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  Reaching down the rabbit hole : a renowned neurologist explains the mystery and drama of brain disease. First edition. [1st ed.]

  Dr. Allan H. Ropper and Brian David Burrell.

  Summary: "Tell the doctor where it hurts." It sounds simple enough, unless the problem affects the very organ that produces awareness and generates speech. What is it like to try to heal the body when the mind is under attack? In this book, Dr. Allan Ropper and Brian Burrell take the reader behind the scenes at Harvard Medical School's neurology unit to show how a seasoned diagnostician faces down bizarre, life-altering afflictions. Like Alice in Wonderland, Dr. Ropper inhabits a world where absurdities abound: A figure skater whose body has become a ticking time-bomb. A salesman who drives around and around a traffic rotary, unable to get off. A college quarterback who can't stop calling the same play. A child molester who, after falling on the ice, is left with a brain that is very much dead inside a body that is very much alive. A mother of two young girls, diagnosed with ALS, who has to decide whether a life locked inside her own head is worth living. How does one begin to treat such cases, to counsel people whose lives may be changed forever? How does one train the next generation of clinicians to deal with the moral and medical aspects of brain disease? Dr. Ropper and his colleague answer these questions by taking the reader into a rarified world where lives and minds hang in the balance"-- Provided by publisher.

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  Books: General Collection (Downstairs)

  2014

  RC351 .R66 2014

  1
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• Article

  Morphological aspects of some sodium transporting epithelia suggesting a transcellular pathway via elements of endoplasmic reticulum.

  Møllgård K, Rostgaard J.

  J Membr Biol. 1978;40 Spec No:71-89.

  Electron microscopic studies of sodium transporting epithelia from frog skin, sheep choroid plexus, rabbit gallbladder and small intestine, and rat kidney revealed the presence of a complex intracellular system of tubulo-cisternal endoplasmic reticulum which appeared to connect apical (luminal) and baso-lateral cell surfaces. The system was present in the tight epithelium of frog skin but was most abundant in leaky epithelia with low transepithelial resistance and isotonic transport. The basic structural features of the system and its relationship with some associated components are described. Our result, coupled with preliminary physiological studies, indicate that developmental and seasonal (hormone-induced) changes in the configuration of the tubulo-cisternal endoplasmic reticulum may be closely correlated with specific changes in epithelial permeability. The findings are discussed in the light of the hypothesis that epithelia possess two sodium transporting systems: One based on pump sites in the plasma membrane producing a hypertonic transportate and another located in the membranes of the tubulo-cisternal endoplasmic reticulum which, due to its extensive surface, would be well suited for producing an isotonic transportate.

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