Invasive recording of intracranial pressure (ICP) changes during cerebrospinal fluid (CSF) infusion-drainage tests have been used to estimate elastance and reserve capacity of craniovertebral contents. The increase in ICP and its pulse-related oscillations lead to "cuff constriction" of cerebral veins. The purpose of this study is noninvasive assessment of elastance and reserve capacity of craniovertebral contents (RCCC) by measurement of flow velocity (FV) in the straight sinus by transcranial Doppler (TCD) during body tilt tests, which cause changes in ICP. The study was performed in 14 healthy volunteers (age 12-49 y, 6 men) and 32 patients with Intracranial Hypertension (IH) (Benign Intracranial Hypertension, n = 14; Brain Tumors, n = 18). The straight sinus was insonated through the occipital window during body tilt tests (BTT). Tilt table position was changed gradually from head up (+75 degrees) to head down (-45 degrees). It was established that systolic flow velocity and amplitude of FV pulsations (Amp) in horizontal position in patients is usually higher than in healthy volunteers. We found that reserve capacity of craniovertebral contents in patients with IH was usually exhausted. Elastance in patients was usually significantly higher than in healthy volunteers. Evaluation of cerebral venous circulation during body tilt tests clearly differs between the patients with IH and the healthy volunteers. The degree of this difference depends on the localization and character of the pathologic process.
Type I Chiari malformation is often accompanied by congenital developmental abnormalities such as platybasia, basilar impression and C2 odontoid process retroflexion that may cause anterior compression of brainstem structures and upper cervical segments of spinal cord. Formerly the conventional method was posterior decompression even in presence of anterior brainstem compression. This article presents on a kinetic example the tactics of one-step treatment of patients with type I Chiari malformation accompanied by basilar impression and C2 odontoid process retroflexion via transoral approach only that was used for both decompression and C1-C2 segment anterior stabilization. Surgical intervention enabled to achieve the decompression of brainstem structures and upper cervical segments of spinal cord, normalization liquor dynamics and subsequent redislocation of cerebellar tonsils to normal position (above the Chamberlain line).
Type I Chiari malformation is often accompanied by congenital developmental abnormalities such as platybasia, basilar impression and C2 odontoid process retroflexion that may cause anterior compression of brainstem structures and upper cervical segments of spinal cord. Formerly the conventional method was posterior decompression even in presence of anterior brainstem compression. This article presents on a kinetic example the tactics of one-step treatment of patients with type I Chiari malformation accompanied by basilar impression and C2 odontoid process retroflexion via transoral approach only that was used for both decompression and C1-C2 segment anterior stabilization. Surgical intervention enabled to achieve the decompression of brainstem structures and upper cervical segments of spinal cord, normalization liquor dynamics and subsequent redislocation of cerebellar tonsils to normal position (above the Chamberlain line).
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