她说:“我相信,我们能够开出药方,让切断的脊髓愈合、心脏再生、失去的四肢再生的那一天不远了。”
She says: "I believe that the day is not far off when we will be able to prescribe drugs that cause severed spinal cords to heal, hearts to regenerate and lost limbs to regrow."
克隆技术很有希望产生烧伤和其它事故受害者所需的再生肌肤、软骨和骨头组织,以及治疗脊髓损伤的神经组织。
It held great promise for producing replacement skin, cartilage, and bone tissue for burn and accident victims, and nerve tissue to treat spinal cord injuries.
评估预先处理的周围神经可否作为脊髓损伤轴性再生的有效的环境。
Objective. To evaluate the outcome of preconditioned peripheral nerves as a permissive environment in axonal regeneration of the injured spinal cord.
目的:研究脂质体介导的胶质细胞源性神经营养因子(GDNF)基因在大鼠损伤脊髓内的表达,观察外源性GDNF对损伤脊髓轴突再生的作用。
Objective: To examine the expression of glial cell line derived neurotrophic factor (GDNF) in injured spinal cord and to observe effect of exogenous GDNF on the regeneration of injured axons.
结论督脉电针与神经干细胞移植联合应用能促进脊髓全横断大鼠受损伤的神经元存活及其轴突再生。
Conclusion the combination of Goremor vessel electroacupuncture and transplanted NSCs may promote the survival and axonal regeneration of injured neurons in completely transected spinal cord of rats.
结论研究能有效抑制硫酸软骨素蛋白多糖的方法可能促进损伤后脊髓的再生。
Conclusion Finding a way to degrade chondroitin sulphate proteoglycans may promote regeneration of axons after spinal cord injury.
由于脊髓损伤的重大影响,针对损伤后促进神经轴突的再生进行了大量的研究。
Owing to the profound impact of spinal cord injury, extensive studies have been carried out aimed at facilitating axonal regeneration following injury.
随着对神经元再生的深入探索和实验手段的不断完善,进行脊髓水平的神经根修复是一个新的并具有挑战性的课题。
With the better understanding of regeneration from neurons and further refinement of instruments , nerve root repair at the level of spinal cord appeared as a new but challenging technique.
结论:骨髓间充质干细胞移植后可能通过上调脑源性神经营养因子的表达从而促进脊髓损伤区神经元轴突的再生。
CONCLUSION: BMMSCs can promote the regeneration of neuron axon of spinal injury region after transplantation through up-regulating the expression of BDNF.
结论内含生物活性载体的生物材料导管可诱导大鼠脊髓神经轴突的再生。
ConclusionsThe chitosan tube in which the bio active carrier system was injected can induce the spinal cord nerve axon regeneration.
结论低功率的半导体激光可促进脊髓运动神经细胞功能,加速轴突再生。
Conclusion Low intensity semiconductor laser could promote the function of the spine motor nerve cells and accelerate the axonal regeneration.
目的:研究牛脑提取液对脊髓损伤修复及再生的影响。
AIM: To study the effect of extraction of calf brain (ECB) on regeneration and repair of spinal cord injury.
目的:研究大鼠臂丛神经根回植至脊髓后,神经纤维能否再生并有效恢复对靶器官的支配。
OBJECTIVE: to study the regeneration and effective functional restoration of charging the target organs of the nerve fibers after re implantation of nerve roots of brachial plexus to the spinal cord.
目的研究神经细胞黏附分子L1抗体封闭后的雪旺细胞对脊髓损伤后轴突再生的影响。
Objective To study the effect of Schwann cell enclosed by antibody of neural cell adhesion molecule L1 on injured spinal cord.
目的研究神经干细胞条件化培养基对脊髓损伤大鼠(SCI)皮质脊髓束(CST)再生的促进作用。
Objective Study the action of Neural stem cell (NSC) conditioned culture medium on promoting corticospinal tract (CST) in rats with injured spinal cord (SCI).
结论:前根撕脱延期再植回能促进脊髓前角运动神经元的存活与再生。
Conclusions: Delayed reimplantation of avulsion ventral root can enhance motoneuron survival and regeneration.
一种在研的单克隆抗体作为潜在的用于急性脊髓损伤的皮质脊髓束纤维再生的药物。
One monoclonal antibody is in development for potential use in the regeneration of corticospinal tract fibers resulting from an acute spinal injury.
脊髓损伤后所形成的坏死空洞和反应性增生的胶质瘢痕是导致脊髓损伤再生修复受阻的重要因素。
The formation of necrosis cavum and glial scar after spinal cord injured was one of important factor that affected regeneration of nerve fiber and neuron.
科学家在实验室里成功完成了动物损伤脊髓神经束的再生及其肢体活动的恢复。
S. scientist has demonstrated in a lab animal the successful regeneration of injured spinal nerve endings and recovery of arm movements.
目的通过脊髓半侧横切的方法建立灵长类恒河猴脊髓半横切损伤动物模型,用于神经再生的研究。
Objective To establish an animal model of spinal cord injury by lateral hemisection of cervical spinal cord in rhesus monkey for studying regeneration of spinal cord.
结论低能量氦-氖激光促进了脊髓运动神经细胞功能,加速了轴突再生,促进神经修复后肢体功能的恢复。
Conclusion Now it was certain that the low energy He-Ne laser could promote the function of the spine motor nerve cells and accelerate the axo nal regeneration.
结果和结论:胚肿脊髓移植能够促进脊髓环路的再生和功能恢复。
Results and Conclusion: FSC transplant can promote the regeneration of the spinal cord circuitry and restore function.
传统观念认为,脊髓损伤后由于神经元不能再生而不能修复。
Traditionally, spinal cord injuries are conceived unrepairable because the injured neurons can not regenerate.
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.
早期脊髓干细胞的移植,一是可以阻止和减轻继发损伤,二是可以促进恢复和促进再生。
Transplantation of spinal stem cell in the earlier period not only lessen secondary injury but also promote regeneration.
结果:雪旺细胞结合纤连蛋白治疗组脊髓诱发电位潜伏期显著缩短,再生轴突明显增多,二者呈负相关。
Results:In the group treated with SCs and FN, the latency of P1 wave was significantly shorten and the number of regrowed axons significant increased, with a significant negative correlation.
结果:雪旺细胞结合纤连蛋白治疗组脊髓诱发电位潜伏期显著缩短,再生轴突明显增多,二者呈负相关。
Results:In the group treated with SCs and FN, the latency of P1 wave was significantly shorten and the number of regrowed axons significant increased, with a significant negative correlation.
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