Bruxism: Best Evidence Consensus Statement.

PURPOSE: The purpose of this Best Evidence Consensus Statement is to report on the prevalence, potential causes or association, treatment and cure of bruxism. MATERIALS AND METHODS: A literature search limited to Clinical Trials, Randomized Controlled Trials, Systematic Reviews and Meta Analyses, with the key words bruxism, and prevalence identified 22 references, bruxism and causation 21, bruxism, and treatment 117, and bruxism and cure none. RESULTS: Prevalence received 5 references which were relevant to the question researched. Causation received 11 relevant references, treatment 34 relevant references and cure none. Eighteen additional references were culled from the reference lists in the aforementioned articles. CONCLUSIONS: Due to variations in demographics and the dependence on anamnestic data, the true prevalence of bruxism in any specific population is unknown. There is moderate evidence that psychosocial factors such as stress, mood, distress, nervousness, and feeling blue are associated with sleep bruxism (SB) as well as caffeine, alcohol, and smoking. There is no consensus on what symptoms of SB or awake bruxism (AB) should be treated. There is some evidence that occlusal devices and bio feedback therapies can be utilized in SB treatment. There is conflicting evidence in the use of Botulinum toxin A and no compelling evidence for the use of drug therapy to treat SB. There is not an established cure for bruxism. The clinician is best served in using caution in the dental rehabilitation of patients with severe occlusal wear.

Concentrations of betaxolol in ocular tissues of patients with glaucoma and normal monkeys after 1 month of topical ocular administration.

PURPOSE: To measure the concentration of betaxolol in tissues of humans with glaucoma and normal monkeys after topical administration. METHODS: Enucleated eyes (n = 7) of patients with glaucoma (age range, 27-79 years), without apparent anatomic disruption that would be likely to influence betaxolol absorption and intraocular distribution (exceptions: one pseudophakic, one aphakic) or other disease, were analyzed for betaxolol concentrations after self-administration of 0.25% betaxolol twice daily for 28 days or longer. The last instillation was made within 6 hours of surgery. Cynomolgus monkeys (n = 3) received 0.25% betaxolol twice daily unilaterally for 30 days. Betaxolol was measured by HPLC and tandem mass spectrometry (MS/MS) in plasma and ocular tissues. RESULTS: In humans, mean betaxolol concentrations (excluding the aphakic patient) were 71.4 +/- 41.8 ng/g in the retina, 31.2 +/- 14.8 ng/g in the optic nerve head, and 1290 +/- 1170 ng/g in the choroid. Mean concentrations in the iris and ciliary body were 73,200 +/- 89,600 and 4,250 +/- 3,020 ng/g, respectively. Betaxolol concentration was higher in all ocular tissues than in the plasma (0.59 +/- 0.32 ng/mL). In the monkeys the concentrations in the posterior tissues of the treated eyes were higher than in the untreated eyes, with mean differences in the retina and optic nerve head of 121 and 130 ng/g, respectively. CONCLUSIONS: Topically applied betaxolol was bioavailable to posterior ocular tissues, including the retina and optic nerve head, of patients with glaucoma and of normal cynomolgus monkeys. The higher betaxolol levels in the treated versus untreated monkey eyes are consistent with betaxolol's reaching posterior tissues by local absorption and distribution.

Travoprost: a potent ocular hypotensive agent.

Travoprost (isopropyl (Z)-7-[(1R,2R,3R,5S)-3,5-dihydroxy-2-[(1E,3R)-3-hydroxy-4-[alpha,alpha,alpha,trifluoro-m-tolyl)oxy]-1butenyl]cyclopentyl]-5-heptenoate) is an isopropyl ester prodrug and a high-affinity, selective FP prostaglandin- receptor full agonist. This prodrug is a synthetic prostaglandin analogue, which in appropriate cases is administered topically for the treatment of glaucoma and ocular hypertension. The isopropyl ester prodrug is rapidly hydrolyzed by esterases in the cornea to the biologically active, free acid. Travoprost has demonstrated preferential affinity and full agonist activity for the FP receptor in the nanomolar range, with no meaningful affinity or activity at other receptors. Like other compounds of this class, the reduction of intraocular pressure by travoprost is due at least in part to increased uveoscleral outflow. Results from phase II and phase III pivotal studies for FDA approval in the United States have demonstrated that travoprost is an effective topical agent for treatment of elevated intraocular pressure in patients with open-angle glaucoma and ocular hypertension. Travoprost is a safe drug, with local side effects including hyperemia, eyelash growth and iris color change. The dosing is once per day in the evening, and storage does not require refrigeration. Travoprost will be a helpful new drug in the medical management of glaucoma.

Identification and characterization of the ocular hypotensive efficacy of travoprost, a potent and selective FP prostaglandin receptor agonist, and AL-6598, a DP prostaglandin receptor agonist.

The structure-activity studies that led to the identification of travoprost, a highly selective and potent FP prostaglandin analog, and AL-6598, a DP prostaglandin analog, are detailed. In both series, the 1-alcohol analogs are very effective and are thought to be acting as prodrugs for the biologically active carboxylic acids. The efficacy of amide prodrugs depends on the degree of substitution and the size of the substituents. Selected compounds are profiled in vitro and in vivo preclinically. Clinical studies show that travoprost 0.004% (isopropyl ester) provided intraocular pressure control superior to timolol 0.5% when used as monotherapy in patients with open-angle glaucoma or ocular hypertension. In clinical studies, AL-6598 0.01% provided a sustained intraocular pressure reduction with q.d. application; b.i.d. provided greater intraocular pressure control. The acute and, apparently, conjunctival hyperemia associated with topical ocular AL-6598 can be attenuated while maintaining intraocular pressure-lowering efficacy by formulating with brimonidine.