Karen M. Joos scite author profile

Lowe syndrome is a rare X-linked congenital disease that presents with congenital cataracts and glaucoma, as well as renal and cerebral dysfunction. OCRL, an inositol polyphosphate 5-phosphatase, is mutated in Lowe syndrome. We previously showed that OCRL is involved in vesicular trafficking to the primary cilium. Primary cilia are sensory organelles on the surface of eukaryotic cells that mediate mechanotransduction in the kidney, brain, and bone. However, their potential role in the trabecular meshwork (TM) in the eye, which regulates intraocular pressure, is unknown. Here, we show that TM cells, which are defective in glaucoma, have primary cilia that are critical for response to pressure changes. Primary cilia in TM cells shorten in response to fluid flow and elevated hydrostatic pressure, and promote increased transcription of TNF-α, TGF-β, and GLI1 genes. Furthermore, OCRL is found to be required for primary cilia to respond to pressure stimulation. The interaction of OCRL with transient receptor potential vanilloid 4 (TRPV4), a ciliary mechanosensory channel, suggests that OCRL may act through regulation of this channel. A novel disease-causing OCRL allele prevents TRPV4-mediated calcium signaling. In addition, TRPV4 agonist GSK 1016790A treatment reduced intraocular pressure in mice; TRPV4 knockout animals exhibited elevated intraocular pressure and shortened cilia. Thus, mechanotransduction by primary cilia in TM cells is implicated in how the eye senses pressure changes and highlights OCRL and TRPV4 as attractive therapeutic targets for the treatment of glaucoma. Implications of OCRL and TRPV4 in primary cilia function may also shed light on mechanosensation in other organ systems.

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Miniature real-time intraoperative forward-imaging optical coherence tomography probe

Joos¹,

Shen²

2013

Biomed. Opt. Express

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Optical coherence tomography (OCT) has a tremendous global impact upon the ability to diagnose, treat, and monitor eye diseases. A miniature 25-gauge forward-imaging OCT probe with a disposable tip was developed for real-time intraoperative ocular imaging of posterior pole and peripheral structures to improve vitreoretinal surgery. The scanning range was 2 mm when the probe tip was held 3-4 mm from the tissue surface. The axial resolution was 4-6 µm and the lateral resolution was 25-35 µm. The probe was used to image cellophane tape and multiple ocular structures. Wright, I. A. Vitkin, and V. X. D. Yang, "Electrostatic forward-viewing scanning probe for Doppler optical coherence tomography using a dissipative polymer catheter," Opt. Lett. 33(7), 657-659 (2008). ©2013 Optical Society of America

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Free-electron-laser-based biophysical and biomedical instrumentation

Edwards

Austin

Carroll

et al. 2003

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A survey of biophysical and biomedical applications of free-electron lasers ͑FELs͒ is presented. FELs are pulsed light sources, collectively operating from the microwave through the x-ray range. This accelerator-based technology spans gaps in wavelength, pulse structure, and optical power left by conventional sources. FELs are continuously tunable and can produce high-average and high-peak power. Collectively, FEL pulses range from quasicontinuous to subpicosecond, in some cases with complex superpulse structures. Any given FEL, however, has a more restricted set of operational parameters. FELs with high-peak and high-average power are enabling biophysical and biomedical investigations of infrared tissue ablation. A midinfrared FEL has been upgraded to meet the standards of a medical laser and is serving as a surgical tool in ophthalmology and human neurosurgery. The ultrashort pulses produced by infrared or ultraviolet FELs are useful for biophysical investigations, both one-color time-resolved spectroscopy and when coupled with other light sources, for two-color time-resolved spectroscopy. FELs are being used to drive soft ionization processes in mass spectrometry. Certain FELs have high repetition rates that are beneficial for some biophysical and biomedical applications, but confound research for other applications. Infrared FELs have been used as sources for inverse Compton scattering to produce a pulsed, tunable, monochromatic x-ray source for medical imaging and structural biology. FEL research and FEL applications research have allowed the specification of spin-off technologies. On the horizon is the next generation of FELs, which is aimed at producing ultrashort, tunable x rays by self-amplified spontaneous emission with potential applications in biology.

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Acute IOP elevation with scleral suction: effects on retrobulbar haemodynamics.

Harris

Joos

Kay

et al. 1996

British Journal of Ophthalmology

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(BrJ Ophthalmol 1996;80:1055-1059 The aetiology of the glaucomas remains obscure. Currently two hypotheses are most credible: a mechanical theory, which proposes that excessive pressure deformation of the optic nerve head triggers cell death,2 and a vascular theory, which argues that vascular insufficiency (or vasospasm) tion between flow velocities in two major retrobulbar vessels (the ophthalmic and central retinal arteries) and the IOP, we used scleral suction to vary IOP over a wide range in healthy eyes. We could then determine if blood velocities in these two vessels were dependent on ocular tension. Materials and methods SUBJECTSAll subjects had normal eye examinations, and no history of systemic or ocular hypertension. Measurements were made on the left eye; 11 volunteers were involved in studies of the ophthalmic artery, and nine other volunteers were included in investigations of the central retinal artery. Procedures were reviewed and approved by human subject protection committees at Indiana University and the University of Miami, and subjects signed informed consent before participating. All experimental procedures conformed to the tenets of the Declaration of Helsinki.

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Supplemental transscleral diode laser cyclophotocoagulation after aqueous shunt placement in refractory glaucoma

2002

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Karen M. Joos

Autoregulation of Human Optic Nerve Head Circulation in Response to Increased Intraocular Pressure

Systemic Diseases Associated With Nonarteritic Anterior Ischemic Optic Neuropathy

Systemic Diseases Associated with Nonarteritic Anterior Ischemic Optic Neuropathy

Primary cilia signaling mediates intraocular pressure sensation

Miniature real-time intraoperative forward-imaging optical coherence tomography probe

Free-electron-laser-based biophysical and biomedical instrumentation

Acute IOP elevation with scleral suction: effects on retrobulbar haemodynamics.

Supplemental transscleral diode laser cyclophotocoagulation after aqueous shunt placement in refractory glaucoma

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