Search for 'transcranial sonography'

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42 results of 7 texts with exact phrase : 'transcranial sonography'.

1. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 5, 2009, No. 1 , , ,

Postert and Seidel were able to measure time-intensity curves through the intact skull with transcranial sonography using the bubble response from the contrast agents Levovist™ and Optison™ respectively [19].
In the applications where the microbubbles need to be preserved – e.g. in imaging of very low blood flow velocities in the capillaries of the brain parenchyma, the low mechanical index (MI) imaging modality is a preferred approach. Different techniques such as pulse inversion harmonic imaging, power modulation, harmonic power Doppler imaging, and contrast pulse sequencing are described to evaluate perfusion in microcirculation [18]. For quantification of brain tissue perfusion, bolus injection kinetics, refill injection kinetics or diminution kinetics are currently being explored. After a bolus injection of the contrast agent, time intensity curves with wash-in and wash-out phases can be analyzed. Postert and Seidel were able to measure time-intensity curves through the intact skull with transcranial sonography using the bubble response from the contrast agents Levovist™ and Optison™ respectively [19]. They showed that the examination is feasible, not only in young adults with a good acoustic temporal bone window. The value of this diagnostic method could also be demonstrated in pathological conditions, e.g. in patients with acute hemispheric stroke [20, 21].
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2. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 9, 2013, No. 2 , , ,

deep brain stimulation, movement disorders, substania nigra, transcranial sonography.
deep brain stimulation, movement disorders, substania nigra, transcranial sonography.
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In Parkinson's disease (PD), transcranial sonography (TCS) has been used to evaluate substantia nigra (SN) hyperechogenicity as a diagnostic tool.
In Parkinson's disease (PD), transcranial sonography (TCS) has been used to evaluate substantia nigra (SN) hyperechogenicity as a diagnostic tool. To quantify SN hyperechogenicity in patients with PD and Parkinsonian syndrome (PS), we applied semi-quantified evaluation method.
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substantia nigra, transcranial sonography.
substantia nigra, transcranial sonography.
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3. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 10, 2014, No. 2 , , ,

Transcranial sonography (TCS) is a relatively new ultrasound diagnostic method which displays echogenicity of the brain tissue through the intact skull.
Transcranial sonography (TCS) is a relatively new ultrasound diagnostic method which displays echogenicity of the brain tissue through the intact skull.
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ger A, Lange KW, Reiners K, Becker T, Becker G.Depression in Parkinson’s disease: brainstem midline alteration on transcranial sonography and magnetic resonance imaging.
ger A, Lange KW, Reiners K, Becker T, Becker G.Depression in Parkinson’s disease: brainstem midline alteration on transcranial sonography and magnetic resonance imaging.
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Lenticular nucleus lesion in idiopathic dystonia detected by transcranial sonography.
Naumann M, Becker G, Toyka KV, Supprian T, Reiners K. Lenticular nucleus lesion in idiopathic dystonia detected by transcranial sonography.
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Transcranial sonography in movement disorders.
Berg D, Godau J, Walter U. Transcranial sonography in movement disorders.
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Transcranial sonography in depression.
Mijajlovic MD. Transcranial sonography in depression.
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Transcranial sonography in Parkinson's disease.
Bor-Seng-Shu E, Pedroso JL, Andrade DC, Barsottini O, Andrade LA, Barbosa E, Teixeria M. Transcranial sonography in Parkinson's disease.
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Transcranial sonography for the discrimination of idiopathic Parkinson's disease from the atypical parkinsonian syndromes.
Bouwmans AE, Vlaar AM, Srulijes K, Mess WH, Weber WE. Transcranial sonography for the discrimination of idiopathic Parkinson's disease from the atypical parkinsonian syndromes.
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VS. Transcranial sonography in Wilson's disease.
VS. Transcranial sonography in Wilson's disease.
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D. Transcranial sonography in pantothenate kinaseassociated neurodegeneration.
D. Transcranial sonography in pantothenate kinaseassociated neurodegeneration.
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Transcranial sonography in spinocerebellar ataxia type 2.
Mijajlovic M, Dragasevic N, Stefanova E, Petrovic I, Svetel M, Kostic VS. Transcranial sonography in spinocerebellar ataxia type 2.
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Transcranial sonography in spinocerebellar ataxia type 3.
ls L. Transcranial sonography in spinocerebellar ataxia type 3.
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Transcranial sonography in psychiatric diseases.
Mijajlovic MD. Transcranial sonography in psychiatric diseases.
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4. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 11, 2015, No. 2 , , ,

P25 Transcranial Sonography in Creutzfeldt-Jakob Disease.
P25 Transcranial Sonography in Creutzfeldt-Jakob Disease.
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Transcranial sonography (TCS) has been recently recognized as a reliable and sensitive tool in detecting basal ganglia (BG) abnormalities in several movement disorders, where different patterned hyperechogenic lesions were demonstrated.
Transcranial sonography (TCS) has been recently recognized as a reliable and sensitive tool in detecting basal ganglia (BG) abnormalities in several movement disorders, where different patterned hyperechogenic lesions were demonstrated. TCS revealed reduced echogenicity of the brainstem raphe (BR) as a characteristic finding in unipolar depression and in depression associ-
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In recent years transcranial sonography of brain parenchyma has proven its role in the diagnosis of several central nervous system disorders manifested with brain atrophy.
In recent years transcranial sonography of brain parenchyma has proven its role in the diagnosis of several central nervous system disorders manifested with brain atrophy. This method allows comparatively precise measurement of the third ventricle's diameter, which enlargement over 7 mm/10 mm in patients under/over 60 years is a sign of brain atrophy.
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The values of the third ventricle’s diameter were measured in axial plane at the level of the thalami by transcranial sonography in 14 patients at medium age of 73.50±9,67, suffering from vascular or degenerative dementia, whose CT showed brain atrophy.
The values of the third ventricle’s diameter were measured in axial plane at the level of the thalami by transcranial sonography in 14 patients at medium age of 73.50±9,67, suffering from vascular or degenerative dementia, whose CT showed brain atrophy. Parallel ultrasound and computed tomographic measurements of the third ventricle’s diameter were performed. The results were processed by correlation and variation analysis.
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А high correlation between the values of the third ventricle’s diameter, detected by transcranial sonography and the CT measurements (r=+0,89; p
А high correlation between the values of the third ventricle’s diameter, detected by transcranial sonography and the CT measurements (r=+0,89; p
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TRANSCRANIAL SONOGRAPHY IN CREUTZFELDT-JAKOB DISEASE
TRANSCRANIAL SONOGRAPHY IN CREUTZFELDT-JAKOB DISEASE
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5. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 12, 2016, No. 2 , , ,

Transcranial sonography (TCS) is a relatively new ultrasound modality which could display echogenicity of human brain tissue through the intact skull.
Transcranial sonography (TCS) is a relatively new ultrasound modality which could display echogenicity of human brain tissue through the intact skull. We studied different ultrasound markers by TCS in individuals with Parkinson's disease (PD).
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6. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 13, 2017, No. 2 , , ,

Transcranial sonography in movement disorders.
Berg D, Godau J, Walter U. Transcranial sonography in movement disorders.
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Transcranial sonography in spinocerebellar ataxia type 2.
N, Stefanova E, et al. Transcranial sonography in spinocerebellar ataxia type 2.
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Transcranial sonography of the substantia nigra: digital image analysis.
M, Blahuta J, et al. Transcranial sonography of the substantia nigra: digital image analysis.
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Method and validity of transcranial sonography in movement disorders.
k D, Walter U. Method and validity of transcranial sonography in movement disorders.
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Transcranial sonography (TCS) of brain parenchyma in movement disorders: quality standards, diagnostic applications and novel technologies.
k D. Transcranial sonography (TCS) of brain parenchyma in movement disorders: quality standards, diagnostic applications and novel technologies.
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Transcranial sonography in brain disorders with trace metal accumulation.
Walter U. Transcranial sonography in brain disorders with trace metal accumulation.
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7. NEUROSONOLOGY AND CEREBRAL HEMODYNAMICS, vol. 14, 2018, No. 1 , , ,

transcranial sonography
transcranial sonography
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Transcranial sonography (TCS) has been recently recognized as a reliable and sensitive tool in detecting basal ganglia (BG) abnormalities in several movement disorders, where different patterned hyperechogenic lesions were demonstrated.
Transcranial sonography (TCS) has been recently recognized as a reliable and sensitive tool in detecting basal ganglia (BG) abnormalities in several movement disorders, where different patterned hyperechogenic lesions were demonstrated. TCS revealed reduced echogenicity of the brainstem raphe (BR) as a characteristic finding in unipolar depression and in depression associated with Parkinson's (PD) or Wilson's disease (WD), but not in healthy adults, schizophrenia, multiple sclerosis with depression or Parkinson's disease without concomitant depression.
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Method of Transcranial Sonography
Method of Transcranial Sonography
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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.
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.
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Parkinson’s disease and depression: evidence for an alteration of the basal limbic system detected by transcranial sonography.
Becker T, Becker G, Seufert J, Hofmann E, Lange KW, Naumann M, et al. Parkinson’s disease and depression: evidence for an alteration of the basal limbic system detected by transcranial sonography.
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Depression in Parkinson’s disease: brainstem midline alteration on transcranial sonography and magnetic resonance imaging.
Berg D, Supprian T, Hofmann E, Zeiler B, Jager A, Lange KW, et al. Depression in Parkinson’s disease: brainstem midline alteration on transcranial sonography and magnetic resonance imaging.
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G. The correlation between ventricular diameter measured by transcranial sonography and clinical disability and cognitive dysfunction in patients with multiple sclerosis.
G. The correlation between ventricular diameter measured by transcranial sonography and clinical disability and cognitive dysfunction in patients with multiple sclerosis.
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Transcranial sonography in movement disorders.
Berg D, Godau J, Walter U. Transcranial sonography in movement disorders.
read the entire text >>

D. Transcranial sonography in pantothenate kinase-associated neurodegeneration.
D. Transcranial sonography in pantothenate kinase-associated neurodegeneration.
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Transcranial sonography in ataxia.
Krogias C, Postert T, Eyding J. Transcranial sonography in ataxia.
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Transcranial sonography in depression.
Mijajlovic MD. Transcranial sonography in depression.
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Lenticular nucleus lesion in idiopathic dystonia detected by transcranial sonography.
Naumann M, Becker G, Toyka KV, et al. Lenticular nucleus lesion in idiopathic dystonia detected by transcranial sonography.
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VS. Transcranial sonography in Wilson's disease.
VS. Transcranial sonography in Wilson's disease.
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