PURPOSE: To evaluate the variation of 24-hours blood pressure in patients with normal tension glaucoma (NTG) and primary open-angle glaucoma (POAG). METHODS: Thirty patients with NTG, 30 patients with POAG, and 30 normal controls were enrolled in this study. Each subjects underwent 24-hours ambulatory blood pressure monitoring. The variation of each parameter and difference among NTG, POAG, and control groups were compared. RESULTS: The lowest diastolic blood pressure (DBP) and the lowest mean arterial blood pressure (MAP) were significantly lower in the NTG group(51.9+/-11.3 mmHg and 66.9+/-13.1 mmHg) than in the POAG group(60.0+/-11.4 mmHg and 77.8+/-16.8 mmHg, p=0.048 and 0.024) and the control group(60.1+/-10.5 mmHg and 77.4+/-13.3 mmHg, p=0.047 and 0.031) during nighttime. More patients showed a lowest MAP less than 60 mmHg in the NTG group(8 patients, 27%) than in the POAG group(2 patients, 7%) and the control group(2 subjects, 7%, p=0.038 each). In addition, a decrease of more than 15% in DBP was more frequent in NTG group(17 patients, 57%) than in the POAG group(9 patients, 30%) and the control group(9 subjects, 30%, p=0.037 each). CONCLUSIONS: Nocturnal reduction in blood pressure may play an important role in the pathogenesis of NTG in some patients. Therefore, nighttime blood pressure should be considered as an important reference factor in diagnosis and treatment of NTG.
Arterial Pressure ; Blood Pressure Monitoring, Ambulatory ; Blood Pressure* ; Diagnosis ; Glaucoma, Open-Angle* ; Humans ; Low Tension Glaucoma*

PURPOSE: To investigate the correlation between 24-hour ambulatory blood pressure (BP) monitoring and peripapillary retinal vessel width and visual field (VF) defect progression in normal tension glaucoma (NTG) patients. METHODS: All patients were classified by 24-hour ambulatory BP monitoring as non-dipper (nocturnal dip < 10%) and dipper (nocturnal dip ≥ 10%) group. Vessel diameter, mean deviation (MD) value by VF test and VF progression from Glaucoma Progression Analysis (GPA) were compared among non-dipper and dipper groups. RESULTS: Retinal arterial diameter was wider in the non-dipper group compared to the dipper group (p = 0.015), while retinal venous diameter had no significant relationship between the two groups (p = 0.131). The MD value at baseline and 2 years after was worse in the non-dipper group than the dipper group, respectively (p = 0.006, p = 0.030). But, there was no significant relationship between nocturnal dip and GPA progression (p = 0.658). CONCLUSIONS: There was a statistically significant correlation between nocturnal dips and retinal arterial diameter and MD values. These results suggest that non-invasive fundus photography can predict hemodynamic features like nocturnal dip.
Blood Pressure* ; Glaucoma ; Hemodynamics ; Humans ; Low Tension Glaucoma* ; Photography ; Retinal Vessels* ; Retinaldehyde* ; Visual Fields*

To evaluate the implication of vascular factors in normal tension glaucoma, the authors measured ocular blood flow velocity in normal tension glaucoma patients using Doppler Ultrasound. Seventeen consecutive patients(29 eyes) of normal tension glaucoma were studied. The peak systolic and diastolic velocities of ophthalmic artery in normal tension glaucoma were 25.48 +/- 4.09cm/sec and 5.48 +/- 1.16cm/sec, respectively; there were statistically significant decrease of blood flow velocities compared to those of primary open angle glaucoma(30.83 +/- 5.38cm/sec, 9.10 +/- 3.25cm/sec)(p<0.05) and normal group(38.12 +/- 6.42cm/sec, 9.77 +/- 2.64cm/sec)(p<0.05). The peak systolic and diastolic velocities of central retinal artery in normal tension glaucoma were 5.95 +/- 1.05cm/sec and 2.14 +/- 0.83cm/sec, respectively; there was statistically no significant decrease of blood flow velocities compared to those of normal group and primary open angle glaucoma group. Above results imply that the blood flow velocity of ophthalmic artery decrease significantly in normal tension glaucoma and local vascular factors are somewhat related to the development of the normal tension glaucoma. Further studies are necessary to validate these preliminary findings.
Blood Flow Velocity* ; Glaucoma, Open-Angle ; Humans ; Low Tension Glaucoma* ; Ophthalmic Artery ; Retinal Artery ; Ultrasonography*

PURPOSE: To investigate the effect of nocturnal dip, carotid artery blood flow, and brain ischemic change on the progression of glaucomatous visual field defect in open-angle glaucoma (OAG) when IOP is less than the target pressure. METHODS: We classified OAG patients (74 patients, 148 eyes) who maintained IOP less than the target pressure as normal tension glaucoma (NTG; 52 patients, 104 eyes) or primary OAG (POAG; 22 patients, 44 eyes). Additionally, we performed 24-hr ambulatory blood pressure monitoring (24-hr ABPM), carotid artery color Doppler U/S (CAD), brain MRI, and visual field (V/F) tests on the patients. Nocturnal dips less than 10% were classified as non-dippers, and dips greater than 10% as dippers. The relationships among nocturnal dip, carotid artery blood flow, brain ischemic change, and progression of glaucomatous V/F defect were examined. RESULTS: In the case of dippers, glaucomatous V/F defects were aggravated, with a relative risk of approximately 1.74 (NTG) and 2.91 (POAG) times that of non-dippers. In NTG, decreased carotid artery blood flow and brain ischemic change furthered glaucomatous V/F defects, with a relative risk of approximately 2.40 and 2.54 times that of normal carotid artery blood flow and brain MRI findings, respectively. However, in POAG, decreased carotid artery blood flow and brain ischemic change were not influenced by the progression of glaucomatous V/F defects. CONCLUSIONS: In dippers, decreased carotid artery blood flow and brain ischemic change caused a progression of glaucomatous V/F defects in NTG and POAG patients. Thus, performing 24-hr ABPM, CAD, and brain MRI should be helpful for glaucoma patients with progression of glaucomatous V/F defects even when the IOP is less than the target pressure. In addition, this analysis provides useful information regarding glaucoma diagnosis and treatment.
Blood Pressure Monitoring, Ambulatory ; Brain ; Brain Ischemia ; Carotid Arteries ; Glaucoma ; Glaucoma, Open-Angle ; Humans ; Low Tension Glaucoma ; Salicylates ; Visual Fields

Although the pathogenesis of glaucoma remains obscure, many reports suggested that vascular factors may be involved in the pathogenesis of glaucoma. In this study, we examined and analyzed blood flow in the optic nerve and peripapillary retina of control subjects, patients with primary open-angle glaucoma (POAG) and normal-tension glaucoma (NTG) using Heidelberg Retinal Flowmeter. Image from 20 control subjects, 25 POAG patients and 18 NTG patients were analyzed. Blood volume, flow, and velocity were obtained and analyzed in 2 separate sites of optic cup,temporal and nasal neuroretinal rim, temporal and nasal peripapillary retina in the perfusion map by 10 x10 pixel sized window. The NTG patients had significantly decreased blood volume, flow, velocity in the nasal neuroretinal rim and temporal peripapillary retina compared with control subjects (p<.05). The NTG patients had only significantly decreased flow in the optic cup and temporal neuroretinal rim (optic cup: p=.022, temporal neuroretinal rim:p=.035). The POAG patients had significantly decreased blood volume, flow, velocity in the nasal neuroretinal rim compared with control subjects (p<.05). The POAG patients had significantly decreased flow in the optic cup (p=.033). The NTG patients had significantly decreased velocity, volume in the temporal neuroretinal rim compared with POAG patients (velocity: p=.009, volume: p=.001).
Blood Volume ; Flowmeters ; Glaucoma ; Glaucoma, Open-Angle ; Humans ; Low Tension Glaucoma* ; Optic Disk* ; Optic Nerve* ; Perfusion ; Retina ; Retinaldehyde*

PURPOSE: Non-intraocular pressure (IOP) factors such as vascular factors have been identified as contributing to normal tension glaucoma. However, there is not an established range of haemorheological factors considered normal, nor are there standardized tests. In this study, we investigated differences in blood viscosity and haemorheological parameters between patients with normal tension glaucoma (NTG) and normal controls using a new instrument called the BVD-RO1 (BIO-VISCO. Inc., Jeonju, Korea). METHODS: Twenty patients with NTG and 20 age-matched normal controls were included in the study. Haemorheological parameters of the venous blood samples, including blood viscosity at the shear rates of 300 (high shear rate) and 1 (low shear rate) s-1 were measured using an automated scanning capillary tube viscometer. RESULTS: More hematocrit concentration was detected in the NTG group than in the control group (p < 0.05). Furthermore, higher blood viscosities at the high (p < 0.01) and low (p < 0.01) shear rates were found in the NTG group. CONCLUSIONS: The NTG patients differed in blood viscosity with the control group. This may signify the importance of hemodynamic factors in the pathogenesis of NTG.
Blood Viscosity* ; Capillaries ; Hematocrit ; Hemodynamics ; Humans ; Jeollabuk-do ; Low Tension Glaucoma*

It has been suggested that normal tension glaucoma could be the result of pressure independent factors. One of the current theories is that normal tension glaucoma is the result of decreased optic nerve perfusion on the basis of vascular disease or other systemic factors such as altered blood viscosity or coagulation state. This study compared the vascular viscosity profiles, coagulation tests, and biochemical tests of 30 consecutive cases of normal tension glaucoma with 30 control cases to evaluate association of particular systemic state with normal tension glaucoma in Korean population. The data of total cholesterol and low density lipoprotein (LDL) cholesterol were significantly higher in the normal tension glaucoma group than in the control group. But there were no significant differences between the two groups with respect to the many other factors examined. These results support the vascular ischmic theory due to hyperlipidemia in the pathogenesis of the normal tension glaucoma. Inadequate circulation of optic nerve due to atherosclerotic change might play an important role in the pathogenesis of normal tension glaucoma.
Blood Viscosity ; Cholesterol ; Hyperlipidemias ; Lipoproteins ; Low Tension Glaucoma* ; Optic Nerve ; Perfusion ; Vascular Diseases ; Viscosity

PURPOSE: To compare the macular choroidal thickness, ganglion cell complex thickness, peripapillary choroidal thickness and retinal nerve fiber layer thickness among normal, primary open angle glaucoma (POAG) and normal tension glaucoma (NTG) patients using RTVue (Fourier-domain optical coherence tomography; Optovue, Fremont, CA, USA). METHODS: A retrospective analysis of 32 normal controls, 32 POAG and 52 NTG patients was performed. Choroidal thickness, ganglion cell complex thickness and retinal nerve fiber layer thickness were compared among normal controls, POAG and NTG subjects. Additionally, the factors influencing choroidal thickness (age, axial length, spherical equivalent, central corneal thickness, mean deviation, nocturnal dip, blood pressure variability) were analyzed. RESULTS: A total of 32 normal controls, 32 POAG and 52 NTG patients were enrolled in this study. Macular and peripapillary choroidal thicknesses were significantly thinner in the NTG patients. In NTG subjects, the significant influencing factors associated with macular and peripapillary choroidal thicknesses were age, axial length, nocturnal dip (diastolic blood pressure), diastolic blood pressure variability and ganglion cell complex thickness. In POAG patients, significant influencing factors associated with macular and peripapillary choroidal thicknesses were age and axial length. CONCLUSIONS: Choroidal thickness was significantly thinner in NTG patients compared with normal controls and POAG patients. Factors influencing choroidal thickness in NTG patients were age, axial length, nocturnal dip (diastolic blood pressure), diastolic blood pressure variability and ganglion cell complex thickness. In POAG patients, significant factors influencing choroidal thickness were age and axial length.
Blood Pressure ; Choroid* ; Ganglion Cysts ; Glaucoma, Open-Angle* ; Humans ; Low Tension Glaucoma ; Nerve Fibers ; Retinaldehyde ; Retrospective Studies ; Tomography, Optical Coherence

PURPOSE: To compare the macular choroidal thickness, ganglion cell complex thickness, peripapillary choroidal thickness and retinal nerve fiber layer thickness among normal, primary open angle glaucoma (POAG) and normal tension glaucoma (NTG) patients using RTVue (Fourier-domain optical coherence tomography; Optovue, Fremont, CA, USA). METHODS: A retrospective analysis of 32 normal controls, 32 POAG and 52 NTG patients was performed. Choroidal thickness, ganglion cell complex thickness and retinal nerve fiber layer thickness were compared among normal controls, POAG and NTG subjects. Additionally, the factors influencing choroidal thickness (age, axial length, spherical equivalent, central corneal thickness, mean deviation, nocturnal dip, blood pressure variability) were analyzed. RESULTS: A total of 32 normal controls, 32 POAG and 52 NTG patients were enrolled in this study. Macular and peripapillary choroidal thicknesses were significantly thinner in the NTG patients. In NTG subjects, the significant influencing factors associated with macular and peripapillary choroidal thicknesses were age, axial length, nocturnal dip (diastolic blood pressure), diastolic blood pressure variability and ganglion cell complex thickness. In POAG patients, significant influencing factors associated with macular and peripapillary choroidal thicknesses were age and axial length. CONCLUSIONS: Choroidal thickness was significantly thinner in NTG patients compared with normal controls and POAG patients. Factors influencing choroidal thickness in NTG patients were age, axial length, nocturnal dip (diastolic blood pressure), diastolic blood pressure variability and ganglion cell complex thickness. In POAG patients, significant factors influencing choroidal thickness were age and axial length.
Blood Pressure ; Choroid* ; Ganglion Cysts ; Glaucoma, Open-Angle* ; Humans ; Low Tension Glaucoma ; Nerve Fibers ; Retinaldehyde ; Retrospective Studies ; Tomography, Optical Coherence

PURPOSE: To investigate the effects of a delay in finger temperature recovery rate on the hand cold provocation test (HCPT) and a nocturnal dip greater than 10% (dipper) on the progression of glaucomatous visual field (VF) defects in open-angle glaucoma patients when the intraocular pressure (IOP) was well controlled lower than the target pressure. METHODS: 30 patients (58 eyes) with normal tension glaucoma (NTG) and 13 patients (24 eyes) with primary open angle glaucoma, and 12 normal controls (24 eyes) were retrospectively enrolled in this study. We performed HCPT, 24 hour ambulatory blood pressure monitoring (24-hr ABPM), Goldmann applanation tonometer measurements, and VF tests on all subjects. The delay in finger temperature recovery rate was defined as a delay longer than 15% of the mean finger temperature of normal controls over 2 intervals among 5, 10, 15, and 20 minutes after the immersion of cold water. We examined the relationships among the delay in finger temperature recovery rate, dipper, and the progression of glaucomatous VF defects. RESULTS: The finger temperature recovery rate in NTG patients was significantly delayed more than that of normal controls at 5, 10, and 15 minutes after the immersion. The delay in finger temperature recovery rate significantly correlated with dipper in NTG patients. Glaucomatous VF defects were significantly progressed in the presence of dipper in NTG patients. Delay in finger temperature recovery rate was significantly related to the progression of glaucomatous VF defects in NTG patients. In the binary logistic regression test, delay in finger temperature recovery rate was the only factor that was strongly related to the progression of glaucomatous visual field in NTG patients. CONCLUSIONS: When glaucomatous VF defects progressed despite the IOP being well controlled, 24-hr ABPM and HCPT for detecting vascular dysregulation might be helpful for diagnosis and treatment of glaucoma.
Blood Pressure Monitoring, Ambulatory ; Diagnosis ; Fingers* ; Glaucoma* ; Glaucoma, Open-Angle ; Hand ; Humans ; Immersion ; Intraocular Pressure ; Logistic Models ; Low Tension Glaucoma ; Retrospective Studies ; Visual Fields ; Water