1) Cochlear implantation
人工耳蜗植入术
1.
A questionnaires study on cochlear implantation in patientswith malformed inner ear
内耳畸形人工耳蜗植入术后听力言语康复效果分析
2.
Cochlear implantation has been successful in all 3 patients.
目的 :探讨腮腺炎后双耳深度聋患者人工耳蜗植入术后短期听力与言语康复效果。
2) artificial cochlea implantation
人工耳蜗植入术
1.
Effect of Auditory-Verbal therapy after artificial cochlea implantation;
人工耳蜗植入术后听觉口语训练法效果研究
2.
Objective To probe role of MRI in diagnosing malformation of internal-ear membranous labyrinth, as well as in pre-operation assessment for artificial cochlea implantation.
目的探讨MR内耳水成像技术对内耳畸形诊断及人工耳蜗植入术的术前评估价值。
3) Cochlear implantation
人工耳蜗植入
1.
Applied anatomy of facial recess for cochlear implantation in children;
幼儿人工耳蜗植入面神经隐窝的应用解剖学
2.
Cochlear implantation for prelinguistic deaf patients with encephalic disease (3 cases report);
伴颅内疾患语前聋病人的人工耳蜗植入术(附3例报告)
3.
Cochlear implantation in patients with residual low frequency hearing
有低频残余听力感音神经聋的人工耳蜗植入术
4) Cochlea implant
人工耳蜗植入
1.
This paper is todevelop a kind of VRA-I visual reinforcement audiometry used in cochlea implant for the infant.
结果:临床228名幼儿聋哑患者得到了听力检测,并依此结果,对37名幼儿患者进行了人工耳蜗植入手术,效果满意。
5) Cochlear implant
人工耳蜗植入
1.
Auditory Evaluation with Electrically Evoked Auditory Brainstem Responses (EABR) in Cochlear Implant Users;
人工耳蜗植入者电听性脑干反应测试
2.
Preliminary experience of cochlear implants for Nucleus 24 Contour;
Nucleus 24 Contour人工耳蜗植入术初步体会
3.
Analysis of the Nucleus cochlear implant in six cases;
6例Nucleus人工耳蜗植入临床分析
6) Cochlear Implantation
耳蜗植入术
1.
Temporal bone tomography for cochlear implantation
颞骨体层术在人工耳蜗植入术后的应用
2.
Objective:To analyze the surgical indications, operation methods,prevention of com- plications and outcome of 36 cases of cochlear implantation to provide experience for the further development of this operation.
目的:总结分析36例人工耳蜗植入术的手术适应证选择,手术方法,并发症预防及术后效果,为此手术的进一步开展提供经验。
3.
Objective To explore the problems related to cochlear implantation.
【目的】探讨人工耳蜗植入术的有关问题。
补充资料:人工耳蜗
人工耳蜗 artificial cochlea 一种模拟耳蜗(内耳)仿生装置。又称电子耳蜗。属生物医学工程研究领域。由于需经手术植入体内,故习惯称为耳蜗植入。其主要目的是使极重度或全聋残疾者获得部分听觉,改善其听力。 声波到达内耳耳蜗,将声能转换为生物电能,引起蜗神经末梢兴奋,发出神经冲动,经听神经中枢传导径路传至听觉中枢,产生听觉。大多数聋症患者耳蜗螺旋器毛细胞虽近乎全部或全部丧失,但通常尚有一定比例神经纤维存活,这些残存神经纤维末梢可直接为电刺激激活。 人工耳蜗基本构造由换能器和电极两部分组成,换能器携带于体外,主要包括换能器、语言处理机及发射器,电极则需经手术由中耳内壁圆窗植入耳蜗鼓阶,分单导及多导两种,单导已废止不用,多导电极可将语言信息分频处理,送到相关电极上,兴奋基底膜不同部位蜗神经末梢,模拟人类听觉机理。由于术后病人听到的是一种畸变的声音,只有通过训练,言语识别能力始能逐步提高。 |
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