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The era of molecular pathology has arrived. From its promising beg- nings in research laboratories, the field has grown, and continues to grow, to become a vital part of the care of an ever-increasing number of patients. Because of its recent emergence from the research taboratory, many molecuIar pathology protocols we still to be found in the primary litcramre, and have not appeared in a text. MO~PCU~Q~ Padhoiogy Protocob contains la- ratory protocoIs that have been developed by many of the authors for use in clinical molecular pathology laboratories and describe in detail Row to perform these assays. This book is therefore intended for clinical laboratory use by medical technologists and pathologists. It will dso be of interest to research workers who are performing these assays. In its broadest meaning, pathology is the study of disease, and therefore it follows that any disease for which the molecular basis is understood would be suitable as a topic for inclusion in this work. When seiecting protocols, it was necessary to place limits on the number of chapters that could be feasibly presented in a single work. Those protoculs that were selected are performed more frequently, or have achieved recognition as having important diagnostic utility in contemporary practice. A decision was made to exclude inherited genetic diseases with certain exceptions, such as those diseases that are associated with thrombotic states and are part of the traditional dumain of pathology.
We are currently experiencing a fundamental shift in the way in which we approach the characterization of cancer. Never before has the make up of cancer tissues and individual cells been so exhaustively researched and char- terized. We are now capable of producing molecular “fingerprints” that ch- acterize the expression of all known and unknown genes within tumors and their surrounding tissues. More than 30,000 different genes may be measured in each patient’s tumor in a single experiment. Simultaneously, novel therapies that exploit the molecular roadmap have been developed and are now being offered to patients. These novel agents, such as Glivec, Herceptin, Iressa, and others, specifically target individual genes within tumors and can produce d- matic responses in some patients. These drugs are only the forerunners of a coming tidal wave of novel therapeutics that individually target specific m- ecules within cancer cells—more than 300 such agents are currently in phase I or II clinical trials. This is an exciting time for cancer specialists and patients alike. However, if we have learned anything from the past 50 or more years of research into cancer, it is that Lord Beaverbrook, in founding the British national health service in the 1950s, was frighteningly prescient when he defined the primary goal of health care to be “Diagnosis, Diagnosis, Diag- sis. ” Now, more than ever, it is essential that appropriate diagnostic methods and approaches are applied to the selection of patients for treatment.
In Situ Molecular Pathology and Co-Expression Analyses explains, in easy-to-understand language, simplified ways of understanding and performing in situ hybridization and immunohistochemistry tests. The book also focuses on straightforward protocols used to simultaneously detect two or more proteins/nucleic acids within intact tissue by doing co-expression analyses. The fields of in situ hybridization and immunohistochemistry have expanded rapidly due to the use of computer-based analysis. To get the most out of these automated platforms, researchers and diagnostic biomedical investigators must have a solid understanding of the basics of in situ-based tests, protocols, and regimens for troubleshooting. Practicing molecular pathologists, clinical chemists, and toxicologists, as well as clinicians and researchers in training, will benefit from this book's clear presentation of protocols and theoretical framework. - Includes over 200 easy-to-follow experimental protocols - Features chapter-ending summaries of "Key Points to Remember" to bring beginners up to speed with any seasoned veteran in the field - Offers two chapters written by industry leaders in the fields of in situ hybridization, immunohistochemistry, and computer software for co-expression analyses
This essential methods manual for immunohematologists (or hematologists and immunohematologists) provides information on genes that encode antigens on red blood cells, platelets and neutrophils. The book begins by covering general concepts in molecular biology and specific protocols such as DNA preparation, PCR-RFLP and allele-specific PCR. Information on the erythrocyte, platelet and neutrophil antigen systems and the molecular basis of polymorphisms are presented clearly in a gene facts sheet format. Database accession numbers and useful adjuncts such as Request forms, worksheets for PCR/enzyme digests also serve to benefit the user. The information is clearly presented and easily accessible and is complemented by the excellent diagrams and tabular material. This book is invaluable for both new and experienced researchers in the field and other related disciplines. - Essential for hematologists and those involoved in tissue typing and the study of human genetic polymorphisms - Presents clearly and concisely the information on a particular variant and the technique used to detect it - Organized by antigen and provides sequences of polymorphisms and primers - Details the general concepts and critical information on genes, their products, and sources of relevant nucleic acids - Includes protocols that allow investigators to set up assays with minimal effort (protocols include primers, reagents, reaction conditions, sizes of amplified products, restriction fragment digests, and the relevant safety information) - Provides information that helps interpret results in clinical settings - Contains additional sources of information (e.g., key references, web site addresses, glossary, Database accession numbers, request forms, and worksheets for PCR/enzyme digests)
Principles and Applications of Molecular Diagnostics serves as a comprehensive guide for clinical laboratory professionals applying molecular technology to clinical diagnosis. The first half of the book covers principles and analytical concepts in molecular diagnostics such as genomes and variants, nucleic acids isolation and amplification methods, and measurement techniques, circulating tumor cells, and plasma DNA; the second half presents clinical applications of molecular diagnostics in genetic disease, infectious disease, hematopoietic malignancies, solid tumors, prenatal diagnosis, pharmacogenetics, and identity testing. A thorough yet succinct guide to using molecular testing technology, Principles and Applications of Molecular Diagnostics is an essential resource for laboratory professionals, biologists, chemists, pharmaceutical and biotech researchers, and manufacturers of molecular diagnostics kits and instruments. - Explains the principles and tools of molecular biology - Describes standard and state-of-the-art molecular techniques for obtaining qualitative and quantitative results - Provides a detailed description of current molecular applications used to solve diagnostics tasks
This book provides up-to-date and practical knowledge in all aspects of whole slide imaging (WSI) by experts in the field. This includes a historical perspective on the evolution of this technology, technical aspects of making a great whole slide image, the various applications of whole slide imaging and future applications using WSI for computer-aided diagnosis The goal is to provide practical knowledge and address knowledge gaps in this emerging field. This book is unique because it addresses an emerging area in pathology for which currently there is only limited information about the practical aspects of deploying this technology. For example, there are no established selection criteria for choosing new scanners and a knowledge base with the key information. The authors of the various chapters have years of real-world experience in selecting and implementing WSI solutions in various aspects of pathology practice. This text also discusses practical tips and pearls to address the selection of a WSI vendor, technology details, implementing this technology and provide an overview of its everyday uses in all areas of pathology. Chapters include important information on how to integrate digital slides with laboratory information system and how to streamline the “digital workflow” with the intent of saving time, saving money, reducing errors, improving efficiency and accuracy, and ultimately benefiting patient outcomes. Whole Slide Imaging: Current Applications and Future Directions is designed to present a comprehensive and state-of the-art approach to WSI within the broad area of digital pathology. It aims to give the readers a look at WSI with a deeper lens and also envision the future of pathology imaging as it pertains to WSI and associated digital innovations.
A huge amount of fixed and paraffin-embedded tissue is stored in every hospital. This is very precious material that can be used for translational research and for diagnostics. The molecular methods employed for analysis of these tissues are similar to the usual molecular biology and proteomics methods, but reliable results can be obtained only if specific steps are followed with great care. This book provides detailed and precise guidelines for molecular analysis of archive tissues and will serve as an invaluable aid for researchers and pathologists involved in translational research and diagnostics. Clear notes and explanations are included to simplify use of the protocols for the less experienced. The authors are a group of acknowledged experts who have developed the described methods and validated them within the European project "Archive Tissues: Improving Molecular Medicine Research and Clinical Practice - IMPACTS", which has involved 21 leading institutions in 11 countries.
Using molecular methods for plant disease diagnosis provides diagnosticians with a number of advantages over more traditional methods. They can allow the identification of morphologically similar species, for example, or the detection of infection prior to symptom formation. Not only can molecular tools help by increasing the efficacy, accuracy and speed of diagnosis; their common technological basis provides further benefits, especially where resources are limited and traditional skills are hard to sustain. This book provides protocols for nucleic acid-based methods currently applied to plant pathogen detection and identification. It takes the practitioner through the full range of molecular diagnostic and detection methods and, as these generic techniques are appropriate for use on any target with minimal modification, also provides a useful resource for students of plant pathology and plant pathologists. Beginning with the background and future directions of the science, it then addresses DNA barcoding, microarrays, polymerase chain reactions (PCR), quality assurance and more, forming a complete reference on the subject.
Molecular Genetic Pathology, Second Edition presents up-to-date material containing fundamental information relevant to the clinical practice of molecular genetic pathology. Fully updated in each area and expanded to include identification of new infectious agents (H1N1), new diagnostic biomarkers and biomarkers for targeted cancer therapy. This edition is also expanded to include the many new technologies that have become available in the past few years such as microarray (AmpliChip) and high throughput deep sequencing, which will certainly change the clinical practice of molecular genetic pathology. Part I examines the clinical aspects of molecular biology and technology, genomics. Poharmacogenomics and proteomics, while Part II covers the clinically relevant information of medical genetics, hematology, transfusion medicine, oncology, and forensic pathology. Supplemented with many useful figures and presented in a helpful bullet-point format, Molecular Genetic Pathology, Second Edition provides a unique reference for practicing pathologists, oncologists, internists, and medical genetisists. Furthermore, a book with concise overview of the field and highlights of clinical applications will certainly help those trainees, including pathology residents, genetics residents, molecular pathology fellows, internists, hematology/oncology fellows, and medical technologists in preparing for their board examination/certification.