the drama of the front lines.”
-Richard Danzig, former secretary of the navy
The first major bioterror event in the United States-the anthrax attacks in October 2001-was a clarion call for scientists who work with “hot” agents to find ways of protecting civilian populations against biological weapons. In The Demon in the Freezer, his first nonfiction book since The Hot Zone, a #1 New York Times bestseller, Richard Preston takes us into the heart of Usamriid, the United States Army Medical Research Institute of Infectious Diseases at Fort Detrick, Maryland, once the headquarters of the U.S. biological weapons program and now the epicenter of national biodefense.
Peter Jahrling, the top scientist at Usamriid, a wry virologist who cut his teeth on Ebola, one of the world’s most lethal emerging viruses, has ORCON security clearance that gives him access to top secret information on bioweapons. His most urgent priority is to develop a drug that will take on smallpox-and win. Eradicated from the planet in 1979 in one of the great triumphs of modern science, the smallpox virus now resides, officially, in only two high-security freezers-at the Centers for Disease Control in Atlanta and in Siberia, at a Russian virology institute called Vector. But the demon in the freezer has been set loose. It is almost certain that illegal stocks are in the possession of hostile states, including Iraq and North Korea. Jahrling is haunted by the thought that biologists in secret labs are using genetic engineering to create a new superpox virus, a smallpox resistant to all vaccines.
Usamriid went into a state of Delta Alert on September 11 and activated its emergency response teams when the first anthrax letters were opened in New York and Washington, D.C. Preston reports, in unprecedented detail, on the government’s response to the attacks and takes us into the ongoing FBI investigation. His story is based on interviews with top-level FBI agents and with Dr. Steven Hatfill.
Jahrling is leading a team of scientists doing controversial experiments with live smallpox virus at CDC. Preston takes us into the lab where Jahrling is reawakening smallpox and explains, with cool and devastating precision, what may be at stake if his last bold experiment fails.
This edition includes greatly expanded focus on stem cells, including adult and embryonic stem cells and progenitor populations that may soon lead to new tissue engineering therapies for heart disease, diabetes, and a wide variety of other diseases that afflict humanity. This up-to-date coverage of stem cell biology and other emerging technologies is complemented by a series of new chapters on recent clinical experience in applying tissue engineering. The result is a comprehensive textbook that we believe will be useful to students and experts alike.
New to this edition:
*Includes new chapters on biomaterial-protein interactions, nanocomposite and three-dimensional scaffolds, skin substitutes, spinal cord, vision enhancement, and heart valves
*Expanded coverage of adult and embryonic stem cells of the cardiovascular, hematopoietic, musculoskeletal, nervous, and other organ systems
Life is the most extraordinary phenomenon in the known universe; but how did it come to be? Even in an age of cloning and artificial biology, the remarkable truth remains: nobody has ever made anything living entirely out of dead material. Life remains the only way to make life. Are we still missing a vital ingredient in its creation?
Using first-hand experience at the cutting edge of science, Jim Al-Khalili and Johnjoe Macfadden reveal that missing ingredient to be quantum mechanics. Drawing on recent ground-breaking experiments around the world, each chapter in Life on the Edge illustrates one of life's puzzles: How do migrating birds know where to go? How do we really smell the scent of a rose? How do our genes copy themselves with such precision? Life on the Edge accessibly reveals how quantum mechanics can answer these probing questions of the universe.
Guiding the reader through the rapidly unfolding discoveries of the last few years, Al-Khalili and McFadden describe the explosive new field of quantum biology and its potentially revolutionary applications, while offering insights into the biggest puzzle of all: what is life? As they brilliantly demonstrate in these groundbreaking pages, life exists on the quantum edge.
– Winner, Stephen Hawking Medal for Science Communication
With the dawn of science, blood came to be seen as a component of human anatomy, capable of being isolated, studied, used. Starr describes the first documented transfusion: In the seventeenth century, one of Louis XIV's court physicians transfers the blood of a calf into a madman to "cure" him. At the turn of the twentieth century a young researcher in Vienna identifies the basic blood groups, taking the first step toward successful transfusion. Then a New York doctor finds a way to stop blood from clotting, thereby making all transfusion possible.
In the 1930s, a Russian physician, in grisly improvisation, successfully uses cadaver blood to help living patients--and realizes that blood can be stored. The first blood bank is soon operating in Chicago.
During World War II, researchers, driven by battlefield needs, break down blood into usable components that are more easily stored and transported. This "fractionation" process--accomplished by a Harvard team--produces a host of pharmaceuticals, setting the stage for the global marketplace to come. Plasma, precisely because it can be made into long-lasting drugs, is shipped and traded for profit; today it is a $5 billion business.
The author recounts the tragic spread of AIDS through the distribution of contaminated blood products, and describes why and how related scandals have erupted around the world. Finally, he looks at the latest attempts to make artificial blood.
Douglas Starr has written a groundbreaking book that tackles a subject of universal and urgent importance and explores the perils and promises that lie ahead.
This new edition discusses biological systems that can be analyzed quantitatively, and how advances in the life sciences have been aided by the knowledge of physical or engineering analysis techniques. The volume is organized into 18 chapters encompassing thermodynamics, electricity, optics, sound, solid mechanics, fluid mechanics, and atomic and nuclear physics. Each chapter provides a brief review of the background physics before focusing on the applications of physics to biology and medicine. Topics range from the role of diffusion in the functioning of cells to the effect of surface tension on the growth of plants in soil and the conduction of impulses along the nervous system. Each section contains problems that explore and expand some of the concepts. The text includes many figures, examples and illustrative problems and appendices which provide convenient access to the most important concepts of mechanics, electricity, and optics in the body.
Physics in Biology and Medicine will be a valuable resource for students and professors of physics, biology, and medicine, as well as for applied health workers.Provides practical techniques for applying knowledge of physics to the study of living systemsPresents material in a straight forward manner requiring very little background in physics or biologyIncludes many figures, examples and illustrative problems and appendices which provide convenient access to the most important concepts of mechanics, electricity, and optics in the body
The Olympics are the world's most prestigious stage for athletic competition. Fans both casual and hardcore tune in religiously every few years to watch as men and women push themselves to the limits of human performance. But what makes a champion? Is it genetics? Hours of training? A psychological advantage? Of all the athletes who dedicate their lives - and bodies - to achieving that perfect moment of triumph, why will one person or team win out over another? Science has some compelling answers, and in this book, The Science of Sports: Winning in the Olympics, Scientific American explores this topic from various angles. Beginning with Section 1: The Psychology of Winning, the book opens with a look inside the mind of an elite athlete and tackles questions of how to face a rivalry or maintain a positive attitude in the face of defeat. Other sections discuss the sticky issues surrounding genetic advantages and physical prowess, drugs and doping, injury and recovery, and - finally - the latest scientific advice for the rest of us mere mortals to be fit and healthy. You'll find both inspiration and answers in this indispensable book from the editors of Scientific American, the leading authority on science, technology and innovation.
For more than three decades, millions of consumers have trusted The Pill Book to provide official, FDA-approved information on more than 1,800 of the most commonly prescribed drugs in the United States with guidelines from leading pharmacists. Each drug is profiled in a concise, readable, easy-to-understand entry, making The Pill Book the perfect reference when you have questions about the medications your doctor prescribes. Inside you’ll discover
• generic and brand-name listings that can help you save money
• What each drug is for, and how it works
• usual dosages, and what to do if a dose is skipped
• side effects and possible adverse reactions, highlighted for quick reference
• interactions with other drugs and food
• overdose and addiction potential
• alcohol-free and sugar-free medications
• the most popular self-injected medications and their safe handling
• information for seniors, pregnant and breast-feeding women, children, and others with special needs
• cautions and warnings, and when to call your doctor
• 32 pages of actual-size color photographs of prescription pills*
No home should be without this book!
*Not all ereading devices will show the images in color and at the exact size.
This well-known handbook presents the experience of a world leader in the field of blood banking and transfusion therapy. Transfusion Medicine offers complete guidance on the full range of topics from donor recruitment, blood collection and storage, to testing and transfusing blood components, complications and transmissible diseases, as well as cellular engineering, therapeutic apheresis, and the role of hematopoietic growth factors.
This third edition includes updated information on a number of areas including:Current debate on clinical effects of stored red blood cells Emerging infectious diseases and impact on blood safety New concepts of massive transfusion World blood supply Platelet transfusion Pathogen inactivation
Transfusion Medicine will be valuable to all those working in the field of blood banking and transfusion. It is a good introduction to transfusion for hematology or oncology fellows and technologists specialising in blood banking.
Interested in unraveling the physics of living things? Here's your starting point. Biophysics Demystified is the fast and easy way to understand this fascinating topic.
Written in a step-by-step format, this practical guide begins with an introduction to the science of biophysics, covering biophysical techniques and applications. Next, you'll learn the principles of physics, biology, and chemistry required to understand biophysics, including free energy, entropy, and statistical mechanics. Biomolecules and the forces that influence their structure and conformation are also covered, as are protein, nucleic acid, and membrane biophysics. Detailed examples and concise explanations make it easy to understand the material, and end-of-chapter quizzes and a final exam help reinforce key concepts.
It's a no-brainer! You'll get:Molecular, subcellular, physiological, anatomical, and environmental biophysics The laws of thermodynamics as they apply to biophysical systems Forces affecting conformation in biological molecules The composition and structure of carbohydrates, lipids, proteins, and nucleic acids The fluid mosaic model
Simple enough for a beginner, but challenging enough for an advanced student, Biophysics Demystified makes this interdisciplinary subject easy to master.
One of the most diverse of modern scientific disciplines, biophysics applies methods and technologies from physics to the study of biological systems and phenomena, from the human nervous system to soil erosion to global warming. What are the best options for satisfying the world's growing energy demands? How can we feed the world's growing population? How can we contain, or reverse, global warming? How can we vouchsafe a plentiful supply of potable water for future generations? These are among the critical questions to which biophysicists work to provide answers.Biophysics courses are increasingly taken by students of biology, physics, chemistry, biochemistry, physiology, statistics, bioengineering, neuroscience, computer science, pharmacology, agriculture,and many more Provides a friendly, unintimidating overview of the material covered in a typical college-level biophysics course A one-stop reference, course supplement and exam preparation tool for university students currently enrolled in an introductory biophysics courses An indispensable resource for those studying the natural sciences, biological sciences, and physics, as well as math, statistics,computer science, pharmacology and many other disciplines The current job market for people well versed in biophysics is very strong, and biophysics is currently listed as one of the fast-growing occupations in the North America
The handbook begins with a series of historical vignettes of pioneers from the last two centuries. It also presents the fundamentals of physics and biology as applied to photomedicine. It next examines conditions and diseases caused by light, including skin cancer, dermatoses, and immunosuppression.
The remainder of the book focuses on the most important clinical therapeutic applications of different kinds of light that vary in both wavelength and intensity. The book discusses ultraviolet phototherapy for skin diseases and infections and presents the basic science of photodynamic therapy and its use in cancer therapy and other medical specialties. It then covers mechanistic studies and clinical applications of low-level laser (light) therapy as well as the use of high power or surgical laser therapy in specialties, such as dentistry and dermatology. The book concludes with a collection of miscellaneous types of phototherapy.
This new edition of Haematology at a Glance:
• Features expanded sections on the underlying mechanisms, diagnostic techniques and management of the malignant haematological diseases. Also incorporates recent advances in knowledge of thrombosis and the newer oral anticoagulants
• Contains the very latest clinical treatments
• Includes updated illustrations and clinical photographs to illustrate concepts and aid understanding
• Features extensive online self-assessment at www.ataglanceseries.com/haematology
This book is an invaluable resource for medical students and health professionals wanting to consolidate and expand their knowledge of haematology.
Enables both the haematologist and laboratory scientist to identify blood cell features, from the most common to the more obscure
Provides essential information on methods of collection, blood film preparation and staining, together with the principles of manual and automated blood counts
Completely revised and updated, incorporating much newly published information: now includes advice on further tests when a specific diagnosis is suspected
Four hundred high quality photographs to aid with blood cell identification
Highlights the purpose and clinical relevance of haematology laboratory tests throughout
Taking a unique multi-disciplinary approach, the book covers conventional histopathology and cytopathology, as well as all important complementary diagnostic tests, such as immunophenotyping (immunohistochemical stains and flow cytometry), karyotyping, FISH and DNA/molecular studies. It offers concise textual and extensive visual coverage of both neoplastic and non-neoplastic hematology disorders, with the neoplastic hematology sections presented according to the most recent WHO classifications. There is also an introduction to the normal structures of hematopoietic tissues and the various multidisciplinary techniques.
The atlas contains more than 900 high-quality color images that mirror the findings that fellows and clinicians encounter in practice. It provides information in a quick, simple and user-friendly manner, attracting those who are in training or are not considered experts in the field. Residents, fellows, practicing clinicians, and researchers in pathology, hematology, hematology/oncology, as well as graduate students in pathology and other clinicians workings in clinical hematology laboratories will all find it useful.Saves clinicians and researchers time in quickly accessing the very latest details on the diverse clinical and scientific aspects of hematopathology, as opposed to searching through thousands of journal articles For clinicians, fellows, and residents, correct diagnosis (and therefore correct treatment) of diseases depends on a strong understanding of the molecular basis for the disease – hematologists, pathologists, oncologists, and other clinicians will benefit from this clear, focused, annotated format
Companion web site features over 900 images from the book!
This concise introductory paperback surveys and relates basic physics to living systems. It discusses biological systems that can be analyzed quantitatively, and how advances in the life sciences have been aided by the knowledge of physical or engineering analysis techniques.
This text is designed for premed students, doctors, nurses, physiologists, or other applied health workers, and other individuals who wish to understand the nature of the mechanics of our bodies.
- Provides practical techniques for applying knowledge of physics to the study of living systems
- Presents material in a straight forward manner requiring very little background in physics or biology
- Includes many figures, examples and illustrative problems and appendices which provide convenient access to the most important concepts of mechanics, electricity, and optics
At thirty-one David biro has just completed his residency and joined his father's successful dermatology practice. Struck with a rare blood disease that eventually necessitates a bone marrow transplant, Biro relates with honesty and courage the story of his most transforming journey. He is forthright about the advantages that his status as a physician may have afforded him; and yet no such advantage can protect him from the anxiety and doubt brought on by his debilitating therapies. The pressures that Biro's wild "one hundred days" brings to bear on his heretofore well-established identity as a caregiver are enormous--as is the power of this riveting story of survival.
From the Trade Paperback edition.
Every brain begins as a female brain. It only becomes male eight weeks after conception, when excess testosterone shrinks the communications center, reduces the hearing cortex, and makes the part of the brain that processes sex twice as large.
Louann Brizendine, M.D. is a pioneering neuropsychiatrist who brings together the latest findings to show how the unique structure of the female brain determines how women think, what they value, how they communicate, and whom they’ll love. Brizendine reveals the neurological explanations behind why
• A woman remembers fights that a man insists never happened
• A teen girl is so obsessed with her looks and talking on the phone
• Thoughts about sex enter a woman’s brain once every couple of days but enter a man’s brain about once every minute
• A woman knows what people are feeling, while a man can’t spot an emotion unless somebody cries or threatens bodily harm
• A woman over 50 is more likely to initiate divorce than a man
Women will come away from this book knowing that they have a lean, mean communicating machine. Men will develop a serious case of brain envy.
As advances in algorithms and computer technology have bolstered the digital signal processing capabilities of real-time sonar, radar, and non-invasive medical diagnostics systems, cutting-edge military and defense research has established conceptual similarities in these areas. Now civilian enterprises can use government innovations to facilitate optimal functionality of complex real-time systems. Advanced Signal Processing details a cost-efficient generic processing structure that exploits these commonalities to benefit commercial applications.
Learn from a Renowned Defense Scientist, Researcher, and Innovator
The author preserves the mathematical focus and key information from the first edition that provided invaluable coverage of topics including adaptive systems, advanced beamformers, and volume visualization methods in medicine. Integrating the best features of non-linear and conventional algorithms and explaining their application in PC-based architectures, this text contains new data on:
Advances in biometrics, image segmentation, registration, and fusion techniques for 3D/4D ultrasound, CT, and MRI
Fully digital 3D/ (4D: 3D+time) ultrasound system technology, computing architecture requirements, and relevant implementation issues
State-of-the-art non-invasive medical procedures, non-destructive 3D tomography imaging and biometrics, and monitoring of vital signs
Cardiac motion correction in multi-slice X-ray CT imaging
Space-time adaptive processing and detection of targets interference-intense backgrounds comprised of clutter and jamming
With its detailed explanation of adaptive, synthetic-aperture, and fusion-processing schemes with near-instantaneous convergence in 2-D and 3-D sensors (including planar, circular, cylindrical, and spherical arrays), the quality and illustration of this text’s concepts and techniques will make it a favored reference.
Developed at MIT in collaboration with award-winning high school teachers, BioBuilder teaches the foundational ideas of the emerging synthetic biology field, as well as key aspects of biological engineering that researchers are exploring in labs throughout the world. These lessons will empower teachers and students to explore and be part of solving persistent real-world challenges.Learn the fundamentals of biodesign and DNA engineeringExplore important ethical issues raised by examples of synthetic biologyInvestigate the BioBuilder labs that probe the design-build-test cycleTest synthetic living systems designed and built by engineersMeasure several variants of an enzyme-generating genetic circuitModel "bacterial photography" that changes a strain’s light sensitivityBuild living systems to produce purple or green pigmentOptimize baker’s yeast to produce ?-carotene
Each chapter of the book investigates a facet of the physical world, including the drag on small projectiles; the importance of diffusion and convection; the size-dependence of acceleration; the storage, conduction, and dissipation of heat; the relationship among pressure, flow, and choice in biological pumps; and how elongate structures tune their relative twistiness and bendiness. Vogel considers design-determining factors all too commonly ignored, and builds a bridge between the world described by physics books and the reality experienced by all creatures. Glimpses of Creatures in Their Physical Worlds contains a wealth of accessible information related to functional biology, and requires little more than a basic background in secondary-school science and mathematics.
Drawing examples from creatures of land, air, and water, the book demonstrates the many uses of biological diversity and how physical forces impact biological organisms.
This book provides a roadmap to the broad and varied career development opportunities in bioengineering, biotechnology, and related fields. Eminent practitioners lay out career paths related to academia, industry, government and regulatory affairs, healthcare, law, marketing, entrepreneurship, and more.
Lifetimes of experience and wisdom are shared, including "war stories," strategies for success, avoidance of common pitfalls, and discussions of the authors’ personal views and motivations. Career Development in Bioengineering and Biotechnology is an indispensable guide to some of the most exciting career and professional growth opportunities in science, engineering, and beyond, and a "must read" for anyone interested in a career related to this burgeoning field.
From the Foreword by U.S. National Medal of Science Laureate and Institute Professor Robert Langer, Massachusetts Institute of Technology: "This book provides a wealth of information and should serve as an excellent resource...The editors have gone to great effort to discuss a variety of critical topics in the burgeoning areas of bioengineering and biotechnology."
From the Introduction by Dr. Bruce Alberts, President Emeritus of the U.S. National Academy of Sciences and Co-chair of the InterAcademy Council: "I am very impressed with the enormous dedication and skill that created this major, highly-original contribution – I know of nothing like it."
From the Editorial by Dr. Joachim Nagel, President, International Union for Physical and Engineering Sciences in Medicine, and past president of the International Federation for Medical and Biological Engineering: "This book provides all the answers and can be highly recommended as the ultimate guide to anyone interested in bioengineering and biotechnology. The book arrives at a crucial time, and catapults bioengineering and biotechnology to the forefront of disciplines and to a rightly held pinnacle of inspiration for engineers, scientists, and technologists."
From the Afterword by Dr. Shu Chien, President, Biomedical Engineering Society and past president of the American Physiological Society and of the American Institute of Medical and Biological Engineering: "...this is truly an outstanding book that is the first of its kind...certainly a pioneering contribution."
Praise for the Book
"Bioengineering and Biotechnology are emerging as distinct disciplines amid the biological revolution and during a period of rapid globalization. These interesting times offer us unprecedented opportunities for professional and personal growth. This book covers many important areas of opportunity, including entrepreneurship, finance, law, and education, with a global perspective. The legacy of our times will include how well we used our rapidly advancing technologies to improve the world around us. This book provides a roadmap for the contributions of Bioengineering and Biotechnology in this quest."
-James E. Moore, PhD, Texas A&M University
"This book will be essential reading for all those seeking career guidance in bioengineering and biotechnology."
-Tony Bradshaw, PhD, Director bioProcessUK - BioIndustry Association (BIA), Chairman, The Royal Academy of Engineering/BIA Life Scientists' Career Seminars
"...the topics [are] quite extensive covering definitions, core curriculum, career opportunities, including a wide range of alternative career pathways as well as social and ethical issues. The material covered is unlike any of the standard publications related to these fields of activity... [the book] can be read at different stages of one's career."
-Joseph D. Bronzino, PhD, Trinity College
"...once I started reading it, [I] could not put it down. In less than three days, I read it all, absorbing the stories and details as if I was consummed by watching a high action movie... The breath and depth of the wisdom is phenomenal, and the stories shared by the writers are moving, inspiring, and shine of intelligence in seizing one's own passion and talents and turning them into stellar professional careers."
-Nathalie Gosset, MS, MBA, Head of Marketing, Alfred Mann Institute for Biomedical Engineering, University of Southern California
"This is a functional book with immediate impact, and is very helpful to those who need and desperately want help in making a career choice."
- Jonathan Newman, Graduate Student in Biomedical Engineering, Georgia Institute of Technology, USA
"This is an exciting undertaking and very well thought through and balanced. I enjoyed very much reading the chapters I have reviewed. Congratulations to all contributors and the editors of this book."
- Gudrun Zahlmann, PhD, Director of Business Development, Siemens Medical Systems, Germany
"I am very excited about this book. As a bioengineering educator, I am always looking for information that can provide guidance for students as they prepare for their careers. The contributors in this book are so enthusiastic about their careers that many of the chapters made me want to switch careers on the spot! I believe that engineering students do not receive enough guidance on alternative career paths. This book will very much help fill the void."
- Judy Cezeaux, PhD, Professor of Biomedical Engineering, Western New England College, Massachusetts, USA
The volume is intended for graduate-level biology students as well as researchers who wish to gain a better understanding of applied bioinformatics and who wish to use bioinformatics technologies to assist in their research. The volume would also be of value to bioinformatics developers, particularly those from a computing background, who would like to understand the application of computational tools for biological research. Each chapter would include a comprehensive introduction giving an overview of the fundamentals, aimed at introducing graduate students and researchers from diverse backgrounds to the field and bring them up-to-date on the current state of knowledge. To accommodate the broad range of topics in applied bioinformatics, chapters have been grouped into themes: gene and genome analysis, molecular genetic analysis, gene expression analysis, protein and proteome analysis, metabolome analysis, phenome data analysis, literature mining and bioinformatics tool development. Each chapter and theme provides an introduction to the biology behind the data describes the requirements for data processing and details some of the methods applied to the data to enhance biological understanding.
Erik Seedhouse is eminently qualified to describe the effects of large accelerations on the body. In addition to being the author of several previously published Springer Praxis books, he has developed astronaut-training protocols and is the training director for Astronauts for Hire (A4H). He is also the Canadian Forces’ High Risk Acceleration Training Officer.
Horowitz introduces the reader to dogs’ perceptual and cognitive abilities and then draws a picture of what it might be like to be a dog. What’s it like to be able to smell not just every bit of open food in the house but also to smell sadness in humans, or even the passage of time? How does a tiny dog manage to play successfully with a Great Dane? What is it like to hear the bodily vibrations of insects or the hum of a fluorescent light? Why must a person on a bicycle be chased? What’s it like to use your mouth as a hand? In short, what is it like for a dog to experience life from two feet off the ground, amidst the smells of the sidewalk, gazing at our ankles or knees?
Inside of a Dog explains these things and much more. The answers can be surprising—once we set aside our natural inclination to anthropomorphize dogs. Inside of a Dog also contains up-to-the-minute research—on dogs’ detection of disease, the secrets of their tails, and their skill at reading our attention—that Horowitz puts into useful context. Although not a formal training guide, Inside of a Dog has practical application for dog lovers interested in understanding why their dogs do what they do. With a light touch and the weight of science behind her, Alexandra Horowitz examines the animal we think we know best but may actually understand the least. This book is as close as you can get to knowing about dogs without being a dog yourself.
Rather than being a side-by-side collection of articles, this book consists of related chapters. It is a common achievement by 76 experts from around the world. Their expertise reflects the diversity of the field with radiation therapy, medical and accelerator physics, radiobiology, computer science, engineering, and health economics. The book addresses a similarly broad audience ranging from professionals that need to know more about this novel treatment modality or consider to enter the field of ion beam therapy as a researcher. However, it is also written for the interested public and for patients who might want to learn about this treatment option.
Each chapter includes a discussion of recent technological developments and the biological effects of the imaging modality. End-of-chapter problem sets, lists of relevant references, and suggested further reading are presented for each technique.X-ray imaging, including CT and digital radiographyRadionuclide imaging, including SPECT and PETUltrasound imagingMagnetic resonance imaging
In biomedical research, because of a dramatic increase in productivity, immunocytochemistry has emerged as a major technique. The proposed book will provide the first practical guide to planning, performing, and evaluating immunocytochemical experiments.
In today’s graduate education the emphasis is on doing research and not on formal class work. Graduate students therefore lack the background in many essential techniques necessary to perform research in fields in which they were not trained. As director of a university core microscopy facility which sees students and faculty from dozens of laboratories each year, Dr. Burry has surmised the vast majority of these novice microscope users need considerable help. In an attempt to educate users, Dr. Burry has initiated immunocytochemistry seminars and workshops which serve to train people in this powerful research tool. The proposed book is an outgrowth of these presentations and conversations with, by now, hundreds of people who have asked for help.
The philosophy which separates this book from other books in this field is that it is practical, rather than academic. In looking at other important immunocytochemistry titles, the predominant orientation is academic, with the author attempting to comprehensively discuss the topic. For example, one book with sample preparation lists ten fixatives which can be used; however, only two such fixatives are commonly used today. In this particular title, the detailed discussion of old methods might be seen as important in establishing the author as an expert. By contrast, the approach for Burry’s book would be to discuss methods based on what works in animal research laboratories today, and focus only on the most productive methods.
An additional distinction with this proposed book is the focus on animal research and not human pathology. There is a certification program for pathology technicians which requires them to learn a set body of material based on processing human tissue for examination by a pathologist. Many of the books on immunocytochemistry aim at this large pathology user base. Due to historical reasons, pathology laboratories process human tissues in a specific way and embed the tissue in paraffin, as has been done for over a century. In the last ten years, the power of immunocytochemistry in clinical diagnosis has become clear and has accordingly been adapted to pathology. However, the extensive processing needed for paraffin sections is not needed if the tissues are from research animals. Processing for animal-based tissues takes about a third of the time and results in higher quality images. The focus of this book is on processing these animal research tissues for immunocytochemistry. Today, there are no technique books which are aimed at this user base.
As a subject matter expert in the area of the proposed book, Dr. Burry will make recommendations and offer opinions. Because this field is new and is emerging, there are numerous advantages of specific methods over other, more generalized methods. The purpose of this book is to show a novice how to do immunocytochemistry without engaging in a discussion of possible advanced methods. For the advanced user, there are several good books which discuss the unusual methods, yet for the novice there are currently none.
Main Author :
Richard W. Burry, The Ohio State University (United States).
The Outline of the Book :
Each chapter supplies a set of important principals and steps necessary for good immunocytochemistry. The information is distilled down to include only the most important points and does not attempt to cover infrequently used procedures or reagents. At the end of most chapters is a section on trouble-shooting many of the common problems using the Sherlock Holmes method. Each chapter also includes specific protocols which can be used. The goal of each chapter is to present the reader with enough information to successfully design experiments and solve many of the problems one may encounter. Using immunocytochemical protocols without the understanding of their workings is not advised, as the user will need to evaluate his or her results to determine whether the results are reliable. Such evaluation is extremely important for users who need reliable images which will clearly answer important scientific questions.
Definitions (immunocytochemistry and immunohistochemistry)
Scope: animal research and not human pathology, paraffin sections, epitope retrieval, or immunohistochemistry
Focus: fluorescence and enzyme detection
Why do immunocytochemistry?
Immunocytochemistry "individual study" rather than "population study"
Example of a two-label experiment
What is included in these chapters?
Overview of the theory
Background with enough information to help solve common problems.
Advantages and disadvantages of different options
Opinions and suggestions
2. Fixation and Sectioning
Chemistry of fixation
Denaturing vs cross-linking fixatives
Application of fixative
Perfusion, drop-in, cultures, fresh-frozen
Selection of sample section type
Rapid freezing, cryostat, freezing microtome, vibratome
Storage of tissue
Isoforms, structure, reactivity
Polyclonal vs monoclonal
Antibodies as reagents
Antibody specificity and sources
Storage and handling
4. Labels for antibodies
Fluorescence, enzymes and particulates
Fluorescent labels - four generations
Selecting enzymes vs. fluorescence
Selecting a label- advantages and disadvantages
5. Methods of applying antibodies
Antibody amplification methods
6. Blocking and Permeability
Theory of blocking
Theory of detergents
7. Procedure- Single primary antibody
Sample, fixation, sectioning
8. Multiple primary antibodies - primary antibodies of different species
9. Multiple primary antibodies-primary antibodies of same species
Wide-field fluorescence microscope
Bright field—enzyme chromogen
Size, intensity, and pixels
Manipulation—what is ethical?
11. Planning and Troubleshooting
Scheme for discussion-making in planning experiments
Case studies with Sherlock Holmes detective work
12. So you want to do electron microscopic ICC?
Criteria in decision-making
Summary of the two techniques
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1. Introduction to Pharmacology
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12. Drugs affecting on Erythrocytic
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Author Sebastian Enfield had it all. A loving family, an up-and-coming career at a Fortune 500 company, good friends and an active social life. He was living the proverbial American dream. Until, that is, his life was sidetracked when he became addicted to painkillers. It all started with far-too-easy online purchases of narcotic pills, and eventually Sebastian “graduated” to heroin. As with most addicts, as his opiate habit developed his life began to unravel. Family, friends and career became less and less important. Maintaining his expensive addiction became the most important priority each day. But when a winter blizzard came one December and “his guy” stopped returning his phone calls, Sebastian knew another kind of storm was heading his way. Withdrawal. He suffered in bed for a few days before his dealer finally returned his calls and delivered the goods. But this was the final turning point. After all he had gone through, Sebastian knew things couldn’t continue like this. So he made arrangements to visit a Suboxone-prescribing doctor, and very shortly thereafter, he was finally on the long road to recovery.
But while being treated with Suboxone, Sebastian had some anxieties and a lot of questions. “How long should I really be on this stuff? Should I try to taper off or not? And if so, how do you do it so as to minimize any discomfort? What other things should I be doing to aid in my recovery?” He looked to the Internet for answers, but what he found was a lot of contradictory information, posts from people claiming that “this stuff is even worse than what I was on before!”, and even disagreement among doctors and other health professionals with regard to Suboxone treatment protocols. Sebastian suspected that if he found all this confusing, there were probably many others in the same boat.
And so, he set out to investigate all of this, and to write a book that explained his findings in clear and simple terms. Sebastian spoke with various doctors, Suboxone patients and therapists, and synthesized their views and opinions, along with his own experiences, into a book of tips and suggestions that would help doctors and patients best approach buprenorphine treatment.
Sebastian begins with his own compelling story, where he details the life journey that ultimately led to drug addiction. He then presents several suggestions and tips that cover a wide range of questions he knew Suboxone patients had. The book covers a variety of topics, such as how to best select a doctor, how to approach counseling (and whether you really need counseling), how to taper off the medication with minimal discomfort (and whether you even should taper off the medication), resources that may help with paying for treatment, and a variety of “lifestyle hacks” Sebastian found to be useful while being treated. Sebastian lays all of this out clearly, and provides a positive and motivating read that will help patients understand that treatment with buprenorphine need not be a scary and uncertain thing. On the contrary, it can be a constructive part of recovery from opiate addiction. As he put it, “This is the book I wish I had when I began buprenorphine treatment.”
The most up-to-date information about the more than 1,800 most commonly prescribed drugs in the United States:
• Generic and brand-name listings that can help you save money
• What the drug is for, and how it works
• Usual dosages, and what to do if a dose is skipped
• Side effects and possible adverse reactions, highlighted for quick reference
• Interactions with other drugs and food
• Overdose and addiction potential
• Alcohol-free and sugar-free medications
• The most popular self-injected medications and their safe handling
• Information for seniors, pregnant and breast-feeding women, children, and others with special needs
• Cautions and warnings, and when to call your doctor
• 32 pages of actual-size color photographs of prescription pills
From the Trade Paperback edition.
The first main part of the book is subdivided into blood banking and transfusion medicine. Under blood banking, the chapters cover blood collection, donation process, component manufacturing, donor testing and storage; transfusion-medicine chapters examine the components for transfusion, pre-transfusion immunohematology testing, blood groups, blood products and their modifications, approaches to transfusion therapy in specific clinical settings, and transfusion reactions and complications. In addition, chapters that talk about apheresis, cellular therapy, and tissue banking in the hospital setting are included.
Hemostasis, the second main part of the book, is subdivided into three sections. The first section, clinical coagulation, includes chapters about neonatal thrombocytopenia, inherited platelet function disorders, immune thrombocytopenia, immune-mediated coagulopathies, congenital bleeding disorders, and acquired bleeding disorders. The second section relates to laboratory testing of coagulation, with chapters about laboratory assessments of platelet disorders, von Willebrand disease, coagulation factor disorders, fibrinogen and fibrinolysis, tests for hypercoagulable state and for activation of the coagulation system, and laboratory support for anticoagulation. The third section discusses coagulation factor products.
This book will be valuable for the education of trainees, practitioners, and future leaders in these fields.