The Application of Heat in Oncology E-Book

The Application of Heat in Oncology

Principles and Practice

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Assistant Editors

Neil R.P. Ogden, MSBachelor of Science in biomedical engineering, Tulane University, 1980; Master of Science in biomedical engineering, Tulane University, 1985; Joined the US Peace Corps and was stationed in Papua New Guinea in 1987; worked at the National Institute of Health in the Biomedical Engineering Safety Department; joined the Center for Devices and Radiological Health (CDRH), of the US Food and Drug Administration (FDA) in 1990 and served in many leading roles including a lead technical and regulatory reviewer, branch chief, and acting deputy division director in multiple divisions and offices across CDRH, FDA; retired as the assistant director of the Cancer Diagnosis and Treatment Team of the Office of Surgical and Infection Control Devices, CDRH, FDA in 2022.

Rachana Visaria, PhDDoctor of Philosophy in Biomedical Engineering, University of Utah, 2005; post‐doctoral fellow in Mechanical Engineering, University of Minnesota, 2008; vice president, MR Safe Devices, LLC, 2010–2014; CEO, In Vivo Temperatures, LLC, 2013–2015; a leader in healthcare sector since 2015.

Bennett Blumenkopf, AB, MD, FACS, FAANSGraduate of the combined six‐year liberal arts‐medical degree program at Boston University, 1976; general surgical internship and neurosurgical residency at Duke University Medical Center 1976–1983; clinical associate, Medical Neurology Branch, NINCDS and LCDR USPHS 1979–1981; staff neurosurgeon and MAJ US Army, Brooke Army Medical Center 1983–1985; academic attending neurosurgeon 1985–2014; medical officer and clinical reviewer, Office of Neurological and Physical Medicine Devices, CDRH, FDA 2014 to present.

Charles Viviano, MD, PhDDoctor of Philosophy in Toxicology, University of North Carolina at Chapel Hill, 1993; MD, University of Connecticut, 2000; Urology Residency, University of Connecticut, 2000–2006; assistant professor, Division of Urology, Duke University, 2011–2015; medical ifficer, Division of Reproductive, GastroRenal, and Urology Devices, CDRH, FDA, 2015–2017; clinical deputy office director, Office of GastroRenal, ObGyn, General Hospital, and Urology Devices, CDRH, FDA, 2018–2022; chief medical officer, Office of Clinical Evidence and Analysis, CDRH, FDA, 2022 to present.

Disclaimer: Editor and assistant editors contributed to this book in their personal capacity. The subject matter, content, and views presented in this book do not represent the views of the Department of Health and Human Services (HHS), US Food and Drug Administration (FDA) and/or the United States.

List of Contributors

Elharith M. AhmedSAIC, JBSA Fort Sam Houston, TX, USA

Christopher R. BaileyDepartment of Vascular and InterventionalRadiology, Johns Hopkins UniversitySchool of Medicine, Baltimore, MD, USA

John G. BaustDepartment of Biological SciencesBinghamton UniversityBinghamton, NY, USA

John M. BaustCPSI Biotech, Owego, NY, USA

Gennaro BellizziDepartment of Electrical Engineering and Information TechnologiesUniversity of Naples Federico IINaples, Italy

Anna BottiglieriDepartment of Electrical and Computer Engineering, Kansas State UniversityManhattan, KS, USA

Massimiliano CarassitiSchool of Medicine, Università CampusBio‐Medico di RomaRome, Italy

Marta CavagnaroSapienza University of RomeRome, Italy

Arvind K. ChaturvediDepartment of Radiology and Interventional OncologyRajiv Gandhi Cancer Institute and Research CenterNew Delhi, India

Ji ChenElectrical and Computer Engineering, University of Houston, Houston, TX, USA

Gregory T. ClementUS Food and Drug Administration, Silver Spring, MD, USA

Johannes CrezeeAmsterdam UMC, AmsterdamThe Netherlands

Michael L. DentonAir Force Research LaboratoryBioeffects Division, JBSA‐Fort Sam Houston, San Antonio, TX, USA

Francesca De TommasiMeasurements and Biomedical Instrumentations UnitUniversità Campus Bio‐Medico di RomaRome, Italy

W. Jeffrey EliasDepartment of Neurological SurgeryUniversity of Virginia, Charlottesville VA, USA

Ahmed FarhanDepartment of Vascular and Interventional Radiology, Johns Hopkins UniversitySchool of Medicine, Baltimore, MD, USA

Yuman FongDepartment of SurgeryCity of Hope Medical CenterDuarte, CA, USA

Christos GeorgiadesDepartment of Vascular and Interventional Radiology, Johns Hopkins University School of Medicine, Baltimore, MD, USA

Sofia GeretaDepartment of Surgery & Perioperative Care, Dell Medical School at the University of Texas Austin, Austin, TX, USA

Rahul GoyalIn Vivo Temperatures, LLCBurnsville, MN, USA

Rosario Francesco GrassoSchool of Medicine, Università CampusBio‐Medico di Roma, Rome, Italy

Ran GuoElectrical and Computer Engineering, University of Houston, Houston, TX, USA

Johnie HodgeDepartment of NeurosurgeryWVU Rockefeller Neuroscience InstituteMorgantown, WV, USA

Jim C. HuDepartment of Urology, New York-Presbyterian Hospital/Weill Cornell Medical Center, New York, NY, USA

Md Zahidul IslamElectrical and Computer Engineering, University of Houston, Houston, TX, USA

Daryl JamesOSENSA Innovations Corp., Burnaby, British Columbia, Canada

Sara L. JohnsonDepartment of Radiology and Imaging Sciences, University of Utah Salt Lake City, UT, USA

Wolfgang KainzHigh Performance Computing for MRI Safety, Jasper, GA, USA

Do‐Hyun KimBT Solutions Inc. Seoul, Republic of Korea

Petra KokAmsterdam UMC, AmsterdamThe Netherlands

Peter KonradDepartment of NeurosurgeryWVU Rockefeller Neuroscience InstituteMorgantown, WV, USA

Abhijit MandalDepartment of Radiotherapy and Radiation Medicine, Institute of Medical SciencesVaranasi, India

Georgios MantziarisDepartment of Neurological Surgery University of Virginia, Charlottesville VA, USA

Georgios A. MaragkosDepartment of Neurological Surgery University of Virginia, Charlottesville VA, USA

Carlo MassaroniMeasurements and Biomedical Instrumentations UnitUniversità Campus Bio‐Medico di RomaRome, Italy

Himanshu MishraDepartment of Radiotherapy and Radiation Medicine, Institute of Medical SciencesVaranasi, India

Ritusha MishraDepartment of Radiotherapy and Radiation MedicineInstitute of Medical SciencesVaranasi, India

Shayan MoosaDepartment of Neurological Surgery University of Virginia, Charlottesville VA, USA

Gary D. NoojinSAIC, JBSA‐Fort Sam HoustonSan Antonio, TX, USA

Henrik OdéenDepartment of Radiology and Imaging Sciences, University of UtahSalt Lake City, UT, USA

Jenna OsbornDivision of Applied Mechanics, Office of Science and Engineering, Center for Devices and Radiological HealthU.S. Food and Drug Administration Silver Spring, MD, USA

Dennis L. ParkerDepartment of Radiology and Imaging Sciences, University of UtahSalt Lake City, UT, USA

Allison H. PayneDepartment of Radiology and Imaging Sciences, University of Utah Salt Lake City, UT, USA

John PearceDepartment of Electrical and Computer Engineering, The University of Texas at Austin, Austin, TX, USA

Punit PrakashDepartment of Electrical and Computer Engineering, Kansas State UniversityManhattan, KS, USA

Daniela Lo PrestiMeasurements and Biomedical Instrumentations UnitUniversità Campus Bio‐Medico di RomaRome, Italy

Manish RanjanDepartment of NeurosurgeryWVU Rockefeller Neuroscience InstituteMorgantown, WV, USA

Anthony RobilottoCPSI Biotech, Owego, NY, USA

Kimberly L. SantucciCPSI Biotech, Owego, NY, USA

Emiliano SchenaMeasurements and Biomedical Instrumentations UnitUniversità Campus Bio‐Medico di RomaRome, Italy

Elyas ShaswaryDepartment of Physics, Ryerson UniversityToronto, Ontario, Canada

Devashish ShrivastavaIn Vivo Temperatures, LLC, BurnsvilleMN, USAMortimer B. Zuckerman Mind Brain Behavior InstituteColumbia University in the City of New York, New York NY, USA

Kristi K. SnyderCPSI Biotech, Owego, NY, USA

Judith Stangl‐KremserDepartment of Urology, New York-Presbyterian Hospital/Weill Cornell Medical Center, New York, NY, USA

Jahangir (Jahan) TavakkoliDepartment of Physics, Ryerson UniversityToronto, Ontario, CanadaInstitute for Biomedical EngineeringScience and Technology (iBEST)Keenan Research Centre for Biomedical Science, St. Michael’s HospitalToronto, Ontario, Canada

Sharon ThomsenSequim, WA, USA

Mark G. TorchiaMax Rady College of MedicineUniversity of ManitobaWinnipeg, MB, Canada

Hana Dobsicek TrefnaChalmers University of TechnologyGothenburg, Sweden

Richard TycMonteris Medical, Minneapolis, MN, USA

Harry VineOSENSA Innovations Corp., Burnaby, British Columbia, Canada

Tenny R. ZhangDepartment of Urology, New York-Presbyterian Hospital/Weill Cornell Medical Center, New York, NY, USA

Preface

The goal of this book is to present the science and art of delivering thermal energy to the tissue of interest to destroy cancer with minimal damage to the surrounding healthy tissue in order to improve survival and/or quality of life. To this end, this book is divided into two main parts: Part A, “Principles,” and Part B, “Clinical Applications.” The Part A “Principles” (Chapters 1–19) is further divided into three subparts: “Delivering Energy,” “Assessing Temperatures,” and “Assessing Damage.” “Delivering Energy” (Chapters 1–6) describes various ways energy could be deposited in the body. Since impending damage depends on the tissue temperature and tissue temperature is often measured and regulated to limit induced damage and/or keep nearby critical structures safe, “Assessing Temperatures” (Chapters 7–13) describes ways to determine tissue temperature. “Assessing Damage” (Chapters 14–19) describes ways to determine thermal damage. The Part B, “Clinical Applications” (Chapters 20–32), describes how the methods described under “Principles” are used to optimally destroy cancer tissue, improve survival, and/or improve quality of life. This section also includes estimations of thermal damage that could be induced by various energy sources as a function of temperature and time. This could be used by clinicians as a first estimate to guide thermal therapy or by researchers as a ballpark estimate while characterizing thermal performance of novel thermal devices in human‐sized animal models. The book includes material related to all three kinds of thermal therapies: hyperthermia (when peak tissue temperature is raised to 43 °C or below), high‐temperature therapy (when peak tissue temperature is raised above 43 °C), and cryoablation (when minimum tissue temperature is brought to below freezing temperature).

This book is intended for engineers, physicists, interventional radiologists, surgeons, and others who work (or intend to work) in the field of thermal therapy (i.e. hyperthermia, radiofrequency or RF ablation, microwave or MW ablation, laser ablation, high‐intensity focused ultrasound‐mediated ablation, cryoablation, nanoparticle‐mediated ablation, cauterization, etc.) and/or are involved in developing novel approaches in thermal therapy. The book can also be used as a reference book or textbook in advanced “project‐based” undergraduate or graduate courses where the goal is to familiarize students with various technical and clinical approaches related to the application of heat in oncology and surgery.

Preparing this book has been an enriching experience. I am deeply indebted to all my friends and colleagues who took time out of their busy schedules to contribute to this book. I would also like to acknowledge and appreciate the enthusiastic support of my friends, colleagues, and assistant editors Neil Ogden, Rachana Visaria, Bennett Blumenkopf, and Charles Viviano. While Neil and Rachana with years of regulatory and technical experience related to the use of heat transfer in oncology served as the reviewers for several chapters in the book and provided useful and critical suggestions on how to improve the message, Bennett and Charlie with their years of clinical experience and background were instrumental in identifying and recruiting several excellent clinical authors to contribute to this book. Finally, I would like to thank my parents Surya Prakash and Vinita Srivastava for the idea of the book and my wife Rachana Visaria and daughters Athena Rachana Devashish and Minerva Rachana Devashish for their support, encouragement, and patience through countless evenings and nights when I was not around.

Part APrinciples

A.1Delivering Energy