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In this fast pace moving world of change in science and technology, this book describes the changing faces in medical practice in management of breast cancer. 50s was the era of "Clinical Sciences" based on anatomicopathologic data and good clinical medicine. The 60s-70s was the era of "Technological Sciences" based on imaging and instrumentations. The 80s-90s was the era of "Biological Sciences-Molecular Biology, Molecular Genetics, based on laboratory medicine-Beyond Morphology. The text begins with epidemiology and screening of breast cancer, followed by early detection of breast cancer, TN.
This text is designed to present a comprehensive and state-of the-art approach to the management of breast cancer within the fields of surgery, medical oncology, and radiation oncology. Sections address changes in these fields. These areas include breast imaging, management of the axilla, atypical breast lesions, surgical margins, new techniques in breast reconstruction, and nipple sparing and contralateral mastectomies. Subsequent chapters focus on issues in medical oncology including, triple negative breast cancer and metastatic breast disease. New paradigms in radiation oncology are examined. Breast cancer treatment in the elderly and in young women, and genetic risk in breast cancer management is also be discussed. Written by experts in their field, each of these sections addresses advances and changes in the field. A brief review of the existing literature addressing the particular topic follows in each section. The text concludes with chapters on pathological issues and advances in radiation oncology. As access to a comprehensive multidisciplinary resource such as this is currently limited in the literature, Changing Paradigms in the Management of Breast Cancer represents the first single source to provide information on advances and outcomes for the physician caring for breast cancer patients in a multidisciplinary setting.
This issue of Surgical Oncology Clinics of North America, guest edited by Dr. Kelly Hunt, is devoted to Changing Paradigms in Breast Cancer Diagnosis and Treatment. Dr. Hunt has assembled expert authors to review the following topics: Tomosynthesis in breast cancer imaging: how does it fit into preoperative evaluation and surveillance?; Lobular breast cancer: different disease, different algorithms?; Hypofractionated radiation therapy in breast conserving therapy; Oncoplastic breast reconstruction: should all patients be considered?; Neoadjuvant endocrine therapy: who benefits most?; Breast cancer disparities: how can we leverage genomics to improve outcomes?; Anatomy and breast cancer staging: is it still relevant?; When does atypical ductal hyperplasia require surgical intervention?; Surgical intervention for lymphedema; Are there alternative strategies in the local management of DCIS?; Genetic testing and genetic counseling: what is standard of care?; Molecular subtypes and local-regional control of breast cancer; Intraoperative margin assessment in breast cancer management; Triple negative breast cancer: who should receive neoadjuvant chemotherapy?; and more!
Accelerated partial breast irradiation (APBI) is being rapidly introduced into the clinical management of early breast cancer. APBI, in fact, encompasses a number of different techniques and approaches that include brachytherapy, intraoperative, and external beam techniques. There is currently no single source that describes these techniques and their clinical implementation. This text is a concise handbook designed to assist the clinician in the implementation of APBI. This includes a review of the principles that underlie APBI, a practical and detailed description of each technique for APBI, a review of current clinical results of APBI, and a review of the incidence and management of treatment related complications.
Get a quick, expert overview of clinically-focused topics and guidelines that are relevant to testing for HER2, which contributes to approximately 25% of breast cancers today. This concise resource by Drs. Sara Hurvitz, and Kelly McCann consolidates today's available information on this growing topic into one convenient resource, making it an ideal, easy-to-digest reference for practicing and trainee oncologists. - Covers the diagnosis, treatments and targeted therapies, and management of breast cancers that are HER2-positive. - Contains sections on background and testing, advanced disease, therapeutics, and toxicity considerations. - Includes a timely section on innovative future therapies.
The American Joint Committee on Cancer's Cancer Staging Manual is used by physicians throughout the world to diagnose cancer and determine the extent to which cancer has progressed. All of the TNM staging information included in this Sixth Edition is uniform between the AJCC (American Joint Committee on Cancer) and the UICC (International Union Against Cancer). In addition to the information found in the Handbook, the Manual provides standardized data forms for each anatomic site, which can be utilized as permanent patient records, enabling clinicians and cancer research scientists to maintain consistency in evaluating the efficacy of diagnosis and treatment. The CD-ROM packaged with each Manual contains printable copies of each of the book’s 45 Staging Forms.
Advances in cancer research have led to an improved understanding of the molecular mechanisms underpinning the development of cancer and how the immune system responds to cancer. This influx of research has led to an increasing number and variety of therapies in the drug development pipeline, including targeted therapies and associated biomarker tests that can select which patients are most likely to respond, and immunotherapies that harness the body's immune system to destroy cancer cells. Compared with standard chemotherapies, these new cancer therapies may demonstrate evidence of benefit and clearer distinctions between efficacy and toxicity at an earlier stage of development. However, there is a concern that the traditional processes for cancer drug development, evaluation, and regulatory approval could impede or delay the use of these promising cancer treatments in clinical practice. This has led to a number of effortsâ€"by patient advocates, the pharmaceutical industry, and the Food and Drug Administration (FDA)â€"to accelerate the review of promising new cancer therapies, especially for cancers that currently lack effective treatments. However, generating the necessary data to confirm safety and efficacy during expedited drug development programs can present a unique set of challenges and opportunities. To explore this new landscape in cancer drug development, the National Academies of Sciences, Engineering, and Medicine developed a workshop held in December 2016. This workshop convened cancer researchers, patient advocates, and representatives from industry, academia, and government to discuss challenges with traditional approaches to drug development, opportunities to improve the efficiency of drug development, and strategies to enhance the information available about a cancer therapy throughout its life cycle in order to improve its use in clinical practice. This publication summarizes the presentations and discussions from the workshop.
In November 1999, the Institute of Medicine, in consultation with the Commission on Life Sciences, the Commission on Physical Sciences, Mathematics, and Applications, and the Board on Science, Technology and Economic Policy launched a one year study on technologies for early detection of breast cancer. The committee was asked to examine technologies under development for early breast cancer detection, and to scrutinize the process of medical technology development, adoption, and dissemination. The committee is gathering information on these topics for its report in a number of ways, including two public workshops that bring in outside expertise. The first workshop on "Developing Technologies for Early Breast Cancer Detection" was held in Washington DC in February 2000. The content of the presentations at the workshop is summarized here. A second workshop, which will focus on the process of technology development and adoption, will be held in Washington, DC on June 19-20. A formal report on these topics, including conclusions and recommendations, will be prepared by the committee upon completion of the one-year study.
Explores various treatment options available to cancer patients, including Chinese medicine, toxins, and recent experimental therapies, and explains the important role diet and emotional health play in getting well.
Surface Guided Radiation Therapy provides a comprehensive overview of optical surface image guidance systems for radiation therapy. It serves as an introductory teaching resource for students and trainees, and a valuable reference for medical physicists, physicians, radiation therapists, and administrators who wish to incorporate surface guided radiation therapy (SGRT) into their clinical practice. This is the first book dedicated to the principles and practice of SGRT, featuring: Chapters authored by an internationally represented list of physicists, radiation oncologists and therapists, edited by pioneers and experts in SGRT Covering the evolution of localization systems and their role in quality and safety, current SGRT systems, practical guides to commissioning and quality assurance, clinical applications by anatomic site, and emerging topics including skin mark-less setups. Several dedicated chapters on SGRT for intracranial radiosurgery and breast, covering technical aspects, risk assessment and outcomes. Jeremy Hoisak, PhD, DABR is an Assistant Professor in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Hoisak’s clinical expertise includes radiosurgery and respiratory motion management. Adam Paxton, PhD, DABR is an Assistant Professor in the Department of Radiation Oncology at the University of Utah. Dr. Paxton’s clinical expertise includes patient safety, motion management, radiosurgery, and proton therapy. Benjamin Waghorn, PhD, DABR is the Director of Clinical Physics at Vision RT. Dr. Waghorn’s research interests include intensity modulated radiation therapy, motion management, and surface image guidance systems. Todd Pawlicki, PhD, DABR, FAAPM, FASTRO, is Professor and Vice-Chair for Medical Physics in the Department of Radiation Medicine and Applied Sciences at the University of California, San Diego. Dr. Pawlicki has published extensively on quality and safety in radiation therapy. He has served on the Board of Directors for the American Society for Radiology Oncology (ASTRO) and the American Association of Physicists in Medicine (AAPM).