Der Orthopäde
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Review Comparative Study
[Standards and perspectives for thromboembolism prophylaxis].
Thromboembolic complications are one of the most severe complications after orthopaedic or trauma surgery. More than 50% of patients undergoing total knee replacement are at risk of suffering deep-vein thrombosis if not provided sufficient prophylaxis. The former standard prophylaxis with unfractionated heparin has been changed over the few last years to low molecular weight heparin or heparinoids, due to the increased incidence of heparin-induced thrombocytopenia under therapy with unfractionated heparin. ⋯ However, because of a higher risk of bleeding, this pentasaccharide can be only given 6-8 h after surgery. Low molecular weight heparins and the pentasaccharide are the standard pharmacological prophylaxis for the prevention of venous thromboembolism. Physical therapy, pneumatic compression, A-V impulse systems, passive ankle motion systems and graduated compression stockings are an additional, effective prophylaxis without side effects.
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Comparative Study
[Respiratory failure in thoracic spine injuries. Does the timing of dorsal stabilization have any effect on the clinical course in multiply injured patients?].
Proper timing of stabilization for spinal injuries is discussed controversially. Whereas early repair of long bone fractures is known to reduce complications, few studies exist that investigate this issue in acute spinal trauma. In particular, the importance of coexisting lung injuries has to be determined, as it might influence clinical course and outcome. ⋯ Our data provide further evidence that early stabilization of spinal injuries is safe in severely injured patients, does not impair perioperative lung function, and results in a reduced overall ICU and hospital stay. Further prospective randomized investigations are warranted to prove these results.
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Research efforts in recent years have defined traumatic brain injury (TBI) as a predominantly immunological and inflammatory disorder. This perception is based on the fact that the overwhelming neuroinflammatory response in the injured brain contributes to the development of posttraumatic edema and to neuropathological sequelae which are, in large part, responsible for the adverse outcome. While the "key" mediators of neuroinflammation, such as the cytokine cascade and the complement system, have been clearly defined by studies in experimental TBI models, their exact pathways of interaction and pathophysiological implications remain to be further elucidated. ⋯ The inflammation-induced effects range from beneficial aspects of neuroprotection to detrimental neurotoxicity. The lack of success in pushing anti-inflammatory therapeutic concepts from"bench to bedside" for patients with severe TBI strengthens the further need for advances in basic research on the molecular aspects of the neuroinflammatory network in the injured brain. The present review summarizes the current knowledge from experimental studies in this field of research and discusses potential future targets of investigation.
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As the population ages and the prevalence of osteoporotic fractures increases, perioperative medical care of the elderly will continue to present challenges. Bisphosphonates, in combination with calcium and vitamin D have become the first-line therapy for patients with osteoporosis. Thus, one of the frequently asked questions concerning such patients is whether individuals who have recently sustained a fracture should take inhibitors of bone resorption. ⋯ A recent fracture should not preclude the initiation of therapy, because bisphosphonates have not been shown to interfere with overall fracture strength. Bisphosphonates appear to affect callus formation differently from either estrogen or raloxifene, but no significant difference in callus strength was seen 16 weeks after fracture. In addition, current studies demonstrate a significant reduction in periprosthetic bone loss after uncemented primary hip arthroplasty.