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Lymphoma
A cutting-edge collection of readily reproducible molecular techniques to better understand, classify, and treat lymphoma. Among the highlights are methods to use immunoglobulin gene rearrangements as markers of clonality, to exploit patterns of somatic mutation in the variable regions to indicate at which stage transformation occurred, and to apply gene arrays to the question of biological heterogeneity in morphologically similar diseases. Research methodologies that are highly likely to become routine practice in the future, such as DNA microarray and immunoglobulin V-gene rearrangements, and measurement of minimal disease, are included. There are also molecular techniques for providing for producing novel therapeutics, such as a DNA vaccine with patient-specific sequences derived from the lymphoma in question.
Pancreatic Cancer
Pancreatic ductal adenocarcinoma is the fourth leading cause of cancer death in the United States. Annually approximately 30,000 Americans are diagnosed with the disease and most will die from it within five years. P- creatic ductal adenocarcinoma is unique because of its late onset in age, high mortality, small tumor samples infiltrated with normal cells, and a lack of both early detection and effective therapies. Some of these characteristics have made studying this disease a challenge. Pancreatic cancer develops as a result of the accumulation of genetic alterations in cancer-causing genes, such as the oncogenes and the tumor-s- pressor genes. In the last decade, major progress has been m...
Molecular Cardiology
The aim of Molecular Cardiology: Methods and Protocols is to document state-of-the-art molecular and genetic techniques in the area of cardiology. These modern approaches enable researchers to readily study heart diseases at the molecular level and will promote the development of new therapeutic str- egies. Methods for genetic dissection, signal transduction, and microarray analysis are excellent tools for the study of the molecular mechanisms of cardiovascular diseases. Protocols for transgenesis take advantage of recent advances in many areas of molecular and cell biology. Transgenic models of heart diseases (cardiac hypertrophy, cardiac dysfunction, and so on. ) are powerful tools for the...
Human Papillomaviruses
Leading basic researchers and clinical scientists describe in detail a wide variety of established and cutting-edge techniques they have developed to study the lifecycle and biological properties of the human papillomavirus. The authors use these readily reproducible methods, ranging from PCR to propagation of HPV in vitro, to detect and type papillomavirus infections, study the papillomavirus lifecycle, and to produce and functionally analyze papillomavirus proteins. The protocols follow the successful Methods in Molecular MedicineTM series format, each offering step-by-step laboratory instructions, an introduction outlining the principles behind the technique, lists of the necessary equipment and reagents, and tips on troubleshooting and avoiding known pitfalls.
Autoimmunity
“Research is to see what everybody else has seen, and to think what nobody else has thought. ” — Albert Szentgyörgyi Autoimmunity: Methods and Protocols is intended to serve as a ready-to-use guide to establish and interrogate human and animal models of autoimmune diseases. The first chapter, “Pathogenesis and Spectrum of Autoimmunity,” discusses major hypotheses driving this most tantalizing area of research since Paul Ehrlich proposed the concept of autoimmunity in 1900. Considering the great diversity and ever-changing spectrum of autoimmunity, it has not been possible to include models and experimental protocols for each known disorder. Rather, several chapters have been devot...
Magnetic Resonance Imaging
Leading experts in the use of MRI explain its basic principles and demonstrate its power to understand biological processes with numerous cutting-edge applications. To illustrate its capability to reveal exquisite anatomical detail, the authors discuss MRI applications to developmental biology, mouse phenotyping, and fiber architecture. MRI can also provide information about organ and tissue function based on endogenous cantrast mechanisms. Examples of brain, kidney, and cardiac function are included, as well as applications to neuro and tumor pathophysiology. In addition, the volume demonstrates the use of exogenous contrast material in functional assessment of the lung, noninvasive evaluation of tissue pH, the imaging of metabolic activity or gene expression that occur on a molecular level, and cellular labeling using superparamagnetic iron oxide contrast agents.
Chemosensitivity
A state-of-the art collection of readily reproducible laboratory methods for assessing chemosensitivity in vitro and in vivo, and for assessing the parameters that modulate chemosensitivity in individual tumors. Chemosensitivity, Volume 1: In Vitro Assays provides a panel of 16 in vitro measures of chemosensitivity in adherent and non-adherent cells for single agents and combinations of agents. In addition to immunohistochemical and imaging approaches, these assays include clonogenic, colorimetric, fluorometric, and physiological assays. Highlights include image analysis to assess drug sensitivity, high throughput approaches using green fluorescent protein, DIMSCAN (a microcomputer fluorescence-based assay), and the ChemoFx assay used in biotechnology. A companion volume, Volume 2: In Vivo Models, Imaging, and Molecular Regulators, provides protocols for classifying tumors into response categories and customizing chemotherapy regimens to individual patients.
Hypertension
A collection of new and essential molecular techniques for cardiovascular research. These readily reproducible methods range widely from producing congenic, consomic, transgenic, and knockout models of hypertension to the gene transfer of specific genetic material using nonviral (polymers, liposomes, and antisense agents) and adenoviral vectors. Additional techniques described include single nucleotide polymorphism (SNP) genotyping, RNA interference, microarray analysis, pharmacogenetics, and pharmacogenomics for the genetic dissection of hypertension, as well as a practical method for deriving cardiomyocytes from embryonic stem cells that would serve as replacement cells for those damaged by hypertension or heart attack. The book offers both novice and experienced hypertension researchers an indispensable collection of readily reproducible techniques for successful research, work that has already dramatically improved the outlook for hypertensive patients, and promises much future success.
Myeloid Leukemia
A panel of internationally recognized research scientists and clinical investigators brings together a diverse collection of readily reproducible methods for identifying and quantifying a large number of specific genetic abnormalities associated with the broad spectrum of myeloid malignancies. Highlights include techniques for the detection of BCR-ABL mutations and resistance to imatinib mesylate, detection of the FIP1L1-PDGFRA fusion in idiopathic hypereosinophilic syndrome and chronic eosinophilic leukemia, classification of AML by DNA-oligonucleotide microarrays, and detection of the V617F JAK2 mutation in myeloproliferative disorders. In addition to gene rearrangments, other prognostically relevant molecular lesions such as FLT3 mutations and WT-1 overexpression are covered.
Adoptive Immunotherapy
An authoritative collection of optimal techniques for producing and characterizing the immunologically active cells and effector molecules now gaining wide use in the clinical treatment of patients. Taking advantage of the latest technologies, the authors present readily reproducible experimental protocols for the study of dendritic cells, T cells, monoclonal antibodies, and bone marrow transplantation. The emphasis is on preclinicical and clinical applications and on the progress of selected approaches in clinical trials. Additional chapters cover the molecular definition of target antigens, mathematical modeling approaches to immunotherapy, and the utilization of regulatory T cells. The protocols make it possible to study the adoptive transfer of tailored antigen-specific immune cells and to improve the clinical application of adoptive immunotherapy.
