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find Keyword "颈髓损伤" 4 results
  • 颈髓损伤患者的循环系统改变及救治

    目的 探讨颈髓损伤(cervical spinal cord injury, CSCI)患者的循环系统改变及救治经验。 方法 回顾性分析2005年6月-2009年6月期间接诊的69例CSCI患者的临床资料,就其循环系统改变与同期接诊的82例非CSCI患者进行比较。 结果 CSCI患者与非CSCI患者比较,其BP明显降低(Plt;0.05),HR明显变慢(Plt;0.05);颈4以上水平损伤者比颈4以下水平损伤者血压下降和HR变慢更明显(Plt;0.05);CSCI患者的ECG可出现窦性心动过缓、ST段下移、T波低平或倒置、QRS波、Q-T间期延长等异常改变。 结论 CSCI患者在生命体征、ECG等方面的变化较非CSCI患者明显;经过给予及时动态生命体征监测,适量补液,扩容,必要时予血管活性药物及对症治疗,合并呼吸衰竭者可予气管插管呼吸机辅助呼吸,最终提高患者的抢救成功率。

    Release date:2016-09-08 09:49 Export PDF Favorites Scan
  • Practice of Evidence-based Treatment Strategy for Cervical Spinal Cord Injury

    ObjectiveTo explore the practice of the evidence-based treatment strategy for cervical spinal cord injury. MethodsOne patient with cervical spinal cord injury was admitted to our hospital on January 3, 2013. We obtained medical evidences by searching databases and regulated the best treatment after evaluating the patient's comprehensive conditions. And then, the whole treatment strategy was fully implemented. Finally, the consequent results were evaluated. ResultsThe evidence-based medicine showed that the therapeutic targets were to save the residual function, prevent complications, and promote the recovery of neural function. Based on the real-time conditions of patient, we developed and practiced the evidence-based comprehensive rehabilitation programs, including absolute rest in bed, high-dose steroids, neurotrophic drugs, Chinese medicine rehabilitation and prevention of complications. After a follow-up of half a year, the patient obtained a good curative effect. The patient was saved from paralyzing. Moreover, the patient restored the capacity of standing, walking and a certain level of self-care ability. ConclusionFor the cervical spinal cord injury, treatment decision based on evidence-based medicine is more scientific, and it can ensure maximum benefit for the patients. Therefore, it is worthy of popularizing.

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  • Treatment of odontoid fracture combined with lower cervical spinal cord injuries without fracture or dislocation

    Objective To discuss the clinical characteristics, mechanism, and treatment of odontoid fracture combined with lower cervical spinal cord injuries without fracture or dislocation. Methods According to the inclusion and exclusion criteria, 7 male patients aged 37-71 years (mean, 51.4 years), suffered from odontoid fractures combined with lower cervical spinal cord injuries without fracture or dislocation were analyzed retrospectively between June 2007 and October 2015. The trauma causes were traffic accidents in 2 cases, fall in 2 cases, and hit injury in 3 cases. The time from injury to admission was 2 hours to 3 days with an average of 9 hours. According to Anderson-Grauer classification of odontoid fracture, 1 case of type IIA, 3 cases of type IIB, 2 cases of type IIC, and 1 case of shallow type III were found. The cervical spinal cord injuries affected segments included C4, 5 in 1 case, C4–6 in 2 cases, and C5–7 in 4 cases. All the cervical spine had different degenerative changes: 2 of mild, 3 of moderate, and 2 of severe. The lower cervical spinal cord injury was assessed by Sub-axial Injury Classification (SLIC) with scoring of 4-6 (mean, 5.1). The visual analogue scale (VAS) score was used to evaluate the occipital neck pain with scoring of 7.8±1.0; the neurological function was assessed by American Spinal Injury Association (ASIA) as grade B in 1 case, grade C in 4 cases, and grade D in 2 cases; and Japanese Orthopedic Association score (JOA) was 9.2±3.9. For the odontoid fractures, 4 cases were fixed with anterior screw while the others were fixed with posterior atlantoaxial fixation and fusion. For the lower cervical spine, 4 cases were carried out with anterior cervical corpectomy and titanium fusion while the others with anterior cervical disecotomy and Cage fusion. Results The operation time was 178-252 minutes (mean, 210.2 minutes); the intraoperative blood loss was 60-140 mL (mean, 96.5 mL) and with no blood transfusion. All incisions healed primarily. All the patients were followed up 12-66 months (mean, 18 months). There was no direct surgical related complications during operation, and all bone grafting got a fusion at 6-9 months (mean, 7.7 months) after operation. There was no inter-fixation failure or loosening. At last follow-up, the VAS score declined to 1.7±0.7 and JOA score improved to 15.1±1.7, showing significant differences when compared with preoperative ones (t=18.064, P=0.000; t=–7.066, P=0.000). The neurological function of ASIA grade were also improved to grade D in 5 cases and grade E in 2 cases, showing significant difference (Z=–2.530, P=0.011). Conclusion Complex forces and degeneration of lower cervical spine were main reasons of odontoid fracture combined with lower cervical spinal cord injuries without fracture or dislocation. The type of odontoid fracture and neurological deficit status of lower cervical spinal cord were important to guide making strategy of one-stage operation with a satisfactory clinic outcome.

    Release date:2017-08-03 03:46 Export PDF Favorites Scan
  • 高位颈髓损伤重症患者术后早期多学科团队协作康复管理一例

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