There were 27 intracranial meningiomas operated in the total of 114 brain tumors. We found 1 cerebello-pontine angle meningioma, 25 adult meningiomas and 2 children meningiomas. In the adult type there were 10 male and 15 female patients. Mortality rate (2/27) in elderly patients with severe complications: brain edema, severe acute pneumonia, radiation therapy was performed in malignant and recurrent meningiomas but we need a long term follow-up to estimate the results. From 1992 to 1996 we performed 25 operations on spinal meningiomas in the total of 60 intraspinal tumors. There were 8 male and 17 female patients with the result: 14 cases in good recuperation (recovery in motor function and sensitivity within 1 month after the operation), 6 cases with slow recuperation and 5 cases with no recuperation. Mortality was none but we had to wait a long -term follow-up to estimate the result
Meningioma ; Brain Neoplasms ; anatomy

AIMTo isolate and purify the brain microvessels without intact neural cells used for cloning specific gene at the blood-brain-barrier.

METHODSMagnetic beads ranging from 200-500 nm were synthesized and infused into cerebral spheres through carotid arteries. The brain tissues were dissected by mechanic and enzymatic methods, and sieved to discharge tissues and large blood vessels. The brain microvessels labelled by magnetic beads were sorted in magnetic fields, and identified by morphology, molecular biology and biologic activity.

RESULTSScanning electric micrograph of the obtained brain microvessels showed the vessels grossly free of adjoining neural cells except an occasional nerve ending. RT-PCR products of microtube-associated protein 2a, glutamine synthetase and CD31 from brain tissue had positive lanes, but only CD31 had positive lanes from isolated microvessels. The endothelial cells from isolated microvessels had more fluorescence than that from cultured endothelial cells.

CONCLUSIONHighly purified microvessels without intact neural cells can be obtained by this method.

The corticospinal tract (CST) is the most important motor pathway in the human brain. Detailed knowledge of CST somatotopy is important in terms of rehabilitative management and invasive procedures for patients with brain injuries. In this study, I conducted a review of nine previous studies of the somatotopical location and arrangement at the brainstem in the human brain. The results of this review indicated that the hand and leg somatotopies of the CST are arranged medio-laterally in the mid to lateral portion of the cerebral peduncle, ventromedial-dorsolaterally in the pontine basis, and medio-laterally in the medullary pyramid. However, few diffusion tensor imaging (DTI) studies have been conducted on this topic, and only nine have been reported: midbrain (2 studies), pons (4 studies), and medulla (1 study). Therefore, further DTI studies should be conducted in order to expand the literature on this topic. In particular, research on midbrain and medulla should be encouraged.
Brain Stem/*anatomy & histology ; Diffusion Tensor Imaging ; Hand/innervation ; Humans ; Leg/innervation ; Medulla Oblongata/anatomy & histology ; Pons/anatomy & histology ; Pyramidal Tracts/*anatomy & histology/physiology ; Tegmentum Mesencephali/anatomy & histology

Diffusion tensor imaging (DTI) allows to isolate the corticospinal tract (CST) area from adjacent structures. Using DTI, we investigated the characteristics of the CST areas according to the pontine level in the normal human brain. We recruited 33 healthy subjects and DTIs were acquired using a sensitivity-encoding head coil on a 1.5-T Philips Gyroscan Intera. We measured the size and fractional anisotropy (FA) value of the CST area at the upper, middle, and lower pons. The size of the CST area in the lower pons was smaller than those of the mid-pons and upper pons, and the size of the CST area in the mid-pons was smallerthan that of the upper pons (p<0.05). FA values of the lower pons were larger than those of the mid-pons and upper pons, and the FA value of the mid-pons was also larger than that of the upper pons (p<0.05). In summary, we found a smaller size and higher FA value of the CST area from rostral to caudal direction in the pons. These results suggest a more compact neural structure of CST areas from rostral to caudal direction in the pons.
Adult ; Brain/*anatomy & histology ; Diffusion Tensor Imaging ; Female ; Humans ; Male ; Middle Aged ; Pyramidal Tracts/*anatomy & histology

The exact scales of volume and density of human internal organs were measured synchronously with the intelligentized volum-densimeter, which was made. by ourself. These primary values of normal and diffuse pathologic changes can refer easily and used for the diagnosis in human autopsy of pathology and forensic pathology. It is expectated to be co-operated widely in that the basic values of volume and density will be obtained from all organs of the human body with the population of different races. But up to now, we are still lack these primary values in anthropology and medicine.
Anthropometry ; instrumentation ; methods ; Brain ; anatomy & histology ; Forensic Medicine ; Heart ; anatomy & histology ; Humans ; Organ Size

OBJECTIVE: The aim of this study was to evaluate the differences in normal brain MRI findings between under 3.0 Tesla (T) and 1.5T MRI conditions with the use of the fluid attenuated inversion recovery (FLAIR) sequences. MATERIALS AND METHODS: Eleven normal adults underwent imaging with the use of the FLAIR sequences on both 1.5T and 3.0T scanners. Two neuroradiologists compared the signal intensity (SI) of the centrum semiovale (CS), pulvinar thalami (PT) and normal iron deposit structures (IDSs) on the 3.0T and 1.5T FLAIR images, and they evaluated three MRI findings qualitatively: high SI of CS; low SI of PT; low SI of IDS. We also evaluated signal-to-noise ratios (SNRs) for the CS, PT, red nucleus and cerebellar dentate nucleus on the FLAIR images. RESULTS: Based on qualitative analyses, the 3.0T FLAIR images showed all three MRI findings for all cases. Low SI for the PT in seven cases (64%), high SI of the CS in one case (9%) and low SI of the cerebellar dentate nucleus in one case (9%) were visualized only on 3.0T FLAIR images. The mean SNRs of the PT, red nucleus and dentate nucleus in patients where 3.0T FLAIR imaging was performed were significantly lower as compared with the SNRs on 1.5T FLAIR images. The SNR of the CS was not significantly different between under the two magnetic field strengths (p > 0.05). CONCLUSION: We have demonstrated that normal, high and low SIs of the CS, PT and IDS on 3.0T FLAIR images were depicted more frequently and more prominently as compared with those on 1.5T FLAIR images in normal adult brains.
Adult ; Aged ; Brain/*anatomy & histology ; Cerebellar Nuclei/anatomy & histology ; Female ; Humans ; Magnetic Resonance Imaging/*methods ; Male ; Middle Aged ; Pulvinar/anatomy & histology ; Red Nucleus/anatomy & histology

Many features of the developing nervous system are visible from external observations of intact human embryos. In this study, a photographic atlas from the 4th to the 7th week after ovulation (Carnegie stages 10-18) is provided. The neural folds began to fuse at stage 10, and the rostral and caudal neuropore were closed during stages 11 and 12, respectively. The three primary divisions of the brain were distinguishable before closing of the neural tube. The five secondary brain vesicles were formed during stages 14-15. The development of the cerebellum and cerebrum were first observed at stages 14 and 15, respectively. The mesencephalic flexure was seen at stage 12, and the cervical flexure and pontine flexure at stage 14. After stages 18-19, it became increasingly difficult to identify detailed features of the brain from the surface. Results from this study will help to correlate the characteristic findings of the developing central nervous system of human embryos from stereomicroscopical and light microscopical observations and to locate the exact parts of the developing human brain for other purposes.
Brain/embryology* ; Embryo/anatomy & histology ; Fetal Development ; Human

We propose a multi-weighted probabilistic atlas to obtain accurate, robust, and reliable segmentation. The local similarity measure is used as the weight to compute the probabilistic atlas, and the distance field is used as the weight to incorporate the locality information of the atlas; the self-similarity is used as the weight to incorporate the local information of target image to refine the probabilistic atlas. Experimental results with brain MRI images showed that the proposed algorithm outperforms the common brain image segmentation methods and achieved a median Dice coefficient of 87.1% on the left hippocampus and 87.6% on the right.
Algorithms ; Brain ; anatomy & histology ; Humans ; Magnetic Resonance Imaging ; Neuroimaging

In this paper, we describe a study on visualization of SW atlases. Firstly, data structures in axial, coronal and sagittal directions are generated by SW atlases' raw data after pre-processing. Secondly, we produce 3D SW atlases through setting gray intensity and spaces between slices. Thirdly, we integrate the atlas into the neurosurgery navigation system and realize the visualization of SW atlases. Finally, we realize brain anatomy structures labeling and real-time display in neurosurgery navigation system.
Anatomy, Artistic ; Brain Mapping ; Humans ; Neuronavigation ; methods ; Neurosurgery ; methods

Laboratory mice are common experimental animals in biological, medical, pharmacological and psychological researches primarily because they are easy to maintain and reproduce quickly. The protection of the welfare of experimental animals is gaining greater attention during the application of a large number of mice. It's therefore essential to consider how to reduce the unnecessary use of animals and fully exploit each experimental animal. We report, in this article, an efficient way to dissect various brain regions from a mouse for protein immunoblot and/or neuronal culture, providing technical reference information for minimizing the number of animals used in projects, and refining methods and procedures to quick brain dissection.
Animal Welfare ; Animals ; Brain ; anatomy & histology ; Dissection ; methods ; Mice