Richard D. Semba scite author profile

Overall, these findings indicate that the likelihood of frailty increases nonlinearly in relationship to the number of physiological systems abnormal, and the number of abnormal systems is more predictive than the individual abnormal system. These findings support theories that aggregate loss of complexity, with aging, in physiological systems is an important cause of frailty. Implications are that a threshold loss of complexity, as indicated by number of systems abnormal, may undermine homeostatic adaptive capacity, leading to the development of frailty and its associated risk for subsequent adverse outcomes. It further suggests that replacement of any one deficient system may not be sufficient to prevent or ameliorate frailty.

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Effect of parental formal education on risk of child stunting in Indonesia and Bangladesh: a cross-sectional study

Semba

et al. 2008

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Low Nutrient Intake Is an Essential Component of Frailty in Older Persons

Bartali

Frongillo

Bandinelli

et al. 2006

The Journals of Gerontology Series A: Biological Sciences and M

385

303

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Plasma proteomic signature of age in healthy humans

Tanaka¹,

Biancotto²,

Moaddel³

et al. 2018

Aging Cell

266

288

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To characterize the proteomic signature of chronological age, 1,301 proteins were measured in plasma using the SOMAscan assay (SomaLogic, Boulder, CO, USA) in a population of 240 healthy men and women, 22–93 years old, who were disease‐ and treatment‐free and had no physical and cognitive impairment. Using a p ≤ 3.83 × 10−5 significance threshold, 197 proteins were positively associated, and 20 proteins were negatively associated with age. Growth differentiation factor 15 (GDF15) had the strongest, positive association with age (GDF15; 0.018 ± 0.001, p = 7.49 × 10−56). In our sample, GDF15 was not associated with other cardiovascular risk factors such as cholesterol or inflammatory markers. The functional pathways enriched in the 217 age‐associated proteins included blood coagulation, chemokine and inflammatory pathways, axon guidance, peptidase activity, and apoptosis. Using elastic net regression models, we created a proteomic signature of age based on relative concentrations of 76 proteins that highly correlated with chronological age (r = 0.94). The generalizability of our findings needs replication in an independent cohort.

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Does Accumulation of Advanced Glycation End Products Contribute to the Aging Phenotype?

Semba

Nicklett

Ferrucci

2010

The Journals of Gerontology Series A: Biological Sciences and M

356

300

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Based on these data, we propose that accumulation of AGEs accelerate the multisystem functional decline that occurs with aging, and therefore contribute to the aging phenotype. Exposure to AGEs can be reduced by restriction of dietary intake of AGEs and drug treatment with AGE inhibitors and AGE breakers. Modification of intake and circulating levels of AGEs may be a possible strategy to promote health in old age, especially because most Western foods are processed at high temperature and are rich in AGEs.

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The Association Between Obesity and the Frailty Syndrome in Older Women: The Women's Health and Aging Studies

et al. 2005

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The anemia of vitamin A deficiency: epidemiology and pathogenesis

2002

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Objective: To gain insight into vitamin A deficiency as a cause of anemia. Methods: Comprehensive review of the scientific literature. Results: Although vitamin A deficiency is recognized to cause anemia, 'vitamin A deficiency anemia' lacks complete characterization as a distinct clinical entity. Vitamin A appears to be involved in the pathogenesis of anemia through diverse biological mechanisms, such as the enhancement of growth and differentiation of erythrocyte progenitor cells, potentiation of immunity to infection and reduction of the anemia of infection, and mobilization of iron stores from tissues. Epidemiological surveys show that the prevalence of anemia is high in populations affected by vitamin A deficiency in developing countries. Improvement of vitamin A status has generally been shown to reduce anemia, but the actual public health impact on anemia is unclear. Conclusions: Further work is needed to elucidate the biological mechanisms by which vitamin A causes anemia. The inclusion of anemia as an outcome measure in future micronutrient intervention studies should help provide further insight into the anemia of vitamin A deficiency.

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Richard D. Semba

Red Cell Distribution Width and Mortality in Older Adults: A Meta-analysis

Nonlinear Multisystem Physiological Dysregulation Associated With Frailty in Older Women: Implications for Etiology and Treatment

Effect of parental formal education on risk of child stunting in Indonesia and Bangladesh: a cross-sectional study

Low Nutrient Intake Is an Essential Component of Frailty in Older Persons

Plasma proteomic signature of age in healthy humans

Does Accumulation of Advanced Glycation End Products Contribute to the Aging Phenotype?

The Association Between Obesity and the Frailty Syndrome in Older Women: The Women's Health and Aging Studies

The anemia of vitamin A deficiency: epidemiology and pathogenesis

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