TY - JOUR
T1 - Effects of 30-day head-down bed rest on ocular
T2 - Structures and visual function in a healthy subject
AU - Taibbi, Giovanni
AU - Kaplowitz, Kevin
AU - Cromwell, Ronita L.
AU - Godley, Bernard F.
AU - Zanello, Susana B.
AU - Vizzeri, Gianmarco
PY - 2013/2
Y1 - 2013/2
N2 - Introduction: We report ocular changes occurring in a healthy human subject enrolled in a bed rest (BR) study designed to replicate the effects of a low-gravity environment. Case Report: A 25-yr-old Caucasian man spent 30 consecutive days in a 6° head-down tilt (HDT) position at the NASA Flight Analogs Research Unit. Comprehensive ophthalmologic exams, optic disc stereo-photography, standard automated perimetry (SAP), and optic disc Spectralis OCT scans were performed at baseline, immediately post-BR (BR +0), and 6 mo post-BR. Main outcome measures: changes in best-corrected visual acuity, intraocular pressure (IOP), cycloplegic refraction, SAP, and Spectralis OCT measures. At BR +0 IOP was 11 and 10 mmHg in the right (OD) and left eye (OS), respectively (a bilateral 4-mmHg decrease compared to baseline); SAP documented a possible bilateral symmetrical inferior scotoma; Spectralis OCT showed an average 19.4 μm (+ 5.2%) increase in peripapillary retinal thickness, and an average 0.03 mm3 (+ 5.0%) increase in peripapillary retinal volume bilaterally. However, there were no clinically detectable signs of optic disc edema. At 6 mo post-BR, IOP was 13 and 14 mmHg in OD and OS, respectively, and the scotoma had resolved. Spectralis OCT measurements matched the ones recorded at baseline. Discussion: In this subject, a reduction in IOP associated with subtle structural and functional changes compared to baseline were documented after prolonged head-down BR. These changes may be related to cephalad fl uid shifts in response to tilt. Further studies should clarify whether decreased translaminar pressure (i.e., the difference between IOP and intracranial pressure) may be responsible for these findings.
AB - Introduction: We report ocular changes occurring in a healthy human subject enrolled in a bed rest (BR) study designed to replicate the effects of a low-gravity environment. Case Report: A 25-yr-old Caucasian man spent 30 consecutive days in a 6° head-down tilt (HDT) position at the NASA Flight Analogs Research Unit. Comprehensive ophthalmologic exams, optic disc stereo-photography, standard automated perimetry (SAP), and optic disc Spectralis OCT scans were performed at baseline, immediately post-BR (BR +0), and 6 mo post-BR. Main outcome measures: changes in best-corrected visual acuity, intraocular pressure (IOP), cycloplegic refraction, SAP, and Spectralis OCT measures. At BR +0 IOP was 11 and 10 mmHg in the right (OD) and left eye (OS), respectively (a bilateral 4-mmHg decrease compared to baseline); SAP documented a possible bilateral symmetrical inferior scotoma; Spectralis OCT showed an average 19.4 μm (+ 5.2%) increase in peripapillary retinal thickness, and an average 0.03 mm3 (+ 5.0%) increase in peripapillary retinal volume bilaterally. However, there were no clinically detectable signs of optic disc edema. At 6 mo post-BR, IOP was 13 and 14 mmHg in OD and OS, respectively, and the scotoma had resolved. Spectralis OCT measurements matched the ones recorded at baseline. Discussion: In this subject, a reduction in IOP associated with subtle structural and functional changes compared to baseline were documented after prolonged head-down BR. These changes may be related to cephalad fl uid shifts in response to tilt. Further studies should clarify whether decreased translaminar pressure (i.e., the difference between IOP and intracranial pressure) may be responsible for these findings.
KW - Intraocular pressure
KW - Microgravity
KW - Optic disc swelling
KW - Spectraldomain OCT
KW - Translaminar pressure
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U2 - 10.3357/ASEM.3520.2013
DO - 10.3357/ASEM.3520.2013
M3 - Article
C2 - 23447853
AN - SCOPUS:84873272457
SN - 0095-6562
VL - 84
SP - 148
EP - 154
JO - Aviation Space and Environmental Medicine
JF - Aviation Space and Environmental Medicine
IS - 2
ER -