The intraorbital part of the subarachnoid space is distensible an

The intraorbital part of the subarachnoid space is distensible and can therefore inflate if pressure in cerebrospinal fluid increases. Although there are limited reports on the values of OND and ONSD measurement by ultrasonography and no standardized values for healthy subjects, they usually have mean ONSD about 0.5 cm. In see more previous published results values of ONSD less than 5.8 mm were not likely to be associated

with ICP increase above 20 mm Hg. Changes in ONSD are also strongly related to ICP changes. In patients with increased ICP mean ONSD were above 5.8 mm, and we found mean ONSD in brain death even higher, about 7.2 ± 0.5 mm. Such results are the consequence of extreme further increase of ICP in these persons due to brain incarceration. Alpelisib molecular weight The main limitation of this study was that all patients did not have invasive ICP monitoring to compare it with the results of ONSD. Also, some patients with neurotrauma had also ocular injury, disabling distinct demarcation of the optic nerve and optic nerve sheath, leading to some dispersion of results. ONSD may be useful in distinguishing brain death persons from healthy controls. “
“Diseases of the peripheral nerves

are common in neurological practice. They are important differential diagnoses of nerve root lesions, and also of many musculoskeletal disorders in the fields of orthopaedy and rheumatology. The traditional diagnostics of peripheral nerve lesions is based on the clinical and electrophysiological findings. These methods reflect the functional status of the nerves and inform about the presence of nerve damage, its acuity, character (axonal / demyelinating) and regeneration processes. However, they do not inform about the morphological status of the nerves and their surroundings, especially in relation Rebamipide to the etiology of the disease. Ultrasonography visualizes these changes, so that it completes the information on nerve function

and thus enhances the diagnostic information and contributes to the therapeutic decision. The contribution of the method in peripheral nerve diagnosis is comparable to diagnostic imaging (CT and MRI) in stroke or multiple sclerosis. The first reports on nerve ultrasonography (NUS) were published already in the mid 1980s [1] detecting gross pathological changes, e.g. nerve tumors. But only the substantial improvement of ultrasound technology at the turn of the millennium enabled an accurate diagnostic visualization of the peripheral nerves. The following article gives an overview of the technical requirements, the examination technique and current applications of NUS in the diagnosis of peripheral nerve disease. For sonography of the peripheral nerves a high image quality and resolution are critical. For an optimal resolution a high-end ultrasound unit equipped with a high-resolution broadband linear-array probe (e.g. 5–17 MHz) and corresponding soft-tissue software are necessary.

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