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    Precision Medicine in Cancer Therapy
    Thrombosis and Hemostasis in Cancer
    Late Effects of Treatment for Brain Tumors
    Ebook series4 titles

    Cancer Treatment and Research Series

    By Haiyong Han and Francesco M. Marincola

    ()

    About this series

    This book addresses the biological processes relevant to the immune phenotypes of cancer and their significance for immune responsiveness, based on the premise that malignant cells manipulate their surroundings through an evolutionary process that is controlled by interactions with innate immune sensors as well as the adaptive recognition of self/non-self. Checkpoint inhibitor therapy is now an accepted new form of cancer treatment. Other immuno-oncology approaches, such as adoptive cell therapy and metabolic inhibitors, have also shown promising results for specific indications. Immune resistance is common, however, limiting the efficacy of immunotherapy in many common cancer types. 

    The reasons for such resistance are diverse and peculiar to the immune landscapes of individual cancers, and to the treatment modality used. Accordingly, approaches to circumvent resistance need to take into account context-specific genetic, biological and environmental factors that may affect the cancer immune cycle, and which can best be understood by studying the target tissue and correlated systemic immune markers. 

    Understanding the major requirements for the evolutionary process governing human cancer growth in the immune-competent host will guide effective therapeutic choices that are tailored to the biology of individual cancers.

    LanguageEnglish
    PublisherSpringer
    Release dateOct 16, 2009
    Precision Medicine in Cancer Therapy
    Thrombosis and Hemostasis in Cancer
    Late Effects of Treatment for Brain Tumors

    Titles in the series (4)

    • 150

      Late Effects of Treatment for Brain Tumors
      Late Effects of Treatment for Brain Tumors

      Late Effects of Treatment for Brain Tumors

      Stewart Goldman
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      Late Effects of Treatment for Brain Tumors reviews the development of the medical team's awareness of late effects of brain tumor treatment and an overview of brain tumor survivorship. It reviews the late effects by topic and by organ systems, educates, and provides guidelines for follow up and interventions for patient survivorship. Advocacy for survivors and models for the importance of coordinated late effects programs are also discussed.

      Late Effects of Treatment for Brain Tumors reviews the development of the medical team's awareness of late effects of brain tumor treatment and an overview of brain tumor survivorship. It reviews the late effects by topic and by organ systems, educates, and provides guidelines for follow up and interventions for patient survivorship. Advocacy for survivors and models for the importance of coordinated late effects programs are also discussed.

    • 178

      Precision Medicine in Cancer Therapy
      Precision Medicine in Cancer Therapy

      Precision Medicine in Cancer Therapy

      Daniel D. Von Hoff
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      This book presents the latest advances in precision medicine in some of the most common cancer types, including hematological, lung and breast malignancies. It also discusses emerging technologies that are making a significant impact on precision medicine in cancer therapy. In addition to describing specific approaches that have already entered clinical practice, the book explores new concepts and tools that are being developed. Precision medicine aims to deliver personalized healthcare tailored to a patient’s genetics, lifestyle and environment, and cancer therapy is one of the areas in which it has flourished in recent years. Documenting the latest advances, this book is of interest to physicians and clinical fellows in the front line of the war on cancer, as well as to basic scientists working in the fields of cancer biology, drug development, biomarker discovery, and biomedical engineering. The contributing authors include translational physicians withfirst-hand experience in precision patient care.

      This book presents the latest advances in precision medicine in some of the most common cancer types, including hematological, lung and breast malignancies. It also discusses emerging technologies that are making a significant impact on precision medicine in cancer therapy. In addition to describing specific approaches that have already entered clinical practice, the book explores new concepts and tools that are being developed. Precision medicine aims to deliver personalized healthcare tailored to a patient’s genetics, lifestyle and environment, and cancer therapy is one of the areas in which it has flourished in recent years. Documenting the latest advances, this book is of interest to physicians and clinical fellows in the front line of the war on cancer, as well as to basic scientists working in the fields of cancer biology, drug development, biomarker discovery, and biomedical engineering. The contributing authors include translational physicians withfirst-hand experience in precision patient care.

    • 179

      Thrombosis and Hemostasis in Cancer
      Thrombosis and Hemostasis in Cancer

      Thrombosis and Hemostasis in Cancer

      Gerald Soff
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      In this book, leaders in the field explore our current understanding of thrombosis and hemostasis in cancer and address key questions on the subject. Among the topics discussed are the mechanisms that cancers use to activate the coagulation system, and those by means of which an activated coagulation system can lead to more aggressive cancer growth. Clinical chapters examine the role of thrombosis prophylaxis and treatment, central line-associated thrombosis, and cancer-associated hemorrhage. Subsequent chapters deal with the management of chemotherapy-induced thrombocytopenia, anticoagulation in the presence of brain metastases, and other unique challenges in the interaction of thrombosis and hemostasis in cancer.    It has been 150 years since Armand Trousseau first described the well-known association between cancer and an increased risk of thrombosis, which may be considered the first paraneoplastic syndrome ever identified. More recently, numerous studies have indicated that activation of the coagulation system by cancer not only increases the likelihood of thrombosis, but is also associated with a more aggressive cancer phenotype. By familiarizing readers with the latest developments in this complex and challenging field, the book offers a valuable resource for scientists and clinicians alike. 

      In this book, leaders in the field explore our current understanding of thrombosis and hemostasis in cancer and address key questions on the subject. Among the topics discussed are the mechanisms that cancers use to activate the coagulation system, and those by means of which an activated coagulation system can lead to more aggressive cancer growth. Clinical chapters examine the role of thrombosis prophylaxis and treatment, central line-associated thrombosis, and cancer-associated hemorrhage. Subsequent chapters deal with the management of chemotherapy-induced thrombocytopenia, anticoagulation in the presence of brain metastases, and other unique challenges in the interaction of thrombosis and hemostasis in cancer.    It has been 150 years since Armand Trousseau first described the well-known association between cancer and an increased risk of thrombosis, which may be considered the first paraneoplastic syndrome ever identified. More recently, numerous studies have indicated that activation of the coagulation system by cancer not only increases the likelihood of thrombosis, but is also associated with a more aggressive cancer phenotype. By familiarizing readers with the latest developments in this complex and challenging field, the book offers a valuable resource for scientists and clinicians alike. 

    • 180

      Tumor Microenvironment
      Tumor Microenvironment

      Tumor Microenvironment

      Peter P. Lee
      0 ratings
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      This book addresses the biological processes relevant to the immune phenotypes of cancer and their significance for immune responsiveness, based on the premise that malignant cells manipulate their surroundings through an evolutionary process that is controlled by interactions with innate immune sensors as well as the adaptive recognition of self/non-self. Checkpoint inhibitor therapy is now an accepted new form of cancer treatment. Other immuno-oncology approaches, such as adoptive cell therapy and metabolic inhibitors, have also shown promising results for specific indications. Immune resistance is common, however, limiting the efficacy of immunotherapy in many common cancer types.  The reasons for such resistance are diverse and peculiar to the immune landscapes of individual cancers, and to the treatment modality used. Accordingly, approaches to circumvent resistance need to take into account context-specific genetic, biological and environmental factors that may affect the cancer immune cycle, and which can best be understood by studying the target tissue and correlated systemic immune markers.  Understanding the major requirements for the evolutionary process governing human cancer growth in the immune-competent host will guide effective therapeutic choices that are tailored to the biology of individual cancers.

      This book addresses the biological processes relevant to the immune phenotypes of cancer and their significance for immune responsiveness, based on the premise that malignant cells manipulate their surroundings through an evolutionary process that is controlled by interactions with innate immune sensors as well as the adaptive recognition of self/non-self. Checkpoint inhibitor therapy is now an accepted new form of cancer treatment. Other immuno-oncology approaches, such as adoptive cell therapy and metabolic inhibitors, have also shown promising results for specific indications. Immune resistance is common, however, limiting the efficacy of immunotherapy in many common cancer types.  The reasons for such resistance are diverse and peculiar to the immune landscapes of individual cancers, and to the treatment modality used. Accordingly, approaches to circumvent resistance need to take into account context-specific genetic, biological and environmental factors that may affect the cancer immune cycle, and which can best be understood by studying the target tissue and correlated systemic immune markers.  Understanding the major requirements for the evolutionary process governing human cancer growth in the immune-competent host will guide effective therapeutic choices that are tailored to the biology of individual cancers.

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