[Nerve injuries due to fractures in childhood : Primarily and secondarily on the upper extremity]. / Nervenverletzungen bei Frakturen im Kindesalter : Primär und sekundär an der oberen Extremität.

The approach for nerve injuries in children in the context of fractures of the upper extremities is inconsistent in the literature. The underlying mostly retrospective studies do not usually consider the potential diagnostics. The frequency of nerve injuries with a clear need for reconstructive surgery is sometimes estimated so differently that precedent-setting errors in these studies must be assumed; however, as 10-20% of pediatric fractures near the elbow show primary or secondary nerve lesions, timely and appropriate further treatment is necessary. An overview concerning diagnostic tools with an explanation of potential results and an algorithm with a timeline for diagnostic and therapeutic management are presented. Good results after nerve lesions can only be achieved when timely diagnostics without delay and correct detection of axonal lesions which benefit from surgical treatment are carried out.

Pain Free 3 T MRI Scans in Cochlear Implantees.

OBJECTIVE: For cochlear implant recipients, undergoing magnetic resonance imaging (MRI) scans is associated with safety risks and potential side effects. Even following safety guidelines, potential complications (e.g., pain, magnet dislocation, image artifacts) are possible during 1.5 Tesla (T) MRI scans. The stronger static magnetic field of a 3.0 T scanner is associated with further risks of complication, including implant demagnetization. These complications led to the recent development of rotatable internal receiver magnets with a diametrical magnetization.The aim of this study was to evaluate the potential occurrence of pain during 3.0 T MRI scans for cochlear implant recipients with a rotatable, diametrically magnetized implant magnet. PATIENTS: Five patients implanted with a cochlear implant diametrically magnetized magnet. INTERVENTION: MRI scanning at 3 T. MAIN OUTCOME MEASURE: In the prospective patient study an MRI scan was performed on five implantees and the degree of pain was evaluated by a visual analog scale. Scans were performed initially with a magnet-supporting headband, and depending on the degree of discomfort/pain, repeated without the headband. RESULTS: In all the patients, all the MRI scans were performed without any pain, even without the use of the supportive headband. Demagnetization was clinically not observed. CONCLUSION: 3.0 T MRI scanning can be performed on cochlear implant recipients with a rotatable diametrically magnetized internal magnet without risk of the most frequent cochlear-implant-related MRI complication: pain. This finding enables the expansion of MRI scanning indications up to 3.0 T without complication. Limitations in terms of MRI artifact still persist.

Sedation of Patients with Acute Aneurysmal Subarachnoid Hemorrhage with Ketamine Is Safe and Might Influence the Occurrence of Cerebral Infarctions Associated with Delayed Cerebral Ischemia.

BACKGROUND: Ketamine has neuroprotective characteristics as well as beneficial cardiocirculatory properties and may thus reduce vasopressor consumption. In contrast, sedation with ketamine (like any other sedative drug) has side effects. This study assesses the influence of ketamine on intracranial pressure (ICP), on the consumption of vasopressors in induced hypertension therapy, and on the occurrence of delayed cerebral ischemia (DCI)-associated cerebral infarctions, with particular focus on the complications of sedation in patients with aneurysmal subarachnoid hemorrhage (SAH). METHODS: This is a retrospective, observational study. Sixty-five patients with SAH who underwent a period of sedation were included. The clinical course variables (Richmond Agitation and Sedation scale score, ICP values, consumption of vasopressors, complications of sedation, outcome, and other clinical parameters) were analyzed. Cranial computed tomography results were analyzed. RESULTS: Forty-one patients underwent sedation including ketamine (63.1%). Ketamine decreased the ICP in 92.7% of the cases. Vasopressors was reduced in 53.6%. DCI-associated cerebral infarctions occurred significantly less often in the patient cohort being treated with sedation including ketamine (7.3% vs. 25% in the nonketamine group; P = 0.04). The rate of major complications was not higher in the ketamine group. Outcome was not different regarding the groups if they were sedated with or without ketamine. CONCLUSIONS: Ketamine decreases the ICP and is not associated with a higher rate of complications. The rate of DCI-associated cerebral infarctions was lower in the ketamine group. Ketamine administration led to a reduction of vasopressors used for induced hypertension.

Acute decompensation of noncommunicating hydrocephalus caused by dilated Virchow-Robin spaces type III in a woman treated by endoscopic third ventriculostomy: a case report and review of the literature.

BACKGROUND AND IMPORTANCE: Even though dilated Virchow-Robin spaces (VRS) are a very rare entity, they can compel the clinician to start immediate intervention in the case of acute onset of symptoms. To allow a well-balanced management decision, we compiled a summary of all cases published in the literature and discuss the different methods and indications for neurosurgical intervention in relation to dilated VRS. CLINICAL PRESENTATION: We report a case of a 43-year-old female patient who came to admission after syncope with a history of unspecific neck pain, fatigue, diplopia, and dizziness. Dilated VRS type III causing a noncommunicating hydrocephalus were found to be responsible. Although the patient was initially awake, within 72 hours after admission, a deterioration of consciousness and repeated vomiting were observed. The patient underwent an urgent endoscopic third ventriculostomy (ETV) and was discharged in a good condition. CONCLUSION: To the best of our knowledge, the case presented here is the first case of acute decompensation of a noncommunicating hydrocephalus caused by dilated VRS. Neurosurgical intervention is required in cases of noncommunicating hydrocephalus caused by giant tumefactive VRS. The treatment options are mono- or biventricular shunt surgery or ETV. Because ETV provides the possibility of cyst fenestration and membrane sampling, it appears to be the most advantageous treatment option.

Accuracy of single-pass whole-body computed tomography for detection of injuries in patients with major blunt trauma.

BACKGROUND: Contrast-enhanced whole-body computed tomography (also called "pan-scanning") is considered to be a conclusive diagnostic tool for major trauma. We sought to determine the accuracy of this method, focusing on the reliability of negative results. METHODS: Between July 2006 and December 2008, a total of 982 patients with suspected severe injuries underwent single-pass pan-scanning at a metropolitan trauma centre. The findings of the scan were independently evaluated by two reviewers who analyzed the injuries to five body regions and compared the results to a synopsis of hospital charts, subsequent imaging and interventional procedures. We calculated the sensitivity and specificity of the pan-scan for each body region, and we assessed the residual risk of missed injuries that required surgery or critical care. RESULTS: A total of 1756 injuries were detected in the 982 patients scanned. Of these, 360 patients had an Injury Severity Score greater than 15. The median length of follow-up was 39 (interquartile range 7-490) days, and 474 patients underwent a definitive reference test. The sensitivity of the initial pan-scan was 84.6% for head and neck injuries, 79.6% for facial injuries, 86.7% for thoracic injuries, 85.7% for abdominal injuries and 86.2% for pelvic injuries. Specificity was 98.9% for head and neck injuries, 99.1% for facial injuries, 98.9% for thoracic injuries, 97.5% for abdominal injuries and 99.8% for pelvic injuries. In total, 62 patients had 70 missed injuries, indicating a residual risk of 6.3% (95% confidence interval 4.9%-8.0%). INTERPRETATION: We found that the positive results of trauma pan-scans are conclusive but negative results require subsequent confirmation. The pan-scan algorithms reduce, but do not eliminate, the risk of missed injuries, and they should not replace close monitoring and clinical follow-up of patients with major trauma.