Rachel K. Sobel scite author profile

Meibomian glands play a significant role in tear production by contributing lipids to the superficial tear film.(1) Dysfunction of the meibomian glands destabilizes tears resulting in evaporative dry eye.(2,3) Historically, the meibomian glands were assessed in an ex vivo fashion through histologic studies. However, innovations in ocular imaging have advanced significantly in recent decades to include meibography. Meibography is an imaging study developed 35 years ago exclusively for the purpose of observing the morphology of meibomian glands in vivo.(4,5) In this review of meibography, we briefly describe the etiology of meibomian gland dysfunction and then discuss various meibography techniques, technologies, and methods of image analysis. We close with a review of the literature, crediting various studies for the significant contributions made toward our current understanding of the meibomian glands.

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A Comparison of Endonasal Dacryocystorhinostomy and External Dacryocystorhinostomy

Sobel

Aakalu

Wladis

et al. 2019

Ophthalmology

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The search strategy was designed to update the first Ophthalmic Technology Assessment on endonasal DCR from 2001 by identifying new peer-reviewed human studies reported since 2000 in the English language that compare results of endonasal DCR with those of external DCR. The searches yielded 169 articles. Of these, 13 met the inclusion criteria and were assigned a level of evidence rating. Results: Six of the 13 studies included in this assessment were rated level II and 7 were rated level III. Three of the 13 studies drew conclusions based on statistically significant results, but all of these were level III evidence. Two of these significant studies demonstrated lesser efficacy of endonasal laser DCR (63%e64%) compared with external DCR (94%; P ¼ 0.0002, 0.024). The third study reported that nonlaser endonasal DCR was superior to external DCR (84% vs. 70%; P ¼ 0.03). The remainder of the studies did not find statistically significant differences in success rates between the 2 techniques. Conclusions: Limited data suggest that laser endonasal DCR may be less effective than external DCR. Existing data are inadequate to draw conclusions about whether endonasal DCR is superior to, equivalent to, or inferior to the gold standard external DCR. Ophthalmology 2019;126:1580-1585 ª 2019 by the American Academy of Ophthalmology The American Academy of Ophthalmology prepares Ophthalmic Technology Assessments to evaluate new and existing procedures, drugs, and diagnostic and screening tests. The goal of an Ophthalmic Technology Assessment is to review the available research systematically for clinical efficacy, effectiveness, and safety. After review by members of the Ophthalmic Technology Assessment Committee, other Academy committees, relevant subspecialty societies, and legal counsel, assessments are submitted to the Academy's Board of Trustees for consideration as official Academy statements. The purpose of this assessment by the Ophthalmic Technology Assessment Committee Oculoplastics and Orbit Panel is to compare the efficacy of endonasal dacryocystorhinostomy (DCR) with external DCR. HUMAN SUBJECTS: No human subjects were included in this study. No animal subjects were included in this study.

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The eye of the beholder: orbital metastases from midgut neuroendocrine tumors, a two institution experience

et al. 2018

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BackgroundMetastases to the orbit occur rarely in midgut neuroendocrine tumor (NET) patients with only 20 cases reported to date. Patients typically present with bilateral involvement of the recti muscles and experience symptoms such as diplopia, proptosis, and decreased vision. Although orbital MRI remains the gold standard for imaging orbital disease, many orbital lesions are now detected on somatostatin-receptor (SSTR) based imaging such as 68Ga-DOTATATE PET-CT.Case presentationsPatient 1 is a 72 year-old female with a well-differentiated G3 ileal NET who was incidentally diagnosed with orbital metastases during a hospitalization for pre-septal cellulitis in 2018. Her disease has been controlled with capecitabine rather than local therapy.Patient 2 is a 68 year-old male with a G2 ileal NET who was diagnosed with orbital involvement after developing left peri-orbital swelling in 2017. He was found to have bilateral rectus muscle involvement and was treated with image-guided radiation therapy (IGRT) to both orbits and achieved disease control.Patient 3 is a 63 year-old female with a well-differentiated G3 ileal NET who was incidentally diagnosed with bilateral orbital masses in her recti after undergoing a 68Ga-DOTATATE PET-CT in 2015. She was asymptomatic initially however has now developed diplopia. She will be starting 177Lu-DOTATATE peptide radionuclide receptor therapy (PRRT) shortly.Patient 4 is a 72 year-old male with a grade 2 ileal NET who was incidentally diagnosed with a left lateral rectus metastasis in 2007. This was monitored via surveillance MRI until it began to grow and became symptomatic in 2015. The patient received stereotactic radiation to the site and has been asymptomatic since.Patient 5 is a 61 year-old female with a grade 2 ileal NET who developed progressive diplopia in 2016. Bilateral orbital metastases were noted on orbital MRI and she completed IGRT to the sites shortly thereafter. In the setting of continued growth of the masses she was switched to chemotherapy with capecitabine which has controlled her orbital disease.ConclusionsNETs can metastasize to the orbits. Orbital disease now often is detected on SSTR-based imaging rather than orbital MRI; when found, it changes treatment approach and surveillance for patients.

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Orbital Implants in Enucleation Surgery

et al. 2018

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Rachel K. Sobel

Meibography: A review of techniques and technologies

A Comparison of Endonasal Dacryocystorhinostomy and External Dacryocystorhinostomy

The eye of the beholder: orbital metastases from midgut neuroendocrine tumors, a two institution experience

Orbital Implants in Enucleation Surgery

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