Animal Models of Human Cognitive Aging
. Ed(S): Bizon, Jennifer L.; Woods, Alisa G.
€ 190.11
FREE Delivery in Ireland
Description for Animal Models of Human Cognitive Aging
Hardback. In this groundbreaking book, a panel of international authorities discusses the use of animal models as a tool for understanding cognitive changes associated with the aging process. The book provides a valuable resource for all aging medicine researchers. Editor(s): Bizon, Jennifer L.; Woods, Alisa G. Series: Aging Medicine. Num Pages: 208 pages, 3 black & white tables, biography. BIC Classification: JMD; JMR. Category: (P) Professional & Vocational. Dimension: 235 x 155 x 15. Weight in Grams: 456.
Significant improvements in lifestyle and medical science are leading to an ever increasing elderly population in the United States and other developed nations. The U.S census bureau estimates that the number of people over 65 will nearly double by 2030, and that the elderly will comprise nearly one-fifth of the world’s entire population within the next 20 years. In Animal Models of Human Cognitive Aging, Jennifer Bizon, Alisa Woods, and a panel of international authorities comprehensively discuss the use of animal models as a tool for understanding cognitive changes associated with the aging process. The book provides substantive background on ... Read more
Show LessProduct Details
Format
Hardback
Publication date
2008
Publisher
Humana Press Inc. United States
Number of pages
208
Condition
New
Series
Aging Medicine
Number of Pages
208
Place of Publication
Totowa, NJ, United States
ISBN
9781588299963
SKU
V9781588299963
Shipping Time
Usually ships in 15 to 20 working days
Ref
99-15
Reviews for Animal Models of Human Cognitive Aging
From the reviews: "This multiauthored series of essays describe animal models of human cognitive aging. … The audience includes the community, working in neurobiology and interested in age-related changes in brain function. The authors are all experts in this area. … Everyone interested in experimental models of the aging of the human brain will derive ... Read more