Background Blood-based biomarkers for Alzheimer’s disease (AD) are highly needed in clinic practice. So far, the gold standards for AD diagnosis are brain neuroimaging and beta-amyloid peptide, total tau, and phosphorylated tau in cerebrospinal fluid (CSF); however, they are not attractive for large-scale screening. Blood-based biomarkers allow an initial large-scale screening of patients under suspicion that could later be tested for the already established CSF biomarkers. To this regard, in this study, we evaluated whether plasma ADAM10 levels would be predictors of declines in cognition in community-dwelling older adults after a 3-year period follow-up. Methods This was a 3-year longitudinal cohort study that included 219 community-dwelling older adults. Sociodemographic, clinical, lifestyle, depressive symptoms (GDS), and cognitive data (Mini-Mental State Examination, MMSE; Clock Drawing test, CDT) were gathered. The measurement of ADAM10 plasma levels was performed using a sandwich ELISA kit. Bivariate comparisons between groups were performed using Wilcoxon-Mann-Whitney for continuous data and Pearson’s chi-square tests with Yates continuity correction for categorical data. Longitudinal analyzes of changes in the MMSE scores were performed using linear mixed-effects modeling. Results Baseline MMSE scores and ADAM10 levels were significantly associated with MMSE scores on the follow-up assessment. When analyzing the interaction with time, normal MMSE scores and the ADAM10 plasma levels at baseline presented a significant and independent negative association with MMSE score values on the follow-up assessment. The analyses also showed that the predictive effect of ADAM10 plasma levels on decreasing MMSE scores on follow-up seems to be more pronounced in participants with normal MMSE, when compared with those with altered MMSE scores at baseline. Conclusions Considering that ADAM10 increase in plasma is detected as soon as in mild cognitive impairment (MCI) patients, the results presented here may support the complementary clinical use of this biomarker, in addition to the classical AD biomarkers. Taken together, these results provide the first direct evidence that changes in ADAM10 plasma levels are predictors of cognitive worsening in older adults. Moreover, this work can shed light on the study of blood biomarkers for AD and contribute to the advancement of the area.
Background: Blood-based biomarkers for Alzheimer’s disease (AD) are highly needed in clinic practice. So far, the gold standards for AD diagnosis are brain neuroimaging and beta-amyloid peptide, total tau and phosphorylated tau in cerebrospinal fluid (CSF), however, they are not attractive for large-scale screening. Blood-based biomarkers will allow an initial large-scale screening of patients under suspicion that could later be tested for the already established CSF biomarkers. To this regard, we and other research groups have already described that the plasma and platelet levels of ADAM10 are higher or lower, respectively, in patients with AD, compared to those cognitively healthy. Methods: This was a three-year longitudinal cohort study that included 219 community-dwelling older adults. Sociodemographic, clinical, lifestyle, depressive symptoms (GDS) and cognitive data (Mini-Mental State Examination, MMSE; Clock Drawing test, CDT) were gathered. The measurement of ADAM10 plasma levels was performed using a sandwich ELISA kit. Bivariate comparisons between groups were performed using Wilcoxon-Mann-Whitney for continuous data and Pearson’s chi-square tests with Yates continuity correction, for categorical data. Longitudinal analyzes of changes in the MMSE score were performed using Linear Mixed-Effects modeling.Results: Baseline MMSE score and ADAM10 values were significantly associated with MMSE score values on the follow-up assessment. When analyzing the interaction with time, having a normal MMSE at baseline and ADAM10 plasma levels presented a significant and independent negative association with MMSE score values on the follow-up assessment. The analyses also showed that the effect of ADAM10 plasma levels on decreasing MMSE score values on follow-up seems to be more pronounced in those with normal MMSE at baseline. Taken together, these results provide the first direct evidence that changes in ADAM10 plasma levels are predictors of cognitive worsening in older adults.Conclusions: Considering that ADAM10 increase in plasma is detected as soon as in mild cognitive impairment (MCI) patients, the results presented here may support the complementary clinical use of this biomarker, in addition to the classical AD biomarkers. Moreover, this work can shed light on the study of blood biomarkers for AD and contribute to the advancement of the area.
Background Blood-based biomarkers for Alzheimer’s disease (AD) are highly needed in clinic practice. So far, the gold standards for AD diagnosis are brain neuroimaging and beta-amyloid peptide, total tau and phosphorylated tau in cerebrospinal fluid (CSF), however, they are not attractive for large-scale screening. Blood-based biomarkers will allow an initial large-scale screening of patients under suspicion that could later be tested for the already established CSF biomarkers. To this regard, we and other research groups have already described that the plasma and platelet levels of ADAM10 are higher or lower, respectively, in patients with AD, compared to those cognitively healthy. Methods This was a three-year longitudinal cohort study that included 219 community-dwelling older adults. Sociodemographic, clinical, lifestyle, depressive symptoms (GDS) and cognitive data (Mini-Mental State Examination, MMSE; Clock Drawing test, CDT) were gathered. The measurement of ADAM10 plasma levels was performed using a sandwich ELISA kit. Bivariate comparisons between groups were performed using Wilcoxon-Mann-Whitney for continuous data and Pearson’s chi-square tests with Yates continuity correction, for categorical data. Longitudinal analyzes of changes in the MMSE score were performed using Linear Mixed-Effects modeling. Results Baseline MMSE score and ADAM10 values were significantly associated with MMSE score values on the follow-up assessment. When analyzing the interaction with time, having a normal MMSE at baseline and ADAM10 plasma levels presented a significant and independent negative association with MMSE score values on the follow-up assessment. The analyses also showed that the effect of ADAM10 plasma levels on decreasing MMSE score values on follow-up seems to be more pronounced in those with normal MMSE at baseline. Taken together, these results provide the first direct evidence that changes in ADAM10 plasma levels are predictors of cognitive worsening in older adults. Conclusions Considering that ADAM10 increase in plasma is detected as soon as in mild cognitive impairment (MCI) patients, the results presented here may support the complementary clinical use of this biomarker, in addition to the classical AD biomarkers. Moreover, this work can shed light on the study of blood biomarkers for AD and contribute to the advancement of the area.
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