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This book showcases the latest digital skin imaging, optical/laser systems and advanced immunologic therapies including topics ranging from the basic dermatologic sciences to advanced microscopic and laser optics. The addition of radiologic breakthroughs serves as comprehensive source for the dermatologic community, helping them access sonographic, CT, MRI and nuclear medicine procedures refined for dermatologic and subcutaneous pathologies. In addition, it assists radiologists determine the appropriate imaging technologies for specific clinical dermal disorders. A detailed and up-to-date overview of image-guided treatments is provided. The initial chapters on benign and inflammatory diseases are precursors to advanced chapters on hidradenitis suppurativa and pigmented lesion analysis. A dedicated chapter on melanoma skin cancer and malignant melanoma is followed by updated concepts of melanoma treatment, including genetic markers and PET/CT to monitor therapeutic success. Further chapters address such topics as dermal trauma from foreign bodies and burns, scar imaging, fillers complications and podiatric imaging. Chapters on optical coherence tomography and reflectance confocal microscopy complete the coverage. All chapters were written by dermatologists trained in ultrasound diagnosis, interventional radiologists, dermatopathologists and specialists in advanced optical and microscopic dermatologic analysis, providing a reference guide to noninvasive diagnosis techniques and image guided minimally invasive treatment options. As such, Image Guided Dermatologic Treatments will be an invaluable asset for clinicians in medical and allied fields where dermatologic diagnosis using the least invasive option is required.
This lavishly illustrated guide from experts will enable practitioners to get the most out of dermoscopy for investigations and treatments in general dermatology.
Imaging in Dermatology covers a large number of topics in dermatological imaging, the use of lasers in dermatology studies, and the implications of using these technologies in research. Written by the experts working in these exciting fields, the book explicitly addresses not only current applications of nanotechnology, but also discusses future trends of these ever-growing and rapidly changing fields, providing clinicians and researchers with a clear understanding of the advantages and challenges of laser and imaging technologies in skin medicine today, along with the cellular and molecular effects of these technologies. Outlines the fundamentals of imaging and lasers for dermatology in clinical and research settings Provides knowledge of current and future applications of dermatological imaging and lasers Coherently structured book written by the experts working in the fields covered
Photon Radiation Therapy for Skin Malignancies is a vital resource for dermatologists interested in radiation therapy, including the physics and biology behind treatment of skin cancers, as well as useful and pragmatic formulas and algorithms for evaluating and treating them. Dermatology has always been a field that overlaps multiple medical specialties and this book is no exception, with its focus on both dermatologists and radiation oncologists. It is estimated that between 2010 and 2020, the demand for radiation therapy will exceed the number of radiation oncologists practicing in the U.S. tenfold, which could profoundly affect the ability to provide patients with sufficient access to treatment. Photon Radiation Therapy for Skin Malignancies enhances the knowledge of dermatologists and radiation oncologists and presents them with the most up-to-date information regarding detection, delineation and depth determination of skin cancers, and appropriate biopsy techniques. In addition, the book also addresses radiation therapy of the skin and the skin’s reactions to radiation therapy.
This book provides a complete overview on the latest available technologies in dermatology, while discussing future trends of this ever-growing field. This handy guide provides clinicians and researchers with a clear understanding of the advantages and challenges of laser and imaging technologies in skin medicine today. It also includes a section on imaging techniques for the evaluation of skin tumors, with chapters devoted to dermoscopy, in vivo and ex vivo reflectance confocal microscopy, high frequency ultrasound, optical coherence tomography, and a closing part on latest approaches to wound management. Completed by over 200 clinical images, Current Technology in Practical Dermatology: Non-Invasive Imaging, Lasers and Ulcer Management is both a valuable tool for the inpatient dermatologist and for physicians, residents, and medical students in the field.
This book offers a detailed and up-to-date overview of image-guided aesthetic treatments. A wide range of aesthetic image-guided procedures in different body regions are described in more than twenty chapters. For each procedure, the benefits of image guidance are identified and its use is clearly explained. The coverage includes all the major tools commonly employed by today’s aesthetic and plastic surgeons, such as spectral imaging, laser, microfocused ultrasound, and radiofrequency technologies. Image guidance of aesthetic treatments has a variety of benefits: Image-guided treatment by means of non-surgical or minimally invasive modalities greatly reduces patient anxiety and the likelihood of postoperative disfigurement. Image guidance allows the physician to measure the skin thickness and the depth of fat tissue and to evaluate the elasticity of the skin and subcutaneous tissues, improving thermal treatment outcomes. It can also map the arteries, veins, and nerves, thereby providing preoperative landmarks and permitting reduction of postoperative bleeding and avoidance of nerve damage. Furthermore, imaging can non-invasively identify subdermal fillers or implants, assisting in the identification of migration with attendant vascular compromise or nerve entrapment. Image-Guided Aesthetic Treatments will be a valuable guide and reference not only for aesthetic practitioners, plastic surgeons, and other specialists, but also for imaging technicians and interested laypersons.
Mohs Micrographic Surgery, an advanced treatment procedure for skin cancer, offers the highest potential for recovery--even if the skin cancer has been previously treated. This procedure is a state-of-the-art treatment in which the physician serves as surgeon, pathologist, and reconstructive surgeon. It relies on the accuracy of a microscope to trace and ensure removal of skin cancer down to its roots. This procedure allows dermatologists trained in Mohs Surgery to see beyond the visible disease and to precisely identify and remove the entire tumor, leaving healthy tissue unharmed. This procedure is most often used in treating two of the most common forms of skin cancer: basal cell carcinoma and squamous cell carcinoma. The cure rate for Mohs Micrographic Surgery is the highest of all treatments for skin cancer--up to 99 percent even if other forms of treatment have failed. This procedure, the most exact and precise method of tumor removal, minimizes the chance of regrowth and lessens the potential for scarring or disfigurement
​​​ Inpatient Dermatology is a concise and portable resource that synthesizes the most essential material to help physicians with recognition, differential diagnosis, work-up, and treatment of dermatologic issues in the hospitalized patient. Complete with hundreds of clinical and pathologic images, this volume is both an inpatient dermatology atlas and a practical guide to day-one, initial work-up, and management plan for common and rare skin diseases that occur in the inpatient setting. Each chapter is a bulleted, easy-to-read reference that focuses on one specific inpatient dermatologic condition, with carefully curated clinical photographs and corresponding histopathologic images to aid readers in developing clinical-pathologic correlation for the dermatologic diseases encountered in the hospital. Before each subsection the editors share diagnostic pearls, explaining their approach to these challenging conditions. This book is structured to be useful to physicians, residents, and medical students. It spans dermatology, emergency medicine, internal medicine, infectious disease, and rheumatology. Inpatient Dermatology is the go-to guide for hospital-based skin diseases, making even the most complex inpatient dermatologic issues approachable and understandable for any clinician.
Provides the latest information on imaging technologies and transdermal delivery in skin disorders This important, timely book covers the latest understanding about today's major skin disorders, the development of imaging technologies for skin diagnosis, and the applications of micro/nano-technologies for the treatment of skin complications. It also places great emphasis on the critical role that interdisciplinary science occupies to achieve the requisite level of understanding of skin conditions and their management, which is essential to creating technologies that work. Imaging Technologies and Transdermal Delivery in Skin Disorders starts by outlining the structural characteristics of skin and skin appendages. It then discusses the key pathways involved in skin growth and development. Clinical presentations, pathophysiological mechanisms, and current clinical practices used to treat diseases affecting the skin are then introduced. Common preclinical models used for studying the mechanisms of diverse skin diseases, validation of novel therapeutic targets, and screening of new drugs to treat these diseases are also covered. The book examines the latest imaging technologies for understanding in vivo skin changes, as well as technologies such as high-resolution ultrasound imaging, quantitative Magnetic Resonance Imaging, high-resolution Optical Coherence Tomography, and emerging hybrid-imaging modalities. It concludes with chapters introducing emerging drug delivery technologies and potential future innovative developments. * Presents up-to-date knowledge of the skin biology and pathologies * Introduces advancements in the topic of imaging technology for tracing the drug delivery process, which is rarely systematically reported by other counterparts * Covers the latest development in three inter-related directions of drug delivery, imaging, and skin disease intersect for skin research * Provides an overview of the latest development of diagnostic and therapeutic technologies for skin diseases Imaging Technologies and Transdermal Delivery in Skin Disorders will be of great interest to analytical chemists, materials scientists, pharmaceutical chemists, clinical chemists, biotechnologists, bioengineers, cosmetics industry, and dermatologists.