Annales françaises d'anesthèsie et de rèanimation
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Ann Fr Anesth Reanim · May 2013
Review[Rational approach of antibioprophylaxis: systematic review in ENT cancer surgery].
In head and neck cancer surgery antibiotic prophylaxis is effective in reducing the incidence of surgical site infections (SSI). However, controversies between antibiotic prophylaxis and curative antibiotic therapy exist, particularly when complex and decaying surgeries are performed in risky underlying conditions, with a risk of persisting salivary effusion in the postoperative period, or in the case of reconstruction with myo-cutaneous flaps. We have performed a systematic review of the literature according to PRISMA recommendations to answer the following questions: indications for antibiotic prophylaxis and curative antibiotic therapy, optimal duration, and choice of antibiotics for prophylaxis in head and neck cancer surgery. ⋯ The most adapted combinations of antibiotics in this setting are "amoxicillin+clavulanic acid" and "clindamycin+gentamicin". However, the level of evidence regarding the most decaying surgeries with high risk of SSI is low, making it necessary to perform new high-powered randomized trials in these patients. Eventually, it should be noted that antibiotic prophylaxis should be an integral part of SSI preventive measures, including application of hygiene measures, and postoperative monitoring of SSI clinical signs.
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Intraosseous infusion is an old knowledge, abandoned in the 1950s in favor of the peripheral vein, and it was essentially described in pediatrics and military medicine. Since 2005, this way is experiencing a resurgence of interest in emergency medicine particularly in adults after the failure's installation of a peripheral vein in order not to waste the time of care and administration of treatment. ⋯ We propose to review the different kind of catheters used, to know the main technical characteristics, indications, contraindications and potential complications. We propose a comparison with the peripheral vein and a comparison between the different catheters.
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Ann Fr Anesth Reanim · May 2013
Review[Post-dural puncture headache and blood-patch: theoretical and practical approach].
To review the current research and formulate a rational approach to the physiopathology, cause and treatment of post-dural puncture headache (PDPH). ⋯ Resulting of a dural tap after spinal anaesthesia or diagnostic lumbar puncture or as a complication of epidural anaesthesia, PDPH occurs when an excessive leak of cerebrospinal fluid leads to intracranial hypotension associated to a resultant cerebral vasodilatation. Reduction in cerebrospinal fluid volume in upright position may cause traction of the intracranial structure and stretching of vessels. Typically postural, headache may be associated to nausea, photophobia, tinnitus or arm pain and changes in hearing acuity. In severe cases, there may be cranial nerve dysfunction and nerve palsies secondary to traction on those nerves. The Epidural Blood-Patch (EBP) is considered as the "gold standard" in the treatment of PDHP because it induces a prolonged elevation of subarachnoid and epidural pressures, whereas such elevation is transient with saline or dextran. EBP should be performed within 24-48hours of onset of headache; the optimum volume of epidural blood appears to be 15-20mL. Severe complications following EBP are exceptional. The use of echography may be safety puncture. The optimum timing of epidural blood-patch, the resort of repeating procedure if the symptomatology does not disappear, the alternative to the conventional medical treatment need to be determined by future clinical trial.
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Ann Fr Anesth Reanim · May 2013
Review[Erythrocytes and microvascular tone during acute traumatic haemorrhagic shock].
Haemorrhagic shock remains a leading cause of death in trauma patients. The concept of haematologic damage control is gradually taking place in the management of traumatic haemorrhagic shock. It is based primarily on the early implementation of a quality blood transfusion involving erythrocytes, plasmas and platelets transfusion. ⋯ However, it appears that erythrocytes ability to modulate the bioavailability of nitric oxide (NO) plays a major role in capillary opening and perfusion. Erythrocytes are also actively involved in the processes of hemostasis and coagulation. In this context, it seems difficult to define a threshold of hemoglobin concentration to determine the implementation of a blood transfusion in traumatic haemorrhagic shock.