All Relations between strip and cerebellum

Publication Sentence Publish Date Extraction Date Species
Philippa Hüpen, Himanshu Kumar, Dario Müller, Ramakrishnan Swaminathan, Ute Habel, Carmen Weidle. Functional Brain Network of Trait Impulsivity: Whole-Brain Functional Connectivity Predicts Self-Reported Impulsivity. Human brain mapping. vol 45. issue 15. 2024-10-29. PMID:39469891. feature importance and node degree were assessed to highlight specific nodes and edges within the impulsivity network, revealing previously overlooked key brain regions, such as the cerebellum, brainstem, and temporal lobe, while supporting previous findings on the basal ganglia-thalamo-prefrontal network and the prefrontal-motor strip network in relation to impulsiveness. 2024-10-29 2024-10-31 human
V B Karakhan, E V Prozorenko, A A Mitrofanov, N V Sevya. [Giant petrosal meningioma invading the fourth ventricle: total removal of a recurrent tumor after eighteen years. Neurosurgical nuances. Case report and literature review]. Zhurnal voprosy neirokhirurgii imeni N. N. Burdenko. vol 86. issue 3. 2022-06-27. PMID:35758082. surgical nuances that ensured total extraction of tumor without cytoreduction were as follows: 1) en-bloc resection of tumor from the fourth ventricle due to smooth surface of tumor and minimum number of adhesions with cerebellum; mr-confirmed csf strip between the tumor edges and walls of the ventricle; no signs of hydrocephalus in subtotal ventricular tamponade; 2) unusual frontal tumor growth under 45º required appropriate angular traction of tumor with minimal rotation; 3) traction was followed by sequential appearance of 3 segments of tumor: petrous, apertural and ventricular; 4) topography of the area of lateral eversion of the fourth ventricle was established by identifying the narrowing (constriction) of tumor; 5) in extracting the tumor from the fourth ventricle, we performed minimal rotation to avoid damage to ventricular walls and lateral aperture due to difference between the larger and smaller diameters (by 6 mm) of ovoid ventricular segment of tumor; 6) no csf leakage following appearance of ventricular segment (tumor enlargement) indicated integrity of ependyma of the fourth ventricle. 2022-06-27 2023-08-14 Not clear
Mark Heuser, Philipp A Thomann, Marco Essig, Silke Bachmann, Johannes Schröde. Neurological signs and morphological cerebral changes in schizophrenia: An analysis of NSS subscales in patients with first episode psychosis. Psychiatry research. vol 192. issue 2. 2011-06-28. PMID:21498055. both of the nss subscales "motor coordination" and "complex motor tasks", referred to motor strip changes but showed differential correlations with parietal, insular, cerebellar or frontal sites, respectively. 2011-06-28 2023-08-12 Not clear
N Yatim, C Compoint, P Buisseret, P Angaut, C Buisseret-Delma. On the caudal extension of the X zone in the cerebellar cortex of the rat. Neuroscience research. vol 23. issue 2. 1996-01-29. PMID:8532219. following a selective injection of biotinylated dextran amine in the nuclear target (the interstitial cell groups, icg) of the x zone of the rat cerebellum, retrogradely labelled purkinje cells (pcs) were found within a longitudinal strip of cortex, 250 microns in width, 1000 microns lateral to midline. 1996-01-29 2023-08-12 rat
M E Vahter, N K Mottet, L T Friberg, S B Lind, J S Charleston, T M Burbache. Demethylation of methyl mercury in different brain sites of Macaca fascicularis monkeys during long-term subclinical methyl mercury exposure. Toxicology and applied pharmacology. vol 134. issue 2. 1995-11-07. PMID:7570604. total (t-hg) and inorganic (i-hg) mercury concentrations were determined in specific brain sites (cerebellum, occipital pole, pons, motor strip, frontal pole, temporal pole, thalamus, and pituitary) of female macaca fascicularis monkeys exposed to daily peroral doses (50 micrograms hg/kg body weight) of methyl mercury (mehg) for 6, 12, or 18 months, or to continuous iv infusion of hgcl2 (200 micrograms hg/kg body wt). 1995-11-07 2023-08-12 monkey
S A Azizi, D J Woodwar. Inferior olivary nuclear complex of the rat: morphology and comments on the principles of organization within the olivocerebellar system. The Journal of comparative neurology. vol 263. issue 4. 1987-12-14. PMID:2822777. (3) the principal olive contains the two familiar lamellae: dorsal and ventral lamellae, each of which projects to a specific sagittal strip in the lateral cerebellum. 1987-12-14 2023-08-11 rat