- 更多网络例句与加速神经相关的网络例句 [注:此内容来源于网络,仅供参考]
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The effects, of protection and treatment with, combined Ch, NaF and a trophie were significantly better than that with atropine alone. In isolated phrenic nerve-diaphragm preparation of rat, isolated jejuneal preparation of, guinea pig, and the metabolic experiment of rat liver, the results of the, assay on the rat blood ChE activity indicated that antidotal effect of NaF may be due to the antidese...
大鼠离体膈神经膈肌、豚鼠离体空肠和大鼠肝脏代谢实验及对大鼠全血胆碱酯酶活力测定的结果表明,NaF的抗毒作用可能是由于其对神经肌肉接头和/或神经节中的N受体的抗脱敏作用;而Ch则可能通过其对ChE的保护和/或加速被抑制ChE的复能,阻碍Ach到达M受体部位而发挥作用。
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It suggests that the prescription can accerelate transportation of axoplasm of clamped nerve.It is related with improvement of local micro-circulation.It may be one of the mechanism in promoting regeneration of peripheral nerve injury in clinic and experiment.
提示:本方可加速钳伤神经的轴浆运输,这与其改善损伤局部微循环有关,也可能是临床和实验中,本方促进周围神经再生的作用机理之一。
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Large numbers of experiments internal and external had confirmed both direct current and square pulse of distal end cathodal could improve peripheral nerve regeneration, because it could speed up transmigration, creeper, growth and development of cell Schwann, derivate growth of nerve fiber; it also increased blood capillary of epineurium, brood blood vessel, amendment ischemic of impaired nerve, it still could accelerate Wallerian
国内外大量的基础实验及临床研究都证实远端负极电流的直流电场及脉冲电场等均有促进周围神经再生的作用,认为其可加速Schwann细胞的游走、爬行及生长发育,诱导神经纤维的生长;电刺激还能促使神经外膜毛细血管数量增多,扩张血管,改善神经损伤段缺血状态,并加速Wallerian变性及崩解组织的清除,为Schwann细胞发育和髓鞘化过程提供充足的能量与物质,同时为神经轴突的再生提供良好的内环境;在神经断端出现瘢痕或神经瘤时,电刺激可增加神经纤维穿越瘢痕的能力。
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Results:①The doses of 0.8 g·kg-1, 1.2 g·kg-1, 1.6g·kg-1 and 2.0g·kg-1 of AMJ could delay the time of fatigue in nerve centre, neuromuscular junction and muscle of mice, but in hoptoad, only the doses of 0.8 g·kg-1 and 1.2g·kg-1 have the same effect,the dose of 1.6g·kg-1 and larger doses could accelerate the fatigue.
结果:① 0.8g·kg-1、1.2g·kg-1、1.6g·kg-1和2.0g·kg-1剂量的黄芪注射液均能延缓小鼠中枢、神经-肌接头和肌的疲劳,蟾蜍仅有0.8 g·kg-1和1.2 g·kg-1有此作用,1.6g·kg-1及以上剂量的黄芪注射液对蟾蜍有加速上述部位疲劳的作用。
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Firstly, two covering hypersphere algorithms were proposed, referred to as minimum volume covering hypersphere algorithm and moving medium centers covering hypersphere algorithm, to heuristically and rapidly select the promising hidden center vectors from all the training samples. Then the particle swarm optimization algorithm combined with recursive orthogonal least square algorithm was used to further prune the initial hidden centers and optimize the control parameters.
为在实际应用中加速优化速度,降低优化计算复杂度,首先提出了最小体积覆盖超球和移动平均中心覆盖超球两种算法,用于启发式的从训练样本中快速的初选出径向基概率神经网络的隐中心矢量,然后将粒子群优化算法和 ROLSA 结合进一步优选隐中心矢量,同时优化核函数控制参数,实现径向基概率神经网络的全结构优化。
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By which the body is capable to speed up blood circulation and recovery from injuries, as well as to revive the nerve and muscle fiber.
其中身体是有能力,以加速血液循环和回收,从受伤,也为了振兴神经和肌肉纤维。
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For speeding up BP algorithm of learning of neural network, a BP algorithm based on the Taylor's series of the error function is studied, the method is effective in speeding up BP network training.
1在本文中,针对加速神经网络学习的BP算法进行研究,给出了基于目标函数的Taylor展开的BP算法。它对加快神经元网络学习速度效果明显。
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Using acupotomology incise and separate the hip joint articular capsule and ligament and the periosteum on the collum ossis femoris and the soft tissue nearby the joint can cause slight hurt and haemorrhage. The hurt factor is release from the local tissue. Human self-rebuilding system is activated, Building bone function of osteoblast is accelerated, new bone is built quickly. New blood vessel and nerve ending is rebirth. Local tissue's blood supply and nerve nourishment is improved. The developing of bone necrosis is prevented. The necrotic part is re-blood vessel. The conditions of the necrotic's absorbing tissue and the new bone's replacing are established.
针刀治疗股骨头无菌性坏死是通过针刀对髋关节囊、关节囊韧带、股骨颈的骨膜和髋关节相邻周遍组织切割分离铲拨松解可以产生轻微创伤、出血、局部组织释放创伤因子,激发人体自我修复重建反应,激活成骨细胞造骨功能,加速新骨生成,促进新血管和神经终端组织再生与重建,使局部组织血流加速,改善血液供应和神经营养状况,阻止坏死进一步发展,使股骨头颈坏死区域再血管化,为坏死组织吸收和为新骨再生爬行替代过程创造条件。
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Furthermore,MH shortenmolting period and accelerating the gonadial development.This is the major causegiving rise to precocious mature in the cultured chinese mitten crab.Keywords:Eriocheirsinensis Precocious crab Culture Ultrastructure Cell
体内高浓度的胆固醇通过抑制眼柄神经分泌细胞抑制性神经肽激素的合成和释放,促进Y-器官合成和释放MH,缩短养殖河蟹的蜕皮周期,加速了河蟹的性腺发育,造成养殖河蟹性早熟。
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The quantity of CD3+ cells in the EdNSC, AdNSC of cloning goattransplantation group and control group had no statistics difference(P>0.05) at acute and chronic period.Overall, in our study, We got the conclusions as follow: 1,The EdNSC, AdNSCof cloning goat and the AdNSC of the non-cloning goat were successful obtained;EdNSC growed faster than AdNSC in the same cell culture method. 2,The braincontusion and laceration model of cloning goats were successful established by freefalling of 50 gram of steel ball accelerate strike on the goat brain from 100cm height.3, EdNSC and AdNSC transplantation both had obvious therapeutic effect on braincontusion and laceration of cloning goats; The therapeutic effect of EdNSCtransplantation was better. 4, Allograft of stem cells has acute and chronicimmunological rejection and autografting of stem cells has no acute and chronicimmunological rejection.
在相同的条件下,EdNSC体外培养速度比成AdNSC快。2对羊脑上薛氏沟周围运动皮层区使用50g×100 cm力度作自由落体加速撞击,可产生观察指标明确且存活率高的羊脑挫裂伤模型,有望广泛用于神经干细胞移植及药物等治疗的实验研究。3胚胎神经干细胞及成体神经干细胞移植治疗脑挫裂伤后均有较明显的治疗效果;二者相比较而言胚胎神经干细胞稍好于成体神经干细胞。4中枢神经系统异体神经干细胞移植存在着明显的免疫排斥反应,而自体神经干细胞移植基本无免疫排斥反应
- 更多网络解释与加速神经相关的网络解释 [注:此内容来源于网络,仅供参考]
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accelerator pedal bracket:加速器踏板支架, 油门控制踏板支架
accelerator nerve | 加速神经 | accelerator pedal bracket | 加速器踏板支架, 油门控制踏板支架 | accelerator pedal hinge | 加速器踏板铰链
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promycelium:原菌丝
promoting nerve 加速神经 | promycelium 原菌丝 | promyelocyte 早动粒细胞
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spinal cord injury:脊髓受伤
因为外伤造成的脊髓受伤(Spinal cord injury)而导致的问题(如全身瘫痪,大小便失禁等). 因为骨刺等问题长期压迫到脊髓(Spinal cord)而导致脊髓受伤. 综合来说,目前神经再生可以做到的就是以最新的药物将尚未完全死亡的神经加速其回复,
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accelerans; acceleratory nerve:加速神经
\\"不能吞咽\\",\\"acatoposis\\" | \\"加速神经\\",\\"accelerans,acceleratory nerve\\" | \\"加速反应\\",\\"accelerated reaction\\"
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promoting nerve:加速神经
promoter site 启动子部位 | promoting nerve 加速神经 | promycelium 原菌丝
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accelerator nerve:加速神经
accelerator 加速剂 | accelerator nerve 加速神经 | accelerator protein 促进朊
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cardiac accelerator nerve:心加速神经
cardiac sympathetic nerve 心交感神经 | cardiac accelerator nerve 心加速神经 | cardiac augmentor nerve 心加强神经
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augmentor nerve; accelerator nerve:加速神经
\\"附加作用\\",\\"augmentation\\" | \\"加速神经\\",\\"augmentor nerve; accelerator nerve\\" | \\"海雀\\",\\"auk\\"
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Atracurium Besylate:苯磺阿曲库铵
以此结构为基础,人们从加速药物代谢的角度,设计合成了苯磺阿曲库铵(Atracurium Besylate)为代表的一系列异喹啉类神经肌肉阻断剂. Atracurium Besilate具有分子内对称的双季铵结构,在其季铵氮原子的β位上有吸电子基团取代,