Bone healing of the sheep tibia shaft after carbon dioxide laser osteotomy: histological results

The aim of the study was to compare the histological results after complete osteotomies of the sheep tibia using either the prototype carbon dioxide (CO2) laser osteotome ‘OsteoLAS’ (n = 12) or an oscillating saw (n = 12). The laser parameters were as follows: wavelength 10.6 µm; energy of laser pulses 75–85 mJ; pulse duration 80 μs; pulse repetition rate 200 Hz; spot diameter 460 μm (1/e2 level); radiant exposure 45–51 J/cm2; peak irradiance 0.56–0.64 MW/cm2. Both groups were divided into two subgroups (n = 6), and the animals were killed after 4 weeks or 12 weeks, respectively. Light and fluorescence microscopy with semiquantitative analysis and histomorphometry were performed to compare bone healing. Charring-free laser osteotomies were possible up to a depth of 20 mm with the short-pulsed CO2 laser. The laser, however, required a significantly longer time to perform, and a wedge-shaped gap was present on the cis-cortex. After 4 weeks the osteotomy gaps were almost unchanged in both groups and filled with connective tissue. After 12 weeks the gaps were filled with newly formed bone in both groups. Primary gap healing was predominant in the laser group and longitudinal cortical remodelling in the control group. On a cellular level, no fundamental differences were observed for early and late stages of bone healing. Further research has to be focussed on improving the CO2 laser ostetome in order to reduce the long duration of the laser osteotomy and the necessity of creating a wedge-shaped cut in thick bones.

[1]  S. Kosanke,et al.  Effects of rapid pulsed CO2 laser beam on cortical bone in vivo , 1992, Lasers in surgery and medicine.

[2]  S M Perren,et al.  EVOLUTION OF THE INTERNAL FIXATION OF LONG BONE FRACTURES , 2002 .

[3]  C. Clauser Comparison of depth and profile of osteotomies performed by rapid superpulsed and continuous-wave CO2 laser beams at high power output. , 1986, Journal of oral and maxillofacial surgery : official journal of the American Association of Oral and Maxillofacial Surgeons.

[4]  Nunamaker Dm,et al.  Experimental models of fracture repair. , 1998 .

[5]  Isao Ishikawa,et al.  Ultrastructural analysis of bone tissue irradiated by Er:YAG Laser , 2002, Lasers in surgery and medicine.

[6]  M W Berns,et al.  Mid‐infrared erbium:YAG laser ablation of bone: The effect of laser osteotomy on bone healing , 1989, Lasers in surgery and medicine.

[7]  R. Hibst,et al.  [Experimental animal studies on laser osteotomy using the erbium: YAG laser system]. , 1991, Deutsche Zeitschrift fur Mund-, Kiefer- und Gesichts-Chirurgie.

[8]  P. Hering,et al.  Bone Tissue Ablation with sub-µs Pulses of a Q-switch CO2 Laser: Histological Examination of Thermal Side Effects , 2002, Lasers in Medical Science.

[9]  D. Nunamaker Experimental models of fracture repair. , 1998, Clinical orthopaedics and related research.

[10]  A. Glaros,et al.  Laser irradiation of bone: III. Long-term healing following treatment by CO2 and Nd:YAG lasers. , 2001, Journal of periodontology.

[11]  M. Akens,et al.  Quantitative Real-Time PCR for Equine Cytokine mRNA in Nondecalcified Bone Tissue Embedded in Methyl Methacrylate , 1999, Calcified Tissue International.

[12]  Stephan M Perren,et al.  Evolution of the internal fixation of long bone fractures. The scientific basis of biological internal fixation: choosing a new balance between stability and biology. , 2002, The Journal of bone and joint surgery. British volume.

[13]  T. Fuller,et al.  Observations of carbon dioxide laser and bone bur in the osteotomy of the rabbit tibia. , 1979, Journal of oral surgery.

[14]  H Beckman,et al.  Healing of continuous-wave and rapid superpulsed, carbon dioxide, laser-induced bone defects. , 1978, Journal of oral surgery.

[15]  Katja Tangermann-Gerk,et al.  Sensor-based laser ablation for tissue specific cutting: an experimental study , 2004, Lasers in Medical Science.

[16]  Peter Hering,et al.  In vivo animal trials with a scanning CO2 laser osteotome , 2005, Lasers in surgery and medicine.

[17]  S D Gertzbein,et al.  The effect of laser osteotomy on bone healing , 1981, Lasers in surgery and medicine.

[18]  G. Rayan,et al.  Effects of CO2 laser beam on cortical bone , 1991, Lasers in surgery and medicine.

[19]  Christian von Hänisch Osteogenese nach Laserosteotomie mit einem CO2-Laser im Vergleich zur Osteotomie mit konventioneller Sägetechnik - eine tierexperimentelle Studie , 2004 .

[20]  Werner E. Siebert,et al.  Lasers in the Musculoskeletal System , 2001, Springer Berlin Heidelberg.

[21]  William A Farinelli,et al.  Vertical ramus osteotomy with Er:YAG laser: a feasibility study. , 2007, International journal of oral and maxillofacial surgery.

[22]  Peter Hering,et al.  Computer-guided CO2-laser osteotomy of the sheep tibia: technical prerequisites and first results. , 2008, Photomedicine and laser surgery.

[23]  M. Modest,et al.  Energy requirements for osteotomy of femora and tibiae with a moving CW CO2 laser , 1987, Lasers in surgery and medicine.

[24]  T J Flotte,et al.  Er:YAG laser ablation of tissue: Effect of pulse duration and tissue type on thermal damage , 1989, Lasers in surgery and medicine.

[25]  Siebert We Use of lasers in arthroscopy , 1992 .

[26]  H. Willenegger,et al.  Zum histologischen Bild der sogenannten Primärheilung der Knochenkompakta nach experimentellen Osteotomien am Hund , 1963, Experientia.

[27]  Effects of exposure time and pulse parameters on CO2 laser osteotomies , 1989, Lasers in surgery and medicine.

[28]  Matthias Frentzen,et al.  Osteotomy with 80-μs CO2 laser pulses – histological results , 2003, Lasers in Medical Science.

[29]  Bone Healing After Erbium:YAG Laser Osteotomy of Sheep Tibia , 2001 .

[30]  Isao Ishikawa,et al.  Histological and TEM examination of early stages of bone healing after Er:YAG laser irradiation. , 2004, Photomedicine and laser surgery.

[31]  R. Schenk,et al.  [Histology of primary bone healing: modifications and limits of recovery of gaps in relation to extent of the defect (author's transl)]. , 1977, Unfallheilkunde.

[32]  H. Laborit,et al.  [Experimental study]. , 1958, Bulletin mensuel - Societe de medecine militaire francaise.

[33]  C. Cobb,et al.  Laser irradiation of bone: II. Healing response following treatment by CO2 and Nd:YAG lasers. , 1999, Journal of periodontology.