小脑

The largest cisterna magna measurement should be no more than 10 mm in depth and no less than 2 mm.

小脑延髓池深度最大径线应不大于10mm，且不小于2mm.18周后，在标准切面上，第四脑室不应与小脑延髓池相交通，而应由完整的小脑蚓部相分隔。

Results: Subsequent to an injection of BDA into unilateral FN, FN-hypothalamic projections passed through the superior cerebellar peduncle, crossed in its decussation and then entered the hypothalamus.

结果：小脑顶核注射BDA后第8 d，在用3，3-二氨基联苯胺和Nissl染色的脑切片上，观察到顶核神经元发出的神经纤维在小脑上脚中行走，并经小脑上脚交叉后主要到达对侧下丘脑外侧区。

Results: It was observed that projections from IN to hypothalamus passed through the superior cerebellar peduncle, crossed in its decussation and then many of them entered posterior hypothalamic area by iontophoresis of Dextran-Texas Red to cerebellar IN. Using the methods of iontophoresis of Fluoro-Ruby and double labelling staining, it was also observed that the neurons projecting to PH in cerebellar IN were glutamatergic neurons.

结果：小脑间位核电泳Dextran-TR后示踪可见间位核神经元发出离核纤维，行走于同侧小脑上脚中，在小脑上脚交叉处交叉到对侧，然后继续走行于小脑上脚中，到下丘脑后较多纤维终止于下丘脑后区；在下丘脑后区电泳Fluoro-Ruby后可逆行追踪到小脑间位核神经元，荧光双标法显示投射到下丘脑后区的小脑间位核神经元中有谷氨酸能神经元。

The opioid receptors mainly distribute at prefrontal lobe(obitofrontal gyrus, medial superior frontal gyrus, superior frontal gyrus), paralimbic cortices (cingulated cortex and hippocampus), insular cortex、pallidum and the opercular section of frontal lobe and parietal lobe. These results corresponded with the classic theories on PET neurorecepotors imaging.

通过phfMRI方法进一步验证了人脑中枢系统内阿片受体的主要分布区，其中皮层区集中在前额叶(眶额皮质、额上回、额内上回)、边缘系统、颞叶脑岛区及额顶叶的岛盖部；皮层下区集中在苍白球区；小脑集中在小脑皮层、小脑脚及小脑蚓部。

The adaptive algorithm is adopted to design the concept mapping of cerebella model articulation controller neural network. The nonlinear quantization CMAC is presented to improve the speed and accuracy of calculation to meet the complex and dynamic demand under the nonlinear and realtime controlling environment.

采用自适应算法对小脑模型神经网络的概念映射进行设计，提出了非线性量化小脑模型神经网络算法，提高小脑模型神经网络的计算速度和精度以满足复杂动态环境下的非线性实时控制的需要。

The relationships among the targeted neurovascular structures were described and the difference between the median and paramedian infratentorial-supracerebellar approaches were analyzed. Results: The median infratcntorial-supracerebellar approaches provided direct exposure of the incisural space, although culmen represented a relative obstacle to expose of the quadrigeminat area.

结果：正中幕下小脑上入路直接暴露厂后切迹间隙，但山于小脑对视野的阻碍，限制了四叠体板下半部分的暴露；旁正中幕下小脑上入路视野范围集中在中切迹水平的脑干背外侧面区域，且可以观察到同侧的上、下丘。

We didn\'t find activated points in cerebellum and deeper brain.3.Acupuncture of sham point can significantly activated BA2,6,8,13,21,37,40,44,45,47,putamen and other areas.Both the left and right side of the brain have activated points,but points on the right side are more than those on the left.Both sides of middle temporal gyms,parietal lobule,supramarginal gyms and the lentiform nucleus have obvious activated points.The activated points mainly concentrated in the cerebral cortex,the deep-activated are mainly in the putamen.4. Sham needling in sham point can significantly activate BA6, 8,9,10,18,21,37,40,43,44.The activated points are mainly distributed in the right side of the brain.The left side also has some activated points;5.In the comparasion of Acupunture and sham-needling in S J5,we find that BA8 and cerebellum have distinct regional activated points;6.In the comparasion of acupuncture in SJ5 and sham point,we find BA2 and left cerebellar regions have activated points;7.Sham needling in S J5 compared with sham point,we find BA7,8,9,18 and other areas have activated points,the main activated points are at the left brain.It is not difficult to find that the distribution of activated points are mainly in the middle brain,no obvious activated points at the temporal lobe.

结果：通过对数据的处理和分析，我们初步发现：1、外关穴真针刺能显著激活Brodmann area45、37、44、40、22、13、37、47区、海马、杏仁核、黑质等区域，小脑左侧更明显，左侧颞叶皮层激活点多于右侧，且脑部左侧深层激活点多于右侧；2、外关穴假针刺能显著激活BA46、44、41、13、40、37、19区等区域，激活点主要集中表现在大脑皮层，以颞叶为主，小脑及深部未发现明显激活点；3、非穴真针刺组结果分析初步表明，BA2、6、8、13、21、37、40、44、45、47区以及壳核等区域有激活点，大脑左、右侧均有激活点，但右侧更多，双侧颞中回、顶叶下小叶、缘上回及豆状核有明显激活点，激活点主要集中在大脑皮层，深部激活点主要在壳核；4、非穴假针刺能显著激活BA6、8、9、10、18、21、37、40、43、44区等区域有激活点，主要分布在大脑的右侧，左侧也有不少激活点，就其具体分布主要在颞叶和额叶，少部分分布在顶叶和枕叶；5、外关穴真针刺与假针刺对比发现，BA8区和小脑等区域有明显的激活点；6、外关穴真针刺与非穴真针刺对比发现BA2区、左侧小脑等区域有激活点；7、外关穴假针刺与非穴假针刺对比发现，BA7、8、9、18等区有激活点，主要反应点在左侧大脑的枕叶中回、楔叶，顶叶楔前叶及额上回、中回，就其分布不难看出主要在大脑中部，颞叶未见明显激活点。

The results are as follows:(1) immunoreactive neurons of NPY in medulla oblongata of Taihe silky fowl, New jianghan domestic chicken are mainly localized in the inferior olivary nucleus.

结果如下：(1)在泰和乌鸡和江汉鸡的延髓中，NPY阳性神经元主要存在于下橄榄核，网状核及中缝核也少量出现；(2)在泰和乌鸡和肉鸽的小脑中，NPY阳性神经元主要存在于小脑皮质的蒲肯野氏细胞层，且以小叶顶端的蒲肯野氏细胞阳性明显，而小脑皮质的分子层、颗粒层未见阳性反应细胞；(3)泰和乌鸡延髓的网状细胞核非常发达；泰和乌鸡小脑皮质分3层，由外至内依次为分子层、蒲肯野氏细胞层和颗粒层；小脑分10叶，Ⅰ、Ⅱ和Ⅹ为单叶，其余各叶都分为2～3个小叶；(4)非洲鸵鸟迷走神经运动背核和疑核特别发达，孤束核吻侧部不发达。

Of the 26 lesions with pontine and bulbar involvement, three had no association with other lesions (Fig 2). Twelve were associated with tegmental and superior cerebellar peduncular extension, and six showed corticospinal tract involvement in continuity with an MDJ lesion. In one patient with additional telencephalic lesions, the right side of the pons was hyperintense on long TR/TE images that did not cross the midline, suggestive of an arterial lesion (Fig 3). In two patients with pontine tegmental lesions, there was an associated middle cerebellar peduncle and deep cerebellar white matter involvement (Fig 4). Two others had associated cervical lesions.

在26处脑桥延髓区病灶中，3处病灶仅限于脑桥延髓区，其它部位无病灶（图2）；12处病灶还同时伴有背盖部和小脑上脚/结合臂处病灶；6处病灶为与中脑-间脑接合处病灶相连的皮质脊髓束受累；还有1例患者除端脑见病灶外，右侧脑桥于T2像也见高信号病灶，但未超越正中线，提示可能系动脉病变所致（图3）；2例脑桥背盖部病灶的患者同时伴有小脑中脚/小脑脑桥脚和小脑深部白质受累（图4）；还有2处脑桥延髓区病灶还同时伴有颈髓病灶。

Results Cerebellopontine angale region the lower neurovascular complex included glossopharyngeal nerve, vagus nerves, accessory nerve and hypoglossal nerves, and interrelated to posteroinferior cerebellar artery, bulbus medulla, cerebellar peduncle, bulbus fissurae cerebelli and cerebello-napex.

结果 桥小脑角区下血管神经复合体主要包括舌咽神经、迷走神经、副神经及舌下神经和相关的小脑后下动脉及延髓、小脑下脚、延髓小脑沟及小脑枕下部等。

Cerebellar ataxia：小脑运动失调

cerebellar 小脑的 | cerebellar ataxia 小脑运动失调 | cerebellar cortex 小脑皮质

cerebellar ectopia：小脑外疝

cerebellar cortex 小脑皮质 | cerebellar ectopia 小脑外疝 | cerebellar hemisphere syndrome 小脑半球综合征

cerebellar peduncle：小脑脚

cerebellar nuclei 小脑核 | cerebellar peduncle 小脑脚 | cerebellifugal 离小脑的

cerebellar vallecula：小脑谷

cerebellar tonsillar hernia 小脑扁桃体疝 | cerebellar vallecula 小脑谷 | cerebellar veins 小脑静脉

cerebella：小脑

cerebel 小脑 | cerebella 小脑 | cerebellar 小脑的

cerebellar retractor：小脑拉钩

cerebellar precentral vein 小脑中央前静脉 | cerebellar retractor 小脑拉钩 | cerebellar syndrome 小脑病变综合征,小脑综合征

cerebellipetal：趋小脑的,向小脑的

\\"离小脑的\\",\\"cerebellifugal\\" | \\"趋小脑的,向小脑的\\",\\"cerebellipetal\\" | \\"小脑炎\\",\\"cerebellitis\\"

tentorium cerebelli：小脑幕

充满脑脊液. 二者比硬膜与软膜的连系更紧密,在许多地方竟成为1个膜. 哺乳类的硬脑膜侵入大脑半球、小脑半球之间形成大脑镰(falxcere bri)和小脑镰(falx cerebelli). 或者侵入大脑与小脑之间形成小脑幕(tentorium cerebelli).

vermis：小脑蚓部

除了提供大脑及小脑(cerebellum)的联系之外,同时也和小脑一起掌管动作的协调性.小脑分成三部分,中间那一部份称为小脑蚓部(vermis).所有这些脑的区域已经透过不同的方式来做脑透视或造影(seeing into or imaging the brain)的研究,

cerebellar peduncles：小脑脚,小脑脚

cerebellar peduncle syndrome ==> 小脑下脚综合征 | cerebellar peduncles ==> 小脑脚,小脑脚 | cerebellar precentral vein ==> 小脑中央前静脉