Human goblet cells that retain characteristics of goblet cells in vivo can be cultured. EGF receptors are present in human goblet cells, and EGF stimulates their proliferation.
Glaucoma affects millions of people around the world. With the baby boom generation aging, the number of people affected by primary open-angle glaucoma in the US is expected to reach 3.3 million by 2020, and about half may not know they have the disease. The treatment of most forms of glaucoma includes the use of topical agents that enhance aqueous humour outflow, reduce aqueous production, or both. Topical intraocular pressure-lowering drugs must penetrate across the tissues of the eye to reach their therapeutic targets. Often, these tissues show the first signs and symptoms of drug toxicity and adverse effects. These include eyelid dermatitis, malpositions, lacrimal system scarring, ocular discomfort upon instillation, tear film instability, conjunctival inflammation, subconjunctival fibrosis, conjunctival epithelium changes, and corneal surface and endothelial impairment. For these reasons, ophthalmologists should evaluate the risks and benefits of ophthalmic medications before initiating therapy, identify the minimum dosages necessary to achieve a therapeutic benefit, and monitor patients for local and systemic adverse effects. Adverse events may be reduced by changing to a different class of topical medication, using corticosteroids, lubricating the eyes frequently, and reducing exposure to preservatives. This in turn can lead to higher levels of adherence to antiglaucoma therapy, improved outcomes and a reduction in the costs associated with long-term glaucoma complications. This article reviews the ocular adverse effects associated with the various classes of topical antiglaucoma drugs, with a particular focus on the ocular surface, eyelids and periorbital tissue.
This study was conducted to assess the outcome of transcaruncular orbital decompression to treat compressive optic neuropathy in thyroid-related orbitopathy. It involved a retrospective, noncomparative case series of 18 eyes of 10 consecutive patients with documented vision loss secondary to thyroid-related orbitopathy. Bony decompression of the orbital apex was performed via a transcaruncular approach. Main outcome measures were visual acuity, color vision, presence of diplopia, and reduction of exophthalmos. Of 18 eyes, 16 (89 percent) had improved visual acuity after the operation. One eye had no improvement and one had worsening of vision in the setting of diabetic retinopathy. Color vision was improved in 12 eyes (67 percent). Five of the patients did not have diplopia before the operation; none of these patients developed double vision after intervention. Exophthalmos was decreased by an average of 2.6 mm. The authors conclude that transcaruncular orbital decompression for compressive optic neuropathy in thyroid-related orbitopathy is successful in restoring visual function. Compared with other approaches used for decompression surgery, the transcaruncular approach offers direct access to the medial wall and orbital apex without a cutaneous incision or disruption of the medial canthus. In addition, this approach allows a controlled, graded removal of the ethmoidal air cells and reduced recovery time.
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