The optic nerve sheath was measured 3 mm distal to the optic disc [5]. The normal eye had a typical circular hypoechoic B-mode image with well seen structures inside: a thin hypoechoic cornea (parallel to the eyelid), anechoic
anterior and posterior chambers (filled with liquid), anechoic lens, hyperechoic iris and ciliary body (linear structures extending from the peripheral globe towards lens) and relatively echolucent vitreous. The normal retina was not able to be differentiated from the choroidal layers. The optic nerve caused a hypoechoic shadow away from the globe. The same structures had also a typical Alectinib molecular weight 4D ultrasound image – the optic disc had a sharp contour without swelling into the vitreous and the optic nerves were with relatively symmetrical sheath diameters on both BGB324 purchase sides (Fig. 1). In the presence of optic nerve head pathology we found relatively specific 4D images. Papilledema was presented as a contoured hyperechoic prominence into the vitreous. Its degree correlated with the severity of edema, measured by ophthalmoscopy. On the same side the optic sheath diameter was increased in association
with the degree of optic disc swelling (Fig. 2). The space–time imaging contributed for the quick distinguish of neuro-ophthalmic syndromes from other ophthalmic lesions. Retinal detachment was seen as a hyperechoic undulating membrane in the posterior to lateral globe. Blood vessels had grown up from the choroid behind the retina in the case of wet macular (neovascular) degeneration producing hyperechoic membrane into
the vitreous. The choroidal metastasis was imaged as a heterogenic irregular unifocal formation PRKD3 within the lateral part of the affected vitreous with a feeding vessel connecting the formation with the choroidea (Fig. 3). Our study shows that space–time ultrasound imaging gives additional information for the type, location and severity of the eye structures and allows their real time volume assessment in normal and disease conditions. All available 4D ultrasound data in the literature are for studying fetal behavior and prenatal eye movements during pregnancy [6], therefore we could not compare our findings with other volume ultrasound ophthalmic studies in adults. The 4D neuro-ophthalmo-sonology helps for the quick volume imaging of the type, size, location and severity of optic disc and optic nerve edema and its differentiation from other ophthalmic lesions. It may be helpful in avoiding the need from lumbar puncture, CT or MRI. “
“Laser Doppler flowmetry (LDF) is a contemporary noninvasive method for microvascular investigation used in different medical fields including neurology. The Doppler shift of the laser beam is the carrier of the information about microcirculatory blood flow.