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Target Concepts:
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Query: UMLS:C0155339 (
Brown
)
12,436
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The authors present two cases of inoperable AVM's of thoracic spinal cord successfully treated by embolization with histoacryl glue (B.
Brown
Melsungen AG). The glue used for embolization is characterized by instant polymerization when comes in contact with blood. A mass of polymer is visible on X-ray thanks to contrast medium Lipiodol and metallic powder
Tungsten
that are added to glue and injected together with the latter. In the first case, a female who presented with paraparesis and walked only with assistance embolization performed in one session resulted in neurological improvement enabling independent walking at follow-up 2 yrs later. In the second case of a young male not walking for severe paraparesis embolization performed in three sessions resulted in significant neurological recovery. 10 days after the first session the patient became ambulatory. 6 months after treatment he presented with mild paraparesis and was still ambulatory and leading independent life. In each case embolization was performed after balloon occlusion test during which the function of spinal cord was monitored by somatosensory evoked potentials and neurological assessment.
...
PMID:[Embolization of AVM's of thoracic spinal cord with histoacryl glue]. 875 59
A procedure has been developed using an electronic portal imaging device (EPID) to verify that the center of a patient's lesion is aligned with the center of a treatment cone prior to treatment in a linac-based stereotactic radiosurgery procedure. The coordinates of the lesion center are set on the
Brown
-Roberts-Wells phantom base using a target simulator. A 3 mm
tungsten
ball, mounted on the target simulator, is used as the reference point for the planned isocenter. The target simulator is then attached to an adapter mounted on the linac couch, and an EPID image of the simulated target is acquired. The center of the circular-shaped radiation field is calculated from the centroid of the segmented EPID image, and the center of the
tungsten
ball is identified by an automated computer search algorithm. A summation filter is used to find the position of the lowest radiation intensity coincident with the center of the ball. The alignment error is defined as the difference between the center of the radiation field and the center of the ball. The accuracy of this method was tested and found to be within 0.2 mm. The advantage of the EPID-based procedure is that it can give quantitative offset values quickly for immediate readjustment. We have found that the method is also a convenient tool for testing room laser alignment and the accuracy of the treatment cones.
...
PMID:Verification of radiosurgery target point alignment with an electronic portal imaging device (EPID). 904 67
By using multiwalled carbon nanotubes as an element of a nanobiprism, we evaluated quantitatively the coherence of electrons emitted from
tungsten
tips at room temperature and 78 K, and found an enhancement of coherence at 78 K. The increase of the transverse coherence length of the electron beam agreed well with that of the inelastic mean free path of electrons in solids, demonstrating the direct relationship between the coherences of the electron beam and the original electronic states. On the basis of this experimental fact, we comment on the interpretation of recent Hanbury
Brown
-Twiss type experiments for electrons reported by Kiesel et al. [Nature (London) 418, 392 (2002)]].
...
PMID:Quantitative evaluation of spatial coherence of the electron beam from low temperature field emitters. 1524 8
Retinal ganglion cell (RGC) dendritic atrophy is an early feature of many forms of retinal degeneration, providing a challenge to RGC classification. The characterization of these changes is complicated by the possibility that selective labeling of any particular class can confound the estimation of dendritic remodeling. To address this issue we have developed a novel, robust, and quantitative RGC classification based on proximal dendritic features which are resistant to early degeneration. RGCs were labeled through the ballistic delivery of DiO and DiI coated
tungsten
particles to whole retinal explants of 20 adult
Brown
Norway rats. RGCs were grouped according to the Sun classification system. A comprehensive set of primary and secondary dendrite features were quantified and a new classification model derived using principal component (PCA) and discriminant analyses, to estimate the likelihood that a cell belonged to any given class. One-hundred and thirty one imaged RGCs were analyzed; according to the Sun classification, 24% (n = 31) were RGCA, 29% (n = 38) RGCB, 32% (n = 42) RGCC, and 15% (n = 20) RGCD. PCA gave a 3 component solution, separating RGCs based on descriptors of soma size and primary dendrite thickness, proximal dendritic field size and dendritic tree asymmetry. The new variables correctly classified 73.3% (n = 74) of RGCs from a training sample and 63.3% (n = 19) from a hold out sample indicating an effective model. Soma and proximal dendritic tree morphological features provide a useful surrogate measurement for the classification of RGCs in disease. While a definitive classification is not possible in every case, the technique provides a useful safeguard against sample bias where the normal criteria for cell classification may not be reliable.
...
PMID:A novel system for the classification of diseased retinal ganglion cells. 2538 70
