Physiologic modulation of natural killer cell activity as an index of Alzheimer's disease progression

Prolo, Paolo; Chiappelli, Francesco; Angeli, Alberto; Dovio, Andrea; Perotti, Paola; Pautasso, Marisa; Sartori, Matteo; Saba, L.; Mussino, Stefano; Fraccalini, Thomas; Fantò, Fausto; Mocellini, Cristina; Rosso, Michela; Grasso, E

doi:10.6026/97320630001363

Cited by 17 publications

(14 citation statements)

References 9 publications

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“…The patients’ ability to remember, understand, communicate and reason gradually declines, with largely non-uniform rates of progression[11]. Many factors can affect the rate of clinical progression, including brain atrophy rates[12-14], patterns of regional brain atrophy[15], ventricular enlargement[16], neuropsychological and cerebral profiles[17], vascular factors[18], and immunological factors[19]. …”

Section: Introductionmentioning

confidence: 99%

Genetic Determinants of Disease Progression in Alzheimer's Disease

Wang

López

Sweet

et al. 2014

JAD

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There is a strong genetic basis for late-onset of Alzheimer’s disease (LOAD); thus far 22 genes/loci have been identified that affect the risk of LOAD. However, the relationships among the genetic variations at these loci and clinical progression of the disease have not been fully explored. In the present study, we examined the relationships of 22 known LOAD genes to the progression of AD in 680 AD patients recruited from the University of Pittsburgh Alzheimer’s Disease Research Center. Patients were classified as “rapid progressors” if the MMSE changed ≥3 points in 12 months and “slow progressors” if the MMSE changed ≤2 points. We also performed a genome-wide association study in this cohort in an effort to identify new loci for AD progression. Association analysis between SNPs and the progression status of the AD cases was performed using logistic regression model controlled for age, gender, dementia medication use, psychosis, and hypertension. While no significant association was observed with either APOE*4 (p=0.94) or APOE*2 (p=0.33) with AD progression, we found multiple nominally significant associations (p<0.05) either within or adjacent to seven known LOAD genes (INPP5D, MEF2C, TREM2, EPHA1, PTK2B, FERMT2 and CASS4) that harbor both risk and protective SNPs. Genome-wide association analyses identified four suggestive loci (PAX3, CCRN4L, PIGQ and ADAM19) at p<1E-05. Our data suggest that short-term clinical disease progression in AD has genetic basis. Better understanding of these genetic factors could help to improve clinical trial design and potentially affect the development of disease modifying therapies.

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Section: Introductionmentioning

confidence: 99%

Genetic Determinants of Disease Progression in Alzheimer's Disease

Wang

López

Sweet

et al. 2014

JAD

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“…Many factors have been found to correlate with the rate of a patient's cognitive deterioration, including apolipoprotein 14 genotype [3] and other genetic factors [4,5], brain atrophy rates [6][7][8], patterns of regional brain atrophy [9], ventricular enlargement [10], neuropsychological and cerebral metabolic profiles [2], vascular factors [11] and immune system factors [12].…”

Section: Introductionmentioning

confidence: 99%

Alzheimer's disease: rapid and slow progression

Thalhauser

Komarova

2011

J. R. Soc. Interface.

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The variability in the progression of Alzheimer's disease (AD) across patients has made identification of disease-delaying treatments difficult. Quantitative analysis of this variability has important implications in understanding the pathophysiology of AD and identifying disease-delaying treatments. The functional assessment staging (FAST) procedure characterizes seven stages in the course of AD from normal ageing to severe dementia. The present study applied statistical methods to analyse FAST stage durations from a dataset of 648 AD patients. These methods uncovered two distinct types of disease progression, characterized by different mean progression rates. We identified two separate distributions of FAST stage progression times differing by up to 2 years in mean duration within each stage. These results further indicate that if a patient progresses rapidly through a given FAST stage, then their further progression is also likely to be rapid. These findings support the hypothesis that progression of AD can occur via two different pathophysiological mechanisms that lead to distinct average rates of decline.

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“…Sensory gardens and horticultural activities are increasingly used in dementia care, yet their benefits are uncertain. These types of nonpharmacological interventions may improve well-being and reduce the occurrence of disruptive behavior, eventually positively acting on neuroimmune modulation as we have previously demonstrated [14][15][16]. Additionally, the use of psychotropic drugs, incidents of serious falls, sleep and sleep pattern also seem to lower.…”

Section: Introductionmentioning

confidence: 81%

A sensory garden in dementia care: from design to practice Balerna Diurnal Therapeutic Centre

Prolo¹,

Sassi²

2017

Alzheimers Dement Cogn Neurol

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Aims and objectives: Sensory gardens are supposed to be beneficial to improve mental well-being in vulnerable people. Our aim was to investigate how regularly attending a sensory garden can improve both quality of life and social interactions in elderly people with Alzheimer's disease. Background:A newly designed sensory garden in an elderly daytime health care center in Balerna in southern Switzerland is accessible almost all year long.

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Physiologic modulation of natural killer cell activity as an index of Alzheimer's disease progression

Cited by 17 publications

References 9 publications

Genetic Determinants of Disease Progression in Alzheimer's Disease

Genetic Determinants of Disease Progression in Alzheimer's Disease

Alzheimer's disease: rapid and slow progression

A sensory garden in dementia care: from design to practice Balerna Diurnal Therapeutic Centre

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