Libros BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE Descargar Gratis

BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE - San Agust?-n

BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE

BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE


Ficha técnica


  • Título: BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE
  • Autor: San Agust?-n
  • Editor: Stackpole Books
  • Los datos publicados:
  • ISBN: 9780195183139
  • Formato de libro: EPUB, PDF, DOCx, TXT, MOBI, FB2, Mp3
  • Numero de paginas: 266 paginas
  • Idiomas: Español
  • Valoración: ★★★★★
  • País: España
  • Tamaño del archivo: 59MB

Sinopsis de BRAIN DEVELOPMENT: NORMAL PROCESSES AND THE EFFECTS OF ALCOHOL AND NICOTINE de San Agust?-n:

This is the first book about both normal development of the nervous system and how early exposure to alcohol and nicotine in terferes with this development. The developing nervous system is highly dynamic and vulnerable to genetic and epigenetic factors that can be additive or synergistic. Disruption of normal brain development leads to an array of developmental disorders. One of the most common of these is mental retard ation, the prime cause of which is prenatal exposure to alcohol. As chapters in this book show, alcohol has direct effects on the developing neural system and it affects genetic regulation. Another common neurotoxin is nicotine, and it is discussed in this book for three reasons: (1) the number of adolescents who smoke cigarettes is rising in some populations- (2) prenatal exposure to nicotine affects neurotransmitter systems that are critical for normal brain development and cognition- and (3) prenatal exposure to nicotine is often accompanied by prenatal exposure to alcohol. The mature bra in is the culmination of an orderly sequence of basic ontogenetic processes - cell proliferation, migration, differentiation, and death. Neural stem cells and progenitors proliferate in discreet sites- then, young neurons migrate long distances to their residences where they form neural networks. D uring this sequence many immature cells die, presumably eliminating unsuitable or non-competitive cells. Each process is regulated by genetic and environmental factors. When this regulation goes awry, a dysmorphic and dysfunctinoal brain results. Though this can be tragic in clinical settings, in e xperimental contexts it provides keen insight into normal brain development.

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