Your search keyword '"Toris A"' showing total 11 results

1. Consensus Recommendation for Mouse Models of Ocular Hypertension to Study Aqueous Humor Outflow and Its Mechanisms.

Author

McDowell, Colleen M, McDowell, Colleen M, Kizhatil, Krishnakumar, Elliott, Michael H, Overby, Darryl R, van Batenburg-Sherwood, Joseph, Millar, J Cameron, Kuehn, Markus H, Zode, Gulab, Acott, Ted S, Anderson, Michael G, Bhattacharya, Sanjoy K, Bertrand, Jacques A, Borras, Terete, Bovenkamp, Diane E, Cheng, Lin, Danias, John, De Ieso, Michael Lucio, Du, Yiqin, Faralli, Jennifer A, Fuchshofer, Rudolf, Ganapathy, Preethi S, Gong, Haiyan, Herberg, Samuel, Hernandez, Humberto, Humphries, Peter, John, Simon WM, Kaufman, Paul L, Keller, Kate E, Kelley, Mary J, Kelly, Ruth A, Krizaj, David, Kumar, Ajay, Leonard, Brian C, Lieberman, Raquel L, Liton, Paloma, Liu, Yutao, Liu, Katy C, Lopez, Navita N, Mao, Weiming, Mavlyutov, Timur, McDonnell, Fiona, McLellan, Gillian J, Mzyk, Philip, Nartey, Andrews, Pasquale, Louis R, Patel, Gaurang C, Pattabiraman, Padmanabhan P, Peters, Donna M, Raghunathan, Vijaykrishna, Rao, Ponugoti Vasantha, Rayana, Naga, Raychaudhuri, Urmimala, Reina-Torres, Ester, Ren, Ruiyi, Rhee, Douglas, Chowdhury, Uttio Roy, Samples, John R, Samples, E Griffen, Sharif, Najam, Schuman, Joel S, Sheffield, Val C, Stevenson, Cooper H, Soundararajan, Avinash, Subramanian, Preeti, Sugali, Chenna Kesavulu, Sun, Yang, Toris, Carol B, Torrejon, Karen Y, Vahabikashi, Amir, Vranka, Janice A, Wang, Ting, Willoughby, Colin E, Xin, Chen, Yun, Hongmin, Zhang, Hao F, Fautsch, Michael P, Tamm, Ernst R, Clark, Abbot F, Ethier, C Ross, Stamer, W Daniel, McDowell, Colleen M, McDowell, Colleen M, Kizhatil, Krishnakumar, Elliott, Michael H, Overby, Darryl R, van Batenburg-Sherwood, Joseph, Millar, J Cameron, Kuehn, Markus H, Zode, Gulab, Acott, Ted S, Anderson, Michael G, Bhattacharya, Sanjoy K, Bertrand, Jacques A, Borras, Terete, Bovenkamp, Diane E, Cheng, Lin, Danias, John, De Ieso, Michael Lucio, Du, Yiqin, Faralli, Jennifer A, Fuchshofer, Rudolf, Ganapathy, Preethi S, Gong, Haiyan, Herberg, Samuel, Hernandez, Humberto, Humphries, Peter, John, Simon WM, Kaufman, Paul L, Keller, Kate E, Kelley, Mary J, Kelly, Ruth A, Krizaj, David, Kumar, Ajay, Leonard, Brian C, Lieberman, Raquel L, Liton, Paloma, Liu, Yutao, Liu, Katy C, Lopez, Navita N, Mao, Weiming, Mavlyutov, Timur, McDonnell, Fiona, McLellan, Gillian J, Mzyk, Philip, Nartey, Andrews, Pasquale, Louis R, Patel, Gaurang C, Pattabiraman, Padmanabhan P, Peters, Donna M, Raghunathan, Vijaykrishna, Rao, Ponugoti Vasantha, Rayana, Naga, Raychaudhuri, Urmimala, Reina-Torres, Ester, Ren, Ruiyi, Rhee, Douglas, Chowdhury, Uttio Roy, Samples, John R, Samples, E Griffen, Sharif, Najam, Schuman, Joel S, Sheffield, Val C, Stevenson, Cooper H, Soundararajan, Avinash, Subramanian, Preeti, Sugali, Chenna Kesavulu, Sun, Yang, Toris, Carol B, Torrejon, Karen Y, Vahabikashi, Amir, Vranka, Janice A, Wang, Ting, Willoughby, Colin E, Xin, Chen, Yun, Hongmin, Zhang, Hao F, Fautsch, Michael P, Tamm, Ernst R, Clark, Abbot F, Ethier, C Ross, and Stamer, W Daniel

Abstract

Due to their similarities in anatomy, physiology, and pharmacology to humans, mice are a valuable model system to study the generation and mechanisms modulating conventional outflow resistance and thus intraocular pressure. In addition, mouse models are critical for understanding the complex nature of conventional outflow homeostasis and dysfunction that results in ocular hypertension. In this review, we describe a set of minimum acceptable standards for developing, characterizing, and utilizing mouse models of open-angle ocular hypertension. We expect that this set of standard practices will increase scientific rigor when using mouse models and will better enable researchers to replicate and build upon previous findings.

Published

2022

2. Consensus Recommendation for Mouse Models of Ocular Hypertension to Study Aqueous Humor Outflow and Its Mechanisms.

Author

McDowell, Colleen M, McDowell, Colleen M, Kizhatil, Krishnakumar, Elliott, Michael H, Overby, Darryl R, van Batenburg-Sherwood, Joseph, Millar, J Cameron, Kuehn, Markus H, Zode, Gulab, Acott, Ted S, Anderson, Michael G, Bhattacharya, Sanjoy K, Bertrand, Jacques A, Borras, Terete, Bovenkamp, Diane E, Cheng, Lin, Danias, John, De Ieso, Michael Lucio, Du, Yiqin, Faralli, Jennifer A, Fuchshofer, Rudolf, Ganapathy, Preethi S, Gong, Haiyan, Herberg, Samuel, Hernandez, Humberto, Humphries, Peter, John, Simon WM, Kaufman, Paul L, Keller, Kate E, Kelley, Mary J, Kelly, Ruth A, Krizaj, David, Kumar, Ajay, Leonard, Brian C, Lieberman, Raquel L, Liton, Paloma, Liu, Yutao, Liu, Katy C, Lopez, Navita N, Mao, Weiming, Mavlyutov, Timur, McDonnell, Fiona, McLellan, Gillian J, Mzyk, Philip, Nartey, Andrews, Pasquale, Louis R, Patel, Gaurang C, Pattabiraman, Padmanabhan P, Peters, Donna M, Raghunathan, Vijaykrishna, Rao, Ponugoti Vasantha, Rayana, Naga, Raychaudhuri, Urmimala, Reina-Torres, Ester, Ren, Ruiyi, Rhee, Douglas, Chowdhury, Uttio Roy, Samples, John R, Samples, E Griffen, Sharif, Najam, Schuman, Joel S, Sheffield, Val C, Stevenson, Cooper H, Soundararajan, Avinash, Subramanian, Preeti, Sugali, Chenna Kesavulu, Sun, Yang, Toris, Carol B, Torrejon, Karen Y, Vahabikashi, Amir, Vranka, Janice A, Wang, Ting, Willoughby, Colin E, Xin, Chen, Yun, Hongmin, Zhang, Hao F, Fautsch, Michael P, Tamm, Ernst R, Clark, Abbot F, Ethier, C Ross, Stamer, W Daniel, McDowell, Colleen M, McDowell, Colleen M, Kizhatil, Krishnakumar, Elliott, Michael H, Overby, Darryl R, van Batenburg-Sherwood, Joseph, Millar, J Cameron, Kuehn, Markus H, Zode, Gulab, Acott, Ted S, Anderson, Michael G, Bhattacharya, Sanjoy K, Bertrand, Jacques A, Borras, Terete, Bovenkamp, Diane E, Cheng, Lin, Danias, John, De Ieso, Michael Lucio, Du, Yiqin, Faralli, Jennifer A, Fuchshofer, Rudolf, Ganapathy, Preethi S, Gong, Haiyan, Herberg, Samuel, Hernandez, Humberto, Humphries, Peter, John, Simon WM, Kaufman, Paul L, Keller, Kate E, Kelley, Mary J, Kelly, Ruth A, Krizaj, David, Kumar, Ajay, Leonard, Brian C, Lieberman, Raquel L, Liton, Paloma, Liu, Yutao, Liu, Katy C, Lopez, Navita N, Mao, Weiming, Mavlyutov, Timur, McDonnell, Fiona, McLellan, Gillian J, Mzyk, Philip, Nartey, Andrews, Pasquale, Louis R, Patel, Gaurang C, Pattabiraman, Padmanabhan P, Peters, Donna M, Raghunathan, Vijaykrishna, Rao, Ponugoti Vasantha, Rayana, Naga, Raychaudhuri, Urmimala, Reina-Torres, Ester, Ren, Ruiyi, Rhee, Douglas, Chowdhury, Uttio Roy, Samples, John R, Samples, E Griffen, Sharif, Najam, Schuman, Joel S, Sheffield, Val C, Stevenson, Cooper H, Soundararajan, Avinash, Subramanian, Preeti, Sugali, Chenna Kesavulu, Sun, Yang, Toris, Carol B, Torrejon, Karen Y, Vahabikashi, Amir, Vranka, Janice A, Wang, Ting, Willoughby, Colin E, Xin, Chen, Yun, Hongmin, Zhang, Hao F, Fautsch, Michael P, Tamm, Ernst R, Clark, Abbot F, Ethier, C Ross, and Stamer, W Daniel

Abstract

Due to their similarities in anatomy, physiology, and pharmacology to humans, mice are a valuable model system to study the generation and mechanisms modulating conventional outflow resistance and thus intraocular pressure. In addition, mouse models are critical for understanding the complex nature of conventional outflow homeostasis and dysfunction that results in ocular hypertension. In this review, we describe a set of minimum acceptable standards for developing, characterizing, and utilizing mouse models of open-angle ocular hypertension. We expect that this set of standard practices will increase scientific rigor when using mouse models and will better enable researchers to replicate and build upon previous findings.

Published

2022

3. Consensus recommendations for trabecular meshwork cell isolation, characterization and culture.

Author

Keller, Kate E, Keller, Kate E, Bhattacharya, Sanjoy K, Borrás, Theresa, Brunner, Thomas M, Chansangpetch, Sunee, Clark, Abbott F, Dismuke, W Michael, Du, Yiqin, Elliott, Michael H, Ethier, C Ross, Faralli, Jennifer A, Freddo, Thomas F, Fuchshofer, Rudolf, Giovingo, Michael, Gong, Haiyan, Gonzalez, Pedro, Huang, Alex, Johnstone, Murray A, Kaufman, Paul L, Kelley, Mary J, Knepper, Paul A, Kopczynski, Casey C, Kuchtey, John G, Kuchtey, Rachel W, Kuehn, Markus H, Lieberman, Raquel L, Lin, Shan C, Liton, Paloma, Liu, Yutao, Lütjen-Drecoll, Elke, Mao, Weiming, Masis-Solano, Marisse, McDonnell, Fiona, McDowell, Colleen M, Overby, Darryl R, Pattabiraman, Padmanabhan P, Raghunathan, Vijay K, Rao, P Vasanth, Rhee, Douglas J, Chowdhury, Uttio Roy, Russell, Paul, Samples, John R, Schwartz, Donald, Stubbs, Evan B, Tamm, Ernst R, Tan, James C, Toris, Carol B, Torrejon, Karen Y, Vranka, Janice A, Wirtz, Mary K, Yorio, Thomas, Zhang, Jie, Zode, Gulab S, Fautsch, Michael P, Peters, Donna M, Acott, Ted S, Stamer, W Daniel, Keller, Kate E, Keller, Kate E, Bhattacharya, Sanjoy K, Borrás, Theresa, Brunner, Thomas M, Chansangpetch, Sunee, Clark, Abbott F, Dismuke, W Michael, Du, Yiqin, Elliott, Michael H, Ethier, C Ross, Faralli, Jennifer A, Freddo, Thomas F, Fuchshofer, Rudolf, Giovingo, Michael, Gong, Haiyan, Gonzalez, Pedro, Huang, Alex, Johnstone, Murray A, Kaufman, Paul L, Kelley, Mary J, Knepper, Paul A, Kopczynski, Casey C, Kuchtey, John G, Kuchtey, Rachel W, Kuehn, Markus H, Lieberman, Raquel L, Lin, Shan C, Liton, Paloma, Liu, Yutao, Lütjen-Drecoll, Elke, Mao, Weiming, Masis-Solano, Marisse, McDonnell, Fiona, McDowell, Colleen M, Overby, Darryl R, Pattabiraman, Padmanabhan P, Raghunathan, Vijay K, Rao, P Vasanth, Rhee, Douglas J, Chowdhury, Uttio Roy, Russell, Paul, Samples, John R, Schwartz, Donald, Stubbs, Evan B, Tamm, Ernst R, Tan, James C, Toris, Carol B, Torrejon, Karen Y, Vranka, Janice A, Wirtz, Mary K, Yorio, Thomas, Zhang, Jie, Zode, Gulab S, Fautsch, Michael P, Peters, Donna M, Acott, Ted S, and Stamer, W Daniel

Abstract

Cultured trabecular meshwork (TM) cells are a valuable model system to study the cellular mechanisms involved in the regulation of conventional outflow resistance and thus intraocular pressure; and their dysfunction resulting in ocular hypertension. In this review, we describe the standard procedures used for the isolation of TM cells from several animal species including humans, and the methods used to validate their identity. Having a set of standard practices for TM cells will increase the scientific rigor when used as a model, and enable other researchers to replicate and build upon previous findings.

Published

2018

4. Prostanoid EP4 Receptor Stimulation Produces Ocular Hypotension by a Mechanism That Does Not Appear to Involve Uveoscleral Outflow

Author

Woodward, David F, Nilsson, Siv, Toris, Carol B, Kharlamb, Alexander B, Nieves, Amelia L, Krauss, Achim H-P, Woodward, David F, Nilsson, Siv, Toris, Carol B, Kharlamb, Alexander B, Nieves, Amelia L, and Krauss, Achim H-P

Abstract

PURPOSE. As part of a systematic elucidation of the pharmacology of prostaglandins (PG) effects on intraocular pressure in the monkey, the prototypical selective prostanoid EP4 receptor agonist (3,7-dithia PGE(1)) was examined. It was found to be highly efficacious in nonhuman primates, and its mechanism of ocular hypotensive activity was investigated. METHODS. Intraocular pressure (IOP) was measured by pneumatonometry in conscious monkeys restrained in custom-designed chairs. All other animal experiments were performed in animals sedated with ketamine or anesthetized with ketamine/diazepam and given drug or vehicle for various lengths of time. Aqueous flow was determined by fluorophotometry. Total outflow facility was measured by the two-level, constant-pressure method and by 2-minute tonography in both normotensive and hypertensive monkey eyes. Uveoscleral outflow was measured by perfusing the anterior chamber with FITC-labeled dextran for 30 minutes at a fixed IOP of approximately 15 mm Hg. Isometric responses to drugs were measured in longitudinal and radial preparations of monkey and human isolated ciliary smooth muscle specimens. RESULTS. The selective EP4 receptor agonist 3,7-dithia PGE(1) and an isopropyl ester prodrug thereof reduced IOP in monkeys. A single dose of 3,7-dithia PGE(1) isopropyl ester, at a 0.01% or 0.1% dose, decreased IOP in the glaucomatous monkey in the range of 40% to 50%. Studies on total outflow facility by the two-level, constant-pressure perfusion method and tonography indicated that EP4 receptor stimulation facilitated aqueous humor outflow facility. No effect on aqueous flow was apparent. In contrast to all PGs and prostamides studied to date, 3,7-dithia PGE(1) exerted no effect on uveoscleral outflow measured directly. Moreover, it did not relax longitudinal or radial preparations of isolated human or monkey ciliary muscles. CONCLUSIONS. The EP4 receptor agonist 3,7-dithia PGE(1) is a highly efficacious IOP-lowering drug in monkey

Published

2009

5. The prostanoid EP2 receptor agonist butaprost increases uveoscleral outflow in the cynomolgus monkey

Author

Nilsson, Siv, Drecoll, E, Lütjen-Drecoll, E, Toris, C, Krauss, A, Kharlamb, A, Nieves, A, Guerra, T, Woodward, D, Nilsson, Siv, Drecoll, E, Lütjen-Drecoll, E, Toris, C, Krauss, A, Kharlamb, A, Nieves, A, Guerra, T, and Woodward, D

Abstract

PURPOSE. To investigate the ocular hypotensive effect of the prostanoid EP2 receptor agonist butaprost and to establish its mechanism of action. METHODS. All experiments were performed in cynomolgus monkeys after topical application of butaprost (0.1%). The effects of butaprost on aqueous humor flow were determined by fluorophotometry. Total outflow facility was measured by the two-level, constant-pressure perfusion method, and uveoscleral outflow was determined by perfusion of FITC-labeled dextran through the anterior chamber. Effects on ocular morphology were studied after tissue fixation with transcardial perfusion by paraformaldehyde and immersion fixation of the globe, in animals subjected to long-term treatment with butaprost. Conscious ocular normotensive monkeys and monkeys with unilateral ocular hypertension were used for intraocular pressure (IOP) studies. RESULTS. Butaprost had no significant effect on aqueous humor flow or total outflow facility in ocular normotensive monkeys. Uveoscleral outflow was significantly higher in the butaprost treated eyes than in vehicle treated eyes, 1.03 ± 0.20 vs. 0.53 ± 0.18 μL · min-1. After a 1-year treatment with butaprost, the morphology of the ciliary muscle was changed, showing increased spaces between ciliary muscle bundles and the apparent formation of new outflow channels. In many instances, changes were observed in the trabecular meshwork as well. Butaprost, in a single 0.1% dose, decreased IOP significantly in ocular normotensive monkeys and reduced IOP in laser-induced glaucomatous monkey eyes to the same level as that in the ocular normotensive contralateral eyes. CONCLUSIONS. The prostanoid EP2 receptor agonist butaprost appears to lower IOP by increasing uveoscleral outflow, according to both physiological and morphologic findings. Although the prostanoid EP2 receptor is structurally and functionally distinct from the FP receptor, the effects of EP2 and FP receptor stimulation on aqueous humor outflow are s

Published

2006

6. Detection of the free acid of bimatoprost in aqueous humor samplas from human eyes treated with bimatoprost before cataract surgery

Author

Camras, CB, Toris, CB, Sjoquist, B, M, Milleson, Thorngren, JO, Hejkal, TW, Patel, N, Barnett, EM, Smolyak, R, Hasan, SF, Hellman, C, Meza, JL, Wax, MB, Stjernschantz, J, Camras, CB, Toris, CB, Sjoquist, B, M, Milleson, Thorngren, JO, Hejkal, TW, Patel, N, Barnett, EM, Smolyak, R, Hasan, SF, Hellman, C, Meza, JL, Wax, MB, and Stjernschantz, J

Published

2004

7. Detection of the free acid of bimatoprost in aqueous humor samplas from human eyes treated with bimatoprost before cataract surgery

Author

Camras, CB, Toris, CB, Sjoquist, B, M, Milleson, Thorngren, JO, Hejkal, TW, Patel, N, Barnett, EM, Smolyak, R, Hasan, SF, Hellman, C, Meza, JL, Wax, MB, Stjernschantz, J, Camras, CB, Toris, CB, Sjoquist, B, M, Milleson, Thorngren, JO, Hejkal, TW, Patel, N, Barnett, EM, Smolyak, R, Hasan, SF, Hellman, C, Meza, JL, Wax, MB, and Stjernschantz, J

Published

2004

8. Latanoprost and Cholinergic Agonists in Combination.

Author

Toris, Carol B., Alm, Albert, Camras, Carl B, Toris, Carol B., Alm, Albert, and Camras, Carl B

Published

2002

9. Foreword to 'Update on the Use of Prostaglandin Analogs in Glaucoma Therapy' Suppl 1

Author

Camras, Carl B, Toris, Carl B, Alm, Albert, Stjernschantz, Johan, Camras, Carl B, Toris, Carl B, Alm, Albert, and Stjernschantz, Johan

Published

2002

10. Phi Sigma Kappa fraternity house

Author

Toris, James; Baron, Matthew; Ball State University. College of Architecture and Planning and Toris, James; Baron, Matthew; Ball State University. College of Architecture and Planning

Abstract

Measured drawings., 1104 West Riverside Avenue, This archival material has been provided for educational purposes. Ball State University Libraries recognizes that some historic items may include offensive content. Our statement regarding objectionable content is available at: https://dmr.bsu.edu/digital/about

11. Phi Sigma Kappa fraternity house

Author

Toris, James; Baron, Matthew; Ball State University. College of Architecture and Planning and Toris, James; Baron, Matthew; Ball State University. College of Architecture and Planning

Abstract

Measured drawings., 1104 West Riverside Avenue, This archival material has been provided for educational purposes. Ball State University Libraries recognizes that some historic items may include offensive content. Our statement regarding objectionable content is available at: https://dmr.bsu.edu/digital/about