形成了外周神经系统。
外周神经鞘瘤最常见发生在下肢。
Peripheral schwannomas are most often seen in the lower extremity.
组织损伤及外周神经损伤后可导致痛及痛过敏。
Pain and hyperalgesia was caused by injury of tissue and peripheral nerves.
损伤和完整的外周神经与背根神经节的通透性。
Permeability of Injured and Intact Peripheral Nerves and Dorsal Root Ganglia.
结果表明,核黄素缺乏主要损害雏鸡的外周神经。
The results showed that riboflavin deficiency was able to cause patent degeneration of peripheral nerve.
然而,炎症进程也可影响外周神经损伤后的反应。
However, inflammatory processes may also contribute to peripheral nerve injury responses.
目的介绍壳聚糖在修复外周神经损伤中的研究现状。
Purpose To introduce the advances of chitosan in the repair of peripheral nerve injury.
外周神经在全麻,区域麻,和单纯镇静病人身上都会出现。
Peripheral nerve injuries have occurred in patients after regional anesthesia or sedation as well as general anesthesia.
目的:探讨肢体的外周神经鞘类肿瘤的高频超声图像特征。
Objective: To explore high resolution sonographic appearances of peripheral nerve sheath tumors of the extremities.
良性外周神经鞘瘤可分为两大类,神经鞘瘤及神经纤维瘤。
Benign peripheral nerve sheath tumors can be divided into two major groups: Schwannomas and neurofibromas.
第二大脑,约有一亿神经细胞,比脊髓或外周神经系统都要多,格申说。
The second brain contains some 100 million neurons, more than in either the spinal cord or the peripheral nervous system, Gershon says.
手术中发生的外周神经损伤的恢复时间一般为3-12个月。
The usual recovery time from an intraoperative peripheral nerve injury is 3 to 12 months.
目的回顾性分析应用显微外科技术修复外周神经损伤的临床疗效。
Objective Retrograde analysis of the curative effect about peripheral nerve repair by microsurgery skill.
观察外周神经雪旺细胞对视网膜神经细胞成活及突起生长的影响。
To study the effects of Schwann cells on promoting neurite growth of rat retinal neurons in vitro.
结论CT和MRI扫描是诊断颈部外周神经源性肿瘤的有效方法。
Conclusion ct and MRI are effective for the diagnosis of cervical peripheral neurogenic tumors.
结论神经束内电极可稳定获取外周神经电信号提供更多的信息源。
Conclusions Intrafascicular microelectrodes can record the electric signal of peripheral nerve stably and it could serve as a method of providing more information source.
各种因素引起的外周神经损伤可诱发痛觉过敏、感觉倒错等病理现象。
The peripheral nerve injury caused by some pathological factors results in pathological chronic pain, such as hyperalgesia, allodynia, and spontaneous pain ect.
外周神经损伤会引发在初级感觉神经元和脊髓中的神经肽含量的改变。
Peripheral nerve injury induces changes in the level of neuropeptides in primary sensory neurons and spinal cord.
当梯度上升时间只有数毫秒时,外周神经兴奋是梯度场安全的上限指标。
For gradient ramp duration of less than a few milliseconds, mean peripheral nerve stimulation is a safe indicator of high dB /dt .
结果壳聚糖的细胞亲和性和修复外周神经损伤等方面的研究都有新的进展。
Results Great progress was made about chitosan in cell affinity and peripheral nerve regeneration.
脑机接口是指不依赖脑的正常输出通路,即外周神经和肌肉的信息传输通路。
A brain-computer interface (BCI) is a communication system that does not depend on the brain's normal output pathways of peripheral nerves and muscles.
研究背景:外周神经损伤及慢性炎症或感觉神经节炎症可导致慢性疼痛状态。
BACKGROUND: chronic pain conditions may result from peripheral nerve injury, chronic peripheral inflammation, or sensory ganglia inflammation.
不良反应损害涉及皮肤、胃肠、中枢和外周神经、心血管等全身多器官、系统。
The most common damage involved in skin, gastrointestinal, central and peripheral nervous, cardiovascular systems.
结论免疫抑制剂fk506能促进外周神经端-侧吻合后神经再生的速度和质量。
Conclusion Immunosuppresssant FK506 could promote nerve regenerative speed and quality after end-to-side neurorrhaphy of peripheral nerve.
但这些抗生素副作用较大,如肾脏毒性、耳毒性和外周神经毒性等,限制了用药疗程。
The problem with these antibiotics is that they have serious adverse effects such as nephrotoxicity, ototoxicity and peripheral neuropathy that limit the length of time that they can be used.
这些元素的多样化组合产生不同的梯度水平,高性能梯度系统能成功抑制外周神经刺激。
A variety of configurations of these elements results in a range of gradient performance levels, and successful prohibition of peripheral nerve stimulation while providing high gradient performance.
然而,上世纪80年代始,有研究表明移植外周神经和胎髓能促进脊髓损伤轴突的再生。
But in the 1980s, studies were reported that transplantation of peripheral nerves and fetal spinal cord could cause injured axons of spinal cord to regenerate.
接受踝部阻滞,臂丛和外周神经阻滞的病人,即使麻醉作用或感觉异常持续存在也可以离开。
Patients who have received an ankle block, brachial plexus block, or peripheral nerve block may be discharged despite the persistence of residual anesthesia or paresthesias.
这一技术不依赖于常规的外周神经和肌肉组织,可以直接通过大脑来表达意愿或控制外部设备。
This technology does not rely on normal peripheral nerves or muscle tissues, but can express ideas and control external equipments directly through brain.
这一技术不依赖于常规的外周神经和肌肉组织,可以直接通过大脑来表达意愿或控制外部设备。
This technology does not rely on normal peripheral nerves or muscle tissues, but can express ideas and control external equipments directly through brain.
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