The book will provide an exhaustive and clear explanation of how Statistics, Mathematics and Informatics have been used in cancer research, and seeks to help cancer researchers in achieving their objectives. To do so, state-of-the-art Biostatistics, Biomathematics and Bioinformatics methods will be described and discussed in detail through illustrative and capital examples taken from cancer research work already published. The book will provide a guide for cancer researchers in using Statistics, Mathematics and Informatics, clarifying the contribution of these logical sciences to the study of cancer, thoroughly explaining their procedures and methods, and providing criteria to their appropriate use.

This book will provide the latest advances in molecular and cellular biology for establishing the foundation of a complete understanding of the mechanisms of breast differentiation leading to cancer prevention. The authors are based on the epidemiological evidence indicating that early first full term pregnancy is a protective factor in human against breast cancer and they have used this paradigm and developed experimental systems in both in vivo and in vitro that have demonstrated mechanistically how the differentiation at the organ and cellular level takes place. This knowledge has provided the blueprint for developing better understanding of the basis of cancer prevention. The transcriptoma analysis of the breast of pre and post-menopausal women has established a genomic signature imprinted in the breast that differs according to the reproductive history of the woman showing that early first full term pregnancy reprogram the organ. This reprogramming takes place at the chromatin level by changing the transcriptional process. The modification of the transcriptional control is due to the expression of non coding RNA sequences and posttranscriptional control driven by the splicesome. The plasticity of the genome of the human breast make possible this reprogramming that is not only induced by the physiological process of pregnancy but by the use of hormones that mimic pregnancy without pregnancy. The author have established the basis of clinical trials for prevention and the discovery that short 15aa peptides of the chorionic gonadotropin hormone can be used in human breast cancer prevention based on preclinical and clinical data.

The objective of this book is to provide a critical analysis of the present prevention strategies for breast cancer, emphasizing the cost benefits and quality of life of the patient. Rooted in the present knowledge of breast cancer biology and prevention and treatment options, the book will describe the future tools that could be available to oncologists and how these new approaches may change the landscape of recurrence and survival of the disease. Special emphasis will be given to the prevention strategies counterposing the present limitations and conflicting prevention guidelines for both hereditary and preventive non-hereditary breast cancer, and propose how the implementation of new strategies based on the present knowledge could save millions of lives and be more cost efficient. The book will present a critical status of the treatment and prevention of breast cancer and detail how a quantum leap could be achieved in the field by applying present basic research knowledge to clinical application.

This volume, with contributions from the most recognized experts in preventive strategies in breast cancer, presents the accepted as well as the novel ideas that have been introduced for the prevention of breast cancer. There is no single preventive agent that can stop the incidence of breast cancer-the malignant disease most frequently diagnosed in women of all races and nationalities. Furthermore, its incidence around the globe is increasing in industrialized countries. The worldwide incidence of breast cancer has increased 30-40% since the 1970s, reaching an excess of 1,390,000 new cases and a mortality of more than 460,000 cases in 2015. Therefore, what is needed is the development of rational strategies for the prevention of this fatal disease.

This volume explores the myriad of techniques and methodological approaches that are being used in breast cancer research. The authors critically evaluate of the advantages and disadvantages of current methodologies, starting with the tools available for understanding the architecture of the human breast, including its tissue and cellular composition. The volume discusses the importance of functional studies in breast cancer research, especially with the help of laser capture microdissection, which allows the separation of small amounts of tissue, as well as specific cells, for biochemical analysis. In addition, the authors address methodologies including stem cell separation, which has helped in significantly understanding their role in normal breast development, but also further the understanding of breast cancer and its therapeutic management. The use of in vitro techniques and established cell lines for mechanistic studies in chemotherapeutic approaches have been invaluable will be discussed. Imaging techniques for evaluating in vitro and in vivo behavior of normal and cancerous breast tissue will be explored, as it provides a better understanding of the physiopathology of cancer. The volume will also discuss the molecular analysis of gene function in breast cancer through the transcriptomic and epigenomic profile. More importantly, the advancement of more refined techniques in sequencing will be covered. This monograph will be a comprehensive, authoritative and timely, as it addresses the emerging approaches used in breast cancer research.

This monograph, written by well renowned breast cancer expect, Dr. Jose Russo, provides new insight on the pathobiology of breast cancer from the most current advances in the field, translational research, initiation and progression of the disease, the mechanism of invasion and metastasis and the concept of stem cells in treatment and drug resistance. The role of personalized medicine and genomic testing are also explored, which will provide a window to the future progress of cancer care.

There is no doubt that the advent of immunocytochemical techniques, by enhancing our ability to detect specific cell products or markers, has opened new avenues in the understanding of human diseases, and in our ability to perform better diagnosis in surgical pathology. The rapid development of this field has resulted in thousands of publications in the literature regarding immunocytochemistry in diagnostic pathology. This explosion of knowledge makes necessary publications summarizing what are the main markers available and how they can be used in the diagnosis of tumors. The need of a more organized and structured knowledge was evident during the workshop in Immunocytochemistry of Tumor Diagnosis that took place in the City of Detroit an October 1984. This book is the result of that workshop in which 22 chapters are focusing an the main subject of differential diagnosis of tumors. Jose Russo, M.D. Editor xiii ACKNOWLEDGEMENTS I wish to thank my many associates at the Michigan Cancer Foundation for their help in the preparation of this manuscript. I give thanks to Dr.

This narrative of a cancer researcher spans a period in which biomedicine research has been so revolutionary. The educational background and socioeconomic circumstances of the author make the story unique, shedding light on many important intellectual achievements. The author also provides an insightful view on how decisions at the upper echelon of scientific institutions affect cancer researchers. The vivid account of scientific discovery and intellectual evolution provides a fine example for the next generation of cancer researchers.

Advances in cancer research have grown exponentially in recent decades. What we now know about the disease owes a lot to breakthroughs in science and technology. Cancer researchers have had to solve increasingly difficult problems with methods that were unimaginable just a few years ago, and new generations of researchers have to be trained to face these challenges.One important aspect of their training is the framing of social, economic and cultural changes of the human population. Despite having state-of-the-art technology and specializations, researchers are still required to think faster than ever before, making new discoveries fit the practical situation of each type of cancer. This book discusses a number of topics that address these challenges and the origins of cancer research from a cultural and historical perspective.

This book aims to provide useful tips for the understanding of scientific research processes and practical advice for people engaged in this field. It is a reflection of the author's more than 40 years of experience in medical and cancer research, and is written in a colloquial style to reach not only the young audience who are considering devoting their lives to biomedical research, but also to those who are already engaged in this field. The author emphasizes the unique traits and qualifications required for performing scientific research and also describes the different modalities which can be performed in our actual scientific environment. There are numerous practical advices in this book, such as guidelines on writing a grant proposal and the first peer-reviewed manuscript, the selection criteria of the training laboratory and mentors, as well as experimental record The author also provides his insight on the personal inner drive and motivation critical for conducting scientific research, as well as the importance of working on a problem without losing the human perspective of this specific and unique human endeavor.

Breast cancer is a complex disease caused by multiple environmental and lifestyle factors interacting with genetic susceptibility across the life span. Therefore, environmental factors are of intense interest to both researchers and community members, including women with breast cancer. There is not adequate literature that addresses this issue comprehensively from epidemiological, experimental, and translational research perspective. This book is aiming to fill this gap by gathering chapters from the most recognized experts in the field of breast biology and cancer with special interests in environmental issues.

The objective of this book is to provide a critical analysis of the present prevention strategies for breast cancer, emphasizing the cost benefits and quality of life of the patient. Rooted in the present knowledge of breast cancer biology and prevention and treatment options, the book will describe the future tools that could be available to oncologists and how these new approaches may change the landscape of recurrence and survival of the disease. Special emphasis will be given to the prevention strategies counterposing the present limitations and conflicting prevention guidelines for both hereditary and preventive non-hereditary breast cancer, and propose how the implementation of new strategies based on the present knowledge could save millions of lives and be more cost efficient. The book will present a critical status of the treatment and prevention of breast cancer and detail how a quantum leap could be achieved in the field by applying present basic research knowledge to clinical application.

This monograph, written by well renowned breast cancer expect, Dr. Jose Russo, provides new insight on the pathobiology of breast cancer from the most current advances in the field, translational research, initiation and progression of the disease, the mechanism of invasion and metastasis and the concept of stem cells in treatment and drug resistance. The role of personalized medicine and genomic testing are also explored, which will provide a window to the future progress of cancer care.

This volume, with contributions from the most recognized experts in preventive strategies in breast cancer, presents the accepted as well as the novel ideas that have been introduced for the prevention of breast cancer. There is no single preventive agent that can stop the incidence of breast cancer-the malignant disease most frequently diagnosed in women of all races and nationalities. Furthermore, its incidence around the globe is increasing in industrialized countries. The worldwide incidence of breast cancer has increased 30-40% since the 1970s, reaching an excess of 1,390,000 new cases and a mortality of more than 460,000 cases in 2015. Therefore, what is needed is the development of rational strategies for the prevention of this fatal disease.

This volume explores the myriad of techniques and methodological approaches that are being used in breast cancer research. The authors critically evaluate of the advantages and disadvantages of current methodologies, starting with the tools available for understanding the architecture of the human breast, including its tissue and cellular composition. The volume discusses the importance of functional studies in breast cancer research, especially with the help of laser capture microdissection, which allows the separation of small amounts of tissue, as well as specific cells, for biochemical analysis. In addition, the authors address methodologies including stem cell separation, which has helped in significantly understanding their role in normal breast development, but also further the understanding of breast cancer and its therapeutic management. The use of in vitro techniques and established cell lines for mechanistic studies in chemotherapeutic approaches have been invaluable will be discussed. Imaging techniques for evaluating in vitro and in vivo behavior of normal and cancerous breast tissue will be explored, as it provides a better understanding of the physiopathology of cancer. The volume will also discuss the molecular analysis of gene function in breast cancer through the transcriptomic and epigenomic profile. More importantly, the advancement of more refined techniques in sequencing will be covered. This monograph will be a comprehensive, authoritative and timely, as it addresses the emerging approaches used in breast cancer research.

This book will provide the latest advances in molecular and cellular biology for establishing the foundation of a complete understanding of the mechanisms of breast differentiation leading to cancer prevention. The authors are based on the epidemiological evidence indicating that early first full term pregnancy is a protective factor in human against breast cancer and they have used this paradigm and developed experimental systems in both in vivo and in vitro that have demonstrated mechanistically how the differentiation at the organ and cellular level takes place. This knowledge has provided the blueprint for developing better understanding of the basis of cancer prevention. The transcriptoma analysis of the breast of pre and post-menopausal women has established a genomic signature imprinted in the breast that differs according to the reproductive history of the woman showing that early first full term pregnancy reprogram the organ. This reprogramming takes place at the chromatin level by changing the transcriptional process. The modification of the transcriptional control is due to the expression of non coding RNA sequences and posttranscriptional control driven by the splicesome. The plasticity of the genome of the human breast make possible this reprogramming that is not only induced by the physiological process of pregnancy but by the use of hormones that mimic pregnancy without pregnancy. The author have established the basis of clinical trials for prevention and the discovery that short 15aa peptides of the chorionic gonadotropin hormone can be used in human breast cancer prevention based on preclinical and clinical data.

Breast cancer is a complex disease caused by multiple environmental and lifestyle factors interacting with genetic susceptibility across the life span. Therefore, environmental factors are of intense interest to both researchers and community members, including women with breast cancer. There is not adequate literature that addresses this issue comprehensively from epidemiological, experimental, and translational research perspective. This book is aiming to fill this gap by gathering chapters from the most recognized experts in the field of breast biology and cancer with special interests in environmental issues.

The book will provide an exhaustive and clear explanation of how Statistics, Mathematics and Informatics have been used in cancer research, and seeks to help cancer researchers in achieving their objectives. To do so, state-of-the-art Biostatistics, Biomathematics and Bioinformatics methods will be described and discussed in detail through illustrative and capital examples taken from cancer research work already published. The book will provide a guide for cancer researchers in using Statistics, Mathematics and Informatics, clarifying the contribution of these logical sciences to the study of cancer, thoroughly explaining their procedures and methods, and providing criteria to their appropriate use.

There is no doubt that the advent of immunocytochemical techniques, by enhancing our ability to detect specific cell products or markers, has opened new avenues in the understanding of human diseases, and in our ability to perform better diagnosis in surgical pathology. The rapid development of this field has resulted in thousands of publications in the literature regarding immunocytochemistry in diagnostic pathology. This explosion of knowledge makes necessary publications summarizing what are the main markers available and how they can be used in the diagnosis of tumors. The need of a more organized and structured knowledge was evident during the workshop in Immunocytochemistry of Tumor Diagnosis that took place in the City of Detroit an October 1984. This book is the result of that workshop in which 22 chapters are focusing an the main subject of differential diagnosis of tumors. Jose Russo, M.D. Editor xiii ACKNOWLEDGEMENTS I wish to thank my many associates at the Michigan Cancer Foundation for their help in the preparation of this manuscript. I give thanks to Dr.