Performance of a novel sternal synthesis device after median and faulty sternotomy: mechanical test and early clinical experience.

BACKGROUND Reinforcement of chest closure may be required in patients with multiple risk factors of wound dehiscence. Performance of a light, size-adaptable closure reinforcement device (DSS: Sternal Synthesis Device; Mikai SpA, Vicenza, Italy) is presented. METHODS A longitudinal median or paramedian incision was performed in artificial sternal models: closure was accomplished with simple interrupted steel wires or reinforced with the DSS. Forces required for separation of the rewired sternal halves during a monotonic tensile test were analyzed. A high velocity traction cycles test was also adopted to simulate the impact of coughing. RESULTS After median incision, ultimate load values inducing break of the sternum models were 580 +/- 35 N (Newton) in controls; failure of the test occurred at 1,200 +/- 47 N in the reinforced group (p = 0.0002). More lateral displacement of sternal halves at increasing forces was observed in controls (p = 0.0001). After paramedian incision, ultimate load values inducing break of the constructs were lower in controls (220 +/- 20 N vs 500 +/- 25 N, p = 0.001), which also showed more lateral displacement of sternal halves than the reinforced group (p = 0.002). At the high velocity traction cycles test, the number of cycles required to break the models was lower in controls (2,250 +/- 35 vs 3,855 +/- 48 cycles, p = 0.0001). Preliminary clinical experience in 45 patients showed ease of implantation and low risk of complications. CONCLUSIONS The proposed sternal reinforcement device provides substantial sternal support at electromechanical testing after median and faulty sternotomy and may hopefully prevent sternal wires migration and bone fractures in high risk patients.

[1]  F. Robicsek,et al.  The prevention and treatment of sternum separation following open-heart surgery. , 1977, The Journal of thoracic and cardiovascular surgery.

[2]  Teresa C. Horan,et al.  Guideline for Prevention of Surgical Site Infection, 1999 , 1999, Infection Control & Hospital Epidemiology.

[3]  Kristen L Billiar,et al.  In vitro comparison of wire and plate fixation for midline sternotomies. , 2005, The Annals of thoracic surgery.

[4]  Amithabha Mitra,et al.  Composite Plate and Wire Fixation for Complicated Sternal Closure , 2004, Annals of plastic surgery.

[5]  R. El Oakley,et al.  Postoperative mediastinitis: classification and management. , 1996, The Annals of thoracic surgery.

[6]  N. Kouchoukos,et al.  Risks of bilateral internal mammary artery bypass grafting. , 1990, The Annals of thoracic surgery.

[7]  M. Badellino,et al.  Sternotomy Closure with Parham Bands , 1988, Journal of cardiac surgery.

[8]  A. Casha,et al.  Measurement of chest wall forces on coughing with the use of human cadavers. , 1999, Journal of Thoracic and Cardiovascular Surgery.

[9]  R W Stewart,et al.  J. Maxwell Chamberlain memorial paper. Sternal wound complications after isolated coronary artery bypass grafting: early and late mortality, morbidity, and cost of care. , 1990, The Annals of thoracic surgery.

[10]  G. Watanabe,et al.  A new technique of reinforced sternal closure. , 1996, Cardiovascular surgery.

[11]  L Chiariello,et al.  Influence of sternal size and inadvertent paramedian sternotomy on stability of the closure site: a clinical and mechanical study. , 2006, The Journal of thoracic and cardiovascular surgery.

[12]  E. İriz,et al.  Corpus Sterni Reinforcement Improves the Stability of Primary Sternal Closure in High-Risk Patients , 2007, Surgery Today.

[13]  B. Gårdlund,et al.  Mediastinitis after cardiovascular operations: a case-control study of risk factors. , 1998, The Annals of thoracic surgery.

[14]  C. Shriver,et al.  Sternal blood flow after median sternotomy and mobilization of the internal mammary arteries. , 1988, Surgery.

[15]  J. Weiss,et al.  Faulty sternotomy and complications after median sternotomy. , 1988, The Journal of thoracic and cardiovascular surgery.

[16]  F. Tomai,et al.  The effect of bilateral internal thoracic artery harvesting on superficial and deep sternal infection: The role of skeletonization. , 2005, The Journal of thoracic and cardiovascular surgery.

[17]  F. Bertoldo,et al.  Superficial wound dehiscence after median sternotomy: surgical treatment versus secondary wound healing. , 2004, The Annals of thoracic surgery.

[18]  G. Papanicolaou,et al.  Sternal Wound Reconstruction with Transverse Plate Fixation , 2005, Plastic and reconstructive surgery.

[19]  Lanny V Griffin,et al.  A biomechanical comparison of three sternotomy closure techniques. , 2002, The Annals of thoracic surgery.

[20]  C. Ponzone,et al.  Reinforced sternal closure. , 1991, The Annals of thoracic surgery.

[21]  Dennis R Trumble,et al.  Validation of a bone analog model for studies of sternal closure. , 2002, The Annals of thoracic surgery.

[22]  D. Jonkers,et al.  Prevalence of 90-days postoperative wound infections after cardiac surgery. , 2003, European journal of cardio-thoracic surgery : official journal of the European Association for Cardio-thoracic Surgery.

[23]  J A Elefteriades,et al.  Simplified method of reinforced sternal closure. , 1995, The Annals of thoracic surgery.

[24]  Dennis R Trumble,et al.  Improvement of sternal closure stability with reinforced steel wires. , 2003, The Annals of thoracic surgery.

[25]  L. Bonchek,et al.  Peristernal closure of median sternotomy using stainless steel bands. , 1976, The Annals of thoracic surgery.

[26]  K. Ebrahim Reinforced sternal closure: the bilateral straight longitudinal wire technique. , 2003 .

[27]  J. Magovern,et al.  Mechanical analysis of midline sternotomy wound closure. , 1999, The Journal of thoracic and cardiovascular surgery.