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Open Access 01-07-2010

Tissue Restoration After Implantation of Polyglycolide, Polydioxanone, Polylevolactide, and Metallic Pins in Cortical Bone: An Experimental Study in Rabbits

Authors: Harri K. Pihlajamäki, Sari T. Salminen, Olli Tynninen, Ole M. Böstman, Outi Laitinen

Published in: Calcified Tissue International | Issue 1/2010

Abstract

We performed qualitative and histoquantitative investigations of tissue restoration after implanting polyglycolide (PGA), polydioxanone (PDS), polylevolactide (PLLA), and stainless steel pins in the intramedullary canal of rabbit femurs. The effect of bioabsorbable devices on healing of a cortical bone defect was also assessed. The cortical bone defect was created in the right femur of 80 rabbits. Bioabsorbable and metallic pins in 60 and two metallic pins alone were implanted in 20 intramedullary canals; 80 left femurs served as intact controls. Follow-up times were 3, 6, 12, 24, and 52 weeks. At all time points, collagenous connective tissue, including bone trabeculae, surrounded the implant at the tissue–implant interface, replacing hematopoiesis and fat of the intramedullary canal. The groups did not differ in the area and trabecular bone area fraction of the resulting callus. Residual fragments of PGA and PDS were observed at 24 weeks, and complete degradation occurred within 52 weeks. PGA, PDS, PLLA, and metallic implants induced a bony and fibrous walling-off response in the intramedullary cavity. No inflammation was observed. Complete tissue restoration did not occur within the follow-up, even after complete degradation of PGA and PDS, which had shorter degradation times than PLLA. The cortical bone healing effect was not different between bioabsorbable pins and metallic wires. Thus, these polymers had no specific osteostimulatory or osteoinhibitory properties compared to stainless steel. Within the follow-up period, there were no significant differences in biocompatibility between the implants and no adverse inflammatory foreign-body reactions.

Weckström M, Parviainen M, Kiuru MJ, Mattila VM, Pihlajamäki HK (2007) Comparison of bioabsorbable pins and nails in the fixation of adult osteochondritis dissecans fragments of the knee: an outcome of 30 knees. Am J Sports Med 35:1467–1476CrossRefPubMed

Pihlajamäki H, Böstman O, Hirvensalo E, Törmälä P, Rokkanen P (1992) Absorbable pins of self-reinforced poly-l-lactic acid for fixation of fractures and osteotomies. J Bone Joint Surg Br 74:853–857PubMed

Rokkanen P, Böstman O, Vainionpää S, Vihtonen K, Törmälä P, Laiho J, Kilpikari J, Tamminmäki M (1985) Biodegradable implants in fracture fixation: early results of treatment of fractures of the ankle. Lancet 1:1422–1424CrossRefPubMed

Matsusue Y, Nakamura T, Iida H, Shimizu K (1997) A long-term clinical study on drawn poly-l-lactide implants in orthopaedic surgery. J Long Term Eff Med Implants 7:119–137PubMed

Athanasiou KA, Agrawal CM, Barber FA, Burkhart SS (1998) Orthopaedic applications for PLA-PGA biodegradable polymers. Arthroscopy 14:726–737PubMedCrossRef

Böstman OM (1991) Absorbable implants for the fixation of fractures. J Bone Joint Surg Am 73:148–153PubMed

Hofmann GO (1995) Biodegradable implants in traumatology: a review on the state-of-the-art. Arch Orthop Trauma Surg 114:123–132CrossRefPubMed

Pihlajamäki H, Böstman O, Rokkanen P (1998) Absorbable polyglycolide and polylactide devices for fracture fixation. Surg Technol Int 7:395–401

Rokkanen PU, Böstman O, Hirvensalo E, Mäkelä EA, Partio EK, Pätiälä H, Vainionpää SI, Vihtonen K, Törmälä P (2000) Bioabsorbable fixation in orthopaedic surgery and traumatology. Biomaterials 21:2607–2613CrossRefPubMed

10.

Suuronen R, Kallela I, Lindqvist C (2000) Bioabsorbable plates and screws: current state of the art in facial fracture repair. J Craniomaxillofac Trauma 6:19–30PubMed

11.

Yamamuro T, Matsusue Y, Uchida A, Shimada K, Shimozaki E, Kitaoka K (1994) Bioabsorbable osteosynthetic implants of ultra high strength poly-l-lactide. A clinical study. Int Orthop 18:332–340CrossRefPubMed

12.

Weiler A, Hoffmann RF, Stähelin AC, Helling HJ, Südkamp NP (2000) Biodegradable implants in sports medicine: the biological base. Arthroscopy 16:305–321PubMed

13.

Ray JA, Doddi N, Regula D, Williams JA, Melveger A (1981) Polydioxanone (PDS), a novel monofilament synthetic absorbable suture. Surg Gynecol Obstet 153:497–507PubMed

14.

Hetherington VJ, Shields SL, Wilhelm KR, Laporta DM, Nicklas BJ (1994) Absorbable fixation of first ray osteotomies. J Foot Ankle Surg 33:290–294PubMed

15.

Gill LH, Martin DF, Coumas JM, Kiebzak GM (1997) Fixation with bioabsorbable pins in chevron bunionectomy. J Bone Joint Surg Am 79:1510–1518PubMed

16.

DeOrio JK, Ware AW (2001) Single absorbable polydioxanone pin fixation for distal chevron bunion osteotomies. Foot Ankle Int 22:832–835PubMed

17.

Nordström P, Pihlajamäki H, Toivonen T, Törmälä P, Rokkanen P (1998) Tissue response to polyglycolide and polylactide pins in cancellous bone. Arch Orthop Trauma Surg 117:197–204CrossRefPubMed

18.

Pihlajamäki H, Böstman O, Manninen M, Päivärinta U, Rokkanen P (1994) Tissue-implant interface at an absorbable fracture fixation plug made of polylactide in cancellous bone of distal rabbit femur. Arch Orthop Trauma Surg 113:101–105CrossRefPubMed

19.

Viljanen JT, Pihlajamäki HK, Törmälä PO, Rokkanen PU (1997) Comparison of the tissue response to absorbable self-reinforced polylactide screws and metallic screws in the fixation of cancellous bone osteotomies: an experimental study on the rabbit distal femur. J Orthop Res 15:398–407CrossRefPubMed

20.

Manninen MJ, Pohjonen T (1993) Intramedullary nailing of the cortical bone osteotomies in rabbits with self-reinforced poly-l-lactide rods manufactured by the fibrillation method. Biomaterials 14:305–312CrossRefPubMed

21.

Hara Y, Tagawa M, Ejima H, Orima H, Sugiyama M, Shikinami Y, Hyon SH, Ikada Y (1994) Clinical evaluation of uniaxially oriented poly-l-lactide rod for fixation of experimental femoral diaphyseal fracture in immature cats. J Vet Med Sci 56:1041–1045PubMed

22.

Viljanen J, Pihlajamäki H, Kinnunen J, Bondestam S, Rokkanen P (2001) Comparison of absorbable poly-l-lactide and metallic intramedullary rods in the fixation of femoral shaft osteotomies: an experimental study in rabbits. J Orthop Sci 6:160–166CrossRefPubMed

23.

Saikku-Bäckström A, Tulamo RM, Räihä JE, Kellomäki M, Toivonen T, Törmälä P, Rokkanen P (2001) Intramedullary fixation of cortical bone osteotomies with absorbable self-reinforced fibrillated poly-96L/4D-lactide (SR-PLA96) rods in rabbits. Biomaterials 22:33–43CrossRefPubMed

24.

Saikku-Bäckström A, Tulamo RM, Räihä JE, Pohjonen T, Toivonen T, Törmälä P, Rokkanen P (2004) Intramedullary fixation of femoral cortical osteotomies with interlocked biodegradable self-reinforced poly-96L/4D-lactide (SR-PLA96) nails. Biomaterials 25:2669–2677CrossRefPubMed

25.

Mero M, Vainionpää S, Vasenius J, Vihtonen K, Rokkanen P (1989) Medetomidine–ketamine–diazepam anesthesia in the rabbit. Acta Vet Scand Suppl 85:135–137PubMed

26.

Miettinen H, Mäkelä EA, Vainio J, Rokkanen P, Törmälä P (1992) The effect of an intramedullary self-reinforced poly-l-lactide (SR-PLLA) implant on growing bone with special reference to fixation properties. An experimental study on growing rabbits. J Biomater Sci Polym Ed 3:443–450CrossRefPubMed

27.

Böstman OM, Laitinen OM, Tynninen O, Salminen ST, Pihlajamäki HK (2005) Tissue restoration after resorption of polyglycolide and poly-laevo-lactic acid screws. J Bone Joint Surg Br 87:1575–1580CrossRefPubMed

28.

Pihlajamäki H, Böstman O, Tynninen O, Laitinen O (2006) Long-term tissue response to bioabsorbable poly-l-lactide and metallic screws: an experimental study. Bone 39:932–937CrossRefPubMed

29.

Nordström P, Pihlajamäki H, Toivonen T, Törmälä P, Rokkanen P (2001) Tissue response to polyglycolide and polylevolactide pins in osteotomized cancellous bone. Clin Orthop Relat Res 382:247–257CrossRefPubMed

30.

Laitinen O, Pihlajamäki H, Sukura A, Böstman O (2002) Transmission electron microscopic visualization of the degradation and phagocytosis of a poly-l-lactide screw in cancellous bone: a long-term experimental study. J Biomed Mater Res 61:33–39CrossRefPubMed

31.

Bos RR, Rozema FR, Boering G, Nijenhuis AJ, Pennings AJ, Verwey AB, Nieuwenhuis P, Jansen HW (1991) Degradation of and tissue reaction to biodegradable poly(l-lactide) for use as internal fixation of fractures: a study in rats. Biomaterials 12:32–36CrossRefPubMed

32.

Böstman O, Päivärinta U, Partio E, Manninen M, Majola A, Vasenius J, Rokkanen P (1991) Absorbable polyglycolide screws in internal fixation of femoral osteotomies in rabbits. Acta Orthop Scand 62:587–591CrossRefPubMed

33.

Böstman O, Päivärinta U, Partio E, Vasenius J, Manninen M, Rokkanen P (1992) Degradation and tissue replacement of an absorbable polyglycolide screw in the fixation of rabbit femoral osteotomies. J Bone Joint Surg Am 74:1021–1031PubMed

34.

Winet H (1996) The role of microvasculature in normal and perturbed bone healing as revealed by intravital microscopy. Bone 19:39S–57SCrossRefPubMed

35.

Winet H, Hollinger JO (1993) Incorporation of polylactide-polyglycolide in a cortical defect: neoosteogenesis in a bone chamber. J Biomed Mater Res 27:667–676CrossRefPubMed

36.

Meinig RP, Rahn B, Perren SM, Gogolewski S (1996) Bone regeneration with resorbable polymeric membranes: treatment of diaphyseal bone defects in the rabbit radius with poly(l-lactide) membrane. A pilot study. J Orthop Trauma 10:178–190CrossRefPubMed

37.

Vasenius J, Vainionpää S, Vihtonen K, Mero M, Mäkelä A, Törmälä P, Rokkanen P (1990) A histomorphological study on self-reinforced polyglycolide (SR-PGA) osteosynthesis implants coated with slowly absorbable polymers. J Biomed Mater Res 24:1615–1635CrossRefPubMed

38.

Miettinen H, Mäkelä EA, Vainio J, Rokkanen P, Törmälä P (1992) The effect of an intramedullary biodegradable self-reinforced polyglycolic acid implant on tubular bone. An experimental study on growing dogs. J Biomater Sci Polym Ed 3:435–442CrossRefPubMed

39.

Otsuka NY, Mah JY, Orr FW, Martin RF (1992) Biodegradation of polydioxanone in bone tissue: effect on the epiphyseal plate in immature rabbits. J Pediatr Orthop 12:177–180PubMed

40.

Bergsma JE, de Bruijn WC, Rozema FR, Bos RR, Boering G (1995) Late degradation tissue response to poly(l-lactide) bone plates and screws. Biomaterials 16:25–31CrossRefPubMed

41.

Böstman OM, Pihlajamäki HK (1998) Late foreign-body reaction to an intraosseous bioabsorbable polylactic acid screw. A case report. J Bone Joint Surg Am 80:1791–1794CrossRefPubMed

42.

Suuronen R, Pohjonen T, Hietanen J, Lindqvist C (1998) A 5-year in vitro and in vivo study of the biodegradation of polylactide plates. J Oral Maxillofac Surg 56:604–615CrossRefPubMed

43.

Tams J, Rozema FR, Bos RR, Roodenburg JL, Nikkels PG, Vermey A (1996) Poly(l-lactide) bone plates and screws for internal fixation of mandibular swing osteotomies. Int J Oral Maxillofac Surg 25:20–24CrossRefPubMed

44.

Santavirta S, Konttinen YT, Saito T, Grönblad M, Partio E, Kemppinen P, Rokkanen P (1990) Immune response to polyglycolic acid implants. J Bone Joint Surg Br 72:597–600PubMed

45.

Barfod G, Svendsen RN (1992) Synovitis of the knee after intraarticular fracture fixation with Biofix. Report of two cases. Acta Orthop Scand 63:680–681PubMed

46.

Böstman O, Hirvensalo E, Mäkinen J, Rokkanen P (1990) Foreign-body reactions to fracture fixation implants of biodegradable synthetic polymers. J Bone Joint Surg Br 72:592–596PubMed

47.

Hoffmann R, Krettek C, Hetkamper A, Haas N, Tscherne H (1992) Osteosynthesis of distal radius fractures with biodegradable fracture rods. Results of two years follow-up. Unfallchirurg 95:99–105PubMed

48.

Baumann A, Burggasser G, Gauss N, Ewers R (2002) Orbital floor reconstruction with an alloplastic resorbable polydioxanone sheet. Int J Oral Maxillofac Surg 31:367–373CrossRefPubMed

49.

Kontio R, Suuronen R, Salonen O, Paukku P, Konttinen YT, Lindqvist C (2001) Effectiveness of operative treatment of internal orbital wall fracture with polydioxanone implant. Int J Oral Maxillofac Surg 30:278–285CrossRefPubMed

50.

Böstman OM, Pihlajamäki HK, Partio EK, Rokkanen PU (1995) Clinical biocompatibility and degradation of polylevolactide screws in the ankle. Clin Orthop Relat Res 320:101–109PubMed

51.

Bucholz RW, Henry S, Henley MB (1994) Fixation with bioabsorbable screws for the treatment of fractures of the ankle. J Bone Joint Surg Am 76:319–324PubMed

52.

Eitenmüller J, David A, Pommer A, Muhr G (1996) Operative Behandlung von Sprunggelenksfrakturen mit biodegradablen Schrauben und Platten aus Poly-l-Lactide. Chirurg 67:413–418PubMed

53.

Konan S, Haddad FS (2009) A clinical review of bioabsorbable interference screws and their adverse effects in anterior cruciate ligament reconstruction surgery. Knee 16:6–13CrossRefPubMed

54.

Kwak JH, Sim JA, Kim SH, Lee KC, Lee BK (2008) Delayed intra-articular inflammatory reaction due to poly-l-lactide bioabsorbable interference screw used in anterior cruciate ligament reconstruction. Arthroscopy 24:243–246PubMedCrossRef

Title: Tissue Restoration After Implantation of Polyglycolide, Polydioxanone, Polylevolactide, and Metallic Pins in Cortical Bone: An Experimental Study in Rabbits
Authors: Harri K. Pihlajamäki
Sari T. Salminen
Olli Tynninen
Ole M. Böstman
Outi Laitinen
Publication date: 01-07-2010
Publisher: Springer-Verlag
Published in: Calcified Tissue International / Issue 1/2010
Print ISSN: 0171-967X
Electronic ISSN: 1432-0827
DOI: https://doi.org/10.1007/s00223-010-9374-z

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