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Paul J Missel

Showing results (1-10 of 10) with videos related to

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Pharmaceutical Research|July 4, 2012
Simulating intravitreal injections in anatomically accurate models for rabbit, monkey, and human eyesPaul J Missel
Annals of Biomedical Engineering|December 28, 2002
Finite and infinitesimal representations of the vasculature: ocular drug clearance by vascular and hydraulic effectsPaul J Missel
Pharmaceutical Research|December 3, 2002
Hydraulic flow and vascular clearance influences on intravitreal drug deliveryPaul J Missel
Drug Discovery Today|July 19, 2019
Physiologically based ocular pharmacokinetic modeling using computational methodsPaul J Missel, Ramesh Sarangapani
Pharmaceutical Development and Technology|November 15, 2006
Impact of density gradients on flow-through dissolution in a cylindrical flow cellLarry E Stevens, Paul J Missel
Pharmaceutical Research|May 15, 2010
Simulating dissolution of intravitreal triamcinolone acetonide suspensions in an anatomically accurate rabbit eye modelPaul J Missel, Marc Horner, R Muralikrishnan
Pharmaceutical Research|January 15, 2005
Reexamination of convective diffusion/drug dissolution in a laminar flow channel: accurate prediction of dissolution ratePaul J Missel, Larry E Stevens, John W Mauger
Pharmaceutical Development and Technology|December 8, 2004
Dissolution of anecortave acetate in a cylindrical flow cell: re-evaluation of convective diffusion/drug dissolution for sparingly soluble drugsPaul J Missel, L E Stevens, J W Mauger
Pharmaceutical Development and Technology|April 2, 2008
Controlled flow-through dissolution methodology: a high-performance systemLarry E Stevens, Paul J Missel, Alan L Weiner
Translational Vision Science & Technology|August 29, 2020
Simulation of Vitreous Traction Force and Flow Rate of High Speed Dual-Pneumatic 7500 Cuts Per Minute Vitrectomy ProbesPaul J Missel, Yongting Ma, Brian W McDonell, et al.
Pageof 1

Showing results (1-10 of 10) with videos related to

Sort By:
Pageof 1
Pharmaceutical Research|July 4, 2012
Simulating intravitreal injections in anatomically accurate models for rabbit, monkey, and human eyesPaul J Missel
Annals of Biomedical Engineering|December 28, 2002
Finite and infinitesimal representations of the vasculature: ocular drug clearance by vascular and hydraulic effectsPaul J Missel
Pharmaceutical Research|December 3, 2002
Hydraulic flow and vascular clearance influences on intravitreal drug deliveryPaul J Missel
Drug Discovery Today|July 19, 2019
Physiologically based ocular pharmacokinetic modeling using computational methodsPaul J Missel, Ramesh Sarangapani
Pharmaceutical Development and Technology|November 15, 2006
Impact of density gradients on flow-through dissolution in a cylindrical flow cellLarry E Stevens, Paul J Missel
Pharmaceutical Research|May 15, 2010
Simulating dissolution of intravitreal triamcinolone acetonide suspensions in an anatomically accurate rabbit eye modelPaul J Missel, Marc Horner, R Muralikrishnan
Pharmaceutical Research|January 15, 2005
Reexamination of convective diffusion/drug dissolution in a laminar flow channel: accurate prediction of dissolution ratePaul J Missel, Larry E Stevens, John W Mauger
Pharmaceutical Development and Technology|December 8, 2004
Dissolution of anecortave acetate in a cylindrical flow cell: re-evaluation of convective diffusion/drug dissolution for sparingly soluble drugsPaul J Missel, L E Stevens, J W Mauger
Pharmaceutical Development and Technology|April 2, 2008
Controlled flow-through dissolution methodology: a high-performance systemLarry E Stevens, Paul J Missel, Alan L Weiner
Translational Vision Science & Technology|August 29, 2020
Simulation of Vitreous Traction Force and Flow Rate of High Speed Dual-Pneumatic 7500 Cuts Per Minute Vitrectomy ProbesPaul J Missel, Yongting Ma, Brian W McDonell, et al.
Pageof 1