Periphery
How Your Nervous System Predicts and Protects against Disease
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- $29.99
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- $29.99
Publisher Description
A leading neuroscientist argues that the peripheral nervous system, long understood to play a key role in regulating basic bodily functions, also signals the onset of illness.
The central nervous system, consisting of the brain and the spinal cord, has long been considered the command center of the body. Yet outside the central nervous system, an elaborate network of nerve cells and fibers extends throughout our bodies, transmitting messages between the brain and other organs. The peripheral nervous system, as it’s known, regulates such vital functions as heart rate, digestion, and perspiration and enables us to experience the barrage of sounds, tastes, smells, and other sensory information that surrounds us. But beyond these crucial roles, the peripheral nervous system might do even more: it might warn us of diseases in our future.
As Moses Chao argues in Periphery, from Parkinson’s disease to autism to dementia, many neurological conditions emerge not in the brain but rather within the peripheral nervous system, in the dense network of nerves that wrap around the gastrointestinal tract. What’s more, dysfunctions of the peripheral nervous system can signal the onset of disease decades before symptoms like tremor or memory loss occur. Fortunately, unlike nerves in the brain and spinal cord, peripheral nerves can heal and regenerate in response to injury and aging. The therapeutic implications are remarkable. Chao shows how, with a better understanding of the peripheral nervous system, we could not only predict and treat neurological diseases long before their onset, but possibly prevent them altogether.
Full of new ideas and bold interpretations of the latest data, Periphery opens exciting avenues for medical research while deepening our understanding of a crucial yet underappreciated biological system.
PUBLISHERS WEEKLY
Disturbances in the peripheral nervous system may play an important role in a variety of diseases and conditions, according to New York University neuroscientist Chao's eye-opening debut. The peripheral nervous system, or PNS, he notes, is "an elaborate set of nerve networks, spinal roots, and sensory and autonomic ganglia" that "affects blood flow, heart rate, oxygen exchange in the lungs, and even the contraction of the eye muscles." Arguing that the PNS's role in health and disease has been overlooked, Chao contends that research findings suggesting PNS involvement in the gut-brain axis and the distribution of a protein responsible for regulating sleep might implicate the PNS in Parkinson's disease, whose early symptoms include constipation and insomnia. The author also suggests the PNS may be involved in autism, Charcot-Marie-Tooth disease, and Riley-Day syndrome, but he acknowledges that "not all of these associations are considered to be entirely proven" and his theories require an "openness of mind." The dense scientific discussions will challenge lay readers ("The Bmal1 protein is expressed peripherally in skeletal muscle"), but Chao makes a convincing case that scientists would do well to focus research on the PNS and its relationship with disease. Medical researchers will find much to ponder.