Magnetic resonance imaging of the eye and orbit (MReye) is a cross-domain research field, combining (bio)physics, (bio)engineering, physiology, data sciences and ophthalmology. A growing number of... Show moreMagnetic resonance imaging of the eye and orbit (MReye) is a cross-domain research field, combining (bio)physics, (bio)engineering, physiology, data sciences and ophthalmology. A growing number of reports document technical innovations of MReye and promote their application in preclinical research and clinical science. Realizing the progress and promises, this review outlines current trends in MReye. Examples of MReye strategies and their clinical relevance are demonstrated. Frontier applications in ocular oncology, refractive surgery, ocular muscle disorders and orbital inflammation are presented and their implications for explorations into ophthalmic diseases are provided. Substantial progress in anatomically detailed, high-spatial resolution MReye of the eye, orbit and optic nerve is demonstrated. Recent developments in MReye of ocular tumors are explored, and its value for personalized eye models derived from machine learning in the treatment planning of uveal melanoma and evaluation of retinoblastoma is highlighted. The potential of MReye for monitoring drug distribution and for improving treatment management and the assessment of individual responses is discussed. To open a window into the eye and into (patho)physiological processes that in the past have been largely inaccessible, advances in MReye at ultrahigh magnetic field strengths are discussed. A concluding section ventures a glance beyond the horizon and explores future directions of MReye across multiple scales, including in vivo electrolyte mapping of sodium and other nuclei. This review underscores the need for the (bio)medical imaging and ophthalmic communities to expand efforts to find solutions to the remaining unsolved problems and technical obstacles of MReye, with the objective to transfer methodological advancements driven by MR physics into genuine clinical value. Show less
Purpose The effectiveness and safety of surgery for spheno-orbital meningiomas remains subject of debate, as studies often describe different surgical approaches and reconstruction techniques with... Show morePurpose The effectiveness and safety of surgery for spheno-orbital meningiomas remains subject of debate, as studies often describe different surgical approaches and reconstruction techniques with very heterogeneous outcomes. We aimed to systematically summarize and analyse the literature on spheno-orbital meningiomas regarding presenting symptoms, surgical techniques, outcomes and complications. Methods Studies were retrieved from eight databases. Original articles were included if in >= 5 patients presenting symptoms, surgical treatment and outcomes were described. Fixed- and random-effects meta-analysis was performed to estimate weighted percentages with 95%CIs of presenting symptoms, outcomes and complications. Results Thirty-eight articles were included describing 1486 patients. Proptosis was the most common presenting symptom (84%; 95%CI 76-91%), followed by unilateral visual acuity deficits (46%; 95%CI 40-51%) and visual field deficits (31%; 95%CI 20-43%). In 35/38 studies (92%), a pterional craniotomy was used. Decompression of the optic canal (82%) and the superior orbital fissure (66%) was most often performed, and usually dural (47%) and bony defects (76%) were reconstructed. In almost all patients, visual acuity (91%; 95%CI 86-96%), visual fields (87%; 95%CI 70-99%) and proptosis (96%; 95%CI 90-100%) improved. Furthermore, surgery showed improvement in 96% (95%CI 78-100%) for both diplopia and ophthalmoplegia. The most common surgical complications were hypesthesia (19%; 95%CI 10-30%), ptosis and diplopia (both 17%; 95%CI, respectively, 10-26% and 5-33%) and ophthalmoplegia (16%; 95%CI 10-24). Conclusion Patients with spheno-orbital meningioma usually present with proptosis or unilateral decreased visual acuity. Surgery shows to be effective in improving visual acuity and visual field deficits with mostly minor and well-tolerated complications. Show less