review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Andrew G Lee | |
C Robert Gibson | |||
Thomas H Mader | |||
William Tarver | |||
Tyson Brunstetter | |||
Pejman Rabiei | |||
Roy F Riascos | |||
Laura A Galdamez | |||
P2860 | cites work | 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 | ||
Asymmetric papilledema in idiopathic intracranial hypertension | Q30877085 | ||
Free radicals as triggers of brain edema formation after stroke. | Q30990948 | ||
Effects of short-term mild hypercapnia during head-down tilt on intracranial pressure and ocular structures in healthy human subjects. | Q33800250 | ||
Adaptation of the left heart, cerebral and femoral arteries, and jugular and femoral veins during short- and long-term head-down tilt and spaceflights | Q34112210 | ||
Space obstructive syndrome: intracranial hypertension, intraocular pressure, and papilledema in space | Q34249339 | ||
Vision changes after spaceflight are related to alterations in folate- and vitamin B-12-dependent one-carbon metabolism | Q34251286 | ||
Ischemic optic neuropathy | Q34898090 | ||
Venous system in acute brain injury: Mechanisms of pathophysiological change and function | Q36058993 | ||
Neuronal versus glial cell swelling in the ischaemic retina | Q36269637 | ||
Increased cerebral blood volume pulsatility during head-down tilt with elevated carbon dioxide: the SPACECOT Study. | Q36329004 | ||
Pathogenesis of optic disc edema in raised intracranial pressure | Q36422046 | ||
Ocular Outcomes Comparison Between 14- and 70-Day Head-Down-Tilt Bed Rest | Q36592572 | ||
Spaceflight-induced alterations in cerebral artery vasoconstrictor, mechanical, and structural properties: implications for elevated cerebral perfusion and intracranial pressure | Q36860290 | ||
Effects of short-term exposure to head-down tilt on cerebral hemodynamics: a prospective evaluation of a spaceflight analog using phase-contrast MRI. | Q37009677 | ||
Cerebrospinal fluid outflow: an evolving perspective | Q37269770 | ||
The effect of microgravity on ocular structures and visual function: a review | Q38078107 | ||
Radiation therapy: posterior segment complications | Q38132590 | ||
Compartmentalized cerebrospinal fluid. | Q38168019 | ||
Lumbar puncture during spaceflight: operational considerations, constraints, concerns, and limitations | Q38283785 | ||
Space Flight-Associated Neuro-ocular Syndrome | Q38400962 | ||
Neuro-Ophthalmology of Space Flight | Q38439723 | ||
Spaceflight-Induced Intracranial Hypertension | Q38534322 | ||
Mini-Review: Impaired Axonal Transport and Glaucoma | Q38540617 | ||
Lower-body negative pressure decreases noninvasively measured intracranial pressure and internal jugular vein cross-sectional area during head-down tilt | Q38790998 | ||
Elevated End-Tidal Pco2 During Long-Duration Spaceflight | Q39357670 | ||
The translaminar pressure gradient in sustained zero gravity, idiopathic intracranial hypertension, and glaucoma | Q39552265 | ||
Recent bed rest results and countermeasure development at NASA. | Q40678799 | ||
Optic disc edema in raised intracranial pressure. I. Evolution and resolution | Q41278470 | ||
Symptoms and disease associations in idiopathic intracranial hypertension (pseudotumor cerebri): a case-control study | Q43517619 | ||
Impaired cerebrovascular autoregulation and reduced CO₂ reactivity after long duration spaceflight. | Q44672669 | ||
Doppler ultrasound of the central retinal artery in microgravity | Q44698987 | ||
Spaceflight-Induced Intracranial Hypertension and Visual Impairment: Pathophysiology and Countermeasures | Q46434436 | ||
In situ immune response and mechanisms of cell damage in central nervous system of fatal cases microcephaly by Zika virus | Q47557035 | ||
Optical Coherence Tomography Analysis of the Optic Nerve Head and Surrounding Structures in Long-Duration International Space Station Astronauts | Q47564682 | ||
Intracranial pressure-induced optic nerve sheath response as a predictive biomarker for optic disc edema in astronauts | Q47966307 | ||
Effects of Spaceflight on Astronaut Brain Structure as Indicated on MRI. | Q47991814 | ||
An international collaboration studying the physiological and anatomical cerebral effects of carbon dioxide during head-down tilt bed rest: the SPACECOT study | Q48195850 | ||
Quantitative MRI volumetry, diffusivity, cerebrovascular flow, and cranial hydrodynamics during head-down tilt and hypercapnia: the SPACECOT study. | Q48226057 | ||
Human cerebral autoregulation before, during and after spaceflight. | Q48329818 | ||
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 | ||
Astronaut ophthalmic syndrome | Q48643700 | ||
Evidence for the importance of extracranial venous flow in patients with idiopathic intracranial hypertension (IIH). | Q48658884 | ||
Characterization of Retinal Ganglion Cell and Optic Nerve Phenotypes Caused by Sustained Intracranial Pressure Elevation in Mice. | Q49294193 | ||
Why a One-Way Ticket to Mars May Result in One-Way Directional Glymphatic Flow to the Eye: Response | Q49392340 | ||
Why a One-Way Ticket to Mars May Result in a One-Way Directional Glymphatic Flow to the Eye. | Q49392349 | ||
Spaceflight and Neurosurgery: A Comprehensive Review of the Relevant Literature | Q50072570 | ||
Author Response: Optic Nerve Sheath Distention as a Protective Mechanism Against the Visual Impairment and Intracranial Pressure Syndrome in Astronauts | Q50152453 | ||
Alterations in adaptive immunity persist during long-duration spaceflight. | Q50971022 | ||
Persistent Asymmetric Optic Disc Swelling After Long-Duration Space Flight: Implications for Pathogenesis. | Q51022744 | ||
Volumetric Ophthalmic Ultrasound for Inflight Monitoring of Visual Impairment and Intracranial Pressure. | Q51736994 | ||
Brain structural plasticity with spaceflight. | Q51811291 | ||
Structural Brain Changes following Long-Term 6° Head-Down Tilt Bed Rest as an Analog for Spaceflight. | Q52151917 | ||
Non-Invasive Intracranial Pressure Estimation During Combined Exposure to CO₂ and Head-Down Tilt. | Q52382166 | ||
Space flight-associated neuro-ocular syndrome (SANS). | Q52661826 | ||
Ophthalmic Changes Associated with Long-Term Exposure to Microgravity. | Q52956674 | ||
Why Space Flight-Associated Neuro-ocular Syndrome May Differ From Idiopathic Intracranial Hypertension-Reply. | Q53071202 | ||
Choroidal Folds in Astronauts. | Q53087234 | ||
Relationship between carbon dioxide levels and reported headaches on the international space station. | Q53090315 | ||
Unilateral loss of spontaneous venous pulsations in an astronaut. | Q53093480 | ||
Lower body negative pressure reduces optic nerve sheath diameter during head-down tilt. | Q53106369 | ||
Why Space Flight-Associated Neuro-ocular Syndrome May Differ From Idiopathic Intracranial Hypertension. | Q53396420 | ||
Lower body negative pressure to safely reduce intracranial pressure | Q57028895 | ||
Brain Tissue-Volume Changes in Cosmonauts | Q57788299 | ||
Impact of Spaceflight and Artificial Gravity on the Mouse Retina: Biochemical and Proteomic Analysis | Q58697167 | ||
Intracranial and Intraocular Pressure During Various Degrees of Head-Down Tilt | Q60548654 | ||
Intraocular pressure, retinal vascular, and visual acuity changes during 48 hours of 10 degrees head-down tilt | Q68605199 | ||
Intraocular pressure and retinal vascular changes during transient exposure to microgravity | Q70583494 | ||
Cerebral blood velocity and other cardiovascular responses to 2 days of head-down tilt | Q70589025 | ||
Physical examination during space flight | Q73273659 | ||
Cardiac, arterial and venous adaptation to weightlessness during 6-month MIR spaceflights with and without thigh cuffs (bracelets) | Q73633874 | ||
Circulation and axonal transport in the optic nerve | Q80981254 | ||
Asymmetric Papilledema in Idiopathic Intracranial Hypertension: Comment | Q87309609 | ||
Spaceflight-Induced Visual Impairment and Globe Deformations in Astronauts Are Linked to Orbital Cerebrospinal Fluid Volume Increase | Q87916382 | ||
Internal Jugular Vein Volume During Head-Down Tilt and Carbon Dioxide Exposure in the SPACECOT Study | Q88122835 | ||
Microgravity-induced ocular changes are related to body weight | Q88693107 | ||
Association of Space Flight With Problems of the Brain and Eyes | Q89440472 | ||
Ultrasound Guided Lumbar Puncture and Remote Guidance for Potential In-Flight Evaluation of VIIP/SANS | Q90717664 | ||
Spaceflight-Associated Brain White Matter Microstructural Changes and Intracranial Fluid Redistribution | Q91182370 | ||
Spaceflight-related ocular changes: the potential role of genetics, and the potential of B vitamins as a countermeasure | Q91249471 | ||
Longitudinal Analysis of Quantitative Brain MRI in Astronauts Following Microgravity Exposure | Q91734968 | ||
Dilated Prelaminar Paravascular Spaces as a Possible Mechanism for Optic Disc Edema in Astronauts | Q93378856 | ||
P4510 | describes a project that uses | Vision Impairment and Intracranial Pressure | Q114813246 |
P921 | main subject | microgravity | Q48655 |
P304 | page(s) | 7 | |
P577 | publication date | 2020-02-07 | |
P1433 | published in | npj Microgravity | Q50817217 |
P1476 | title | Spaceflight associated neuro-ocular syndrome (SANS) and the neuro-ophthalmologic effects of microgravity: a review and an update | |
P478 | volume | 6 |
Q100467271 | Brain stimulation in zero gravity: transcranial magnetic stimulation (TMS) motor threshold decreases during zero gravity induced by parabolic flight | cites work | P2860 |
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