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Elder examines how artists such as Brakhage, Artaud, Schneemann, Cohen and others have tried to recognize and to convey primordial forms of experiences. He argues that the attempt to convey these primordial modes of awareness demands a different conception of artistic meaning from any of those that currently dominate contemporary critical discussion. By reworking theories and speech in highly original ways, Elder formulates this new conception. His remarks on the gaps in contemporary critical practices will likely become the focus of much debate.
Elder examines how artists such as Brakhage, Artaud, Schneemann, Cohen and others have tried to recognize and to convey primordial forms of experiences. He argues that the attempt to convey these primordial modes of awareness demands a different conception of artistic meaning from any of those that currently dominate contemporary critical discussion. By reworking theories and speech in highly original ways, Elder formulates this new conception. His remarks on the gaps in contemporary critical practices will likely become the focus of much debate.
Sharrock.--William C. Fitzgerald, University of California, Berkeley "American Historical Review"
In these engaging tales describing the growth of knowledge about the brain—from the early Egyptians and Greeks to the Dark Ages and the Renaissance to the present time—Gross attempts to answer the question of how the discipline of neuroscience evolved into its modern incarnation through the twists and turns of history. Charles G. Gross is an experimental neuroscientist who specializes in brain mechanisms in vision. He is also fascinated by the history of his field. In these tales describing the growth of knowledge about the brain from the early Egyptians and Greeks to the present time, he attempts to answer the question of how the discipline of neuroscience evolved into its modern incarnation through the twists and turns of history. The first essay tells the story of the visual cortex, from the first written mention of the brain by the Egyptians, to the philosophical and physiological studies by the Greeks, to the Dark Ages and the Renaissance, and finally, to the modern work of Hubel and Wiesel. The second essay focuses on Leonardo da Vinci's beautiful anatomical work on the brain and the eye: was Leonardo drawing the body observed, the body remembered, the body read about, or his own dissections? The third essay derives from the question of whether there can be a solely theoretical biology or biologist; it highlights the work of Emanuel Swedenborg, the eighteenth-century Swedish mystic who was two hundred years ahead of his time. The fourth essay entails a mystery: how did the largely ignored brain structure called the "hippocampus minor" come to be, and why was it so important in the controversies that swirled about Darwin's theories? The final essay describes the discovery of the visual functions of the temporal and parietal lobes. The author traces both developments to nineteenth-century observations of the effect of temporal and parietal lesions in monkeys—observations that were forgotten and subsequently rediscovered.
Over the past twenty years, an explosion of scientific studies have helped to explain why our state of mind may exert such a strong influence on the state of our health. In Mind-Body Unity science writer Henry Dreher weighs the results of leading-edge mind-body research, and he concludes that mind and body are not merely connected, they are unified. Our minds play a role in health, Dreher argues, the way our eyes play a role in sight. Integrating biological research on mind-body unity with psychosocial research on emotions in human health, Dreher surveys remarkable findings on the role of emotions, coping, and personality in coronary heart disease; on psychosocial factors in cancer progression and survival; and on the social dimensions of human health. He also describes mind-body approaches to the treatment of cancer, women's health conditions, somatization disorder, and in surgery. Finally, Dreher provides a critical overview of the social and political context of this research, from the presentations of leading popularizers such as Bernie Siegel and Deepak Chopra, to the experiences of practitioners and patients, to the resistance of mainstream medicine, to the many exciting possibilities suggested by a deeper understanding of how mind and body are inextricably bound.
The ability to see deeply affects how human beings perceive and interpret the world around them. For most people, eyesight is part of everyday communication, social activities, educational and professional pursuits, the care of others, and the maintenance of personal health, independence, and mobility. Functioning eyes and vision system can reduce an adult's risk of chronic health conditions, death, falls and injuries, social isolation, depression, and other psychological problems. In children, properly maintained eye and vision health contributes to a child's social development, academic achievement, and better health across the lifespan. The public generally recognizes its reliance on sight and fears its loss, but emphasis on eye and vision health, in general, has not been integrated into daily life to the same extent as other health promotion activities, such as teeth brushing; hand washing; physical and mental exercise; and various injury prevention behaviors. A larger population health approach is needed to engage a wide range of stakeholders in coordinated efforts that can sustain the scope of behavior change. The shaping of socioeconomic environments can eventually lead to new social norms that promote eye and vision health. Making Eye Health a Population Health Imperative: Vision for Tomorrow proposes a new population-centered framework to guide action and coordination among various, and sometimes competing, stakeholders in pursuit of improved eye and vision health and health equity in the United States. Building on the momentum of previous public health efforts, this report also introduces a model for action that highlights different levels of prevention activities across a range of stakeholders and provides specific examples of how population health strategies can be translated into cohesive areas for action at federal, state, and local levels.
Born blind and declared incurable after a series of childhood operations, Meir Schneider remained convinced that his disability was not permanent. As a teenager he began to work with teachers who gave him exercises to reverse his blindness. Within four years he gained a remarkable degree of vision, and began developing a system of therapeutic exercise combining movement, breathing, and mental imagery. When he began working with others, miraculous recoveries ensued. Movement for Self-Healing details Schneider's methods of stimulating the natural healing powers of the body, with specific guidelines for improving vision, back problems, arthritis, multiple sclerosis, breathing, and muscular dystrophy.
In The Vision Revolution: How the Latest Research Overturns Everything We Thought We Knew About Human Vision, Mark Changizi, prominent neuroscientist and vision expert, addresses four areas of human vision and provides explanations for why we have those particular abilities, complete with a number of full-color illustrations to demonstrate his conclusions and to engage the reader. Written for both the casual reader and the science buff hungry for new information, The Vision Revolution is a resource that dispels commonly believed perceptions about sight and offers answers drawn from the field's most recent research. Changizi focuses on four “why" questions: 1. Why do we see in color? 2. Why do our eyes face forward? 3. Why do we see illusions? 4. Why does reading come so naturally to us? Why Do We See in Color? It was commonly believed that color vision evolved to help our primitive ancestors identify ripe fruit. Changizi says we should look closer to home: ourselves. Human color vision evolved to give us greater insights into the mental states and health of other people. People who can see color changes in skin have an advantage over their color-blind counterparts; they can see when people are blushing with embarrassment, purple-faced with exertion or the reddening of rashes. Changizi's research reveals that the cones in our eyes that allow us to see color are exquisitely designed exactly for seeing color changes in the skin. And it's no coincidence that the primates with color vision are the ones with bare spots on their faces and other body parts; Changizi shows that the development of color vision in higher primates closely parallels the loss of facial hair, culminating in the near hairlessness and highly developed color vision of humans. Why Do Our Eyes Face Forward? Forward-facing eyes set us apart from most mammals, and there is much dispute as to why we have them. While some speculate that we evolved this feature to give us depth perception available through stereo vision, this type of vision only allows us to see short distances, and we already have other mechanisms that help us to estimate distance. Changizi's research shows that with two forward-facing eyes, primates and humans have an x-ray ability. Specifically, we're able to see through the cluttered leaves of the forest environment in which we evolved. This feature helps primates see their targets in a crowded, encroached environment. To see how this works, hold a finger in front of your eyes. You'll find that you're able to look “through" it, at what is beyond your finger. One of the most amazing feats of two forward-facing eyes? Our views aren't blocked by our noses, beaks, etc. Why Do We See Illusions? We evolved to see moving objects, not where they are, but where they are going to be. Without this ability, we couldn't catch a ball because the brain's ability to process visual information isn't fast enough to allow us to put our hands in the right place to intersect for a rapidly approaching baseball. “If our brains simply created a perception of the way the world was at the time light hit the eye, then by the time that perception was elicited—which takes about a tenth of a second for the brain to do—time would have marched on, and the perception would be of the recent past," Changizi explains. Simply put, illusions occur when our brain is tricked into thinking that a stationary two-dimensional picture has an element that is moving. Our brains project the “moving" element into the future and, as a result, we don't see what's on the page, but what our brain thinks will be the case a fraction of a second into the future. Why Does Reading Come So Naturally to Us? We can read faster than we can hear, which is odd, considering that reading is relatively recent,
How spectacular visions of physical suffering in post–World War II Italian neorealist films redefined moviegoing as a form of political action