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1 with a modest decrease in the likelihood of healthy aging.
2 ne in episodic memory is a common feature of healthy aging.
3 t by eating well are important components of healthy aging.
4 modify the trajectory of disease to prolong healthy aging.
5 re enabling more precise characterization of healthy aging.
6 in function at rest is minimally affected by healthy aging.
7 of fat distribution and its association with healthy aging.
8 of circumstances that include but transcend healthy aging.
9 ise as a new therapeutic paradigm to promote healthy aging.
10 to whether cerebral perfusion declines with healthy aging.
11 pathways may be a novel strategy to promote healthy aging.
12 ally associated with tau tracer retention in healthy aging.
13 mostly of skeletal muscle, is important for healthy aging.
14 [4], to identify gut-microbial signatures of healthy aging.
15 , and mechanisms of action in the context of healthy aging.
16 cognitive decline is a genetic component of healthy aging.
17 d vegetables) may have a beneficial role for healthy aging.
18 is therefore a potential strategy to promote healthy aging.
19 orking memory capacity (WMC) associated with healthy aging.
20 omatic stem cells can be enhanced to promote healthy aging.
21 ples) were associated with increased odds of healthy aging.
22 id subclasses at midlife had greater odds of healthy aging.
23 strated the importance of kidney function in healthy aging.
24 oid intake in midlife with the prevalence of healthy aging.
25 urodegenerative pathologies, and may promote healthy aging.
26 age, 1517 women (11.0%) met our criteria for healthy aging.
27 of metformin-based interventions to promote healthy aging.
28 to 83%; P for trend = 0.002) greater odds of healthy aging.
29 scribed frontotemporal pattern of changes in healthy aging.
30 king memory impairments in schizophrenia and healthy aging.
31 via conserved molecular pathways to promote healthy aging.
32 is of the conserved mechanisms that modulate healthy aging.
33 er effect on cardiorespiratory coupling than healthy aging.
34 this complex phenotype into subphenotypes of healthy aging.
35 er cognitive function, and lipid profiles of healthy aging.
36 other factors contributing to long life and healthy aging.
37 about alteration of a key neural circuit in healthy aging.
38 ies, the Canadian Community Health Survey on Healthy Aging (2008-2009), and the Quebec Longitudinal S
40 ted include a centenarian who was a model of healthy aging, a 92-year-old with dementia and clinicall
41 These case histories provide examples of how healthy aging and dementia relate to the degree of patho
43 , intrinsic evidence for such a link between healthy aging and development in brain structure remains
47 to understand the epigenetic contribution to healthy aging and longevity and the molecular basis of t
50 tory animals can help to distinguish between healthy aging and pathological conditions that may contr
51 om the longitudinal Adult Children Study and Healthy Aging and Senile Dementia Study at the Knight Al
53 ences exist between the processes of normal "healthy" aging and pathologic age-related neurodegenerat
54 e development of novel drug targets for both healthy aging, and pathological aging such as Alzheimer'
55 rmalities in psychosis, their deviation from healthy aging, and the influence of sex on these measure
56 initial formation of tangles and plaques in healthy aging appeared to be independent of each other.
57 ation of greater height with reduced odds of healthy aging appeared to be more evident among women wi
59 ves to optimize long-term health and promote healthy aging are based on the concept of functional fit
61 ignificant change between young controls and healthy aging as measured by the GM volume and cortical
62 cation of genetic factors that contribute to healthy aging as well as the chronic conditions common i
64 e production is beneficial for memory in the healthy aging brain, it might be detrimental in an Alzhe
67 h unpublished data from 200 individuals of a healthy aging cohort (Erikson et al., Cell 165(4):1002-1
69 range, 65-84 years; 12 men, 11 women) and 50 healthy aging control subjects (mean age, 73.1 years +/-
72 e what methods can be used today to increase healthy aging, forestall the onset of these diseases, an
73 rstand the role of dietary protein intake in healthy aging, greater efforts are needed to coordinate
76 resonance spectroscopy ((1)H-MRS) studies on healthy aging have reported inconsistent findings and ha
78 tion of age-related disease and promotion of healthy aging in humans, and the challenge of possible n
80 were conducted in 329 AA participants in the Healthy Aging in Neighborhoods of Diversity across the L
83 This study's objective was to investigate healthy aging in older French adults 5 years after a per
84 y of height (</=1.57 m), the OR of achieving healthy aging in the highest category (>/=1.70 m) was 0.
85 out the brain in a nonhuman primate model of healthy aging in which the full complement of Alzheimer'
86 nted several additional phenotypes linked to healthy aging, including lower prevalence of cancer and
88 ted prefrontal activity in humans, show that healthy aging induces functional alterations in the rewa
89 tudinal studies of subjects progressing from healthy aging into dementia will enable a detailed under
95 onic disease prevention and the promotion of healthy aging is critical, especially because obesity, w
97 longevity, usually focused on centenarians, healthy aging is not associated with known longevity var
98 sability and normative functional beliefs of healthy aging is required in this population to inform i
100 d action of sensory and reward circuits, and healthy aging may be compromised when the expectations d
101 igated the associations of adult height with healthy aging measured by a full spectrum of health outc
102 sis and treatment of testosterone decline in healthy aging men and the associated clinical issues for
103 hese results suggest that the ability of the healthy aging motor cortex to reorganize in response to
105 of this study was to evaluate the effect of healthy aging on brain incorporation of 11C-AA, before a
106 s have supported the preferential effects of healthy aging on frontal cortex, but reductions in other
107 ith a prudent dietary pattern in relation to healthy aging (P-interaction = 0.005), and among the ind
112 upplementation was associated with a greater healthy aging probability among men (relative risk = 1.1
113 hypothesis that muscle insulin resistance in healthy aging promotes increased hepatic de novo lipogen
114 ting white matter microstructural changes in healthy aging provides essential context to clinical stu
116 Circulating PC levels do not decline with healthy aging; RF exposure at a younger age stimulates P
117 cures to devastating diseases and to foster healthy aging, shows the need to respect public sensibil
121 matter loss in parietal regions is a part of healthy aging suggests that diminished rPPC grey matter
122 rences in gray matter reflect the effects of healthy aging that cannot be attributed to AD pathology,
125 -by-sex interaction in conversion risk (from healthy aging to mild cognitive impairment (MCI)/AD or f
126 ued genome sequencing of a related phenotype-healthy aging-to understand the genetics of disease-free
128 hy compared with usual aging as of age 70 y; healthy aging was based on survival to >/=70 y with main
132 , the atrophy pattern in PD was also seen in healthy aging, where it also correlated with the loss of
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