91(7):1778–1790PubMed

Engen CN, Engebretsen L (2010) Knee cartilage defect patients enrolled in randomized controlled trials are not representative of patients in orthopedic practice. Cartilage 1(4):312–319CrossRefPubMedPubMedCentral

Heir S, Nerhus TK, Rotterud JH, Loken S, Ekeland A, Engebretsen L, Aroen A (2010) Focal cartilage defects in the knee impair quality of life as much as severe osteoarthritis: a comparison of knee injury and osteoarthritis outcome score in 4 patient categories scheduled for knee surgery. Am J Sports Med 38(2):231–237CrossRefPubMed

Hjelle K, Solheim E, Strand T, Muri R, Brittberg M (2002) Articular cartilage defects in 1,000 knee arthroscopies. Arthroscopy 18(7):730–734CrossRefPubMed

Hunziker EB (2002) Articular cartilage repair: basic science and clinical progress. A review of the current status and prospects. Osteoarthr Cartil 10(6):432–463CrossRefPubMed

Mithoefer K, Hambly K, Della Villa S, Silvers H, Mandelbaum BR (2009) Return to sports participation after articular cartilage repair in the knee: scientific evidence. Am J Sports Med 37(Suppl 1):167S–176SCrossRefPubMed

10.

Niemeyer P, Andereya S, Angele P, Ateschrang A, Aurich M, Baumann M, Behrens P, Bosch U, Erggelet C, Fickert S et al (2013) Autologous Chondrocyte Implantation (ACI) for Cartilage Defects of the Knee: a Guideline by the Working Group “Tissue Regeneration” of the German Society of Orthopaedic Surgery and Traumatology (DGOU). Z Orthop Unfall 151(1):38–47PubMed

11.

Niemeyer P, Kreuz PC, Steinwachs M, Sudkamp NP (2007) Operative treatment of cartilage lesions in the knee joint. Sportverletz Sportschaden 21(1):41–50CrossRefPubMed

12.

Niemeyer P, Pestka JM, Kreuz PC, Erggelet C, Schmal H, Suedkamp NP, Steinwachs M (2008) Characteristic complications after autologous chondrocyte implantation for cartilage defects of the knee joint. Am J Sports Med 36(11):2091–2099CrossRefPubMed

13.

Niemeyer P, Schweigler K, Grotejohann B, Maurer J, Angele P, Aurich M, Becher C, Fay J, Feil R, Fickert S et al (2015) The German Cartilage Registry (KnorpelRegister DGOU) for evaluation of surgical treatment for cartilage defects: experience after 6 months including first demographic data. Z Orthop Unfall 153(1):67–74CrossRefPubMed

14.

Niemeyer P, Uhl M, Salzmann GM, Morscheid YP, Sudkamp NP, Madry H (2015) Evaluation and analysis of graft hypertrophy by means of arthroscopy, biochemical MRI and osteochondral biopsies in a patient following autologous chondrocyte implantation for treatment of a full-thickness-cartilage defect of the knee. Arch Orthop Trauma Surg 135(6):819–830CrossRefPubMed

15.

Roos EM, Roos HP, Lohmander LS, Ekdahl C, Beynnon BD (1998) Knee Injury and Osteoarthritis Outcome Score (KOOS)–development of a self-administered outcome measure. J Orthop Sports Phys Ther 28(2):88–96CrossRefPubMed

16.

Saris D, Price A, Widuchowski W, Bertrand-Marchand M, Caron J, Drogset JO, Emans P, Podskubka A, Tsuchida A, Kili S et al (2014) Matrix-applied characterized autologous cultured chondrocytes versus microfracture: 2-year follow-up of a prospective randomized trial. Am J Sports Med 42(6):1384–1394CrossRefPubMed

17.

Saris DB, Vanlauwe J, Victor J, Almqvist KF, Verdonk R, Bellemans J, Luyten FP (2009) Treatment of symptomatic cartilage defects of the knee: characterized chondrocyte implantation results in better clinical outcome at 36 months in a randomized trial compared to microfracture. Am J Sports Med 37(Suppl 1):10S–19SCrossRefPubMed

18.

Saris DB, Vanlauwe J, Victor J, Haspl M, Bohnsack M, Fortems Y, Vandekerckhove B, Almqvist KF, Claes T, Handelberg F et al (2008) Characterized chondrocyte implantation results in better structural repair when treating symptomatic cartilage defects of the knee in a randomized controlled trial versus microfracture. Am J Sports Med 36(2):235–246CrossRefPubMed

19.

Schinhan M, Gruber M, Vavken P, Dorotka R, Samouh L, Chiari C, Gruebl-Barabas R, Nehrer S (2012) Critical-size defect induces unicompartmental osteoarthritis in a stable ovine knee. J Orthop Res 30(2):214–220CrossRefPubMed

20.

Solheim E, Krokeide AM, Melteig P, Larsen A, Strand T, Brittberg M (2014) Symptoms and function in patients with articular cartilage lesions in 1000 knee arthroscopies. Knee Surg Sports Traumatol Arthrosc. doi:10.1007/s00167-014-3472-9

21.

Solheim E, Oyen J, Hegna J, Austgulen OK, Harlem T, Strand T (2010) Microfracture treatment of single or multiple articular cartilage defects of the knee: a 5-year median follow-up of 110 patients. Knee Surg Sports Traumatol Arthrosc 18(4):504–508CrossRefPubMed

22.

Vanlauwe J, Saris DB, Victor J, Almqvist KF, Bellemans J, Luyten FP (2011) Tig/Act, Group EXTS. Five-year outcome of characterized chondrocyte implantation versus microfracture for symptomatic cartilage defects of the knee: early treatment matters. Am J Sports Med 39(12):2566–2574CrossRefPubMed

23.

Vaquero J, Forriol F (2012) Knee chondral injuries: clinical treatment strategies and experimental models. Injury 43(6):694–705CrossRefPubMed

24.

Widuchowski W, Widuchowski J, Trzaska T (2007) Articular cartilage defects: study of 25,124 knee arthroscopies. Knee 14(3):177–182CrossRefPubMed

Titel: Cartilage repair surgery for full-thickness defects of the knee in Germany: indications and epidemiological data from the German Cartilage Registry (KnorpelRegister DGOU)
verfasst von: Philipp Niemeyer
Matthias J. Feucht
Jürgen Fritz
Dirk Albrecht
Gunter Spahn
Peter Angele
Publikationsdatum: 09.04.2016
Verlag: Springer Berlin Heidelberg
Erschienen in: Archives of Orthopaedic and Trauma Surgery / Ausgabe 7/2016
Print ISSN: 0936-8051
Elektronische ISSN: 1434-3916
DOI: https://doi.org/10.1007/s00402-016-2453-5

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Cartilage repair surgery for full-thickness defects of the knee in Germany: indications and epidemiological data from the German Cartilage Registry (KnorpelRegister DGOU)

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