Search results for "Posterior Fossa Tumors"

showing 3 items of 3 documents

Long-term follow-up of children with magnetic resonance imaging and ultrasound after treatment of brain tumors

1987

This paper compares the results of MRI and US follow-up examinations of 46 children who had undergone surgery for brain tumors. The cases included 42 posterior fossa tumors, 3 supratentorial tumors and 1 upper cervical spinal cord tumor. US examination proved to be less specific and sensitive than MRI. However, when a "bone window" is available, US is, because of the ease of its application, better suited for frequent routine examinations. Long-term follow-up should, therefore, consist of frequent regular US examinations combined with yearly MRI examinations.

AdultMalemedicine.medical_specialtyAdolescentLong term follow upAstrocytomaDiagnosis DifferentialmedicineHumansChildUltrasonographySupratentorial Tumorsmedicine.diagnostic_testBrain Neoplasmsbusiness.industryUltrasoundBrainInfantMagnetic resonance imagingGeneral MedicineMagnetic Resonance ImagingPosterior Fossa TumorsChild PreschoolUpper cervical spinal cordFemaleSurgeryNeurology (clinical)RadiologyNeurosurgerybusinessAfter treatmentFollow-Up StudiesMedulloblastomaNeurosurgical Review
researchProduct

Early Auditory Evoked Potentials (EAEP) in Neurosurgery — A New Method for Diagnosis and Localization of Posterior Fossa Tumors in Childhood

1983

Auditory stimuli of suprathreshold intensity (above 60 dBHL) evoke about 15 waves: an early series (EAEP) during the initial 10 milliseconds (ms), a middle latency sequence (8 to 50 ms) and the longer latency cortical potentials (50 – 300 ms). PICTON et al. (1974) made a survey of all three potential groups. Only the EAEP (waves I to IV) are generated in the infratentorial part of the brain and reflect progressive activation of the auditory tracts and nuclei (Fig. 1): Wave I is assumed to originate at the distal part of the acoustic nerve, wave II in the medulla, wave III in the caudal and wave IV in the rostral pons and wave V in the midbrain (STARR and ACHOR, 1975; STOCKARD and ROSSITER, …

Midbrainmedicine.medical_specialtyMiddle latencymedicineAuditory stimuliNeurosurgeryAudiologyPsychologyPosterior Fossa TumorsPonsMedullaIntensity (physics)
researchProduct

The role of computed tomography in the diagnosis of brain tumors in infants and children.

1978

CT has considerably facilitated the diagnosis of intracranial tumors, especially in infants and children. The authors review their experience with a series of 260 children with proven brain tumors. In most cases CT is so conclusive that other diagnostic techniques are no longer often needed. Pneumoencephalography in particular has largely been replaced by CT in recent years in the authors' departments, and the frequency of central ventriculography with contrast material has decreased substantially. Particular diagnostic difficulties with regard to tumors near to or within the caudal brain stem, some posterior fossa tumors, small vermian tumors, and tumors of the cerebral hemispheres are dis…

Malemedicine.medical_specialtyNeurologymedicine.medical_treatmentComputed tomographyFourth ventriclemedicineHumansRadiology Nuclear Medicine and imagingPneumoencephalographyCerebellar NeoplasmsChildNeuroradiologyPilocytic astrocytomamedicine.diagnostic_testbusiness.industryBrain NeoplasmsAge FactorsInfantmedicine.diseasePosterior Fossa TumorsCranial Fossa PosteriorFemaleNeurology (clinical)NeurosurgeryRadiologyCardiology and Cardiovascular MedicinebusinessTomography X-Ray ComputedNeuroradiology
researchProduct