Mr. Thomas P. Ryan Profile

Thomas P. Ryan

Director Corporate R&D

SPIE Involvement:

Editor | Author

Area of Expertise:

Biomedical engineering , Energy Based Systems

Websites:

Personal Website | Company Website

Publications (34)

Proceedings Article | 22 February 2017 Paper

Histological evaluation and optimization of surgical vessel sealing systems

Robert Lathrop, Thomas Ryan, Jonathan Gaspredes, Jean Woloszko, James Coad

Proceedings Volume 10066, 100660T (2017) https://doi.org/10.1117/12.2255912

KEYWORDS: Tissues, Surgery, Laparoscopy, Thermal effects, Blood vessels, Medical device development, Arteries, Homogenization, Collagen, Proteins

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Proceedings Article | 22 February 2017 Paper

Overview of current applications in plasma medicine

Thomas Ryan, Kenneth Stalder

Proceedings Volume 10066, 1006606 (2017) https://doi.org/10.1117/12.2255792

KEYWORDS: Plasma, Medicine, Plasma treatment, Cancer, Atmospheric plasma, Oncology, Plasma physics, Life sciences, Clinical medicine, Pathogens, Oxygen, Bacteria, Wound healing, Tissues, Cell death

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Proceedings Article | 22 February 2017 Paper

Corrosion and wear in plasma electrosurgical devices

J. Gaspredes, T. Ryan, K. Stalder, J. Woloszko

Proceedings Volume 10066, 1006607 (2017) https://doi.org/10.1117/12.2255968

KEYWORDS: Electrodes, Corrosion, Metals, Tissues, Niobium, Photography, Photomicroscopy, Oxidation, Scanning electron microscopy, Plasma, Hafnium, Oxides

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Proceedings Article | 13 March 2015 Paper

Utility and translatability of mathematical modeling, cell culture and small and large animal models in magnetic nanoparticle hyperthermia cancer treatment research

P. Hoopes, Alicia Petryk, Adwiteeya Misra, Elliot Kastner, John Pearce, Thomas Ryan

Proceedings Volume 9326, 932604 (2015) https://doi.org/10.1117/12.2084285

KEYWORDS: Mathematical modeling, Nanoparticles, Cancer, Magnetism, Animal model studies, Tissues, Oncology, Iron, Tumor growth modeling, Oxides

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Proceedings Article | 11 March 2015 Paper

Developing an open platform for evidence-based microwave ablation treatment planning and validation

Garron Deshazer, Damian Dupuy, Edward Walsh, Punit Prakash, Dillon Fairchild, David Glidden, Scott Collins, Madeleine Cook, Thomas Ryan, Derek Merck

Proceedings Volume 9326, 932605 (2015) https://doi.org/10.1117/12.2081216

KEYWORDS: Tissues, Liver, Tumors, Antennas, Microwave radiation, Thermal modeling, Dielectrics, Computed tomography, Data modeling, Temperature metrology

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Proceedings Article | 11 March 2015 Paper

Antimicrobial outcomes in plasma medicine

Thomas Ryan, Kenneth Stalder, Jean Woloszko

Proceedings Volume 9326, 932606 (2015) https://doi.org/10.1117/12.2082741

KEYWORDS: Plasma, Bacteria, Plasma treatment, Medicine, Ultraviolet radiation, Oxygen, Plasma systems, Electrodes, Wound healing, Electrons

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Proceedings Article | 11 March 2015 Paper

The differing behavior of electrosurgical devices made of various electrode materials operating under plasma conditions

K. Stalder, T. Ryan, J. Gaspredes, J. Woloszko

Proceedings Volume 9326, 932607 (2015) https://doi.org/10.1117/12.2082740

KEYWORDS: Electrodes, Plasma, Ions, Tantalum, Sputter deposition, Scanning electron microscopy, Metals, Silver, Chemical species, Oxidation

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Proceedings Article | 26 February 2013 Paper

Clinical applications of plasma based electrosurgical systems

Jean Woloszko, Ashley Endler, Thomas Ryan, Kenneth Stalder

Proceedings Volume 8584, 85840Q (2013) https://doi.org/10.1117/12.2007597

KEYWORDS: Tissues, Electrodes, Plasma, Surgery, Plasma systems, Cartilage, Natural surfaces, Skin, Blood vessels, Particles

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Proceedings Article | 26 February 2013 Paper

Some physics and chemistry of Coblation electrosurgical plasma devices

Kenneth Stalder, Thomas Ryan, Jean Woloszko

Proceedings Volume 8584, 85840P (2013) https://doi.org/10.1117/12.2007341

KEYWORDS: Electrodes, Tissues, Plasma, Surgery, Physics, Liquids, Sodium, Electrons, Chemistry, Hydrogen

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Proceedings Article | 26 February 2013 Paper

Overview of plasma technology used in medicine

Thomas Ryan, Kenneth Stalder, Jean Woloszko

Proceedings Volume 8584, 85840O (2013) https://doi.org/10.1117/12.2007309

KEYWORDS: Plasma, Bacteria, Electrons, Neodymium, Tissues, Atmospheric plasma, Medicine, Helium, Electrodes, Ultraviolet radiation

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Proceedings Article | 24 February 2011 Paper

Nanoparticle-based cancer treatment: can delivered dose and biological dose be reliably modeled and quantified?

P. Jack Hoopes, Alicia Petryk, Andrew Giustini, Robert Stigliano, Robert D'Angelo, Jennifer Tate, Shiraz Cassim, Allan Foreman, John Bischof, John Pearce, Thomas Ryan

Proceedings Volume 7901, 79010A (2011) https://doi.org/10.1117/12.877026

KEYWORDS: Tumors, Tissues, Nanoparticles, Cancer, Algorithm development, Magnetism, Thermal effects, Microwave radiation, 3D modeling, Temperature metrology

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Essential developments in the reliable and effective use of heat in medicine include: 1) the ability to model energy deposition and the resulting thermal distribution and tissue damage (Arrhenius models) over time in 3D, 2) the development of non-invasive thermometry and imaging for tissue damage monitoring, and 3) the development of clinically relevant algorithms for accurate prediction of the biological effect resulting from a delivered thermal dose in mammalian cells, tissues, and organs. The accuracy and usefulness of this information varies with the type of thermal treatment, sensitivity and accuracy of tissue assessment, and volume, shape, and heterogeneity of the tumor target and normal tissue. That said, without the development of an algorithm that has allowed the comparison and prediction of the effects of hyperthermia in a wide variety of tumor and normal tissues and settings (cumulative equivalent minutes/ CEM), hyperthermia would never have achieved clinical relevance. A new hyperthermia technology, magnetic nanoparticle-based hyperthermia (mNPH), has distinct advantages over the previous techniques: the ability to target the heat to individual cancer cells (with a nontoxic nanoparticle), and to excite the nanoparticles noninvasively with a noninjurious magnetic field, thus sparing associated normal cells and greatly improving the therapeutic ratio. As such, this modality has great potential as a primary and adjuvant cancer therapy. Although the targeted and safe nature of the noninvasive external activation (hysteretic heating) are a tremendous asset, the large number of therapy based variables and the lack of an accurate and useful method for predicting, assessing and quantifying mNP dose and treatment effect is a major obstacle to moving the technology into routine clinical practice. Among other parameters, mNPH will require the accurate determination of specific nanoparticle heating capability, the total nanoparticle content and biodistribution in the target cells/tissue, and an effective and matching alternating magnetic field (AMF) for optimal and safe excitation of the nanoparticles. Our initial studies have shown that appropriately delivered and targeted nanoparticles are capable of achieving effective tumor cytotoxicity at measured thermal doses significantly less than the understood thermal dose values necessary to achieve equivalent treatment effects using conventional heat delivery techniques. Therefore conventional CEM based thermal dose - tissues effect relationships will not hold for mNPH. The goal of this effort is to provide a platform for determining the biological and physical parameters that will be necessary for accurately planning and performing safe and effective mNPH, creating a new, viable primary or adjuvant cancer therapy.

Proceedings Article | 24 February 2011 Paper

Strategies for microwave thermal treatment planning, navigation, and assessment

Thomas Ryan

Proceedings Volume 7901, 790106 (2011) https://doi.org/10.1117/12.876347

KEYWORDS: Antennas, Medium wave, Tumors, Tissues, Computed tomography, Magnetic resonance imaging, Liver, Thermal modeling, Image fusion, Optical tracking

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Thermal treatment is commonly performed interstitially in either surgical or percutaneous procedures, using microwave antenna sources at 915 or 2540 MHz. There are a number of tools or aids as well as challenges for clinicians performing these procedures in the course of patient treatment. These challenges will be present whether the procedure is surgical, laparoscopic, or percutaneous, and include treatment planning, image guidance, navigation, coregistration in 3D, and treatment assessment. Treatment planning has been used historically in hyperthermia for microwave antenna arrays, but has yet to be properly applied in thermal ablation. Image assessment of thermal treatment is not typically performed in real time, although these tools will provide the clinician with further information to understand the extent of treatment and whether further treatment is needed. 3D imaging is available, but not coregistered to patient space. Navigation has been used in many medical specialties, but is also not in the clinician's toolbox in thermal treatment. Although treatment planning will lay out the skin entry and trajectory for each antenna placed, subsequently, each antenna needs to be tracked to accurately show placement in the patient and overlaid in patient space, along with the tumor target location. Some patient treatments may consist of multiple, but sequential single placements of an antenna, and guidance is even more critical to track positions and plan for the next insertion. Lastly, real-time image assessment will show the extent and shape of the coagulated lesion and which targets may have been undertreated. If used synchronously in arrays, MW power steering may also aid in filling in the ablation as the treatment progresses. This paper will analyze the present state-of-the art as well as a strategy to incorporate the various facets of planning, guidance, and assessment of treatment. The integration of thermal treatment planning, navigation and guidance, robotics, and treatment assessment continues to evolve to provide better assistance for clinicians in order to provide targeting optimization with the goal of improved treatment for the patient. Ultimately, the effect on patient outcomes will determine the value of the technology.

Proceedings Article | 24 February 2009 Paper

Novel microwave applicators for thermal therapy, ablation, and hemostasis

Thomas Ryan, Peter Clegg

Proceedings Volume 7181, 718108 (2009) https://doi.org/10.1117/12.811173

KEYWORDS: Tissues, Antennas, Microwave radiation, Liver, Tumors, Ultrasonography, In vivo imaging, Natural surfaces, Medium wave, Kidney

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Proceedings Article | 24 February 2009 Paper

Experimental results of a new system using microwaves for vision correction

Thomas Ryan, Radha Pertaub, Steven Meyers, Russell Dresher, Ronald Scharf

Proceedings Volume 7181, 718106 (2009) https://doi.org/10.1117/12.811158

KEYWORDS: Cornea, Eye, Electrodes, Collagen, Microwave radiation, Scanning electron microscopy, Tissues, Laser vision correction, Wavefronts, Spherical lenses

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Proceedings Article | 12 February 2009 Paper

Numerical model and analysis of an energy-based system using microwaves for vision correction

Radha Pertaub, Thomas Ryan

Proceedings Volume 7181, 718105 (2009) https://doi.org/10.1117/12.811154

KEYWORDS: Electrodes, Cornea, Eye, Microwave radiation, Eye models, Dielectrics, Collagen, Tissues, Visual process modeling, Thermal modeling

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Proceedings Article | 4 March 2008 Paper

Radiation therapy planning using a volumetric 3D display: PerspectaRAD

Joshua Napoli, Sandy Stutsman, James C. H. Chu, Xing Gong, Mark Rivard, Gene Cardarelli, Thomas Ryan, Gregg Favalora

Proceedings Volume 6803, 680312 (2008) https://doi.org/10.1117/12.767896

KEYWORDS: 3D displays, Radiotherapy, 3D volumetric displays, Visualization, Tumors, 3D image processing, Human-machine interfaces, Computed tomography, Cancer

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Proceedings Article | 9 February 2007 Paper

A tutorial on recent advances in thermal therapy systems

Thomas Ryan

Proceedings Volume 6440, 644009 (2007) https://doi.org/10.1117/12.706534

KEYWORDS: Tissues, Antennas, Tumors, Microwave radiation, Medium wave, Liver, Ultrasonography, Cancer, 3D displays, Dielectrics

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Proceedings Article | 14 April 2005 Paper

Fluoroscopic-guided radiofrequency ablation of the basivertebral nerve: application and analysis with multiple imaging modalities in an ovine model

Jeffrey Bergeron, Cliff Eskey, Mohammed Attawia, Samit Patel, Thomas Ryan, Richard Pellegrino, Jeffrey Sutton, John Crombie, B. Paul, P. Hoopes

Proceedings Volume 5698, (2005) https://doi.org/10.1117/12.596654

KEYWORDS: Electrodes, Bone, Computed tomography, Magnetic resonance imaging, Tissues, Nerve, Image enhancement, Spinal cord, Control systems, Fluoroscopy

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Proceedings Article | 14 April 2005 Paper

Three-dimensional finite element simulations of vertebral body thermal treatment

Thomas Ryan, Samit Patel, Ronit Morris, P. Hoopes, Jeffrey Bergeron, Roop Mahajan

Proceedings Volume 5698, (2005) https://doi.org/10.1117/12.592496

KEYWORDS: Tissues, Electrodes, Temperature metrology, Bone, Spinal cord, Thermal modeling, Nerve, Dielectrics, 3D modeling, Finite element methods

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Lower back pain affects a large group of people worldwide and when in its early stages, has no viable interventional treatment. In order to avoid the eventuality of an invasive surgical procedure, which is further down the Care Pathway, an interventional treatment that is minimally invasive and arrests the patient's pain would be of tremendous clinical benefit. There is a hypothesis that if the basivertebral nerve in the vertebral body is defunctionalized, lower back pain may be lessened. To further investigate creating a means to provide localized thermal therapy, bench and animal studies were planned, but to help select the applicator configuration and placement, numerical modeling studies were undertaken. A 3D finite element model was utilized to predict the electric field pattern and power deposition pattern of radiofrequency (RF) based electrodes. Three types of tissues were modeled: 1) porcine (ex-vivo), ovine (in-vivo preclinical), and 3) human (ex-vivo, in-vivo). Two types of RF devices were simulated: 1) a pair of converging, hollow electrodes, and 2) an in-line pair of spaced-apart electrodes. Temperature distributions over time were plotted using the electric field results and the bioheat equation. Since the thermal and electrical properties of the vertebral bodies of porcine, ovine, and human tissue were not available, measurements were undertaken to capture these data to input into the model. The measurements of electrical and thermal properties of cancellous and cortical vertebral body were made over a range of temperatures. The simulation temperature results agreed with live animal and human cadaver studies. In addition, the lesion shapes predicted in the simulations matched CT and MRI studies done during the chronic ovine study, as well as histology results. In conclusion, the simulations aided in shaping and sizing the RF electrodes, as well as positioning them in the vertebral body structures to assure that the basivertebral nerve was ablated, but other neighboring structures such as the spinal cord and nerve roots were spared.

Proceedings Article | 10 June 2003 Paper

Simulations of percutaneous RF ablation systems

Thomas Ryan, Jonathan Kwok, Robert Beetel

Proceedings Volume 4954, (2003) https://doi.org/10.1117/12.476627

KEYWORDS: Tissues, Breast, Liver, Electrodes, Tumors, 3D modeling, Ultrasonography, Systems modeling, Breast cancer, Liver cancer

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Proceedings Article | 10 June 2003 Paper

High-temperature thermal treatment of the uterus

Thomas Ryan, Jia Hua Xiao, Juh Yun Chung

Proceedings Volume 4954, (2003) https://doi.org/10.1117/12.476629

KEYWORDS: Uterus, Tissues, Temperature metrology, Blood, 3D modeling, Safety, Finite element methods, Silicon, Surgery, Thermal modeling

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