Der Unfallchirurg
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The improvement and acceleration of fracture healing has been a component of medical practice since fractures have been treated. The aim is not only to fulfill the basic principles of fracture healing, such as reduction, retention, soft tissue coverage and infection prevention but also to reduce negative influences on fracture healing and promote positive factors. Nicotine, alcohol, diabetes and malnutrition can negatively affect fracture healing and should be appropriately controlled during fracture treatment; however, it is far more difficult to develop medicinal treatment strategies that lead to improvement and acceleration of fracture healing. ⋯ Systemic medication to improve fracture healing will not be part of the clinical routine in the foreseeable future as the available data for already approved drugs and drugs under development do not currently justify routine administration. However, the currently known data should encourage the potential of known medications to be completely exhausted in fracture healing studies as well as novel therapy options in the sense of positive effects on fracture healing in order to improve patient care.
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Acute acromioclavicular (AC) joint injuries are common in clinical practice. The hook plate is a well-established conventional operative treatment option for high grade instability; however, arthroscopically-assisted flexible double button techniques are increasingly being used. ⋯ The minimally invasive one-step procedure with the possibility of identification and treatment of frequently concomitant glenohumeral pathologies is advantageous for the arthroscopic technique but mobilization is more restrictive. Available comparative studies have shown no significant clinical differences but a tendency towards better results with a higher degree of acceptance among patients for the arthroscopic and minimally invasive non-rigid double button procedures.
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Mechanical stimuli are known to significantly influence bone metabolism and fracture healing. Various studies have demonstrated the involvement of complex molecular mechanotransduction pathways, such as the Wnt/beta-catenin, bone morphogenetic protein (BMP) and estrogen receptor signaling pathways in mechanotransduction. ⋯ Pharmacological modulation of signal transduction influences bone formation and the mechanosensitivity of skeletal tissue. The combination of pharmacological and biomechanical therapies may be useful for the treatment of fractures with impaired healing.