[Bioresorbable bone adhesives. Historical perspective and current status].

Bone adhesives are degraded to non-toxic products and resorbed after fulfilling their function in contact with living tissue. There has been a growing interest in the use of such adhesives in all fields of medicine in recent years. The wish of trauma surgeons and orthopaedic for alternatives to osteosynthesis is reflected in the development of a variety of surrogates of biological or synthetic origin. Despite a longstanding history of research in this field, a clinically applicable alternative in the field of bone gluing has not yet been found. This application has consistently failed because these adhesives were not tailored to the conditions met within the living organism. The following article is meant to provide an overview of the development, the state of the art, and today's knowledge of bone adhesives. In addition, it points out the tremendous progress in this area, made possible by the joint efforts of basic researchers and surgeons. The results of this collaboration show that in the future a successful reconstructive surgery using synthetic biomaterials will become feasible.

[1]  Christian Heiss,et al.  The tissue response to an alkylene bis(dilactoyl)-methacrylate bone adhesive. , 2005, Biomaterials.

[2]  M. Rimpler,et al.  Klebungen am Skelettsystem: Klebstoffe, 50 Jahre Hilfsstoffe für den Chirurgen (Teil 1) - Skeletal System Gluing Adhesives, 50 Years of Surgical Aids. Part 1 , 1981 .

[3]  B. Bloch,et al.  THE BONDING OF FRACTURES BY PLASTIC ADHESIVES , 1958 .

[4]  B. Drompp Chemical osteosynthesis of fractures and nonunions of the shafts of long bones of the lower extremity. , 1960, American Journal of Surgery.

[5]  J. Charnley The Healing of Human Fractures in Contact With Self‐curing Acrylic Cement , 1966, Clinical orthopaedics and related research.

[6]  M. Chapman,et al.  Adhesives in orthopaedic surgery. A review of the literature and in vitro bonding strengths of bone-bonding agents. , 1984, Clinical orthopaedics and related research.

[7]  L. Hulliger [Studies on the effect of artificial resins (palacos and ostamer) in tissue cultures]. , 1962, Archives of Orthopaedic and Trauma Surgery.

[8]  R Schnettler,et al.  Eigenschaften und Degradation eines neuartigen bioresorbierbaren Knochenklebers / Properties and Degradation of a New Bioresorbable Bone Glue , 2004, Biomedizinische Technik. Biomedical engineering.

[9]  J. Kumpula,et al.  Durability of the bond between bone and various 2-cyanoacrylates in an aqueous environment. , 1979, Journal of biomedical materials research.

[10]  K. Tsumoto,et al.  Expression of a Model Peptide of a Marine Mussel Adhesive Protein in Escherichia coli and Characterization of Its Structural and Functional Properties , 1999 .

[11]  D Muster,et al.  Bone bonding through bioadhesives: present status. , 1979, Biomaterials, medical devices, and artificial organs.

[12]  M. Salzer,et al.  First clinical experience with heterologous cancellous bone grafting combined with the Fibrin Adhesive System (F.A.S.) , 2004, Archives of orthopaedic and traumatic surgery.

[13]  F Burny,et al.  Tissues and bone adhesives--historical aspects. , 1998, Biomaterials.

[14]  Reinhard Schnettler,et al.  Bioresorbierbare Klebstoffe in der operativen , 2003 .

[15]  K. Kühn Knochenzemente für die Endoprothetik , 2001 .

[16]  P Augat,et al.  A new bioresorbable polymer for screw augmentation in the osteosynthesis of osteoporotic cancellous bone: a biomechanical evaluation. , 2001, Journal of biomedical materials research.

[17]  Smith Dc,et al.  Lutes, glues, cements and adhesives in medicine and dentistry. , 1973 .