| P2093 | author name string | Peter Wostyn | |
| | Hanspeter Esriel Killer | |
| | Thomas H Mader | |
| | Charles Robert Gibson | |
| P2860 | cites work | A new look at cerebrospinal fluid circulation | Q21195862 |
| | A paravascular pathway facilitates CSF flow through the brain parenchyma and the clearance of interstitial solutes, including amyloid β. | Q24631193 |
| | Integration of the subarachnoid space and lymphatics: is it time to embrace a new concept of cerebrospinal fluid absorption? | Q24816832 |
| | The Glymphatic System: A Beginner's Guide | Q28084591 |
| | Optic disc edema, globe flattening, choroidal folds, and hyperopic shifts observed in astronauts after long-duration space flight | Q28245726 |
| | Orbital and Intracranial Effects of Microgravity: Findings at 3-T MR Imaging | Q29041759 |
| | Meningothelial cells react to elevated pressure and oxidative stress | Q33911132 |
| | Quantitative relations between the eyeball, the optic nerve, and the optic canal important for intracranial pressure monitoring | Q34079026 |
| | Pathogenesis of optic disc edema in raised intracranial pressure | Q36422046 |
| | Novel finding of optic nerve central T2 hypointensity utilizing 3 Tesla MR imaging | Q36589740 |
| | Production and circulation of cerebrospinal fluid with respect to the subarachnoid space of the optic nerve | Q38111678 |
| | Space Flight-Associated Neuro-ocular Syndrome | Q38400962 |
| | Glymphatic stasis at the site of the lamina cribrosa as a potential mechanism underlying open-angle glaucoma | Q38994972 |
| | The central artery of the retina. I. Origin and course | Q39834539 |
| | Cell-Cell Interaction Proteins (Gap Junctions, Tight Junctions, and Desmosomes) and Water Transporter Aquaporin 4 in Meningothelial Cells of the Human Optic Nerve | Q41011073 |
| | Architecture of arachnoid trabeculae, pillars, and septa in the subarachnoid space of the human optic nerve: anatomy and clinical considerations | Q41856618 |
| | Intracranial pressure-induced optic nerve sheath response as a predictive biomarker for optic disc edema in astronauts | Q47966307 |
| | Effect of gravity and microgravity on intracranial pressure. | Q48348877 |
| | Cerebrospinal fluid dynamics between the intracranial and the subarachnoid space of the optic nerve. Is it always bidirectional? | Q48364902 |
| | The optic nerve: a new window into cerebrospinal fluid composition? | Q48635006 |
| | Optic Nerve Sheath Distention as a Protective Mechanism Against the Visual Impairment and Intracranial Pressure Syndrome in Astronauts | Q50152461 |
| | Persistent Asymmetric Optic Disc Swelling After Long-Duration Space Flight: Implications for Pathogenesis. | Q51022744 |
| | Optic disc edema in an astronaut after repeat long-duration space flight. | Q53101815 |
| | Cerebrospinal fluid dynamics between the basal cisterns and the subarachnoid space of the optic nerve in patients with papilloedema. | Q53265737 |
| | Perioptic Cerebrospinal Fluid Dynamics in Idiopathic Intracranial Hypertension. | Q55692940 |
| | The sheath of the optic nerve | Q70597918 |
| | Validation of the optic nerve sheath response to changing cerebrospinal fluid pressure: ultrasound findings during intrathecal infusion tests | Q73456832 |
| | ARACHNOID VILLI IN THE OPTIC NERVE OF MAN AND MONKEY | Q76848047 |
| | Cerebrospinal fluid segregation optic neuropathy: an experimental model and a hypothesis | Q84317494 |
| | Spaceflight-Induced Visual Impairment and Globe Deformations in Astronauts Are Linked to Orbital Cerebrospinal Fluid Volume Increase | Q87916382 |
| P433 | issue | 10 | |
| P304 | page(s) | 1519-1524 | |
| P577 | publication date | 2019-05-07 | |
| P1433 | published in | Eye | Q10278937 |
| P1476 | title | The escape of retrobulbar cerebrospinal fluid in the astronaut's eye: mission impossible? | |
| P478 | volume | 33 | |