Superbugs The race to stop an epidemic

Matt McCarthy

Book - 2019

"A New York Times bestselling author shares this exhilarating story of cutting-edge science and the race against the clock to find new treatments in the fight against the antibiotic-resistant bacteria known as superbugs. Physician, researcher, and ethics professor Matt McCarthy is on the front lines of a groundbreaking clinical trial testing a new antibiotic to fight lethal superbugs, bacteria that have built up resistance to the life-saving drugs in our rapidly dwindling arsenal. This trial serves as the backdrop for the compulsively readable Superbugs, and the results will impact nothing less than the future of humanity. Dr. McCarthy explores the history of bacteria and antibiotics, from Alexander Fleming's discovery of penicill...in, to obscure sources of innovative new medicines (often found in soil samples), to the cutting-edge DNA manipulation known as CRISPR, bringing to light how we arrived at this juncture of both incredible breakthrough and extreme vulnerability. We also meet the patients whose lives are hanging in the balance, from Remy, a teenager with a dangerous and rare infection, to Donny, a retired New York City firefighter with a compromised immune system, and many more. The proverbial ticking clock will keep readers on the edge of their seats. Can Dr. McCarthy save the lives of his patients infected with the deadly bacteria, who have otherwise lost all hope?"--

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Subjects
Published
New York, New York : Avery [2019]
Language
English
Main Author
Matt McCarthy (author)
Physical Description
290 pages : illustrations ; 24 cm
Bibliography
Includes bibliographical references and index.
ISBN
9780735217508
Contents unavailable.
Review by Booklist Review

The superbugs of the title are not irritating insects but rather antibiotic-resistant bacteria with often formidable names Enterococcus faecium and methicillin-resistant Staph aureus (MRSA) that are becoming increasingly prevalent and more virulent. Physician McCarthy (The Real Doctor Will See You Shortly, 2015) asks, ""Why is it so hard to make a new antibiotic?"" His answers include the difficulty of discovering antibiotics, the exorbitant cost of research and development, and the FDA's lengthy and rigorous approval process. Antibiotics can be created by scientists in the laboratory or found in dirt where they are manufactured by microbes. McCarthy describes his clinical study of a new drug, dalbavancin (dalba), for serious skin infections. He formulates a protocol, enrolls volunteer patients and obtains their informed consent, administers the medication, and schedules follow-up. He recounts how ""painful"" the project was, and declares, ""Defending the defenseless was perilous work."" Fortunately, his sage mentor, Dr. Walsh, helps him out. McCarthy makes it clear that superbugs are one of the gravest threats in modern medicine, with woefully few new antibiotics on the way.--Tony Miksanek Copyright 2019 Booklist

From Booklist, Copyright (c) American Library Association. Used with permission.
Review by Kirkus Book Review

A riveting insider's look at the race to find a cure for antibiotic-resistant infections, one of the most pressing challenges in modern medicine.It's official: Bacteria are outsmarting us. Bacterial strains that are impervious to even the most powerful antibiotics, nicknamed "superbugs," are increasingly common and frighteningly lethal. Physicians are often left with their hands tied, forced to see patients die from infections that could have easily been treated 10 years ago. In this eye-opening book, McCarthy (The Real Doctor Will See You Shortly: A Physician's First Year, 2015, etc.)an assistant professor of medicine at Weill Cornell and a staff physician at NewYork-Presbyterian Hospital, where he is a member of the ethics committeebreaks down the complex interplay among biomedical researchers, the pharmaceutical industry, the Food and Drug Administration, and clinicians. Unsurprisingly, the most important consideration in this complicated equation is money. Conducting clinical trials to test the efficacy and safety of new antibiotics is expensive, and even when they are approved, the medications may not be hugely profitable for the manufacturer. "A study from the London School of Economics," writes the author, "estimated that, at discovery, the net present value of a new antibiotic was minus $50 million." McCarthy, however, is not deterred, and he agreed to lead a cutting-edge clinical trial involving a brand-new, synthetic antibiotic known as dalba. He pulls no punches as he details the tension between institutional bureaucracy and patient care, often becoming emotional as he describes his patients and their stories. He makes it clear that despite the importance of protocol, there is no time to waste. The author's storytelling is at once urgent and empathetic, a compelling combination that leaves readers feeling informed and optimistic.Insightful and honest, McCarthy effectively combines useful information about the latest advances in microbial research with accounts of the best aspects of humanity. Copyright Kirkus Reviews, used with permission.

Copyright (c) Kirkus Reviews, used with permission.

Prologue It was just after dawn when I felt the buzz on my hip. I broke stride, put down my coffee, and glanced at my pager: I was needed in the emergency room. It was 2014, an unseasonably warm October day, and the text induced a flurry of anxiety and excitement. After eleven years of training, I had accepted a position as a staff physician at NewYork-Presbyterian Hospital, a tertiary care center on the Upper East Side of Manhattan, and a patient had just arrived with a perplexing infection, one that had stumped the team in the ER. A moment later, I was standing before a group of medical students and residents and my new patient. The young man writhing on the stretcher was an African American mechanic from Queens named Jackson, with dark-green eyes and a small Maltese cross tattooed onto his neck. He had been shot, and a large area surrounding the bullet, which was still lodged in his left leg, looked infected. As I peered into jagged edges of the entry wound just above Jackson's knee, a student handed me a piece of paper. The printout revealed the results of microbiological test, which caused my eyes to bulge. My patient, I discovered, was infected with a nimble and aggressive new bacterium that was resistant to every antibiotic at my disposal, except for one: colistin. I had used the drug only a few times in my career and never with good results because it was so outrageously toxic. Colistin might kill bacteria, but it destroyed kidneys and other internal organs in the process, leaving many of my patients with just two options: dialysis or death. Antibiotics that had proven so effective just a short time ago were now useless, and if I wanted to save this young man's leg, it was my only option. I shook my head and handed the paper back to my student. "Not good." More than twenty thousand people die every year in the United States from antibiotic-resistant infections, and the pipeline of drugs to treat them is always on the verge of drying up. I crouched to meet Jackson's eyes and carefully considered my words. "You have an infection," I said. "A severe infection." The man's gaze darted from me to the men and women standing in a horseshoe behind me. "How severe?" He took in a small breath of air and held it, waiting for me to say something. It felt like an hourglass had been flipped; suddenly the tiny room was very hot. I took off my white coat and rolled up my sleeves. "Quite severe." His eyebrows raised, and I reflexively extended my arm to hold his hand, but caught myself. I wasn't supposed to touch this patient without protection. I pivoted back to my team. "Everybody out. Now." I pointed toward the door. "I'll be right back." Just outside of his room, I put on a disposable yellow gown and a pair of purple nitrile gloves, and returned to the bedside alone. "It's very hard to treat," I said, "but not impossible." Jackson was now breathing very quickly, on the verge of hyperventilating, as sweat beaded on his forehead. He grasped his thigh, inches above where the bullet had entered. Beneath his fingertips, bacteria were rapidly multiplying, devouring muscle and bone. "Am I gonna lose it?" he asked. "The leg?" In truth, I wasn't sure. Only colistin had a chance of destroying the infection, but there were no guarantees. The last person I prescribed it to died twelve hours after she received it. The one before that died while receiving it. "I don't think so," I said, as confidently as I could. I squeezed his sweaty hand and tried to imagine how I would summarize the nuances of the case for his wife and children. They would need to take special precautions just to be in the same room with him. "We're going to get through this," I said as his eyes began to water. "We will." I left the room, removed my gown and gloves, and addressed my team. "Start colistin," I said. One of the residents frowned as she scurried to a computer to put in the order. Then we vigorously washed our hands and moved on to the next patient. When rounds were over, I walked across the hospital to the office of my research collaborator, Tom Walsh, director of the Transplantation-Oncology Infectious Diseases Program. Walsh is a wisp of a man, pale and thin like a potato chip, with deep-set eyes, a warm smile, and a surprisingly firm handshake. His modest features are a notable contrast with my own: I have a high forehead, broad shoulders, and a nose that's slightly too large for my face. We make for an odd pair. Walsh is one of the world's leading authorities on obscure infections, and when he's not caring for patients, he's creating new antibiotics to treat them. We had met a few years after I graduated from medical school--I still have the elegant biochemical structures he drew for me during our first interaction--and I've been working with him ever since. In 2009, he moved from the National Institutes of Health (NIH), the federal agency responsible for biomedical research and disease preven- tion. Walsh brought with him an expansive research consortium--an international team of physicians and scientists who conduct experiments in test tubes, animals, and humans--to develop antibiotics. He is one of the only researchers in the world to oversee a laboratory of this scope; he is an expert in infectious diseases, oncology, pediatrics, internal medicine, pathology, microbiology, and mycology. No one else possesses his breadth of knowledge. Not surprisingly, Big Pharma is eager to work with him. But Tom Walsh does so on his own terms; I once saw him quash a $50 million drug development initiative with three barely audible words: "Would not pursue." He had called me that October morning in a fit of excitement, with news that Allergan, the pharmaceutical giant, wanted us to run a clinical trial: a large-scale human experiment with an unproven drug. The Dublin-based company was developing a promising new molecule and it wanted us to show it was not only safe but effective in treating humans infected with antibiotic-resistant bacteria, known colloquially as superbugs. They had become a persistent problem for us; superbugs didn't really exist before the 1960s, and they were only sporadically seen in the world until the 1990s. But a combination of poor prescribing practices by doctors along with the indiscriminate use of antibiotics in commercial agriculture and farming exposed bacteria to our precious arsenal of effective drugs, and the microbes figured out ways to neutralize them. Superbugs were now everywhere--even on stray bullets in Queens--and they had become a leading cause of deadly infections in humans. "So, what is it?" I asked Walsh as I entered his office. He leapt up from his messy desk, hurrying past framed diplomas and awards that covered every inch of the mahogany walls, to greet me. "What's the drug?" Walsh looked exhausted--the man regularly slept only three hours a night--because we were in crisis mode, desperately searching for new antibiotics to treat our patients. I had grown accustomed to watching men and women succumb to infections that had been treatable just a few years ago. When Walsh shook my hand, he brightened. "Dalbavancin," he said softly. My fingers and wrists were still damp from the tense exchange in the emergency room; I wiped them on my khaki pants and sat down in the chair next to his desk. "You're kidding." He handed me a thick manila folder. "I'm not." Just the word-- dalbavancin --brought me back fourteen years, to my days as an undergraduate tinkering around in the laboratory of a future Nobel laureate named Tom Steitz, a biophysicist who was known around campus as "the Michael Jordan of crystallography," the branch of science that probes the atomic building blocks of life. Steitz studied protein synthesis, an essential function of nearly all living things, and his discoveries led to all sorts of new drugs, including a handful of antibiotics related to dalbavancin, called "dalba" for short. Like Tom Walsh, he was a visionary who could see drug development in ways that others couldn't. I connected with Dr. Steitz through his son, Jon, who happened to be my teammate on the Yale University baseball team. He and I were pitchers and biochemistry majors, and we were both drafted out of college to play professional baseball; Jon was selected by the Milwaukee Brewers in the third round of the 2001 Major League Baseball draft, and I was taken the following year, in the twenty-first round, by the Anaheim Angels. We briefly thought we were destined for the big leagues. A year later, after a stint playing minor league baseball in Provo, Utah, I was cut by the Angels and exchanged my baseball mitt for a stethoscope. I enrolled at Harvard Medical School in the fall of 2003, moving to Boston around the time Jon gave up the game and went to Yale Law School. A few weeks after classes began, I attended a lecture by a young and charismatic infectious disease doctor named Paul Farmer, cofounder of the global nonprofit Partners in Health, and immediately knew what I wanted to do with the rest of my life. I was going to study infections to learn how to defeat them. "Let's get to work," Walsh said, snapping me out of my reverie. This was the moment everything changed, when I went from a passive observer of drug resistance to an active participant in the race to stop the expanding threat of superbugs. But before I could start the long and winding journey of a clinical trial, I had to familiarize myself with the painful lessons learned from generations of failed studies and appalling ethical lapses, as well as the remarkable scientific advances be- hind the work of Tom Steitz, Tom Walsh, and others. That extraordinary story, the one that ultimately led me into the hospital room of a terrified mechanic from Queens, begins with a different bullet wound one hundred years earlier, in October 1914, when a soft-spoken military physician noticed something unusual and had a hunch. It's an adventure dotted with clues that would help me unravel the mystery of Jackson's infection. Excerpted from Superbugs: The Race to Stop an Epidemic by Matt McCarthy All rights reserved by the original copyright owners. Excerpts are provided for display purposes only and may not be reproduced, reprinted or distributed without the written permission of the publisher.