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One of The Wall Street Journal’s 10 Best Nonfiction Books of the Year Philadelphia, 1959: A scientist scrutinizing a single human cell under a microscope detects a missing piece of DNA. That scientist, David Hungerford, had no way of knowing that he had stumbled upon the starting point of modern cancer research— the Philadelphia chromosome. It would take doctors and researchers around the world more than three decades to unravel the implications of this landmark discovery. In 1990, the Philadelphia chromosome was recognized as the sole cause of a deadly blood cancer, chronic myeloid leukemia, or CML. Cancer research would never be the same. Science journalist Jessica Wapner reconstructs more than forty years of crucial breakthroughs, clearly explains the science behind them, and pays tribute—with extensive original reporting, including more than thirty-five interviews—to the dozens of researchers, doctors, and patients with a direct role in this inspirational story. Their curiosity and determination would ultimately lead to a lifesaving treatment unlike anything before it. The Philadelphia Chromosome chronicles the remarkable change of fortune for the more than 70,000 people worldwide who are diagnosed with CML each year. It is a celebration of a rare triumph in the battle against cancer and a blueprint for future research, as doctors and scientists race to uncover and treat the genetic roots of a wide range of cancers.
History of the breakthrough of the cancer pill "Gleevec."
Two years after she underwent a mastectomy and chemotherapy, Barbara Bradfield's aggressive breast cancer had recurred and spread to her lungs. The outlook was grim. Then she took part in Genentech's clinical trials for a new drug. Five years later she remains cancer-free. Her-2 is the biography of Herceptin, the drug that provoked dramatic responses in Barbara Bradfield and other women in the trials and that offers promise for hundreds of thousands of breast cancer patients. Unlike chemotherapy or radiation, Herceptin has no disabling side effects. It works by inactivating Her-2/neu--a protein that makes cancer cells grow especially quickly-- produced by a gene found in 25 to 30 percent of all breast tumors. Herceptin caused some patients' cancers to disappear completely; in others, it slowed the progression of the disease and gave the women months or years they wouldn't otherwise have had. Herceptin is the first treatment targeted at a gene defect that gives rise to cancer. It marks the beginning of a new era of treatment for all kinds of cancers. Robert Bazell presents a riveting account of how Herceptin was born. Her-2 is a story of dramatic discoveries and strong personalities, showing the combination of scientific investigation, money, politics, ego, corporate decisions, patient activism, and luck involved in moving this groundbreaking drug from the lab to a patient's bedside. Bazell's deft portraits introduce us to the remarkable people instrumental in Herceptin's history, including Dr. Dennis Slamon, the driven UCLA oncologist who played the primary role in developing the treatment; Lily Tartikoff, wife of television executive Brandon Tartikoff, who tapped into Hollywood money and glamour to help fund Slamon's research; and Marti Nelson, who inspired the activists who lobbied for a "compassionate use" program that would allow women outside the clinical trials to have access to the limited supplies of Herceptin prior to FDA approval of the drug. And throughout there are the stories of the heroic women with advanced breast cancer who volunteered for the trials, risking what time they had left on an unproven treatment. Meticulously researched, written with clarity and compassion, Her-2 is masterly reporting on cutting-edge science.
We build border walls to keep danger out. But do we understand the danger posed by walls themselves? East Germans were the first to give the crisis a name: Mauerkrankheit, or “wall disease.” The afflicted—everyday citizens living on both sides of the Berlin wall—displayed some combination of depression, anxiety, excitability, suicidal ideation, and paranoia. The Berlin Wall is no more, but today there are at least seventy policed borders like it. What are they doing to our minds? Jessica Wapner investigates, following a trail of psychological harm around the world. In Brownsville, Texas, the hotly contested US-Mexico border wall instills more feelings of fear than of safety. And in eastern Europe, a Georgian grandfather pines for his homeland—cut off from his daughters, his baker, and his bank by the arbitrary path of a razor-wire fence built in 2013. Even in borderlands riven by conflict, the same walls that once offered relief become enduring reminders of trauma and helplessness. Our brains, Wapner writes, devote “border cells” to where we can and cannot go safely—so, a wall that goes up in our town also goes up in our minds. Weaving together interviews with those living up against walls and expert testimonies from geographers, scientists, psychologists, and other specialists, she explores the growing epidemic of wall disease—and illuminates how neither those “outside” nor “inside” are immune.
Each year thousands of people die from bacteria resistant to antibiotics. Alternative drugs are urgently needed. A surprising ray of hope from the past are viruses that kill bacteria, but not us. Award-winning science journalist Thomas Häusler investigates how these long-forgotten cures may help sick people today.
Celebrating 100 years of HEP, this volume will discuss key pharmacological discoveries and concepts of the past 100 years. These discoveries have dramatically changed the medical treatment paradigms of many diseases and these concepts have and will continue to shape discovery of new medicinies. Newly evolving technologies will similarly be discussed as they will shape the future of the pharmacology and, accordingly, medical therapy.
A leading cancer specialist tells the compelling stories of three adult leukemia patients, shedding new light on the disease itself and the drugs developed to treat it When you are told that you have leukemia, your world stops. Your brain can’t function. You are asked to make decisions about treatment almost immediately, when you are not in your right mind. And yet you pull yourself together and start asking questions. Beside you is your doctor, whose job it is to solve the awful puzzle of bone marrow gone wrong. The two of you are in it together. In When Blood Breaks Down, Mikkael Sekeres, a leading cancer specialist, takes readers on the journey that patient and doctor travel together. Sekeres, who writes regularly for the “Well” section of The New York Times, tells the compelling stories of three people who receive diagnoses of adult leukemia within hours of each other: Joan, a 48-year-old surgical nurse, a caregiver who becomes a patient; David, a 68-year-old former factory worker who bows to his family’s wishes and pursues the most aggressive treatment; and Sarah, a 36-year-old pregnant woman who must decide whether to undergo chemotherapy and put her fetus at risk. We join the intimate conversations between Sekeres and his patients, and we watch as he teaches trainees. Along the way, Sekeres also explores leukemia in its different forms and the development of drugs to treat it—describing, among many other fascinating details, the invention of the bone marrow transplant (first performed experimentally on beagles) and a treatment that targets the genetics of leukemia. The lessons to be learned from leukemia, Sekeres shows, are not merely medical; they teach us about courage and grace and defying the odds.
All of us have lurking in our DNA a most remarkable gene, which has a crucial job - it protects us from cancer. Known simply as p53, this gene constantly scans our cells to ensure that they grow and divide without mishap, as part of the routine maintenance of our bodies. If a cell makes a mistake in copying its DNA during the process of division, p53 stops it in its tracks, summoning a repair team before allowing the cell to carry on dividing. If the mistake is irreparable and the rogue cell threatens to grow out of control, p53 commands the cell to commit suicide. Cancer cannot develop unless p53 itself is damaged or prevented from functioning normally. Perhaps unsurprisingly, p53 is the most studied single gene in history. This book tells the story of medical science's mission to unravel the mysteries of this crucial gene, and to get to the heart of what happens in our cells when they turn cancerous. Through the personal accounts of key researchers, p53: The Gene that Cracked the Cancer Code reveals the fascination of the quest for scientific understanding, as well as the huge excitement of the chase for new cures - the hype, the enthusiasm, the lost opportunities, the blind alleys, and the thrilling breakthroughs. And as the long-anticipated revolution in cancer treatment tailored to each individual patient's symptoms begins to take off at last, p53 remains at the cutting edge. This timely tale of scientific discovery highlights the tremendous recent advances made in our understanding of cancer, a disease that affects more than one in three of us at some point in our lives.
What energises humans to move and think? Whether we wake up groggy and say that we have no energy to do anything or whether we wake up refreshed and feel ready to tackle the day, scientists and non-scientists alike acknowledge that energy is essential for anything to happen. However, not everyone knows and digs deeper into what energy actually is. In the human body, energy can be followed by looking at one molecule. In “Life’s Energy” the reader is guided through our bodies molecular world to understand of how a single molecule, Adenosine Triphosphate (ATP), can drive life. The book goes back in history to see how ATP was discovered. Then it follows ATP around the body and explains what it does, how it is maintained and explores its role in diseases such as diabetes and cancer. Along the way it introduces the scientists involved in ATP research, how their research activity was affected by the rise of the “Third Reich” and why many of them were awarded Nobel Prizes for their insights.