These disturbances are of great importance in clinical manifestat

These disturbances are of great importance in clinical manifestations, especially in children. Nevertheless, there is a lack of sufficient information in literature concerning possibilities and necessity of carrying out TCD and TCCD investigations for diagnostics and therapy. Clinical and ultrasound investigation of children with different types of headaches shows various dysfunctions in deep brain veins: great vein of Galen, cavernous and straight venous sinuses. Venous disturbances most frequently occured in children with Arnold-Chiari I and deep brain vein abnormalities. Hemodynamic findings in sinus cavernous revealed by TCD and TCCD in our patients were “markers” of disturbances

in cerebral venous hemodynamics. Bortezomib mw An agreement between TCD, TCCD and MRI data was found. The ultrasonographic examination of venous hemodynamics is necessary in complex LY294002 order diagnostics in children with cerebral abnormalities for prevention and treatment. “
“Transcranial sonography (TCS) is a relatively new neuroimaging method which displays tissue echogenicity (intensity of reflected ultrasound waves) of the brain through the intact skull. Besides the

specific finding of the substantia nigra (SN) hyperechogenicity in Parkinson’s disease (PD), first time described in 1995 by Becker et al. [1], a series of studies using TCS has reported another specific ultrasound feature: structural abnormality of the midbrain raphe depicted as reduced echogenicity or invisible brainstem raphe (BR) in patients with unipolar depression compared with healthy individuals [2] and [3]. The structural abnormality which was reported to occur

in unipolar depressed patients, was unrelated to severity of current illness, and was absent in patients with schizophrenia [3]. The same structural abnormality has also been reported when depressed patients have been compared to non-depressed Terminal deoxynucleotidyl transferase patients, having a variety of neurological diseases, for example, PD [4] and [5], dystonic syndromes [6] and Wilson’s disease [7] but not multiple sclerosis with or without depression [8] and [9]. Modern clinical TCS systems display deep echogenic brain structures with a high image resolution of up to 0.7 mm × 1 mm which is even higher than that of magnetic resonance imaging (MRI) under clinical conditions [10]. Meanwhile, consensus guidelines for standardized procedure of TCS of midbrain structures, basal ganglia and ventricles have been established [11] and [12], allowing standardized scanning procedure and comparability of TCS findings between different research groups. TCS of brain structures is performed through the temporal acoustic bone window, with preauricular position of the ultrasound probe parallel to the orbitomeatal line. Modern clinical ultrasound systems equipped with 2.0- to 3.5-MHz transducers can be applied [11] and [12].

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