犬脑内动脉构筑的显微X线解剖学研究

犬脑11只,经生理盐水冲洗脑血管后,注入20％钡胶液,切成0.2～1.0厘米的厚片,用显微X线法研究犬脑内各级动脉的构筑,其结果:1.皮质动脉的管径平均为25.9±0.005微米,平均长度为888.0±0.241微米。其形态与发出部位有关,分别呈栅状和瓶刷状。2.髓质动脉的管径平均为49.9±0.007微米。呈直线或孤形向心走行。3.皮质下动脉的管径平均为38.7±0.009微米。呈新月形或蟹钳状分布。4.豆纹动脉和内囊动脉的平均管径为70.0±0.021微米。呈锐角、反血流方向发自母干,再呈“S”形上升。5.丘脑动脉的平均管径为63.7±0.019微米,主要从下方进丘脑,呈树枝状分支。     

Morphology of neurons and axon terminals associated with descending and ascending pathways of the lateral forebrain bundle in Rana esculenta

Summary The cells of origin of afferent and efferent pathways of the lateral forebrain bundle were studied with the aid of the cobalt-filling technique. Ascending afferents originated from the lateral thalamic nucleus, central thalamic nucleus, posterior tuberculum and the cerebellar nucleus. They terminated in the anterior entopeduncular nucleus, amygdala and the striatum. Telencephalic projection neurons, which are related to the lateral forebrain bundle, were located mainly in the ventral striatum and the anterior entopeduncular nucleus, but were not so numerous in the dorsal striatum. Irrespective of their location, most of the neurons projecting axons into the lateral forebrain bundle had piriform or pyramidal perikarya. Long apical dendrites usually arborized in a narrow space, whereas widely arborizing secondary dendrites originated from short dendritic trunks. The other neurons that contributed to the lateral forebrain bundle were fusiform or multipolar cells. Striatal efferents terminated in the pretectal area and in the anterodorsal, anteroventral and posteroventral tegmental nuclei.     

Acoustic response properties of single neurons in the central posterior nucleus of the thalamus of the goldfish,Carassius auratus

Acoustic responses were recorded extracellularly from single neurons in the thalamic central posterior nucleus (CP). Spontaneous activity, best sensitivity, and sharpness of tuning (Q_10db) of CP neurons ranged from 0 to 36 spikes/s, -40 to 5 dB re: 1 dyne/cm², and 0.18 to 1.80, respectively. The distribution of characteristic frequency (CF) was nonuniform with a mode at 195 Hz. Temporal response patterns of CP neurons (N = 60) were categorized into three groups: phasic (25%), tonic chopper-like (22%), and tonic nonchopper-like (53%) on the basis of peri-stimulus time and inter-spike interval histograms. Most CP neurons (90%) did not phase-lock to tones, and none phase-locked strongly. The properties of CP neurons are similar to those of the midbrain torus semicircularis neurons in spontaneous rates, best sensitivities, nonuniform CF distributions, and in exhibiting level-independent best frequencies. Both CP and toral neurons show a diversity of response patterns resembling those found in the mammalian central auditory system. However, CP neurons have broader tuning and less phase-locking than toral neurons, suggesting different roles in auditory processing. While peripheral frequency analysis is enhanced at the midbrain level, the integration of frequency-selective channels in the thalamus may function in the processing of wideband spectra characteristic of natural sound sources.Abbreviations BF best frequency - BS best sensitivity - CF characteristic frequency - CP central posterior nucleus - ISIH inter-spike interval histogram - PSTH peri-stimulus-time histogram - RA response area     

Topography of retinal axons in the diencephalon of goldfish

Summary The projections of horseradish peroxidase-filled axons from each quadrant of the retina were studied to determine whether retinal projections of goldfish are topographically organized in diencephalic target nuclei. A distinct topography of the dorsal, nasal, ventral and temporal retina exists in the lateral geniculate nucleus and in the dorsolateral optic nucleus of the thalamus. The projections of retinal quadrants show minimal spatial overlap in each of these nuclei. The suprachiasmatic nucleus of the hypothalamus is extensively innervated by ventral retinal fibers, whereas the nucleus is sparsely innervated by fibers from the other three retinal quadrants. A rudimentary topography also exists in the pretectum where the dorsal pretectal area receives projections primarily from the ventral retina and the ventral pretectal area receives projections mostly from the dorsal retina. These data show that retinal projections to some diencephalic nuclei are topographically organized.This work was supported by Research Grant EY-01426 to S.C.S.     

Organization of ascending spinal projections in Caiman crocodilus

Summary Ascending spinal projections in the caiman (Caiman crocodilus) were demonstrated with Nauta and Fink-Heimer methods following hemisections of the third spinal segment in a series of twelve animals. These results were compared with earlier data in the literature obtained from a turtle, a snake, and a lizard using the same experimental and histological procedures. The results show remarkable similarities considering that each species represents a different reptilian order with different evolutionary history and habitat. However, the caiman displays several important peculiarities.Although the dorsal funiculus of the caiman contains the largest number of ascending spinal projections of the four species examined, this funiculus has not differentiated into cuneate and gracile fasciculi as is the case in the tegu lizard. The ventro-lateral ascending spinal projections follow a fundamentally similar general morphologic pattern in the four species with only minor variations. The anatomical arrangement in the caiman and tegu lizard appears most similar in the high cervical and the medullary regions; however, this is not the case in midbrain and thalamic regions where considerably more extensive projections are seen in the caiman. In the caiman an extensive spinal connection to the ventro-lateral nucleus of the dorsal thalamus is present; this connection is reminiscent of the mammalian spinal projection to the ventro-basal complex. The caiman has in common with the other three reptilian species a small projection to another dorsal thalamic region that is apparently homologous to the mammalian intralaminar nuclei, which are the destination of the mammalian paleospinothalamic tract.     

LHRH-immunoreactive cells in the brain of the three-spined stickleback,Gasterosteus aculeatus L. (Gasterosteidae)

Summary Cells immunoreactive with an anti-LHRH serum were visualized in the brain of the three-spined stickleback, Gasterosteus aculeatus, by means of the PAP technique. Positive cells were found in a periventricular position in the nucleus praeopticus pars magnocellularis, the nucleus dorsomedialis thalami, the nucleus ventromedialis thalami, the nucleus periventricularis posterior, and in the periventricular dorsomedian tegmentum. These cells were frequently observed to contact the CSF.     

Absence of Intraspinal Sprouting in Dorsal Root Axons Caudal to a Partial Spinal Hemisection: A Horseradish Peroxidase Transport Study

Primary afferent sprouting in the spinal cord was evaluated by comparing the central projection of horseradish peroxidase (HRP)-labeled sciatic nerve afferent axons in nonlesioned control rats, and in rats subjected to acute or chronic partial spinal hemisections as adults. The lesions were performed at various levels from T₁₀ to L₃, and removed supraspinal and varying amounts of descending propriospinal afferents to lumbar segments receiving the maximal sciatic projection. The hemisections typically involved all but the dorsal column, although in some cases a portion of the dorsal column, including the corticospinal tract, was also transected.

The distribution pattern and density of spinal HRP reaction product was not significantly different in experimental and control preparations in any segment below the lesion, regardless of the quantity of denervation, or the density of the normal sciatic projection in a given terminal region. These results, together with our previous finding concerning an absence of primary afferent sprouting following long-term dorsal root ganglionectomies, suggest that current concepts concerning collateral sprouting as a factor in functional plasticity in the mature mammalian spinal cord warrant re-evaluation.     

神经导航下经胼胝体-穹窿间入路切除丘脑胶质瘤的临床应用价值分析

目的:探讨神经导航系统辅助下经胼胝体-穹窿间入路手术切除丘脑胶质瘤的临床应用价值。方法:选择2016年2月至2018年9月我院收治的丘脑胶质瘤患者60例为研究对象,以其中采用神经导航系统辅助下的经胼胝体-穹隆间入路显微切除丘脑胶质瘤的30例患者作为实验组,另外30例采用常规手术切除的患者作为对照组。分析和比较两组手术情况、治疗效果及并发症的发生情况。结果:治疗后,实验组手术时间、住院时间均比对照组明显缩短,术中出血量及术中引流量显著少于对照组(均P0.05);实验组肿瘤全切除率高于对照组,次全切除率及部分切除率均低于对照组(P0.05);实验组并发症发生率(20.0%)显著低于对照组(53.3%)(P0.05)。结论:与常规手术相比,神经导航系统辅助下经胼胝体-穹窿间入路切除丘脑胶质瘤能显著缩短手术时间,减少术中出血量及术后引流量,显著提高丘脑肿瘤全切除率,并降低术后并发症的发生率。     

Modeling and investigation of neural activity in the thalamus

Although it is known that electroencephalographic (EEG) spindle oscillations are generated and maintained in the thalamus, the underlying mechanisms are still not clear. In this paper, a physiologically based continuum model is used to explore the role of the thalamus in generation of EEG rhythms, particularly spindle oscillations. Furthermore, local interneurons (LIs) which were not previously included in such modeling are studied. A previous continuum model is extended to incorporate LIs within relay nuclei and self-connections of the reticular (RE) nucleus into investigation of the roles and functions of groups of thalamic neurons. The isolated thalamus is analysed into five distinct classes of substructures. Analysis of the properties of waves generated, leads to the main results that: (1) an isolated RE nucleus cannot generate spindle oscillations, but it is essential to generation of spindle oscillations in cooperation with the relay cells; (2) the LIs can also generate spindle oscillations in conjunction with the relay cells; (3) the self-connection loop within the LI population and the one within the RE nucleus both make spindle oscillations easier to produce than in the absence of these connections; (4) the LIs have similar effects to the RE nucleus, except that they are purely inhibitory, whereas the latter has both direct inhibitory effects on relay cells, and indirect net excitatory effects by inhibiting LIs which inhibit relay cells, and (6) self-connections amongst the LIs have equivalent effects to self-connections within the RE nucleus.     

Neuronal Types in the Human Anterior Ventral Thalamic Nucleus: A Golgi Study

Neurons in the anterior ventral (AV) thalamic nucleus of human adults were impregnated by Golgi-Kopsch impregnation method. Results showed that at least three morphological types of neurons could be recognized in the human AV thalamic nucleus. Type I neurons were medium to large with rich dendritic arborization. Both tufted and radiating dendritic branching patterns were seen in almost every neuron of this type. Only the initial axonal segments of these cells were impregnated suggesting that these axons were heavily myelinated. Type II neurons were medium in size with poor to moderate dendritic arborization. Many of these cells possess a few dendritic grape-like appendages. Long segments (up to 300 μm) of their axons were impregnated suggesting that these axons were either unmyelinated or thinly myelinated. These axons change their direction and form loops very often. No local branches were seen for these axons suggesting that they could be projection axons. Type III neurons were small with only one or two dendrites with poor arborization. No axons for these cells were seen in this study. The three neuronal types in the human AV thalamic nucleus were compared with neuronal types already described in other thalamic nuclei of human and non-human species. The results of this study might provide a morphological basis for further electrophysiological and / or pathological studies.