Aqueous humor dynamics in beagle dogs with caffeine-induced ocular hypertension

In order to investigate the possible mechanisms for caffeine-induced ocular hypertension, the intraocular pressure (IOP) and the outflow through the trabecular meshwork were measured in beagle dog eyes after dosing with intravenous caffeine (30 mg/kg) alone or in combination with the topical beta-blocker befunolol [applied as 100 microliters of a 1% (w/v) solution] which inhibits aqueous humor formation in the ciliary body. Intravenous injections of caffeine significantly increased the IOP at 0.25 and 1 hr after a single dose. The ocular hypertension recovered within 2 hr following dosing. Over time, there were no differences in the outflow between the caffeine and control groups. The instillation of befunolol lowered outflow and produced ocular hypotension. The levels of the IOP and outflow in dogs treated with caffeine and befunolol in combination were almost the same as those in dogs treated with befunolol alone. Single-dose and combination-dose studies demonstrate that intravenous caffeine increases the IOP in normal beagle dogs possibly by increasing aqueous humor formation and not by the inhibition of aqueous humor drainage through the trabecular meshwork.     

Effects of Al3+ and Be2+ ions combined with NaF on ciliary process adenylyl cyclase activity and aqueous humor dynamics in the rabbit eye

PURPOSE: The activity of Al3+, Ga3+, and Be2+ ions in the presence of NaF to directly activate G-proteins was investigated by their potentiative effect on forskolin (FSK)-activated adenylyl cyclase in rabbit ciliary process membranes and their effects on aqueous humor dynamics in vivo. METHODS: Adenylyl cyclase (AC) was determined by radiometric conversion of ATP to cAMP by the particulate fraction of rabbit ciliary processes. Intravitreal injections of sterile solutions of analytical grade salts were made into the center of the vitreous in a volume of 20 microliters. Intraocular pressure, aqueous humor flow, and uveoscleral outflow measurements were made by pneumatonometry, fluorophotometry, and fluorescein-dextran method, respectively. Outflow facility was determined by tonography in the intact eyes and by two-level constant pressure perfusion in cannulated eyes. RESULTS: Both Al3+ (EC50, 40 mumol/l) and Be2+ (EC50, 11 mumol/l) in the presence of 0.5-2 mM NaF activated the stimulatory G-protein Gs. Ga3+ was ineffective and did not antagonize the activation by Al3+. Intravitreal injections of Al3+ (1 mumol/eye) or Be2+ (0.5 or 1 mumol/eye) had no significant intraocular pressure (IOP) effect, nor did 1.5 or 3 mumol/eye of NaF, but when either cation was injected together with NaF, IOP decreased by up to 40% for up to 140 hr. At the time of maximum IOP effect (72 hr) aqueous humor flow determined by fluorophotometry was decreased in BeCl2+ NaF-treated eyes by 40% relative to BeCl2-treated eyes; however, tonographic facility of outflow was unaffected. Uveoscleral flow was also decreased by 38% in BeCl2+ NaF treated eyes. CONCLUSIONS: These findings support the hypothesis that Gs activation of ciliary process adenylyl cyclase decreases aqueous humor formation rate in rabbit eyes, and that activation of G-proteins mediates contraction of ciliary muscles causing a decrease of aqueous humor outflow via the uveoscleral route. The results suggest that G-proteins putatively involved in trabecular facility changes are less sensitive to activation by BeF3- than are other parameters of aqueous humor dynamics.     

Increase in aqueous humor production following D1 receptors activation by means of ibopamine

BACKGROUND: Topically administered 2% ibopamine (a dopaminergic agonist) induces a transitory ocular hypertension in 92% of patients with primary open-angle glaucoma and in 52% of patients with normal tension glaucoma. In normal eyes, ibopamine has no effect on IOP. PURPOSE: The aim of the present study was to verify, by means of fluorophotometric techniques, which hydrodynamic changes could be induced in normal and glaucomatous eyes, stimulating the D1 receptor with 2% ibopamine administered topically. In addiction, we wanted to evaluate if ibopamine could modify IOP before and after an experimentally induced outflow system impairment in rabbits. METHODS: In study 1 we performed a measurement of aqueous humor flow in 6 healthy volunteers and in 6 glaucomatous patients, before and after 2% ibopamine administration. In study 2 the alteration of outflow pathways was induced by means of Laminaria Digitata in 10 rabbits. RESULTS: After 2% ibopamine administration we found a significant increase in aqueous humor production, both in glaucomatous (P = 0.035) and normal eyes (P = 0.004). In rabbits, we found no significant change in IOP at basal conditions. After experimentally induced outflow system impairment by laminaria, we observed a marked increase in IOP (+ 13.5 mmHg SD 7.2; P < = 0.001) following ibopamine administration. CONCLUSIONS: These experimental data have a diagnostic value in glaucoma, since they show how an intraocular hypertensive response due to ibopamine in normotensive eyes is a sign of initial outflow impairment. Moreover, the possibility to increase the aqueous humor production sets new trends in the treatment of post surgical ocular hypotony.     

Alcohol and poor compliance as factors in Wernicke''s encephalopathy diagnosed 13 years after gastric bypass

OBJECTIVE: The aim was to study the relationship between aqueous humour betaxolol concentration and intraocular pressure (IOP). METHODS: In this double-blind, randomized study, we administered betaxolol (a) or placebo (b) ocularly to 131 patients scheduled for cataract surgery. The patients were randomly divided into ten groups. In groups 1a and 1b, the drug was scheduled to be instilled 1-2 h, in groups 2a and 2b 12 h, in groups 3a and 3b 24 h, and in groups 4a and 4b 48 h before surgery. The pupil was dilated in all eyes prior to surgery. The IOP was measured with Perkins' applanation tonometer before the instillation of the drug and just before the peribulbar block. Twenty microlitres of 0.5% betaxolol or placebo solution was instilled into the eye. IOP was also measured before instillation of the drug and after 1 2 h in undilated eyes of 20 patients, whose contralateral eye was to be operated on, to rule out the effect of pupil dilation on IOP (groups 5a and 5b). Aqueous humour betaxolol concentrations were analysed using a radioreceptor assay. RESULTS: Betaxolol did not decrease IOP significantly in eyes with pupillary dilation. Both betaxolol and placebo decreased IOP significantly in patients without pupillary dilation, the effect of betaxolol being slightly more pronounced. The betaxolol concentration in aqueous humour was 731 ng m-1 in group la, 2.4 h after drug instillation. Measurable concentrations of betaxolol were also detected in aqueous humour in group 4a 47.7 h after drug administration. CONCLUSION: No correlation between aqueous humour concentration of betaxolol and the effect on IOP was found in eyes where the pupil was dilated before surgery. A single betaxolol dose did not decrease IOP significantly in patients undergoing cataract surgery, but the IOP decreasing effect was, however, clearly seen in patients who did not receive mydriatic drugs. The routine use of topical betaxolol prior to cataract surgery to decrease IOP is not recommended.     

Effect of 8-iso prostaglandin E2 on aqueous humor dynamics in monkeys

OBJECTIVE: To evaluate the effects of 8-iso prostaglandin E2 (8-iso PGE2; prosta-5,13-dien-1-oic acid,11,15-dihydroxy-9-oxo-,[5Z,8beta-11X,13E,15 S]-) on the intraocular pressure (IOP), outflow facility, and aqueous humor flow rates in normal monkeys and monkeys with glaucoma. METHODS: The IOP was measured before and as long as 6 hours after the topical application of 8-iso PGE2 to 1 eye of 6 normal monkeys and to the glaucomatous eye of 8 monkeys with unilateral laser-induced glaucoma. The pupil diameter was measured at the same times as the IOP measurements in the normal monkeys. Tonographic outflow facility and fluorophotometric flow rates of aqueous humor were measured in 6 normal monkeys before and after drug treatment. RESULTS: In normal monkeys, a single dose of 0.1% 8-iso PGE2 reduced (P<.01) the IOP for 4 hours in the treated eyes with a maximum (mean +/- SEM) reduction of 3.2 +/- 0.2 mm Hg, compared with the contralateral control eyes. The pupil size was smaller (P<.01) in the treated eyes by as much as 1.0 +/- 0.2 mm for 4 hours. In 8 glaucomatous monkey eyes, the application of 0.05% and 0.1% 8-iso PGE2 reduced the IOP (P<.01) for as long as 2 and 5 hours, respectively. The maximum reduction in the IOP was 4.6 +/- 0.8 mm Hg (0.05%) and 6.0 +/- 0.8 mm Hg (0.1%) compared with baseline measurements. The magnitude and duration of the ocular hypotensive effect were enhanced with twice-a-day administration for 5 consecutive days. Outflow facility in normal monkey eyes was increased (P<.05) by 48% in the treated eyes, and aqueous humor flow was unchanged (P>.10), compared with vehicle-treated contralateral control eyes. Mild eyelid edema, conjunctival edema, hyperemia, and discharge appeared in some eyes treated with the 0.1% drug concentration. CONCLUSIONS: The use of 8-iso PGE2 reduces the IOP in both normal and glaucomatous monkey eyes. An increase in outflow facility appears to account for most of the IOP reduction in normal monkeys. Clinical Relevance: The application of 8-iso PGE2 may have potential for the treatment of glaucoma as an outflow facility-increasing drug.     

Role of nocturnal arterial hypotension in optic nerve head ischemic disorders

OBJECTIVE: To investigate the role of nocturnal arterial hypotension, intraocular pressure (IOP) and heart rate in optic nerve head (ONH) ischemic disorders, and the effects of systemic factors and topical beta-blocker eye-drops on nocturnal arterial hypotension and heart rate. METHODS: We investigated prospectively, by 24-hour ambulatory blood pressure (BP) monitoring and diurnal curve of the IOP, 275 white patients with anterior ischemic optic neuropathy (AION - 114), normal tension glaucoma (NTG - 131) and primary open angle glaucoma (POAG - 30). RESULTS: Hourly average BP data analyses showed a significantly greater drop in mean diastolic BP (p < 0.009) at night in NTG than AION. Cases with visual field deterioration had significantly (p = 0.05) lower minimum nighttime diastolic BP. Arterial hypertensives on oral hypotensive therapy showed a significantly lower mean nighttime systolic BP (p = 0.006) and larger mean percentage drop in systolic (p < 0.0001), diastolic (p = 0.0009) and mean (p < 0.0001) BPs. Normotensives and hypertensives without therapy had no such difference. IOP showed no significant correlation with visual field deterioration in any of these conditions. Patients using beta-blocker eyedrops, compared with those not using them, had greater percentage drop in diastolic BP (p = 0.028), lower minimum nighttime diastolic BP (p = 0.072) and lower minimum nighttime heart rate (p = 0.002). CONCLUSIONS: Findings of our study suggest that nocturnal hypotension, by reducing the ONH blood flow below a crucial level during sleep in a vulnerable ONH, may play a role in the pathogenesis of AION and glaucomatous optic neuropathy (GON) and progression of visual loss in them. Thus, nocturnal hypotension may be the final insult in a multifactorial situation.     

The beta adrenoreceptor antagonist, nipradilol, preserves the endothelial nitric oxide response in atherosclerotic vessels of rabbit

We evaluated the effects of nipradilol, a beta-adrenoreceptor antagonist which contains a nitroxy residue, for vascular response in atherosclerosis of rabbits. Four groups of rabbits received different diets (standard diet; standard diet plus 10 mg/kg/day nipradilol; atherogenic diet [standard diet plus 1% cholesterol]; atherogenic diet plus 10 mg/kg/day nipradilol) for 9 weeks. Plasma lipids, blood pressure, vascular function, nitric oxide (NO), activity of NO synthase, cGMP, and histological atherosclerotic changes were evaluated. Neither the atherogenic diet nor nipradilol treatment affected significantly the animals' body weight, blood pressure, or heart rate. The atherogenic diet increased total cholesterol and triglycerides, which were not altered by nipradilol. The atherogenic diet diminished the acetylcholine-induced NO mediated relaxation. Nipradilol treatment restored this relaxation. Analyses using a NO-sensitive selective electrode showed that nipradilol released NO in the presence of cells and that NO release was greater in atherosclerotic aorta with than without nipradilol treatment. Nipradilol treatment increased the basal NO release as evaluated by the aortic tissue cyclic GMP (cGMP) levels in atherosclerotic vessel, and reduced the esterified cholesterol levels in atherosclerotic vessel. Conclusively, NO released by nipradilol may protect endothelium derived relaxation in atherosclerotic vessels, and may partially inhibit the accumulation of cholesterol in the atherosclerotic lesions.     

Rate of cerebrospinal fluid formation, resistance to reabsorption of cerebrospinal fluid, brain tissue water content, and electroencephalogram during desflurane anesthesia in dogs

Propofol decreases intraocular pressure (IOP) and the IOP response to laryngoscopy and intubation, but the mechanisms responsible for this effect have not been reported. The present study examined the effect of propofol on IOP, intraocular fluid formation and outflow facility, and intraocular compliance. Twenty-two white New Zealand rabbits were anesthetized with halothane (0.8%-1.0% inspired concentration) in nitrous oxide (2 L/min) and oxygen (1 L/min). Muscle paralysis was established with pancuronium, and the lungs were mechanically ventilated through a tracheal tube. Twelve rabbits examined under these conditions served as controls. In the treatment group (n = 10), 6 mg/kg propofol followed by 18 mg.kg-1 x h-1 propofol intravenously was added to halothane/nitrous oxide/oxygen anesthesia. In both groups, a series of intraocular infusions was made via a 30-gauge needle in the anterior chamber, and IOP, the rate of aqueous humor formation (Fa), and trabecular outflow facility (Ctr) were determined using conventional analysis. These same measures, as well as intraocular compliance, were determined using a new method of analysis adapted from the manometric technique for determining cerebrospinal fluid dynamics. IOP was 11.3 +/- 1.8 mm Hg (mean +/- SD) in halothane-anesthetized controls and decreased to 9.4 +/- 2.2 mm Hg when propofol was added to halothane anesthesia (P < 0.05). By conventional analysis, Fa was 2.82 +/- 0.94 microL/min and Ctr was 0.121 +/- 0.044 microL.min-1 x mm Hg-1 in controls. After addition of propofol, Fa decreased by 24% to 2.15 +/- 0.62 microL/min (P < 0.05) and Ctr decreased by 18% to 0.099 +/- 0.034 microL.min-1 x mm Hg-1 (P < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)     

The contralateral effect of antidromic stimulation of the trigeminal nerve on the rabbit eye

The effect on contralateral eyes after injuries to one eye has been called the consensual reaction and has been postulated to be either the consequence of a neural reflex or one achieved by circulating substances. Trigeminal stimulation always causes ipsilateral miosis, ocular hyperemia, intraocular hypertension, and a disruption of the blood-aqueous barrier. Disruption of the blood-aqueous barrier in the contralateral eye after stimulation of the trigeminal nerve always occurs and depends on intact sensory innervation to that globe in rabbits. The disruption is not prevneted by pretreatment of the animals with indomethacin. The phenomenon of disruption of the barrier is sometimes accompanied by an elevation of intraocular pressure in the contralateral eye but not by the other irritative responses. Thus, unilateral stimulation of a sensory nerve, the trigeminal, in the rabbit, can produce ipsilateral contralateral disruption of the blood-aqueous barrier.     

NaCl-preferring NZB/B1NJ mice and NaCl-avoiding CBA/J mice have similar amiloride inhibition of chorda tympani responses to NaCl

After intracameral injection calcitonin gene-related peptide has been demonstrated to break the blood aqueous barrier and increase intraocular pressure in rabbits. However in cats, calcitonin gene-related peptide decreases intraocular pressure by increasing the outflow facility of aqueous humor. In the present study, the effect of intracameral injection of calcitonin gene-related peptide on the outflow facility in rabbits has been investigated and the intraocular pressure and outflow facility were measured following intravitreal administration of calcitonin gene-related peptide. The results demonstrate that in spite of the apparent pseudofacility component caused by a breakdown of the blood aqueous barrier also the true trabecular outflow is probably increased in the rabbit eye after intracameral injection of calcitonin gene-related peptide. The intravitreal administration of calcitonin gene-related peptide leaves the blood aqueous barrier intact and causes an increase in the outflow facility of aqueous humor with a concomitant long-lasting decrease in intraocular pressure.     

Glaucoma, capillaries and pericytes. 1. Blood flow regulation

Blood flow autoregulation may be deficient in patients with glaucoma, making the optic nerve circulation susceptible to the challenge of intraocular pressure (IOP). Adequacy or inadequacy of autoregulation may be a factor that decides whether a patient with elevated IOP develops glaucomatous optic nerve damage. Hypothetically, capillaries may assist arteries and veins in the regulation of blood flow. Our attention has become focused on the pericytes, particularly abundant in the optic nerve and retina, which are a contractile component of capillaries and may therefore be the cells responsible for the capillary's role in autoregulation.     

Intraocular pressure in rabbits by telemetry II: effects of animal handling and drugs

PURPOSE: To measure under carefully controlled conditions the effects in the rabbit eye of commonly used therapeutic agents for glaucoma. METHODS: Rabbits were outfitted in one eye with an implantable telemetric pressure transducer and monitored for several months under controlled conditions of light/ dark and handling. Effects of tonometry, handling, water drinking, and instillation of topical ophthalmic medications on intraocular pressure were recorded during each 24-hour day/night cycle. RESULTS: Pneumatonometry, animal handling, and water drinking all had an effect on intraocular pressure that in many instances was of the same magnitude as the effects of pharmacologic agents. Dorzolamide and timolol caused a sustained reduction of intraocular pressure during the nocturnal period. Epinephrine had a biphasic effect, causing an immediate pressure elevation followed by a prolonged depression. Apraclonidine, latanoprost, and pilocarpine had no measurable effect. CONCLUSIONS: Continuous telemetric measurement of intraocular pressure in rabbits permits the measurement of uncontrollable artifacts that occur with tonometric measurements and animal handling. If environmental conditions are rigidly controlled, this method is very sensitive for detecting therapeutic effects of candidates for ocular hypotensive drugs. When healthy animals are used, the method appears to be more sensitive for drugs that affect aqueous humor formation than for drugs that affect aqueous humor outflow resistance.     

Measuring sexual harassment: development and validation of the Sexual Harassment Inventory

Recent studies have suggested that intravenous infusion of fenoldopam, a selective dopamine-1 receptor agonist, elevates intraocular pressure (IOP) in man. This study evaluated the effect of intravenous fenoldopam on IOP, aqueous humor outflow facility and gonioscopy in 12 healthy human subjects. Three doses (0.2, 0.5 and 1.0 microg/kg/min) were infused for 120 minutes in a double masked, placebo controlled, four-way crossover design. IOP was measured every 20 minutes in the supine position and every 40 minutes while sitting during the drug and placebo infusions. Tonography and gonioscopy were performed at baseline and after 120 minutes of infusion. Compared to placebo, IOP increased by 3.5 mm Hg (32%) for the lowest dose, 5.8 mm Hg (46%) for the intermediate dose, and 6.9 mm Hg (55%) for the highest dose (p<0.05 for all three doses). IOP returned to baseline within 30 minutes of stopping the infusion. The outflow facility decreased from baseline by 26% after 120 minutes of infusion for all drug doses. In contrast, outflow facility increased from baseline by 11% during placebo infusion. Compared to placebo, the fenoldopam induced changes in outflow were statistically significant (p<0.05). There was no change in the gonioscopic appearance of the anterior chamber angle during the infusion. This study shows that systemic administration of a selective dopamine-1 receptor agonist causes a significant dose-dependent increase in IOP that can be explained in part by diminished outflow facility. These results support a role for the dopamine-1 receptor in the modulation of IOP in general and suggest modulation of aqueous humor outflow by dopaminergic receptors.     

Clinical cancer research in a managed-care environment

PURPOSE: Autoregulation of optic nerve head blood flow (Fonh) in response to decreases in perfusion pressure has been demonstrated in animals and humans. The aim of this study was to determine change in Fonh when systemic blood pressure is increased. METHODS: Blood flow parameters, i.e. relative mean velocity, number, and flux of red blood cells in the ONH tissue (Velonh, Volonh and Fonh, respectively) were measured by laser Doppler flowmetry in one eye of 13 normal subjects (aged 16 to 58 years), at baseline, during, and after isometric exercises consisting of squatting. Brachial artery blood pressure was measured by sphygmomanometry. IOP was measured at baseline and at the end of squatting. RESULTS: During squatting mean arterial pressure increased from 103 +/- 6 mm Hg to 139 +/- 58 mm Hg (average +/- 95% confidence interval), IOP increased from 13 +/- 0.5 to 17 +/- 1 mm Hg. An average increase in PPm from 56 +/- 4 to 80 +/- 7 mm Hg induced no significant (p > 0.05) change in the blood flow parameters. The sensitivity (detection threshold) of the blood flow changes was 8%. CONCLUSION: This study shows for the first time in human autoregulation of Fonh when PPm is increased by increasing the systemic blood pressure.     

Perfusion of the juxtapapillary retina and optic nerve head in acute ocular hypertension

Chronically elevated intraocular pressure (IOP) is often associated with glaucomatous optic nerve atrophy. Impaired blood flow may play a role in the pathogenesis of this disease. We present data concerning juxtapapillary retinal and optic nerve-head blood flow during acute increases in IOP. With the combination of a laser Doppler flowmeter and a scanning-laser system (Scanning Laser Doppler Flowmeter, SLDF; Heidelberg Engineering) the perfusion of the retina and the optic nerve head was quantified and visualized. Juxtapapillary retinal and optic nerve-head blood flow was measured simultaneously by SLDF during variations in IOP induced by a suction cup in nine healthy volunteers. The ocular pressure was increased for 2 min to IOP +15 mmHg, then to IOP +30 mmHg, and finally, to IOP +45 mmHg. Ocular perfusion pressure (PP) was calculated as the mean arterial blood pressure minus the IOP. The declines in juxtapapillary retinal flow as expressed in present per 10-mmHg IOP elevation ranged from 3.6% to 14.1% (median 7.4%). Over all measurements we found a significant linear relationship between juxtapapillary retinal blood flow and PP (r = 0.55, P < 0.0001). The observed decrease in optic nerve-head blood flow with increasing IOP was significantly greater as compared with the retinal blood flow decrease (8.4%/10 mmHg versus 7.4%/10 mmHg, P < 0.05). SLDF enables the quantification and visualization of perfused capillaries of the retina and the optic nerve head in high resolution. Acute elevations of IOP led to a decreases in juxtapapillary retinal and optic nerve-head blood flow of 7.4% and 8.4%/ 10-mmHg IOP increase, respectively.     

Characterization of ocular hypertension induced by adenosine agonists

PURPOSE: Previous studies have shown that adenosine agonists may induce a rise in intraocular pressure (IOP), a reduction in IOP, or both. Although the reduction in IOP results from the activation of adenosine A1 receptors, the mechanisms responsible for the rise in IOP have not been investigated. This study examines the receptors and mechanisms responsible for the adenosine agonist-induced rise in IOP. METHODS: The ocular effects of the nonselective adenosine agonist NECA, the relatively selective adenosine A2 agonist CV-1808, the A2a agonist CGS-21680, and the A1 agonist R-PIA were evaluated. RESULTS: The topical administration of CV-1808 produced a rapid rise in IOP, with a maximum increase of 15.6 +/- 1.6 mm Hg. Dose-response curves demonstrated that each agonist produced a dose-related rise in IOP with the following rank order of potency: NECA > CV-1808 > > R-PIA = CGS-21680. At times corresponding to the rise in IOP, the administration of high doses of CV-1808 (165 micrograms) produced a significant increase in aqueous humor flow and protein concentration. Increases in IOP and aqueous humor protein levels induced by CV-1808 were blocked by pretreatment with the adenosine A2 antagonist DMPX. In vitro studies demonstrated that CV-1808 did not alter cyclic adenosine monophosphate production in the rabbit iris-ciliary body. In cats, topical administration of CV-1808 produced a rapid rise in IOP, with a maximum increase of 8.1 +/- 2.4 mm Hg and an ED50 of 73 +/- 2.9 micrograms. This rise in IOP was blocked by DMPX pretreatment. CONCLUSIONS: These data demonstrate that adenosine receptor agonists can induce an acute rise in IOP in rabbits and cats. On the basis of pharmacologic characteristics, the rise in IOP is consistent with the activation of ocular adenosine A2 receptors. Functional studies indicate that at high doses, this rise in IOP involves an increase in aqueous flow and the breakdown of the blood-aqueous barrier.     

Physostigmine increases aqueous humor production in human eyes

PURPOSE: To investigate if part of the progressive reduction of intraocular pressure (IOP), seen when physostigmine is applied on alternate hours, is due to a reduced aqueous flow. METHODS: In a randomized, open study, one drop of physostigmine salicylate, 8 mg/ml, was instilled at 7 AM in one randomly assigned eye in each of twenty healthy volunteers. Instillations were repeated on alternate hours throughout the day. Each subject's untreated eye served as control. Fluorophotometry of the anterior segment was performed hourly between 7 Am and 8 PM and aqueous flow was calculated. Subsequently, the subjects underwent tomography and tonometry. The change in anterior chamber depth and volume induced by physostigmine was assessed separately. RESULTS: The mean aqueous flow during the day was 25-28% higher in the physostigmine-treated eye than in the control eye. The difference was statistically significant from 9 AM (p < 0.05-p < 0.001). Each dose caused a further increase. The mean outflow facility increased by 0.14 microliters/min/mm Hg with 95% confidence interval (CI) 0.09-0.18. Although the increase in outflow facility was small, there was a marked reduction of IOP with a mean difference between treated and untreated eye of 3.2 mm Hg (95% CI: 2.3-4.0). CONCLUSIONS: Repeated administrations of physostigmine increase the aqueous flow and outflow facility. The combined effect is a marked reduction of IOP.     

Effect of adrenaline on the secretory activity of the ocular ciliary body in rabbits

In intact rabbits and in rabbits with intracerebral unilateral section of the n. oculomotorius, instillation of 2 drops of 0.1% adrenaline into the conjunctival sack increased and then decreased the intraocular pressure (IOP); i.v. administration of adrenaline (50 mcg) or electrophoresis decreased IOP. In conditions of disturbed parasympathetic innervation of the eye its sensitivity to adrenaline increased as revealed by a sharper lowering of IOP.     

The cyclopentolate provocative test in suspected or untreated open-angle glaucoma. V. Statistical analysis of 431 eyes

The mydriasis provocative test with 1% cyclopentolate (CPT) was performed on 431 eyes with suspected or untreated open-angle glaucoma. Tonography was performed both before and during CPT to study the changes in aqueous dynamics during the test. Statistical analysis of the results yielded the following mean trends and correlations at a highly significant level (P less than 0.001) in the alterations: Intraocular pressure (IOP) rose (deltaP +/- SD) (+ 1.4 +/- 2.9 mmHg) and aqueous outflow facility decreased (deltaC) (-10%) during CPT. The distribution of deltaP and deltaC did not follow the normal Gaussian distribution. The change in deltaP deviated from the Gaussian distribution in 5-10% of the eyes. The deviating values concur with those of the responder eyes in which IOP rose greater than or equal to 8 mmHg during CPT. deltaP was linearly dependent on the initial IOP level Po and the absolute change was always almost constant, approximately +1.4 mmHg. Both the total series and the responder eyes displayed the same trend for the change in aqueous outflow facility in relation to the initial C value (Co): low Co values changed less on average and high Co values changed more and diminished. It is not known why the deltaC change was different depending on the Co value. The change in IOP correlated statistically highly significantly in the initial C value (Co). The loqwe the Co value, the higher was the mean IOP elevation during CPT. In contrast, the change in aqueous outflow (deltaC) did not corrrelate (N.S.) with the initial IOP level (Po) before CPT.     

Prevalence and management of elevated intraocular pressure in patients with Graves' orbitopathy

AIMS: To investigate the prevalence and to discuss the necessity of treating elevated intraocular pressures (IOP) in patients with Graves' orbitopathy (GO). In addition, to study the effects of orbital decompression and extraocular muscle surgery on IOP. METHODS: The records of consecutive patients with GO referred in a 5 year period were studied and those selected, in which glaucoma medication had been prescribed, or a diagnosis of primary open angle glaucoma (POAG) or of ocular hypertension (> or = 22 mm Hg) (OH) had been made. The necessity of treating these patients with glaucoma medication was questioned and the effects of corticosteroids, orbital decompression, and extraocular muscle surgery on the IOP were evaluated. RESULTS: Of 482 patients with GO, 23 (4.8%) met the inclusion criteria. Four patients (0.8%) had POAG, four had elevated IOPs and visual field defects consistent with dysthyroid optic neuropathy, and 15 (3.1%) had only elevated IOPs. Five patients with OH showed a permanent drop of IOP after orbital decompression, two had a marked decrease of their IOP after recession of the inferior rectus muscle. CONCLUSIONS: POAG has the same prevalence in the general Dutch population as in the GO subgroup. The combination of elevated IOPs and visual field defects in GO patients may be attributed to other mechanisms than obstructed aqueous outflow in the trabecular meshwork and should be treated accordingly. Orbital decompression and extraocular muscle surgery may lower the IOP in patients with GO.