1) Enameled electrode of inner wall
内搪电极
2) internal lining
内搪层
3) silver internal electrode
银内电极
4) Intracranial electrode
颅内电极
1.
Indications of presurgical long-term intracranial electrode implantation for non-lesion intractable epilepsy;
无病灶性癫术前长程颅内电极埋置的适应证探讨
2.
Effects of robot assistant frameless stereotaxy for intracranial electrode implantation:reports of 19 cases
机器人辅助无框架定位颅内电极埋植(附19例分析)
3.
Intracranial electrode placement to sites of epileptoge.
目的探讨18F-FDG PET脑显像对癫痫颅内电极放置位置选择的价值。
5) intramuscular electrodes
肌内电极
1.
MethodsPerforming lateral movements of spine,including lifting and lowering of different loads(0-40 kg) held laterally in one hand,the activities of eight trunk muscles and the angular motion of the trunk from side to side in six subjects were recorded using intramuscular electrodes and video project.
方法在6个站立的受试者,单手不同负重(0~40 kg)进行侧提和侧放时,应用肌内电极检测8块躯干肌的活动;测量摄像中对侧躯干角运动。
2.
Methods Performing lateral movements of spine, including lifting and lowering of different loads (0 -40 kg) held laterally in one hand, the activities of eight trunk muscles and the angular motion of the spine in six subjects were recorded using intramuscular electrodes and video project.
方法在6个站立的受试者,单手不同负重(0—40 kg)执行侧提和侧放时,应用肌内电极检测8块躯干肌的活动; 测量摄像中侧对侧躯干角运动。
6) intracranial electrodes
颅内电极
1.
Objective To explore the time and method of intracranial electrodes placement and investigate the value and role of intracranial EEG (i-EEG) technique in intractable epilepsy pre-operative evaluation.
目的探讨颅内电极置入术在临床的应用时机、方法,评估颅内电极脑电图(i-EEG)技术在癫疒间外科中的价值。
2.
Intracranial electrodes were implanted on suspect encephalic regions by craniotomy for these patients.
目的:探讨颅内电极监测技术在难治性癫痫外科治疗中的应用价值。
补充资料:-戊内酯、3-甲基丁内酯、咖吗-戊内酯
CAS: 108-29-2
分子式: C5H8O2
分子质量: 100.12
沸点: 207-208℃
熔点: -31-208℃
中文名称: 4-戊内酯、γ-戊内酯、3-甲基丁内酯、咖吗-戊内酯
英文名称: dihydro-5-methyl-2(3H)-Furanone、dihydro-5-methyl-2(3h)-furanon、4-hydroxypentanoic acid lactone、4-hydroxyvaleric acid lactone、4-methyl-gamma-butyrolactone、gamma-methyl-gamma-butyrolactone、gamma-valerolakton
性质描述: 无色至微黄色液体。凝固点-31℃,沸点205-206.5℃,83-84℃(1.73kPa),相对密度(25/25℃)1.0578,折光率(nD25)1.4301。能与水、许多有机溶剂、树脂和蜡等混溶。10%水溶液的pH为4.2。
生产方法: 由不饱和羧酸通过闭环反应来合成,例如乙酰乙酸与硫酸共热,或乙酰丙酸在镍、铜等催化剂存在下加氢。
用途: γ-戊内酯有较强的反应能力,可用作树脂溶剂及各种有关化合物的中间体。也用作润滑剂、增塑剂、非离子型表面活性剂的胶凝剂、加铅汽油的内酯类添加剂,用于纤维素酯和合成纤维的染色。γ-戊内酯具有香兰素和椰子香味。我国GB2760-86规定为允许使用的食用香料。主要用以配制桃、椰子、香草等型香精。
分子式: C5H8O2
分子质量: 100.12
沸点: 207-208℃
熔点: -31-208℃
中文名称: 4-戊内酯、γ-戊内酯、3-甲基丁内酯、咖吗-戊内酯
英文名称: dihydro-5-methyl-2(3H)-Furanone、dihydro-5-methyl-2(3h)-furanon、4-hydroxypentanoic acid lactone、4-hydroxyvaleric acid lactone、4-methyl-gamma-butyrolactone、gamma-methyl-gamma-butyrolactone、gamma-valerolakton
性质描述: 无色至微黄色液体。凝固点-31℃,沸点205-206.5℃,83-84℃(1.73kPa),相对密度(25/25℃)1.0578,折光率(nD25)1.4301。能与水、许多有机溶剂、树脂和蜡等混溶。10%水溶液的pH为4.2。
生产方法: 由不饱和羧酸通过闭环反应来合成,例如乙酰乙酸与硫酸共热,或乙酰丙酸在镍、铜等催化剂存在下加氢。
用途: γ-戊内酯有较强的反应能力,可用作树脂溶剂及各种有关化合物的中间体。也用作润滑剂、增塑剂、非离子型表面活性剂的胶凝剂、加铅汽油的内酯类添加剂,用于纤维素酯和合成纤维的染色。γ-戊内酯具有香兰素和椰子香味。我国GB2760-86规定为允许使用的食用香料。主要用以配制桃、椰子、香草等型香精。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条