(1) Magnetic Resonance Imaging of Silastic-Induced Canine Hydrocephalus.- (2) Age-dependent Changes of Cerebral Ventricular Size. Part I: Review of intracranial fluid collections.- (3) Porencephaly and Hydranencephaly: A neuropathological study of four autopsy cases.- (4) Immunohistochemical Evaluation of Neuronal Maturation in Untreated Fetal Hydrocephalus.- (5) Quantitative Fatty Acid Composition of Cerebrospinal Fluid in Hydrocephalic Children with Remarkable Ventricular Dilatation.- (6) Effects of Hydrocephalus and Surgical Decompression on Cortical Norepinephrine Levels in Neonatal Cats.- (7) A Technique for Placing Ventriculoperitoneal Shunts in a Neonatal Model of Hydrocephalus.- (8) Prenatal CSF Shunt Procedure for Fetal Hydrocephalus: Animal experimental modelPressure dynamics of intrauterine hydrocephalus and Fetus Ventriculo-Mater Peritoneal Shunt (FV-MP shunt).- (9) Therapeutic Criteria in Hydrocephalic Children.- (1) Hydrocephalus-Induced Changes in the Composition of Cerebrospinal Fluid.- (2) The Importance of Accessory Outflow Pathways in Hydrocephalus after Experimental Subarachnoid Hemorrhage.- (3) Measurement of the CSF Velocity Using Cine-mode MRI.- (4) MRI of CSF Flow in Normal Pressure Hydrocephalus.- (5) Regional Cerebral Blood Flow after V-P Shunt in Hydrocephalic Children.- (6) Cerebral Perfusion Pressure and Nett Cerebral Mean Transit Time in Childhood Hydrocephalus.- (7) Cerebral Hemodynamics and Functional Prognosis in Hydrocephalus.- (8) Pulse Amplitude and Volume-pressure Relationships in Experimental Hydrocephalus.- (9) A Case with Chronic Renal Hemodialysis and Intracranial Hypertension: A study on CSF dynamics.- (10) The Role of Cerebrospinal Compensatory Parameters in the Estimation of Implanted Shunt System in Patients with Communicating Hydrocephalus: Preliminary report.- (11) The Use of Intraventricular Resorption Test (IVT) in the Management of Hydrocephalic Children.- (12) Relationship Between Compliance and Resistance to Oul“m