Your search keyword '"Lesnick, Timothy G."' showing total 141 results

1. Associations of blood pressure with white matter hyperintensities later in life; influence of short-term menopausal hormone therapy

Author

Kara, Firat, Tosakulwong, Nirubol, Lesnick, Timothy G., Fought, Angela J., Kendell-Thomas, June, Kapoor, Ekta, Faubion, Laura L., Schwarz, Christopher G., Senjem, Matthew L., Fields, Julie A., Min, Paul H., Lowe, Val J., Jack, Clifford R., Bailey, Kent R., James, Taryn T., Lobo, Rogerio A., Manson, JoAnn E., Pal, Lubna, Hammers, Dustin B., Malek-Ahmadi, Michael, Cedars, Marcelle I., Naftolin, Frederick N., Santoro, Nanette, Miller, Virginia M., Harman, Sherman M., Dowling, N. Maritza, Gleason, Carey E., and Kantarci, Kejal

Abstract

The findings of this study suggest the importance of maintaining normal blood pressure in recently postmenopausal women with low cardiovascular disease risk, irrespective of short-term menopausal hormone therapy usage, to potentially reduce the risk of white matter hyperintensities later in life.

Published

2025

2. Plasma biomarkers of Alzheimer's disease in the continuum of dementia with Lewy bodies.

Author

Diaz‐Galvan, Patricia, Przybelski, Scott A., Algeciras‐Schimnich, Alicia, Figdore, Dan J., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Paul H, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, Ramanan, Vijay K., Jones, David T., Botha, Hugo, and St Louis, Erik K.

Abstract

INTRODUCTION: Patients with dementia with Lewy bodies (DLB) may have Alzheimers disease (AD) pathology that can be detected by plasma biomarkers. Our objective was to evaluate plasma biomarkers of AD and their association with positron emission tomography (PET) biomarkers of amyloid and tau deposition in the continuum of DLB, starting from prodromal stages of the disease. METHODS: The cohort included patients with isolated rapid eye movement (REM) sleep behavior disorder (iRBD), mild cognitive impairment with Lewy bodies (MCI‐LB), or DLB, with a concurrent blood draw and PET scans. RESULTS: Abnormal levels of plasma glial fibrillary acidic protein (GFAP) were found at the prodromal stage of MCI‐LB in association with increased amyloid PET. Abnormal levels of plasma phosphorylated tau (p‐tau)‐181 and neurofilament light (NfL) were found at the DLB stage. Plasma p‐tau‐181 showed the highest accuracy in detecting abnormal amyloid and tau PET in patients with DLB. DISCUSSION: The range of AD co‐pathology can be detected with plasma biomarkers in the DLB continuum, particularly with plasma p‐tau‐181 and GFAP. [ABSTRACT FROM AUTHOR]

Published

2024

3. Vascular risk, gait, behavioral, and plasma indicators of VCID.

Author

Raghavan, Sheelakumari, Przybelski, Scott A., Lesnick, Timothy G., Fought, Angela J., Reid, Robert I., Gebre, Robel K., Windham, B. Gwen, Algeciras‐Schimnich, Alicia, Machulda, Mary M., Vassilaki, Maria, Knopman, David S., Jack, Clifford R., Petersen, Ronald C., Graff‐Radford, Jonathan, and Vemuri, Prashanthi

Abstract

INTRODUCTION: Cost‐effective screening tools for vascular contributions to cognitive impairment and dementia (VCID) has significant implications. We evaluated non‐imaging indicators of VCID using magnetic resonance imaging (MRI)‐measured white matter (WM) damage and hypothesized that these indicators differ based on age. METHODS: In 745 participants from the Mayo Clinic Study of Aging (≥50 years of age) with serial WM assessments from diffusion MRI and fluid‐attenuated inversion recovery (FLAIR)‐MRI, we examined associations between baseline non‐imaging indicators (demographics, vascular risk factors [VRFs], gait, behavioral, plasma glial fibrillary acidic protein [GFAP], and plasma neurofilament light chain [NfL]) and WM damage across three age tertiles. RESULTS: VRFs and gait were associated with diffusion changes even in low age strata. All measures (VRFs, gait, behavioral, plasma GFAP, plasma NfL) were associated with white matter hyperintensities (WMHs) but mainly in intermediate and high age strata. DISCUSSION: Non‐imaging indicators of VCID were related to WM damage and may aid in screening participants and assessing outcomes for VCID. Highlights: Non‐imaging indicators of VCID can aid in prediction of MRI‐measured WM damage but their importance differed by age.Vascular risk and gait measures were associated with early VCID changes measured using diffusion MRI.Plasma markers explained variability in WMH across age strata.Most non‐imaging measures explained variability in WMH and vascular WM scores in intermediate and older age groups.The framework developed here can be used to evaluate new non‐imaging VCID indicators proposed in the future. [ABSTRACT FROM AUTHOR]

Published

2024

4. β-Amyloid Load on PET Along the Continuum of Dementia With Lewy Bodies.

Author

Diaz-Galvan, Patricia, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Hoon-Ki Paul, Jain, Manoj, Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff-Radford, Jonathan, Jones, David T., Botha, Hugo, St Louis, Erik K., Knopman, David S., Ramanan, Vijay K., and Ross, Owen

Published

2023

5. White Matter Degeneration Pathways Associated With Tau Deposition in Alzheimer Disease.

Author

Tian, Jianqiao, Raghavan, Sheelakumari, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Gebre, Robel K., Graff-Radford, Jonathan, Schwarz, Christopher G., Lowe, Val J., Kantarci, Kejal, Knopman, David S., Petersen, Ronald C., Jack Jr, Clifford R., and Vemuri, Prashanthi

Published

2023

6. A Machine Learning Approach to Identify Individualized Baseline MRI, Plasma, Cardiovascular and Lifestyle Predictors of a 5‐Year Cognitive Decline.

Author

Gebre, Robel K, Ramanan, Vijay K, Raghavan, Sheelakumari, Hofrenning, Ekaterina I., Przybelski, Scott A., Lesnick, Timothy G., Knopman, David S., Machulda, Mary M., Vassilaki, Maria, Petersen, Ronald C., Jack, Clifford R., Graff‐Radford, Jonathan, and Vemuri, Prashanthi

Abstract

Background: The mapping between risk factors and biomarkers with cognitive performance and decline in the older adults is complex and varies significantly across different age and sex groups. Our goals were to (i) develop a machine learning (ML) model to predict baseline cognition and cognitive decline over a 5‐year follow‐up using only baseline assessments, and (ii) identify important modifiable and non‐modifiable predictors of cognitive decline across different age strata. Method: We utilized longitudinal data from 2219 participants (mean age (SD): 70 (12) years, 49% male) from Mayo Clinic Study of Aging who had 43 features belonging to cardiovascular health, plasma, MRI (diffusion and structural), and lifestyle measures. Cognition was measured using a global cognition z‐score. We built ML models to predict baseline cognition and rate of cognitive decline over 5‐years (linear regression slopes over all individual followup measurements for each participant) using baseline assessments as inputs. We then built a model for each category separately and as a pooled model with all measures included, incorporating education and sex as demographic features in all models (Fig. 1). We applied a multi‐layer stack ensemble ML technique that utilized repeated k‐fold bagging to maximize accuracy. Importance of the top predictors were assessed in three age strata (55‐65 years (31%), 65‐80 years (46%), 80‐95 years (23%)). Result: The pooled model explained the largest variance for prediction of baseline cognition and cognitive decline (Fig. 2). In individuals ≤80 years, lower NfL was most predictive of higher baseline cognition. A combination of imaging and plasma features predicted the 5‐year cognitive decline. Additionally, in individuals ≤65 years, diabetes and hypertension were important predictors of faster cognitive decline and in those >80, lower BMI and midlife physical/cognitive activity was an important predictor of faster cognitive decline (Fig. 3). Conclusion: The plasma model was best for baseline cognition prediction and imaging model was best for cognitive decline prediction. There was significant heterogeneity in important features across the age strata. In individuals >65 years, plasma GFAP was the most important predictor of cognitive decline. Our model allowed identification of key risk factors that predicted cognitive decline. [ABSTRACT FROM AUTHOR]

Published

2023

7. Non‐imaging measures to predict variability in white matter changes relevant to VCID.

Author

Raghavan, Sheelakumari, Przybelski, Scott A., Lesnick, Timothy G., Reid, Robert I., Fought, Angela J., Gebre, Robel K, Algeciras‐Schimnich, Alicia, Machulda, Mary M., Vassilaki, Maria, Knopman, David S., Jack, Clifford R., Petersen, Ron, Graff‐Radford, Jonathan, and Vemuri, Prashanthi

Abstract

Background: Small vessel disease (SVD) is a common vascular contributor to cognitive impairment and dementia. In this work, we evaluated and compared non‐imaging measures that can predict variability in SVD related white matter (WM) damage in a population‐based sample. Method: We identified 752 participants in the population‐based sample of Mayo Clinic Study of Aging (≥50 years of age), who had at least 2 diffusion tensor imaging (DTI) scans and white matter hyperintensity (WMH) assessments along with baseline demographics, systemic vascular health, lifestyle, motor impairment, behavioral symptoms, and plasma markers (Summarized in Figure 1). We computed the WM markers of SVD: fractional anisotropy of genu of the corpus callosum (Genu‐FA) representative of early WM changes, WMH representative of late WM changes, and Vascular WM score (combination of Genu‐FA and WMH). Using all available data, we fit linear mixed effect models and evaluated predictors of WM markers by considering each category of features independently (with demographics) as well as by combining all categories of features Result: Plasma, gait, systemic vascular, and life‐style measures were significant predictors of all three WM markers of SVD (Figure 2). The predictors of early and late WM slightly differed such that there were no additional significant contributions from behavioral and plasma measures to Genu‐FA. In the final composite models shown in Table 1, higher gait speed, lower number of cardiovascular and metabolic conditions (CMC) and lower Unified Parkinson's disease rating scale scores were associated with better Genu‐FA whereas higher CMC, Beck Anxiety Inventory scores (BAI), and glial acidic protein (GFAP) levels were associated with higher burden of WMH. Conclusion: Our observations evaluated the non‐imaging markers of greater WM damage that are relevant to vascular contributions to cognitive impairment to dementia (VCID). We found that in addition to higher vascular risk, worse plasma GFAP, gait measures, and BAI scores were predictors of greater WM damage. Some non‐imaging markers were more associated with early WM changes and others with late WM changes. [ABSTRACT FROM AUTHOR]

Published

2023

8. NODDI May Be More Sensitive to Neurodegenerative Changes Than Structural MRI.

Author

Yu, Xi, Gebre, Robel K, Przybelski, Scott A., Reid, Robert I., Raghavan, Sheelakumari, Lesnick, Timothy G., Lowe, Val J., Machulda, Mary M., Knopman, David S., Petersen, Ronald C., Kantarci, Kejal, Graff‐Radford, Jonathan, Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Background: Neurite orientation dispersion and density imaging (NODDI) measures from diffusion MRI provide information about tissue microstructure. Our goal was to compare the sensitivity of NODDI to structural MRI (sMRI) in capturing neurodegenerative changes in the gray matter due to aging and dementia. Method: We included 815 participants [644 cognitively unimpaired (CU), 103 MCI, 68 AD] from the Mayo Clinic Study of Aging (MCSA) and Mayo ADRC with sMRI and multi‐shell diffusion MRI. We assessed gray matter volumes scaled by head size and cortical thicknesses from sMRI and neurite density index (NDI) and isotropic volume fraction (ISOVF) from NODDI. Pairwise Spearman correlations were calculated between imaging measures and Tau‐PET SUVRs in Braak I‐II, III‐IV, and V‐VI regions of interest (ROI) in participants ≥ 60 years. Separate multivariable linear regression models were fit for the prediction of brain age using sMRI and NODDI in 515 CU participants. The predicted age gaps were calculated as chronological age minus predicted age in the remaining participants. We compared age gaps computed by sMRI and NODDI using disease surrogates (APOE4 genotype, AD pathologies via PET, WMH via FLAIR‐MRI, vascular risk, cognition via MMSE). Result: Braak ROIs, sMRI, and NODDI measures were correlated. The correlations between ISOVF and Tau‐PET SUVRs were stronger than correlations between NDI, volume, and thickness and Tau‐PET SUVR (Fig.1). MMSE was more associated with ISOVF than Tau‐PET and other imaging measures. The sMRI regression models had a higher mean absolute error (MAE) of 4.13 years than NODDI models with an MAE of 4.02 years. The NODDI model better predicted age gap separation between CU, MCI, and AD compared to the sMRI model (Fig.2). The NODDI predicted age gap showed stronger correlations with global amyloid‐PET SUVR, meta‐ROI Tau‐PET SUVR, CMC, APOE4, and MMSE (Fig. 3). Conclusion: NODDI, especially ISOVF, had stronger correlations with MMSE and Tau‐PET SUVRs across all Braak ROIs. The brain age prediction model trained using NODDI was more sensitive in detecting neurodegeneration changes than sMRI based on associations with disease surrogates. Our work suggests that NODDI in gray matter may be a more sensitive surrogate of neurodegeneration compared to sMRI. [ABSTRACT FROM AUTHOR]

Published

2023

9. Alzheimer's disease biomarkers of amyloid and tau influence white matter neurite alterations in dementia with Lewy bodies: a NODDI study.

Author

Mak, Elijah, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Raghavan, Sheelakumari, Vemuri, Prashanthi, Jack, Clifford R., Min, Hoon‐Ki, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, Jones, David T., Botha, Hugo, St. Louis, Erik K, and Knopman, David S.

Abstract

Background: Co‐morbid Alzheimer's disease (AD) pathology in the form of amyloid‐β plaques and tau neurofibrillary tangles are frequently observed in people with probable dementia with Lewy bodies (DLB). Neurite Orientation Dispersion and Density Imaging (NODDI) is an emerging technique to characterize white matter (WM) tissue microstructure, although NODDI alterations and associations with AD biomarkers remain undefined in DLB. The objectives of this study are to compare NODDI and DTI parameters between DLB and controls and (ii) evaluate the pattern of DTI and NODDI changes associated with amyloid and tau deposition. Method: Consecutive patients within the DLB spectrum (n = 45), including probable DLB (n = 32) and probable Mild Cognitive Impairment with Lewy bodies (MCI‐LB) (n = 13) from the Mayo Clinic ADRC underwent multi‐shell diffusion MRI, [18F]‐Flortaucipir and [11C]‐PiB PET. A comparison group of 45 age‐ and gender‐matched clinically unimpaired controls (CU) was included. Voxelwise non‐parametric permutation models were used to determine pair‐wise group differences and assess the associations of AD biomarkers with fractional anisotropy (FA), mean diffusivity (MD), tissue‐weighted neurite density index (tNDI; NDI x (1 – Free water fraction)) and orientation dispersion index (ODI), controlling for age. Complementary analyses were performed using regions‐of‐interest (ROI) obtained from the JHU atlas. Result: Compared to CU, the DLB spectrum group exhibited widespread decreases in FA and tNDI and increases in MD and ODI, with the most pronounced effects in the cingulum bundles, uncinate, inferior and superior longitudinal fasciculi (Fig. 1). Greater [18F]‐Flortaucipir uptake was also associated with lower FA and tNDI, and higher MD and ODI in the DLB spectrum compared to CU, independently of age and [11C]‐PiB uptake (Fig. 2). In contrast, no associations were found between [11C]‐PiB uptake and any of the DTI or NODDI parameters. Complementary ROI analyses corroborated these findings. Conclusion: Widespread loss of WM integrity was observed on DTI and NODDI in probable DLB and prodromal DLB. These findings were associated with greater cortical tau, but not with amyloid‐β deposition. Although alpha‐synuclein pathology underlies the loss of WM integrity in DLB, amyloid‐independent tau pathology may also be an important influence on white matter integrity within the DLB spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

10. Alzheimer's disease biomarkers of amyloid and tau influence white matter neurite alterations in dementia with Lewy bodies: a NODDI study.

Author

Mak, Elijah, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Raghavan, Sheelakumari, Vemuri, Prashanthi, Jack, Clifford R., Min, Hoon‐Ki, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, Jones, David T., Botha, Hugo, St Louis, Erik K, and Knopman, David S.

Abstract

Background: Co‐morbid Alzheimer's disease (AD) pathology in the form of amyloid‐ß plaques and tau neurofibrillary tangles are frequently observed in people with probable dementia with Lewy bodies (DLB). Neurite Orientation Dispersion and Density Imaging (NODDI) is an emerging technique to characterize white matter (WM) tissue microstructure, although NODDI alterations and associations with AD biomarkers remain undefined in DLB. The objectives of this study are to compare NODDI and DTI parameters between DLB and controls and (ii) evaluate the pattern of DTI and NODDI changes associated with amyloid and tau deposition. Method: Consecutive patients within the DLB spectrum (n = 45), including probable DLB (n = 32) and probable Mild Cognitive Impairment with Lewy bodies (MCI‐LB) (n = 13) from the Mayo Clinic ADRC underwent multi‐shell diffusion MRI, [18F]‐Flortaucipir and [11C]‐PiB PET. A comparison group of 45 age‐ and gender‐matched clinically unimpaired controls (CU) was included. Voxelwise non‐parametric permutation models were used to determine pair‐wise group differences and assess the associations of AD biomarkers with fractional anisotropy (FA), mean diffusivity (MD), tissue‐weighted neurite density index (tNDI; NDI x (1 – Free water fraction)) and orientation dispersion index (ODI), controlling for age. Complementary analyses were performed using regions‐of‐interest (ROI) obtained from the JHU atlas. Result: Compared to CU, the DLB spectrum group exhibited widespread decreases in FA and tNDI and increases in MD and ODI, with the most pronounced effects in the cingulum bundles, uncinate, inferior and superior longitudinal fasciculi (Fig. 1). Greater [18F]‐Flortaucipir uptake was also associated with lower FA and tNDI, and higher MD and ODI in the DLB spectrum compared to CU, independently of age and [11C]‐PiB uptake (Fig. 2). In contrast, no associations were found between [11C]‐PiB uptake and any of the DTI or NODDI parameters. Complementary ROI analyses corroborated these findings. Conclusion: Widespread loss of WM integrity was observed on DTI and NODDI in probable DLB and prodromal DLB. These findings were associated with greater cortical tau, but not with amyloid‐ß deposition. Although alpha‐synuclein pathology underlies the loss of WM integrity in DLB, amyloid‐independent tau pathology may also be an important influence on white matter integrity within the DLB spectrum. [ABSTRACT FROM AUTHOR]

Published

2023

11. NODDI May Be More Sensitive to Neurodegenerative Changes Than Structural MRI.

Author

Yu, Xi, Gebre, Robel K, Przybelski, Scott A., Reid, Robert I., Raghavan, Sheelakumari, Lesnick, Timothy G., Lowe, Val J., Machulda, Mary M., Knopman, David S., Petersen, Ronald C., Kantarci, Kejal, Graff‐Radford, Jonathan, Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Background: Neurite orientation dispersion and density imaging (NODDI) measures from diffusion MRI provide information about tissue microstructure. Our goal was to compare the sensitivity of NODDI to structural MRI (sMRI) in capturing neurodegenerative changes in the gray matter due to aging and dementia. Method: We included 815 participants [644 cognitively unimpaired (CU), 103 MCI, 68 AD] from the Mayo Clinic Study of Aging (MCSA) and Mayo ADRC with sMRI and multi‐shell diffusion MRI. We assessed gray matter volumes scaled by head size and cortical thicknesses from sMRI and neurite density index (NDI) and isotropic volume fraction (ISOVF) from NODDI. Pairwise Spearman correlations were calculated between imaging measures and Tau‐PET SUVRs in Braak I‐II, III‐IV, and V‐VI regions of interest (ROI) in participants = 60 years. Separate multivariable linear regression models were fit for the prediction of brain age using sMRI and NODDI in 515 CU participants. The predicted age gaps were calculated as chronological age minus predicted age in the remaining participants. We compared age gaps computed by sMRI and NODDI using disease surrogates (APOE4 genotype, AD pathologies via PET, WMH via FLAIR‐MRI, vascular risk, cognition via MMSE). Result: Braak ROIs, sMRI, and NODDI measures were correlated. The correlations between ISOVF and Tau‐PET SUVRs were stronger than correlations between NDI, volume, and thickness and Tau‐PET SUVR (Fig.1). MMSE was more associated with ISOVF than Tau‐PET and other imaging measures. The sMRI regression models had a higher mean absolute error (MAE) of 4.13 years than NODDI models with an MAE of 4.02 years. The NODDI model better predicted age gap separation between CU, MCI, and AD compared to the sMRI model (Fig.2). The NODDI predicted age gap showed stronger correlations with global amyloid‐PET SUVR, meta‐ROI Tau‐PET SUVR, CMC, APOE4, and MMSE (Fig. 3). Conclusion: NODDI, especially ISOVF, had stronger correlations with MMSE and Tau‐PET SUVRs across all Braak ROIs. The brain age prediction model trained using NODDI was more sensitive in detecting neurodegeneration changes than sMRI based on associations with disease surrogates. Our work suggests that NODDI in gray matter may be a more sensitive surrogate of neurodegeneration compared to sMRI. [ABSTRACT FROM AUTHOR]

Published

2023

12. Cross-sectional Associations of β-Amyloid, Tau, and Cerebrovascular Biomarkers With Neurodegeneration in Probable Dementia With Lewy Bodies.

Author

Ferreira, Daniel, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Diaz-Galvan, Patricia, Graff-Radford, Jonathan, Senjem, Matthew L., Fields, Julie A., Knopman, David S., Jones, David T., Savica, Rodolfo, Ferman, Tanis J., Graff-Radford, Neill, Lowe, Val J., Jack, Clifford R., Petersen, Ronald C., Westman, Eric, Boeve, Brad F., and Kantarci, Kejal

Published

2023

13. β-Amyloid Load on PET Along the Continuum of Dementia With Lewy Bodies

Author

Diaz-Galvan, Patricia, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Hoon-Ki Paul, Jain, Manoj, Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff-Radford, Jonathan, Jones, David T., Botha, Hugo, St Louis, Erik K., Knopman, David S., Ramanan, Vijay K., Ross, Owen, Graff-Radford, Neill, Day, Gregory S., Dickson, Dennis W., Ferman, Tanis J., Petersen, Ronald C., Lowe, Val J., Boeve, Brad F., and Kantarci, Kejal

Published

2023

14. White Matter Degeneration Pathways Associated With Tau Deposition in Alzheimer Disease

Author

Tian, Jianqiao, Raghavan, Sheelakumari, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Gebre, Robel K., Graff-Radford, Jonathan, Schwarz, Christopher G., Lowe, Val J., Kantarci, Kejal, Knopman, David S., Petersen, Ronald C., Jack, Clifford R., and Vemuri, Prashanthi

Published

2023

15. Cross-sectional Associations of β-Amyloid, Tau, and Cerebrovascular Biomarkers With Neurodegeneration in Probable Dementia With Lewy Bodies

Author

Ferreira, Daniel, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Diaz-Galvan, Patricia, Graff-Radford, Jonathan, Senjem, Matthew L., Fields, Julie A., Knopman, David S., Jones, David T., Savica, Rodolfo, Ferman, Tanis J., Graff-Radford, Neill, Lowe, Val J., Jack, Clifford R., Petersen, Ronald C., Westman, Eric, Boeve, Brad F., and Kantarci, Kejal

Published

2023

16. The association of amyloid‐beta, tau, and cerebrovascular biomarkers with neurodegeneration in dementia with Lewy bodies.

Author

Ferreira, Daniel, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Diaz‐Galvan, Patricia, Graff‐Radford, Jonathan, Senjem, Matthew L., Fields, Julie A., Savica, Rodolfo, Ferman, Tanis J, Graff‐Radford, Neill R, Lowe, Val J., Jack, Clifford R., Petersen, Ronald C., Westman, Eric, Boeve, Brad F., and Kantarci, Kejal

Abstract

Background: Dementia with Lewy bodies (DLB) is the second most common neurodegenerative dementia, after Alzheimer's disease (AD). While alpha‐synuclein pathology is the hallmark of DLB, AD and cerebrovascular pathologies are common in DLB patients. However, the contribution of these pathologies towards neurodegeneration in DLB is largely unknown. We investigated associations of amyloid‐beta, tau, and cerebrovascular biomarkers with regional gray matter (GM) volume in DLB patients and cognitively unimpaired (CU) controls. Method: We included 30 DLB patients (69.3±10.2 years old, 87% men) and 100 CU individuals balanced on age and sex (Table 1). We used 11C‐Pittsburgh Compound‐B (PiB) and 18F‐Flortaucipir positron emission tomography (PET) to assess amyloid‐beta and tau in‐vivo. We used structural MRI to assess white matter hyperintensity (WMH) volume, a marker of cerebrovascular lesion load, and regional GM volume (a marker of neurodegeneration). We used correlations and ANCOVA in the whole dataset and structural equation modelling in the DLB patients to investigate associations of WMH volume and regional amyloid‐beta and tau PET standardized uptake value ratios (SUVRs) with regional GM volume. Result: DLB patients showed lower GM volume across all cortical and subcortical regions except for cuneus, putamen, and pallidum (Fig.1). Greater WMH volume was associated with lower volume in the medial and orbital frontal cortices, insula, fusiform cortex, and thalamus in DLB patients (Fig.2). Greater PiB SUVR was associated with lower volume in the inferior temporal cortex, while Flortaucipir SUVR did not correlate with GM volume (Fig.2). Structural equation modelling showed that higher age and positivity for the APOE e4 genotype were significant predictors of greater WMH, and WMH in turn was a significant predictor of GM volume in medial and orbital frontal cortices, insula, and inferior temporal cortex (Fig.3). In contrast, we observed two distinct paths for the fusiform cortex, with age having an effect through PiB and Flortaucipir SUVRs on the one path, and through WMH on the other path (Fig.3). Conclusion: DLB patients have widespread cortical atrophy, most of which likely is influenced by alpha‐synuclein pathology. Although amyloid‐beta, tau, and cerebrovascular pathologies often coexist in DLB, their contributions to neurodegeneration seem to be region specific. [ABSTRACT FROM AUTHOR]

Published

2023

17. Association of tamoxifen and raloxifene therapy with cognitive performance, odds of mild cognitive impairment, and neuroimaging markers of neurodegeneration.

Author

Kara, Firat, Lohse, Christine M., Castillo, Anna, Tosakulwong, Nirubol, Lesnick, Timothy G., Jack, Clifford R., Petersen, Ronald C., Olson, Janet E., Couch, Fergus J., Ruddy, Kathryn J., Kantarci, Kejal, and Mielke, Michelle M.

Abstract

Background: Tamoxifen is used as a selective estrogen receptor modifier (SERM) to treat hormone receptor‐positive breast cancer. Raloxifene, another SERM, has been used for the treatment of osteoporosis in post‐menopausal women. The aim of this cross‐sectional study was to examine whether a history of tamoxifen or raloxifene use was associated with cognitive performance, odds of mild cognitive impairment (MCI), or structural neurodegenerative MRI markers. Method: The study included women with and without a personal history of breast cancer enrolled in the Mayo Clinic Study of Aging (MCSA). A history of breast cancer and use of SERMs before the MCSA enrollment visit was abstracted using the Rochester Epidemiology Project medical‐linkage system. Participants had a diagnosis of MCI (prevalent) at the time of enrollment into the MCSA. Logistic regression was used to examine associations of SERMs with odds of MCI. Linear regression models were used to examine associations of SERMs with cognitive measures z‐scores (Memory, Executive Function, Language, Visuospatial Skills, Global Cognition), hippocampal volume, and Alzheimer's disease signature cortical thickness. Result: Among the women aged ≥ 50 at enrollment in the MCSA, 151 had a history of breast cancer, and 2235 had no prior history of any cancer. Of the 151 women with a history of breast cancer, 42 (28%) had taken tamoxifen and 109 (72%) had not at enrollment in the MCSA; 54 had neuroimaging data (tamoxifen = 16; no tamoxifen = 38). Among the women without prior history of cancer at enrollment in the MCSA, 76 (3%) had taken raloxifene and 2159 (97%) had not; 755 had neuroimaging data (raloxifene = 25; no raloxifene = 730). No significant associations between tamoxifen with global or domain‐specific cognition or odds of MCI were observed among women with a history of breast cancer after adjusting for confounders (Table 1). Likewise raloxifene was not significantly associated with global or domain‐specific cognition or odds of MCI in women without a history of cancer after adjusting for confounders (Table 2). We did not find significant associations between SERMs and any neuroimaging outcome (Table 3). Conclusion: Our results suggest use of tamoxifen or raloxifene is not significantly associated with cognition in postmenopausal women. [ABSTRACT FROM AUTHOR]

Published

2023

18. Higher systolic and diastolic blood pressures in recently postmenopausal women are associated with higher white matter hyperintensity volume more than a decade later in the keeps continuation study.

Author

Kara, Firat, Tosakulwong, Nirubol, Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Fields, Julie A., Min, Paul H, Lowe, Val J., Jack, Clifford R., Bailey, Kent R., James, Taryn T., Lobo, Rogerio A., Manson, JoAnn E., Pal, Lubna, Hammers, Dustin B, Malek‐Ahmadi, Michael H., Cedars, Marcelle I., Naftolin, Frederick, Miller, Virginia M., and Harman, Sherman M.

Abstract

Background: Women have higher rates of hypertension at the time of menopausal transition than men. Although elevated systolic and diastolic blood pressures (SBP and DBP) are risk factors for white matter (WM) injury both in women and men, WM hyperintensities (WMH), a marker of WM injury, are more common in women than in men after the age of 60. Thus, women may be vulnerable to the effects of elevated BP on WM integrity during menopausal transition. We investigated the association of BP in recently postmenopausal women with good cardiovascular health with WMH volume assessed 13 years later. Method: Women (n = 212; median age = 67; range 58‐72), who were previously enrolled in a multi‐site randomized menopausal hormone therapy trial, Kronos Early Estrogen Prevention Study (KEEPS), participated in the present observational KEEPS Continuation Study. SBP and DBP were measured at KEEPS baseline (median age = 54 years; range 44‐59). Participants who were on antihypertensive medications at KEEPS baseline were excluded from the analysis (n = 34). Approximately 9 years after the end of KEEPS menopausal hormones versus placebo 4‐year interventions, WM integrity was assessed with automated WMH volume measurements from 3D‐FLAIR MRI. Associations of baseline SBP and DBP with logWMH volume measured 13 years later were tested by linear regression analyses. Model 1 was adjusted for age, study site, and total intracranial volume. Model 2 was adjusted for covariates of model 1, triglycerides, low density lipoproteins, and waist/hip ratio. Result: The median SBP was 116 (range 83‐158) and DBP was 74 (range 56‐98). Higher SBP was associated with greater WMH volume (model 1:p = 0.005; model 2:p = 0.005). Similarly, higher DBP was associated with greater WMH volume (model 1:p = 0.008; model 2:p = 0.006) (Figure 1). Neither menopausal hormone therapies versus placebo, nor having high/low SBP (≥120/<120) modified these associations. Voxel‐based analyses demonstrate the association of BPs with the spatial distribution of WMHs (Figure 2). Conclusion: Higher BPs in recently menopausal women were associated with greater WM injury more than a decade later after adjusting for CVD risk factors. Early postmenopausal stage is a critical time for BP control in women, which may reduce the risk of WM injury later in life. [ABSTRACT FROM AUTHOR]

Published

2023

19. Exploration of visual hallucinations – FDG‐PET associations in DLB and MCI‐LB with and without visual hallucinations.

Author

Christine, Cliatt Brown J, Miyagawa, Toji, Przybelski, Scott A., Min, Paul H, Jordan, Lennon, Lesnick, Timothy G., Graff‐Radford, Jonathan, Jones, David T., Savica, Rodolfo, Botha, Hugo, Ramanan, Vijay K, Knopman, David S., Petersen, Ronald C., Fields, Julie A., Machulda, Mary M., Forsberg, Leah K., Diaz‐Galvan, Patricia, Li, Wentao, Jack, Clifford R., and Kantarci, Kejal

Abstract

Background: Several hypotheses exist regarding the neurologic substrate underlying visual hallucinations (VH) in Dementia with Lewy Bodies (DLB). Studies have suggested an association with regional cerebral hypometabolism in the primary visual or visual association cortices on FDG‐PET. We compared regional cerebral glucose metabolism and posterior cingulate island sign (CIS) ratios in DLB and in Mild Cognitive Impairment with Lewy Bodies (MCI‐LB) participants with (VH+) and without (VH‐) VH. Method: Participants with clinically probable DLB or MCI‐LB and an FDG‐PET scan were identified from the Mayo ADRC database. Responses on the Visual Hallucinations and Delusions Questionnaire and Neuropsychiatric Inventory were used to assess presence or absence of VH. Standardized uptake value ratios (SUVr) were used to calculate regional cerebral glucose hypometabolism in the primary visual cortex (PVC), lateral occipital cortex (LOC), and whole occipital cortex (WOC). The CIS ratio was defined as posterior cingulate divided by the sum of the precuneus plus cuneus FDG‐PET uptake ratio. Result: Two cohorts were identified (27 DLB and 18 MCI‐LB, 87% male). Eighteen DLB participants were VH+ and 9 were VH‐, whereas 5 MCI‐LB were VH+ and 13 were VH‐. There were no statistically significant differences in demographic (age, sex, education) and clinical features (MoCA, CDR, presence of other core DLB features, and UPDRS) between VH+ vs VH‐ in those with DLB, and between VH+ vs VH‐ in those with MCI‐LB. Similarly, there were no statistically significant differences in DLB between VH+ vs VH‐ in PVC (1.55±0.14 vs 1.58±0.15), LOC (1.22±0.16 vs 1.28±0.12), WOC (1.29±0.15 vs 1.34±0.11), or CIS ratio (1.16±0.08 vs 1.14±0.10), nor in MCI‐LB between VH+ vs VH‐ in PVC (1.68±0.19 vs 1.58±0.14), LOC (1.40±0.21 vs 1.32±0.14), WOC (1.45±0.20 vs 1.37±0.14), or CIS ratio (1.17±0.08 vs 1.19±0.10) (P>0.05 for all comparisons). Conclusion: These findings do not support a direct correlation between regional cerebral glucose metabolism and VH in DLB or MCI‐LB. Further work in DLB and MCI‐LB with larger numbers is warranted. Other neurologic substrates and mechanisms, such as REM sleep intrusions during wakefulness, neurotransmitter dysfunction, and disruption of functional connectivity across brain regions should be explored as contributors to VH in DLB. [ABSTRACT FROM AUTHOR]

Published

2022

20. Comparing cerebrovascular disease diffusion MRI markers using post‐mortem and longitudinal imaging data.

Author

Raghavan, Sheelakumari, Przybelski, Scott A., Kamykowski, Michael G., Reid, Robert I., Lesnick, Timothy G., Murray, Melissa E., Reichard, Ross R., Graff‐Radford, Jonathan, Nguyen, Aivi T., Knopman, David S., Mielke, Michelle M., Jack, Clifford R., Petersen, Ronald C., and Vemuri, Prashanthi

Abstract

Background: Diffusion MRI (dMRI) based quantification of microstructural changes in white matter (WM) are increasingly proposed to measure cerebrovascular disease (CVD) related changes. Our objective was to compare the proposed dMRI markers using postmortem neuropathologic CVD data and then evaluate the predictors of longitudinal dMRI markers using serial scans. Method: We identified n=51 participants (mean age: 83.8 years, 63% males) with ante‐mortem dMRI and postmortem CVD evaluation and n=718 participants (mean age: 71.1 years, 56% males) with at least two dMRI scans from the population‐based sample of Mayo Clinic Study of Aging. We computed dMRI measures proposed for measuring CVD: Free Water (FW), Fractional Anisotropy (FA) adjusted for FW (FAadj), Peak width Skeletonized Mean Diffusivity (PSMD), and FA of the genu of corpus callosum (Genu‐FA). We used the FW and PSMD (PSMD release 1.8.1) kits from the MarkVCID consortium. Using weighted linear regression models with adjustments for MRI scan time to death, we evaluated associations between the baseline dMRI and two pathology CVD scores: Strozyk (represents the presence and number of macroscopic lesions) and Kalaria (represents the summary score of vessel wall modifications) scales. We ran linear mixed effect models with all available serial dMRI measures as outcomes and vascular risk (measured by the number of cardiovascular and metabolic conditions‐CMC), baseline imaging measures (amyloid and white matter hyperintensities (WMH)) and their interaction with time as key predictors. Result: Most dMRI markers were predictors of postmortem CVD pathology (Table 1). In longitudinal dMRI models, terms associated with amyloid explained little variability in dMRI (<1%) (Table 2). WMH was a significant predictor of baseline and decline in dMRI measures with WMH explaining a considerable percentage of variability in FW (34%) and PSMD (28%). Vascular risk measures were significant predictors of three out of the four dMRI measures. Conclusion: The diffusion measures proposed as surrogate markers of CVD map reasonably well to CVD pathological scales and do not change substantially as a function of baseline amyloidosis. Our findings shed light on variability in the proposed diffusion markers using postmortem data and longitudinal imaging data. Further work is needed to evaluate their clinical utility. [ABSTRACT FROM AUTHOR]

Published

2022

21. White matter health in the context of Alzheimer's disease pathophysiology.

Author

Raghavan, Sheelakumari, Przybelski, Scott A., Reid, Robert I., Lesnick, Timothy G., Ramanan, Vijay K, Botha, Hugo, Matchett, Billie J, Murray, Melissa E., Reichard, Ross R., Knopman, David S., Radford, Jonathan Graff, Jones, David T., Lowe, Val J., Mielke, Michelle M., Machulda, Mary M., Petersen, Ronald C., Kantarci, Kejal, Whitwell, Jennifer L, Josephs, Keith A, and Jack, Clifford R.

Abstract

Background: Multi‐compartment modelling of white matter (WM) microstructure using Neurite Orientation Dispersion and Density Imaging (NODDI) can provide information on WM health through the neurite (axons and dendrites) density index and free water measures. We hypothesized that cerebrovascular disease (CVD), Alzheimer's disease (AD), and an FDG pattern suggestive of TDP‐43 proteinopathy would be associated with distinct NODDI readouts of WM damage which would be informative for identifying the substrate for cognitive impairment. Method: We identified two independent cohorts with multi‐shell diffusion MRI, amyloid and tau PET, and cognitive assessments. One, were participants from the Mayo Clinic Study of Aging, a population‐based cohort of 347 elderly randomly sampled from the Olmsted county, Minnesota. The second were 61 amyloid positive AD participants from the Mayo AD Research Center. Result: We observed an increase in free water and decrease in neurite density in the genu of the corpus callosum associated with vascular risk factors, which we refer to as vascular WM component (Figure 1). Tau PET signal reflective of 3R/4R tau deposition was associated with worsening neurite density index in the temporal WM where we measured parahippocampal cingulum and inferior temporal WM bundles. Worsening temporal neurite density was associated with (antemortem confirmed) FDG TDP‐43 signature. Post‐mortem neuropathologic data on a small subset (n=9) of this sample lend support to our findings. In the population‐based cohort where vascular disease was more prevalent, the vascular WM component explained variability in global cognition (partial R2 of free water and neurite density = 8.3%) and MMSE performance (8.2%) which was comparable to amyloid PET (7.4% for global cognition and 6.6% for memory) (Table 1). In the AD dementia clinic‐based cohort, tau deposition was the greatest contributor to cognitive performance (9.6%), but there was also a non‐trivial contribution of the temporal WM component (8.5%) to cognitive performance. The differences observed between the two cohorts were reflective of their distinct clinical composition. Conclusion: White matter microstructural damage assessed using advanced diffusion models may add significant value for distinguishing the underlying substrate (whether CVD versus neurodegenerative disease caused by tau deposition or TDP‐43 pathology) for cognitive impairment in older individuals. [ABSTRACT FROM AUTHOR]

Published

2022

22. Cerebral Amyloid Angiopathy Pathology and Its Association With Amyloid-β PET Signal.

Author

McCarter, Stuart J., Lesnick, Timothy G., Lowe, Val, Mielke, Michelle M., Constantopoulos, Eleni, Rabinstein, Alejandro A., Przybelski, Scott A., Botha, Hugo, Jones, David T., Ramanan, Vijay K., Jack, Clifford R., Petersen, Ronald C., Knopman, David, Boeve, Bradley F., Murray, Melissa E., Dickson, Dennis W., Vemuri, Prashanthi, Kantarci, Kejal, Reichard, R. Ross, and Graff-Radford, Jonathan

Published

2021

23. Comparison of CSF neurofilament light chain, neurogranin, and tau to MRI markers.

Author

Mielke, Michelle M., Przybelski, Scott A., Lesnick, Timothy G., Kern, Silke, Zetterberg, Henrik, Blennow, Kaj, Knopman, David S., Graff‐Radford, Jonathan, Petersen, Ronald C., Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Introduction: We determined whether cerebrospinal fluid (CSF) neurofilament light (NfL), neurogranin (Ng), and total‐tau (t‐tau) differentially mapped to magnetic resonance imaging (MRI) measures of cortical thickness, microstructural integrity (corpus callosum and cingulum fractional anisotropy [FA]), and white matter hyperintensities (WMH). Methods: Analyses included 536 non‐demented Mayo Clinic Study of Aging participants with CSF NfL, Ng, t‐tau, amyloid beta (Aβ)42 and longitudinal MRI scans. Linear mixed models assessed longitudinal associations between CSF markers and MRI changes. Results: Higher CSF NfL was associated with decreasing microstructural integrity and WMH. Higher t‐tau was associated with decreasing temporal lobe and Alzheimer's disease (AD) meta region of interest (ROI) cortical thickness. There was no association between Ng and any MRI measure. CSF Aβ42 interacted with Ng for declines in temporal lobe and AD meta ROI cortical thickness and cingulum FA. Discussion: CSF NfL predicts changes in white matter integrity, t‐tau reflects non‐specific changes in cortical thickness, and Ng reflects AD‐specific synaptic and neuronal degeneration. [ABSTRACT FROM AUTHOR]

Published

2021

24. Higher systolic and diastolic blood pressures in recently postmenopausal women are associated with greater WMH more than a decade later in the KEEPS Continuation.

Author

Kara, Firat, Tosakulwong, Nirubol, Lesnick, Timothy G., Fought, Angela J., Schwarz, Christopher G., Senjem, Matthew L., Fields, Julie A., Min, Paul H, Lowe, Val J., Jack, Clifford R., Bailey, Kent R., James, Taryn T., Lobo, Rogerio A., Manson, JoAnn E., Pal, Lubna, Hammers, Dustin B., Malek‐Ahmadi, Michael H., Cedars, Marcelle I., Naftolin, Frederick N., and Miller, Virginia M.

Abstract

Background: Higher blood pressure (BP) is associated with greater white matter hyperintensity (WMH) volume, but research is limited in recently menopausal and postmenopausal women. Postmenopausal women have a greater burden of WMH than men and premenopausal women, but whether hormone therapy (HT) modifies the association between systolic and diastolic BP (SBP, DBP) and WMH is unknown. We investigated the association of SBP and DBP in recently postmenopausal women who participated in an HT trial with WMH volumes measured 14 years later and explored whether HT modified the results. Method: Women with good cardiovascular (CV) health, who were previously enrolled in a randomized placebo‐controlled HT trial, the Kronos Early Estrogen Prevention Study (KEEPS), participated in the current observational KEEPS continuation (n = 212; median age = 67; range 58‐72). SBP and DBP were measured at KEEPS baseline (median age = 54 years; range 44‐59) and continuation. Antihypertensive users were excluded (baseline, n = 34; continuation, n = 61). Approximately 10 years after the end of KEEPS HT versus placebo 4‐year interventions, automated WMH volumes were measured from 3D‐FLAIR MRI. Associations of KEEPS baseline and continuation SBP and DBP with log WMH volume at KEEPS continuation were tested using linear regression analyses adjusting for covariates in model 1 (age, total intracranial volume, study site) and model 2 (model 1 plus cardiovascular risk factors (CVRF)). Result: Higher KEEPS baseline SBP and DBP were associated with greater WMH volume measured 14 years later, and after adjusting for CVRF (p≤0.01). Similarly, in KEEPS continuation, higher SBP and DBP were associated with greater WMH volume measured concurrently and after adjusting for CVRF (p<0.001). We did not find statistically significant evidence that HT versus placebo modified these associations. Topographically, higher SBP and DBP were associated with greater periventricular WMH in the frontal and parietal lobes after adjusting for age (Figure). Conclusion: Higher SBP and DBP in recently menopausal women with good CV health were associated with greater WMH volumes more than a decade later after adjusting for CVRF, independent of randomization to HT. Our results show the importance of blood pressure control in recently menopausal women, that may reduce the white matter injury later in life. [ABSTRACT FROM AUTHOR]

Published

2023

25. Plasma biomarkers of Alzheimer´s disease in the continuum of dementia with Lewy bodies.

Author

Diaz‐Galvan, Patricia, Przybelski, Scott A., Algeciras‐Schimnich, Alicia, Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Paul H, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, Ramanan, Vijay K, Jones, David T., Botha, Hugo, St. Louis, Erik K, and Knopman, David S.

Abstract

Background: Patients with dementia with Lewy bodies (DLB) may have Alzheimer´s disease (AD) pathology. Plasma biomarkers of beta‐amyloid (Aβ), phosphorylated tau (pTau), and neurodegeneration are sensitive to AD neuropathologic changes in AD dementia. While these plasma biomarkers are well tested in the AD continuum, their performance for concomitant AD pathology in the DLB continuum is still unclear. Method: We included patients with isolated REM sleep behavior disorder (iRBD; n = 15), with mild cognitive impairment with Lewy bodies (MCI‐LB; n = 37), and with DLB (n = 70) from the Mayo Clinic Alzheimer's Disease Research Center. Cognitively unimpaired individuals (CU; n = 100) included from the Mayo Clinic Study of Aging were balanced on age and sex. A panel of plasma biomarkers of Aβ40, Aβ42, p‐tau181, neurofilament light chain (NfL), and glial fibrillary acidic protein (GFAP) measures was obtained. We calculated the ratio of plasma Aβ40/42. Lower Aβ40/42 indicates increased Aβ pathology. Plasma Aβ40, Aβ42, GFAP, and NfL were measured using the Simoa® Neurology 4‐Plex E Advantage kit and pTau‐181 was measured with the Simoa® pTau‐181 Advantage V2 kit. Both were run on a Quanterix HD‐X analyzer. AD imaging biomarkers were assessed on PET using Pittsburgh compound B (PiB) for Aβ and 18F‐Flortaucipir for tau. Result: Higher levels of plasma GFAP were observed in the MCI‐LB (p = 0.014) and DLB (p<0.001) groups compared to CU (Figure). DLB patients also showed higher levels of plasma pTau181 (p<0.001) and NfL (p<0.001). Higher amyloid and tau PET standardized uptake value ratio (SUVr) in the DLB continuum were associated with higher levels of plasma p‐tau181, NfL, and GFAP (p<0.001). After accounting for age, plasma Aβ40/42 did not correlate with amyloid or tau PET SUVr. Conclusion: In the DLB continuum, abnormal levels of GFAP in plasma can be detected as early as the prodromal stages of the disease. Plasma pTau181 reached abnormal levels in the DLB stage. Higher plasma GFAP, NfL, and p‐tau181 are associated with higher amyloid and tau PET SUVr in the DLB continuum. Plasma biomarkers have the potential to contribute to screening and early diagnosis in the DLB continuum, which has implications in designing new treatments. [ABSTRACT FROM AUTHOR]

Published

2023

26. Neurite‐based white matter alterations in MAPT mutation carriers: A multi‐shell diffusion MRI study in the ALLFTD consortium.

Author

Corriveau‐Lecavalier, Nick, Tosakulwong, Nirubol, Lesnick, Timothy G., Reid, Robert I., Schwarz, Christopher G., Senjem, Matthew L., Jack, Clifford R., Jones, David T., Vemuri, Prashanthi, Rademakers, Rosa, Ramos, Eliana Marisa, Geschwind, Daniel H., Knopman, David S., Botha, Hugo, Savica, Rodolfo, Radford, Jonathan Graff, Ramanan, Vijay K, Graff‐Radford, Neill R, Wszolek, Zbigniew, and Forsberg, Leah K.

Abstract

Background: We aimed to assess axonal integrity in MAPT mutation carriers and early white matter (WM) neurodegeneration in asymptomatic carriers using traditional diffusion tensor imaging (DTI) measurements, i.e., fractional anisotropy (FA) and mean diffusivity (MD), and neurite orientation dispersion and density imaging (NODDI). Method: We included available multi‐shell diffusion MRI data from 21 MAPT mutation carriers (16 asymptomatic; 5 symptomatic) and 31 non‐carrier family members as controls from the ALLFTD consortium. We used linear mixed‐effect models to assess WM abnormalities measured with FA and MD, neurite density index (NDI) and orientation dispersion index (ODI), combined across hemispheres. Separate models were conducted in all MAPT mutation carriers relative to controls while accounting for relatedness and age, then in symptomatic and asymptomatic carriers relative to controls. ComBat was used to harmonize data across sites. Result: In models contrasting all MAPT carriers versus controls, WM alterations involved the cingulum bundle (FA, ODI), fronto‐temporal, entorhinal (FA, MD, NDI), and the inferior temporal WM (FA) after correcting for multiple comparisons (Fig. 1). In models contrasting symptomatic and asymptomatic MAPT carriers versus controls, symptomatic carriers had widespread involvement of the fronto‐temporal WM including the cingulum (FA, ODI), entorhinal (MD, FA, NDI), amygdala (MD, NDI) and inferior temporal (FA) areas after correcting for multiple comparisons. Asymptomatic carriers showed higher entorhinal MD and lower inferior temporal and cingulum FA relative to controls, and a more widespread pattern of higher ODI involved the medial temporal, superior temporal and occipital WM as well as long association and projection fibers including the internal capsule, cingulate bundle and fronto‐occipital fasciculi, although they were not statistically significant after correction for multiple comparisons. Conclusion: Traditional DTI and novel NODDI measurements revealed some extent of overlap as well as divergences in patterns of WM abnormalities, indicating axonal loss is a feature of neurodegeneration in MAPT mutation carriers. Our results suggest that traditional DTI and novel NODDI measurements may have different sensitivities to WM alterations in MAPT mutation carriers, and that axon‐based metrics, particularly ODI measurements, may be more sensitive to the early WM involvement during the asymptomatic stage of the disease. [ABSTRACT FROM AUTHOR]

Published

2023

27. Trajectories of plasma biomarkers of Alzheimer's disease and neurodegeneration in the general population.

Author

Graff‐Radford, Jonathan, Lesnick, Timothy G., Mielke, Michelle M., Ramanan, Vijay K, Cogswell, Petrice M, Algeciras‐Schimnich, Alicia, Knopman, David S., Hofrenning, Ekaterina I., Stricker, Nikki H., Jack, Clifford R., Petersen, Ronald C., and Vemuri, Prashanthi

Abstract

Background: Plasma biomarkers of Alzheimer's disease (AD) and neurodegeneration have demonstrated diagnostic utility and associations with AD pathology. Our objective was to map the average trajectories over age of plasma biomarkers and more established biomarkers including cognition, amyloid PET, and hippocampal volume. Method: We included 1731 cognitively unimpaired (CU) and 226 mild cognitive impairment (MCI) participants from the Mayo Clinic Study of Aging (mean age of 70.3 years; 46.3% female; 14.8 years of mean education) with one or more measurements of amyloid‐PET, MRI with hippocampal volume measurements adjusted for head size (HVa), and plasma biomarkers (Aβ42/40 ratio, p‐tau181, GFAP, and NfL measured using Quanterix Simoa assays). A global cognitive z‐score was created by averaging the z‐scores of memory, language, executive function, and visuospatial domains. Smoothing spline curves were calculated for the values of each variable over age and placed on the same plot. Since each variable has a different scale, the smoothed curves were centered at the predicted value at age 50 and scaled so that a value of 1 would be one standard deviation of the fitted values from ages 50‐80. Result: At age 50, GFAP and NfL start to increase, and Aβ42/40 was observed to decrease. At age 55, amyloid‐PET and p‐tau181 had a smooth and upward‐curving increase. After age 70, the average values of p‐tau181 increased at a higher rate. Average cognition started declining after 55 years. HVa began to decline after age 60 and then showed a steeper decline at age 72. Conclusion: This study demonstrates that predicted values of plasma GFAP, NfL, and Aβ42/40 across participants begin to change at younger ages than cognitive decline or increases observed in amyloid PET. The changes observed during middle age in GFAP and NfL likely reflect non‐AD pathologies and aging processes, while Aβ42/40 may be a leading indicator of future cerebral amyloidosis. Predicted plasma neurodegenerative biomarkers (GFAP and NfL) begin to change at younger ages than a traditional biomarker of neurodegeneration (HVa). Predicted ptau181 increases were observed in tandem with amyloid PET likely reflecting current amyloid status. [ABSTRACT FROM AUTHOR]

Published

2023

28. White matter changes with cerebrovascular disease and Alzheimer's disease pathologies.

Author

Raghavan, Sheelakumari, Tian, Jianqiao, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Lowe, Val J., Machulda, Mary M., Kantarci, Kejal, Knopman, David S., Petersen, Ronald C., Jack, Clifford R., Radford, Jonathan Graff, and Vemuri, Prashanthi

Abstract

Background: White matter (WM) plays an important role in cognitive function and undergoes substantial changes due to aging and increase in AD and AD related dementia (AD/ADRD) pathologies. While recent work proposed measurement of global WM changes from diffusion MRI as biomarkers for Cerebrovascular disease (CVD) such as PSMD and free water, there needs to be a better understanding of WM changes due to AD/ADRD pathologies. The goal of our recent work was to understand white matter changes with CVD and AD – common pathologies in AD/ADRD ‐ utilizing data from Mayo Clinic Study of Aging and Mayo ADRC. Method: Using diffusion MRI (dMRI) in 718 participants from Mayo Clinic Study of Aging (mean age = 71.1 years, 56% male), we investigated relationships between commonly used dMRI measures and vascular risk as well as global amyloid PET. In a subset of 233 participants who were amyloid‐PET positive and also competed Tau‐PET (flortaucipir) from Mayo Clinic Study of Aging and Mayo ADRC, we investigated associations between regional flortaucipir SUVRs in Braak stages and regional WM changes. Results: We found greater frontal lobe WM damage with increasing vascular risk across all dMRI measures. We previously validated the strong relationship between the genu of the corpus callosum (anterior interhemispheric connections) dMRI measurements made on antemortem scans and cerebrovascular pathology observed on postmortem tissue (Nguyen et. al. Acta Neuropathologica 2022) supporting the utility of genu of the corpus callosum dMRI measures as a potential CVD biomarker. Also, we found greater posterior WM damage with increasing amyloid burden. Among the 233 amyloid positive participants, we found spatially dependent WM degeneration associated with regional flortaucipir SUVRs in Braak stages with greater extent of posterior WM damage. Further, dMRI measurements of the WM damage provided complementary information about disease staging and progression of AD in addition to flortaucipir SUVR measurements. Conclusions: Anterior WM measurements may be more specific to CVD and posterior WM changes are seen with increasing AD pathological burden. Our results suggest that WM changes observed with CVD and typical AD may be different and have clinical utility for differential diagnosis and disease staging. [ABSTRACT FROM AUTHOR]

Published

2023

29. Plasma biomarkers of Alzheimer´s disease in the continuum of dementia with Lewy bodies.

Author

Diaz‐Galvan, Patricia, Przybelski, Scott A., Algeciras‐Schimnich, Alicia, Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Paul H, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, Ramanan, Vijay K, Jones, David T., Botha, Hugo, St Louis, Erik K, and Knopman, David S.

Abstract

Background: Patients with dementia with Lewy bodies (DLB) may have Alzheimer´s disease (AD) pathology. Plasma biomarkers of beta‐amyloid (Aß), phosphorylated tau (pTau), and neurodegeneration are sensitive to AD neuropathologic changes in AD dementia. While these plasma biomarkers are well tested in the AD continuum, their performance for concomitant AD pathology in the DLB continuum is still unclear. Method: We included patients with isolated REM sleep behavior disorder (iRBD; n = 15), with mild cognitive impairment with Lewy bodies (MCI‐LB; n = 37), and with DLB (n = 70) from the Mayo Clinic Alzheimer's Disease Research Center. Cognitively unimpaired individuals (CU; n = 100) included from the Mayo Clinic Study of Aging were balanced on age and sex. A panel of plasma biomarkers of Aß40, Aß42, p‐tau181, neurofilament light chain (NfL), and glial fibrillary acidic protein (GFAP) measures was obtained. We calculated the ratio of plasma Aß40/42. Lower Aß40/42 indicates increased Aß pathology. Plasma Aß40, Aß42, GFAP, and NfL were measured using the Simoa® Neurology 4‐Plex E Advantage kit and pTau‐181 was measured with the Simoa® pTau‐181 Advantage V2 kit. Both were run on a Quanterix HD‐X analyzer. AD imaging biomarkers were assessed on PET using Pittsburgh compound B (PiB) for Aß and 18F‐Flortaucipir for tau. Result: Higher levels of plasma GFAP were observed in the MCI‐LB (p = 0.014) and DLB (p<0.001) groups compared to CU (Figure). DLB patients also showed higher levels of plasma pTau181 (p<0.001) and NfL (p<0.001). Higher amyloid and tau PET standardized uptake value ratio (SUVr) in the DLB continuum were associated with higher levels of plasma p‐tau181, NfL, and GFAP (p<0.001). After accounting for age, plasma Aß40/42 did not correlate with amyloid or tau PET SUVr. Conclusion: In the DLB continuum, abnormal levels of GFAP in plasma can be detected as early as the prodromal stages of the disease. Plasma pTau181 reached abnormal levels in the DLB stage. Higher plasma GFAP, NfL, and p‐tau181 are associated with higher amyloid and tau PET SUVr in the DLB continuum. Plasma biomarkers have the potential to contribute to screening and early diagnosis in the DLB continuum, which has implications in designing new treatments. [ABSTRACT FROM AUTHOR]

Published

2023

30. Higher systolic and diastolic blood pressures in recently postmenopausal women are associated with greater WMH more than a decade later in the KEEPS Continuation.

Author

Kara, Firat, Tosakulwong, Nirubol, Lesnick, Timothy G., Fought, Angela J., Schwarz, Christopher G., Senjem, Matthew L., Fields, Julie A., Min, Paul H, Lowe, Val J., Jack, Clifford R., Bailey, Kent R., James, Taryn T., Lobo, Rogerio A., Manson, JoAnn E., Pal, Lubna, Hammers, Dustin B., Malek‐Ahmadi, Michael H., Cedars, Marcelle I., Naftolin, Frederick N., and Miller, Virginia M.

Abstract

Background: Higher blood pressure (BP) is associated with greater white matter hyperintensity (WMH) volume, but research is limited in recently menopausal and postmenopausal women. Postmenopausal women have a greater burden of WMH than men and premenopausal women, but whether hormone therapy (HT) modifies the association between systolic and diastolic BP (SBP, DBP) and WMH is unknown. We investigated the association of SBP and DBP in recently postmenopausal women who participated in an HT trial with WMH volumes measured 14 years later and explored whether HT modified the results. Method: Women with good cardiovascular (CV) health, who were previously enrolled in a randomized placebo‐controlled HT trial, the Kronos Early Estrogen Prevention Study (KEEPS), participated in the current observational KEEPS continuation (n = 212; median age = 67; range 58‐72). SBP and DBP were measured at KEEPS baseline (median age = 54 years; range 44‐59) and continuation. Antihypertensive users were excluded (baseline, n = 34; continuation, n = 61). Approximately 10 years after the end of KEEPS HT versus placebo 4‐year interventions, automated WMH volumes were measured from 3D‐FLAIR MRI. Associations of KEEPS baseline and continuation SBP and DBP with log WMH volume at KEEPS continuation were tested using linear regression analyses adjusting for covariates in model 1 (age, total intracranial volume, study site) and model 2 (model 1 plus cardiovascular risk factors (CVRF)). Result: Higher KEEPS baseline SBP and DBP were associated with greater WMH volume measured 14 years later, and after adjusting for CVRF (p = 0.01). Similarly, in KEEPS continuation, higher SBP and DBP were associated with greater WMH volume measured concurrently and after adjusting for CVRF (p<0.001). We did not find statistically significant evidence that HT versus placebo modified these associations. Topographically, higher SBP and DBP were associated with greater periventricular WMH in the frontal and parietal lobes after adjusting for age (Figure). Conclusion: Higher SBP and DBP in recently menopausal women with good CV health were associated with greater WMH volumes more than a decade later after adjusting for CVRF, independent of randomization to HT. Our results show the importance of blood pressure control in recently menopausal women, that may reduce the white matter injury later in life. [ABSTRACT FROM AUTHOR]

Published

2023

31. Cerebral Amyloid Angiopathy Pathology and Its Association With Amyloid-β PET Signal

Author

McCarter, Stuart J., Lesnick, Timothy G., Lowe, Val, Mielke, Michelle M., Constantopoulos, Eleni, Rabinstein, Alejandro A., Przybelski, Scott A., Botha, Hugo, Jones, David T., Ramanan, Vijay K., Jack, Clifford R., Petersen, Ronald C., Knopman, David, Boeve, Bradley F., Murray, Melissa E., Dickson, Dennis W., Vemuri, Prashanthi, Kantarci, Kejal, Reichard, R. Ross, and Graff-Radford, Jonathan

Published

2021

32. β-Amyloid PET and 123I-FP-CIT SPECT in Mild Cognitive Impairment at Risk for Lewy Body Dementia.

Author

Qin Chen, Lowe, Val J., Boeve, Bradley F., Przybelski, Scott A., Toji Miyagawa, Senjem, Matthew L., Jack Jr., Clifford R., Lesnick, Timothy G., Kremers, Walter K., Fields, Julie A., Hoon-Ki Min, Schwarz, Christopher G., Gunter, Jeffrey L., Graff-Radford, Jonathan, Savica, Rodolfo, Knopman, David S., Jones, David, Ferman, Tanis J., Graff-Radford, Neill R., and Petersen, Ronald C.

Published

2021

33. β-Amyloid and tau biomarkers and clinical phenotype in dementia with Lewy bodies.

Author

Ferreira, Daniel, Przybelski, Scott A., Lesnick, Timothy G., Lemstra, Afina W., Londos, Elisabet, Blanc, Frederic, Nedelska, Zuzana, Schwarz, Christopher G., Graff-Radford, Jonathan, Senjem, Matthew L., Fields, Julie A., Knopman, David S., Savica, Rodolfo, Ferman, Tanis J., Graff-Radford, Neill R., Lowe, Val J., Jack, Clifford R., Petersen, Ronald C., Mollenhauer, Brit, and Garcia-Ptacek, Sara

Published

2020

34. Diffusion models reveal white matter microstructural changes with aging, pathology, and cognition.

Author

Pillai, Sheela Kumari Raghavan, Reid, Robert I., Przybelski, Scott A., Lesnick, Timothy G., Graff‐Radford, Jonathan, Schwarz, Christopher G., Knopman, David S., Mielke, Michelle M., Machulda, Mary M., Petersen, Ronald C., Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Background: White matter microstructure undergoes progressive changes during the life‐span but the neurobiological underpinnings related to aging and disease remains unclear. We used an advanced diffusion MRI, Neurite Orientation Dispersion and Density Imaging (NODDI), to investigate the microstructural alterations due to demographics, common age‐related pathological processes (amyloid, tau, and white matter hyperintensities (WMH)), and cognition. We also compared NODDI findings to the older Diffusion Tensor Imaging (DTI) model based findings. Method: 328 participants (264 cognitively unimpaired, 57 mild cognitive impairment (MCI), and 7 dementia with a mean age of 68.3 ±13.1 years) from the Mayo Clinic Study of Aging with multi‐shell diffusion imaging, FLAIR‐MRI as well as amyloid and tau PET scans were included in this study. White matter (WM) tract level diffusion measures (Figure 1) were calculated from DTI and NODDI. Pearson correlation and multiple linear regression analyses were performed with diffusion measures as the outcome and age, sex, education/occupation, WMH, amyloid, and tau as predictors. Analyses were also performed with each dMRI measure as a predictor of cognitive outcomes. Result: Age and WMH were the strongest predictors of all WM diffusion measures with low associations with amyloid and tau (Figure 1). However, neurite density decrease from NODDI was observed with amyloidosis specifically in the temporal lobes (Figure 2). WM integrity (mean diffusivity and free water) in the corpus callosum showed the greatest associations with cognitive measures (Table 1). All diffusion measures provided information about WM aging and WM disease processes and were associated with cognition. Conclusion: NODDI and DTI are two different biophysical models that provide distinct information about variation in WM microstructural integrity. NODDI provides additional information about synaptic density, organization, and free water content which may aid in providing mechanistic insights into disease progression. [ABSTRACT FROM AUTHOR]

Published

2021

35. Testing the brain maintenance and cognitive reserve hypothesis of cognitive aging: Application to vascular and metabolic risk factors.

Author

Neth, Bryan J., Lesnick, Timothy G., Castillo, Anna, Przybelski, Scott A., Graff‐Radford, Jonathan, Machulda, Mary M., Mielke, Michelle M., Petersen, Ronald C., Lowe, Val J., Jack, Clifford R., Knopman, David S., and Vemuri, Prashanthi

Abstract

Background: Two pathways that help explain cognitive health are 1) brain maintenance – referring to the relative absence of brain changes over time; 2) cognitive reserve – a property of the brain that allows for sustained cognitive ability in the presence of brain pathology. Both pathways influence cognitive aging and are best understood using longitudinal data. Our goal was to assess the effect of modifiable vascular/metabolic and lifestyle enrichment factors on these pathways using longitudinal brain changes measured on structural magnetic resonance imaging (MRI) and longitudinal cognitive decline. Lastly, we combined these pathways and their relationships in the same model. Method: We identified 1250 participants from a well‐characterized sample of older adults from the Mayo Clinic Study of Aging with both longitudinal MRI and cognitive data. Linear mixed models were performed to assess the impact of modifiable factors on brain maintenance and cognitive reserve. Latent growth curve models (SEM) were used to assess the impact of brain structure and cognitive reserve on longitudinal cognition. Result: The mean age of our sample was 78.8 years, with 45.4% female, and 27.1% APOE4 carriers. Mean follow‐up time was 4.0 years with a mean of 3.2 MRI scans per participant. Linear mixed models showed that poorer vascular/metabolic health (presence of vascular/metabolic conditions) was associated with lower cross‐sectional temporal region cortical thickness (‐0.014 (0.003), p<0.001) and lower global cognition (‐0.042 (0.018), p = 0.024). Higher estimated cognitive reserve at baseline as assessed by education/occupation composite (0.103 (0.01), p<0.001) was associated with higher global cognition. Unexpectedly, late‐life physical activities were related to lower global cognition (‐0.05 (0.007), p = 0.004). Our final latent growth curve SEM fit the data well showing temporal associations between unmodifiable characteristics, cognitive reserve, and brain structural pathways, as well as the influence of modifiable vascular/metabolic factors. Conclusion: We found that brain maintenance and cognitive reserve pathways were related to better cognition over time. We further showed that vascular/metabolic health impacts long‐term cognitive outcomes (i.e. cognitive aging) primarily through the brain maintenance pathway. These data provide a modeling scheme for future studies and can aid in assessing the pathways by which individual factors may influence cognitive aging. [ABSTRACT FROM AUTHOR]

Published

2023

36. β-Amyloid PET and neuropathology in dementia with Lewy bodies.

Author

Kantarci, Kejal, Lowe, Val J., Chen, Qin, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack Jr., Clifford R., Graff-Radford, Jonathan, Jones, David T., Knopman, David S., Graff-Radford, Neill, Ferman, Tanis J., Parisi, Joseph E., Dickson, Dennis W., Petersen, Ronald C., Boeve, Bradley F., Murray, Melissa E., and Jack, Clifford R Jr

Published

2020

37. Cardiometabolic Health and Longitudinal Progression of White Matter Hyperintensity: The Mayo Clinic Study of Aging.

Author

Scharf, Eugene L., Graff-Radford, Jonathan, Przybelski, Scott A., Lesnick, Timothy G., Mielke, Michelle M., Knopman, David S., Preboske, Gregory M., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Machulda, Mary, Kantarci, Kejal, Petersen, Ronald C., Jack, Clifford R., Vemuri, Prashanthi, and Jack, Clifford R Jr

Published

2019

38. Visual versus quantitative assessments using Pittsburgh compound‐B and Flutemetamol PET scans across age groups.

Author

Zeydan, Burcu, Johnson, Derek R., Schwarz, Christopher G., Lee, Jeyeon, Przybelski, Scott A., Lesnick, Timothy G., Senjem, Matthew L., Kantarci, Orhun H., Min, Paul H, Kemp, Bradley J., Jack, Clifford R., Kantarci, Kejal, and Lowe, Val J.

Abstract

Background: Both 11C‐Pittsburgh compound‐B (PiB) and 18F‐Flutemetamol (FMT) have off‐target white matter (WM) signal that increases with age, but WM uptake is stronger with FMT than PiB. Although their WM patterns are comparably associated with age, the difference between them may impact visual and quantitative assessments of cortical amyloid‐β uptake. Our objective was to determine whether PiB PET and FMT PET visual assessments agree with quantitative cortical amyloid‐β evaluations. Method: A cohort of cognitively unimpaired (CU) younger adults with median (range) of 39 (30, 48) years (N = 30), CU older adults with age of 67 (61, 83) years (N = 30) and older adults with AD dementia with age of 67 (54‐84) years (N = 23) underwent MRI, PiB PET and FMT PET. PiB‐PET and FMT PET scans were evaluated visually by two nuclear medicine specialists blinded to participant information. Disagreements were reconciled with a second, joint round of visual reads. Readers applied standard visual assessment criteria using the absence of regional gray matter (GM) and WM contrast as an indication of a positive scan. The global cortical PiB standard uptake value ratio (SUVr) was obtained referencing to cerebellar crus uptake and converted to centiloid values. Participants were classified as PiB positive/negative using a centiloid cut‐off of 22. Result: PiB and FMT visual positivity agreed with quantitative positivity on PiB‐based centiloid values in 69/83 for PiB and 78/83 for FMT. There were 10 disagreements with PiB, 1 disagreement with FMT and 4 disagreements with both. Few disagreements occurred near the centiloid threshold. Interestingly, all disagreements between visual reads (amyloid‐β positive) and centiloid (amyloid‐β negative) in the CU younger were with PiB. FMT disagreements were always in the CU older and AD groups. Conclusion: Disagreements between amyloid‐β positivity on visual reads and quantitative measurements (centiloid) may depend on age and tracer. PiB WM uptake is lower than FMT WM uptake, which may lead to reduced contrast between GM and WM (part of the standard criteria for visual reads), especially in younger ages. In contrast, WM uptake increases at older ages, and increased WM signal may bleed more into cortical regions, hiding subtle, near‐threshold cortical uptake, especially with FMT. [ABSTRACT FROM AUTHOR]

Published

2023

39. Utility of DTI as a prognostic biomarker in MCI: Beyond AD biomarkers: Neuroimaging: Neuroimaging predictors of cognitive decline.

Author

Pillai, Sheela Kumari Raghavan, Przybelski, Scott A., Reid, Robert I., Graff‐Radford, Jonathan, Lesnick, Timothy G., Zuk, Samantha M., Knopman, David S., Machulda, Mary M., Mielke, Michelle M., Petersen, Ronald C., Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Background: Given that a proportion of mild cognitive impaired (MCI) individuals are amyloid negative and have cerebrovascular disease (CVD), there is a need for biomarkers that can complement AD biomarkers (amyloid and neurodegeneration) for the prediction of future cognitive decline in MCI. The aim of our study was to determine the utility of diffusion tensor imaging (DTI) as a CVD marker for prediction of future cognitive decline in individuals with MCI in conjunction with amyloidosis and neurodegeneration. Method: We identified 132 MCI individuals ≥60 years old (55 % were amyloid positive and 59 % were male) from the population based sample of Mayo Clinic Study of Aging (MCSA) who had structural MRI, DTI, amyloid PET, and at least one clinical follow‐up after the imaging at the time of their clinical visit as MCI. All imaging scans were acquired and processed using in house developed protocols and pipelines. We used fractional anisotropy in the genu of corpus callosum (FAGCC), as a CVD marker, education/occupation score as a resilience variable, and global cognitive z‐score as the cognitive outcome. Using mixed effect models for cognitive decline, we evaluated three models to test the prognostic ability of (i) DTI marker alone, (ii) DTI marker and amyloid PET, (iii) DTI marker, amyloid PET, and neurodegeneration (cortical thickness). The final parsimonious models included the significant interactions of potential predictors with time, main effects nested within those interactions, and other significant main effects. Since the adjustment for conventional CVD measures like WMH was important to determine the utility DTI over traditional measures, we further assessed the value of FAGCC in conjunction with white matter hyper intensity (WMH). Result: We found: i) FAGCC was associated with cognitive decline after adjusting for amyloid PET neurodegeneration (Figure 1 and Table 1) and ii) FAGCC was associated with cognitive decline even after controlling for WMH and WMH was no longer significant after accounting for FAGCC (Table 2). Conclusion: DTI has significant utility for prediction of cognitive decline in MCI from population‐based samples and will provide complementary information to AD biomarkers. [ABSTRACT FROM AUTHOR]

Published

2020

40. Brain structure and cognition 3 years after the end of an early menopausal hormone therapy trial.

Author

Kantarci, Kejal, Tosakulwong, Nirubol, Lesnick, Timothy G., Zuk, Samantha M., Lowe, Val J., Fields, Julie A., Gunter, Jeffrey L., Senjem, Matthew L., Settell, Megan L., Gleason, E., Shuster, Lynne T., Bailey, Kent R., Dowling, N.Maritza, Asthana, Sanjay, Jack, Clifford R., Rocca, Walter A., Miller, Virginia M., Gleason, Carey E, and Jack, Clifford R Jr

Published

2018

41. Cardiometabolic Health and Longitudinal Progression of White Matter Hyperintensity

Author

Scharf, Eugene L., Graff-Radford, Jonathan, Przybelski, Scott A., Lesnick, Timothy G., Mielke, Michelle M., Knopman, David S., Preboske, Gregory M., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Machulda, Mary, Kantarci, Kejal, Petersen, Ronald C., Jack, Clifford R., and Vemuri, Prashanthi

Abstract

Supplemental Digital Content is available in the text.

Published

2019

42. Amyloid independent pathways have an impact on longitudinal tau deposition.

Author

Vemuri, Prashanthi, Lesnick, Timothy G., Przybelski, Scott A., Graff‐Radford, Jonathan, Ramanan, Vijay K, Lowe, Val J., Machulda, Mary M., Mielke, Michelle M., Petersen, Ronald C., Knopman, David S., and Jack, Clifford R.

Abstract

Background: Amyloidosis‐driven tau deposition has been a significant focus of imaging research in Alzheimer's disease (AD). However, the 3R/4R tau seen in AD can be observed in the transentorhinal/entorhinal regions (Braak I/II) in the absence of amyloidosis. The underlying drivers of this phenomenon are not well understood. Our goal was to examine amyloid‐independent pathways of longitudinal Tau‐PET SUVR progression in the entorhinal cortex (ERC) using a broad range of risk and protective factors. Method: We identified 449 participants from the population‐based sample of Mayo Clinic Study of Aging >50 years old with baseline amyloid PET and at least two serial tau PET scans (mean number of scans=2.3; mean follow‐up time=3.2 years). Using an amyloid SUVR cut‐point of 1.48, we categorized participants into A+ (n=167; mean age=77.5 years; 56% male; baseline ERC tau=1.20; 83% cognitively unimpaired) and A‐ (n=282; mean age=67.5; 56% male; baseline ERC tau=1.07; 92% cognitively unimpaired). We used an ERC tau SUVR cut‐point of 1.21 to determine T+. We fit mixed effects and growth curve models with age, sex, baseline amyloid, risk factors (midlife activities, sleep, stress, education/occupation, cardiovascular metabolic conditions) as predictors and longitudinal ERC tau as the outcome. We fit separate models in A‐, A+, and all participants. Results: For models of all participants and A+ participants, the only predictors of higher rates of ERC tau deposition were increasing age and amyloid SUVR (p<0.05). In the A‐ models (figure below), amyloid SUVR and age were predictors of baseline, but not longitudinal ERC tau. However, a greater number of cardiovascular metabolic conditions predicted a higher rate of ERC tau accumulation (0.007 (0.002), p<0.05). Only 13% of the 23 A‐T+ participants were APOE4 carriers (compared to 31% in the overall sample), suggesting the role of non‐APOE4 pathways to tau deposition. Conclusion: Our results support previous evidence that significant amyloidosis is causal to higher rates of tau deposition. However, in those without significant amyloidosis, cardiovascular metabolic conditions predicted higher rates of ERC tau accumulation. Further work is warranted to investigate the mechanisms through which genetics, comorbidities, and lifestyle may play a role in early tau deposition. [ABSTRACT FROM AUTHOR]

Published

2022

43. Amyloid PET in the Lewy Body disease continuum.

Author

Diaz‐Galvan, Patricia, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Jack, Clifford R., Min, Paul H, Jain, Manoj K., Miyagawa, Toji, Forsberg, Leah K., Fields, Julie A., Savica, Rodolfo, Graff‐Radford, Jonathan, St, Erik K, Knopman, David S., Graff‐Radford, Neill R., Ferman, Tanis J, Petersen, Ronald C., and Lowe, Val J.

Abstract

Background: β‐amyloid plaques, a pathological hallmark of Alzheimer's disease, are common in dementia with Lewy bodies (DLB). However, little is known about when β‐amyloid levels increase throughout the Lewy body disease (LBD) continuum, from an early prodromal stage of isolated REM sleep behavior disorder (iRBD), to a stage of mild cognitive impairment‐Lewy bodies (MCI‐LB), and finally DLB. Our objective was to investigate β‐amyloid deposition throughout the LBD continuum, as well as the influence of sex and APOE ε4 status, as potential factors contributing to Alzheimer's disease pathological changes. Method: Patients with iRBD (n=24), MCI‐LB (n=62), and DLB (n=82) from the Mayo Clinic Alzheimer's Disease Research Center and Center for Sleep Medicine were included. β‐amyloid levels were measured by Pittsburgh compound B (PiB) PET and global cortical standard uptake value ratio (SUVR) was calculated. Global cortical PiB SUVR values from each clinical group were compared to each other and to cognitively unimpaired individuals (CU; n=100) balanced on age and sex from the Mayo Clinic Study of Aging (MCSA). Clinical groups were compared using ANCOVA after adjusting by age. Result: MCI‐LB and DLB patients had significantly higher global cortical PiB SUVR than CU participants, while PiB SUVR in iRBD patients was comparable to that of CU participants (Figure 1). DLB patients also had significantly higher global cortical PiB SUVR compared to iRBD patients (p=0.004). In MCI‐LB and DLB, global cortical PiB SUVR was higher in APOE ε4 carriers compared to APOE ε4 non‐carriers (p<0.001), and women had higher global cortical PiB SUVR compared to men (p=0.024). Conclusion: In this cross‐sectional study, β‐amyloid pathology gradually increased throughout the clinically defined LBD continuum. Whereas β‐amyloid levels are comparable to cognitively unimpaired individuals in iRBD, a significant elevation in β‐amyloid levels coincides with cognitive impairment observed in MCI‐LB and DLB. Specifically, women and APOE ε4 carriers tend to have higher β‐amyloid levels than men and APOE ε4 non‐carriers. These findings have important implications for targeting patients within the LBD continuum, who may benefit from amyloid modifying therapies. [ABSTRACT FROM AUTHOR]

Published

2022

44. Characterizing Amyloid Responsive Microglia in a Cognitively Resilient Patient with Alzheimer's Disease Neuropathologic Change: A Case Report.

Author

Nguyen, Aivi T., Przybelski, Scott A., Lesnick, Timothy G., Ramanan, Vijay K, Petersen, Ronald C., Graff‐Radford, Jonathan, Knopman, David S., Jack, Clifford R., Dickson, Dennis W., Van Deerlin, Vivianna M, Lee, Eddie B, Reichard, Ross R., and Vemuri, Prashanthi

Abstract

Background: Cognitive resilience, the discrepancy observed in individuals with high Alzheimer's disease (AD) neuropathology and near‐normal cognition, is a growing area of study, wherein multiple factors are responsible. Currently, the role of the microglial activation in cognitive resilience is unknown. Herein described is a case report characterizing the amyloid responsive microglia (ARM) in an 88‐year‐old male decedent homozygous for APOE E4, clinically cognitively intact, and found to have AD neuropathologic change (ADNC) upon autopsy. Method: The participant was enrolled in the Mayo Clinic Study of Aging (MCSA) and continuously followed for 14 years from 73‐ to 87‐years‐old, wherein serial MRI and clinical assessments were obtained. An autopsy was performed upon death, and routine neuropathologic sections were taken. Formalin‐fixed, paraffin‐embedded sections were stained with H&E, and single immunohistochemistry was performed using antibodies against tau (AT8), beta‐amyloid (6F3D), alpha‐synuclein (LB509), TDP‐43 (pS409/410), and CD163 (10D6). Digital image analysis was performed on dorsolateral prefrontal cortex sections scanned at 40x (Leica GT450). ARM (CD163% area) and beta‐amyloid (% area) measurements were obtained using QuPath threshold classifiers. Descriptive statistics were performed (Graphpad). Result: The decedent was an 88‐year‐old male, homozygous for APOE E4, with a history of three cardiovascular and metabolic conditions, and lifelong smoking. His MMSE (average 28/30) and global cognition (average ‐0.51) were relatively stable (Figure 1), with no clinical concerns for cognitive impairment. Cortical thickness was normal (temporal meta‐ROI>3 mm) on four serial MRIs. The participant reported high cognitive, physical activities, and education‐occupation scores (upper quartile for the 70+ population). Neuropathologic evaluation was notable for severe cerebral amyloid angiopathy, high ADNC (A3B3C3), and remote microinfarcts. CD163‐positive ARM were observed in the neocortices and perivascular spaces, and the ARM:beta‐amyloid ratio was 0.26 (Figure 1). This ARM:beta‐amyloid ratio trended upwards (>90th percentile) compared to APOE E4/E4‐matched‐ and age‐matched controls provided from the University of Pennsylvania. Conclusion: This case report demonstrates a cognitively resilient individual with an elevated ARM:amyloid ratio. Conversely, lower ARM ratios were observed in a cognitively impaired cohort, raising the possibility ARM may associate with cognition. ARM may represent a protective and phagocytic population, and further studies correlating microglia, cognition, and putative mechanism are required. [ABSTRACT FROM AUTHOR]

Published

2022

45. 1H-MRS metabolites and rate of β-amyloid accumulation on serial PET in clinically normal adults.

Author

Nedelska, Zuzana, Przybelski, Scott A, Lesnick, Timothy G, Schwarz, Christopher G, Lowe, Val J, Machulda, Mary M, Kremers, Walter K, Mielke, Michelle M, Roberts, Rosebud O, Boeve, Bradley F, Knopman, David S, Petersen, Ronald C, Jack, Clifford R Jr, and Kantarci, Kejal

Published

2017

46. ¹H-MRS metabolites and rate of β-amyloid accumulation on serial PET in clinically normal adults.

Author

Nedelska, Zuzana, Przybelski, Scott A., Lesnick, Timothy G., Schwarz, Christopher G., Lowe, Val J., Machulda, Mary M., Kremers, Walter K., Mielke, Michelle M., Roberts, Rosebud O., Boeve, Bradley F., Knopman, David S., Petersen, Ronald C., Jack Jr., Clifford R., and Kantarci, Kejal

Published

2017

47. An investigation of cerebrovascular lesions in dementia with Lewy bodies compared to Alzheimer's disease.

Author

Sarro, Lidia, Tosakulwong, Nirubol, Schwarz, Christopher G., Graff-Radford, Jonathan, Przybelski, Scott A., Lesnick, Timothy G., Zuk, Samantha M., Reid, Robert I., Raman, Mekala R., Boeve, Bradley F., Ferman, Tanis J., Knopman, David S., Comi, Giancarlo, Filippi, Massimo, Murray, Melissa E., Parisi, Joseph E., Dickson, Dennis W., Petersen, Ronald C., Jr.Jack, Clifford R., and Kantarci, Kejal

Abstract

Introduction Cerebrovascular lesions on MRI are common in Alzheimer's disease (AD) dementia, but less is known about their frequency and impact on dementia with Lewy bodies (DLB). Methods White-matter hyperintensities (WMHs) and infarcts on MRI were assessed in consecutive DLB (n = 81) and AD dementia (n = 240) patients and compared to age-matched and sex-matched cognitively normal subjects (CN) from a population-based cohort. Results DLB had higher WMH volume compared to CN, and WMH volume was higher in the occipital and posterior periventricular regions in DLB compared to AD. Higher WMH volume was associated with history of cardiovascular disease and diabetes but not with clinical disease severity in DLB. Frequency of infarcts in DLB was not different from CN and AD dementia. Discussion In DLB, WMH volume is higher than AD and CN and appears to be primarily associated with history of vascular disease. [ABSTRACT FROM AUTHOR]

Published

2017

48. IC‐P‐019: LONGITUDINAL ACCUMULATION OF β‐AMYLOID ON PET IN DEMENTIA WITH LEWY BODIES AND RELATIONSHIP TO CLINICAL DISEASE PROGRESSION.

Author

Nedelska, Zuzana, Schwarz, Christopher G., Lesnick, Timothy G., Przybelski, Scott A., Boeve, Bradley F., Lowe, Val J., Kremers, Walter K., Gunter, Jeffrey L., Senjem, Matthew L., Radford, Jonathan Graff, Ferman, Tanis J., Knopman, David S., Petersen, Ronald C., Jack, Clifford R., and Kantarci, Kejal

Published

2023

49. Rates of lobar atrophy in asymptomatic MAPTmutation carriers

Author

Chen, Qin, Boeve, Bradley F., Senjem, Matthew, Tosakulwong, Nirubol, Lesnick, Timothy G., Brushaber, Danielle, Dheel, Christina, Fields, Julie, Forsberg, Leah, Gavrilova, Ralitza, Gearhart, Debra, Graff-Radford, Jonathan, Graff-Radford, Neill R., Jack, Clifford R., Jones, David T., Knopman, David S., Kremers, Walter K., Lapid, Maria, Rademakers, Rosa, Syrjanen, Jeremy, Boxer, Adam L., Rosen, Howie, Wszolek, Zbigniew K., Kantarci, Kejal, Coppola, Giovanni, Dickerson, Bradford C., Dickinson, Susan, Faber, Kelly, Fong, Jamie, Foroud, Tatiana, Ghoshal, Nupur, MurrayGrossman, Jill Goldman, Heuer, HilaryW., Hsiao, John, Hsiung, Ging-Yuek R., Huey, Edward, Irwin, David J., Karydas, Anna M., Kornak, John, Kramer, Joel, Kukull, Walter A., Lucente, Diane, Lungu, Codrin, Mackenzie, Ian R.A., McGinnis, Scott, Miller, Bruce L., Petrucelli, Leonard, Potter, Madeline, Ramos, Eliana M., Rankin, Katherine P., Rascovsky, Katya, Shaw, Leslie, Sutherland, Marg, Tatton, Nadine, Taylor, Joanne, Toga, Arthur W., Trojanowski, John, Weintraub, Sandra, and Wong, Bonnie

Abstract

The aim of this study was to investigate the rates of lobar atrophy in the asymptomatic microtubule-associated protein tau (MAPT) mutation carriers.

Published

2019

50. Association of Bilateral Salpingo-Oophorectomy Before Menopause Onset With Medial Temporal Lobe Neurodegeneration

Author

Zeydan, Burcu, Tosakulwong, Nirubol, Schwarz, Christopher G., Senjem, Matthew L., Gunter, Jeffrey L., Reid, Robert I., Gazzuola Rocca, Liliana, Lesnick, Timothy G., Smith, Carin Y., Bailey, Kent R., Lowe, Val J., Roberts, Rosebud O., Jack, Clifford R., Petersen, Ronald C., Miller, Virginia M., Mielke, Michelle M., Rocca, Walter A., and Kantarci, Kejal

Abstract

IMPORTANCE: There is an increased risk of cognitive impairment or dementia in women who undergo bilateral salpingo-oophorectomy (BSO) before menopause. However, data are lacking on the association of BSO before menopause with imaging biomarkers that indicate medial temporal lobe neurodegeneration and Alzheimer disease pathophysiology. OBJECTIVE: To investigate medial temporal lobe structure, white matter lesion load, and β-amyloid deposition in women who underwent BSO before age 50 years and before reaching natural menopause. DESIGN, SETTING, AND PARTICIPANTS: This nested case-control study of women in the population-based Mayo Clinic Cohort Study of Oophorectomy and Aging-2 (MOA-2) and in the Mayo Clinic Study of Aging (MCSA) in Olmsted County, Minnesota, included women who underwent BSO from 1988 through 2007 and a control group from the intersection of the 2 cohorts. Women who underwent BSO and control participants who underwent a neuropsychological evaluation, magnetic resonance imaging (MRI), and Pittsburgh compound B positron emission tomography (PiB-PET) were included in the analysis. Data analysis was performed from November 2017 to August 2018. EXPOSURE: Bilateral salpingo-oophorectomy in premenopausal women who were younger than 50 years. MAIN OUTCOMES AND MEASURES: Cortical β-amyloid deposition on PiB-PET scan was calculated using the standard uptake value ratio. White matter hyperintensity volume and biomarkers for medial temporal lobe neurodegeneration (eg, amygdala volume, hippocampal volume, and parahippocampal-entorhinal cortical thickness) on structural MRI and entorhinal white matter fractional anisotropy on diffusion tensor MRI were also measured. RESULTS: Forty-one women who underwent BSO and 49 control participants were recruited. One woman was excluded from the BSO group after diagnosis of an ovarian malignant condition, and 6 women were excluded from the control group after undergoing BSO after enrollment. Twenty control participants and 23 women who had undergone BSO completed all examinations. The median (interquartile range [IQR]) age at imaging was 65 (62-68) years in the BSO group and 63 (60-66) years in the control group. Amygdala volume was smaller in the BSO group (median [IQR], 1.74 [1.59-1.91] cm3) than the control group (2.15 [2.05-2.37] cm3; P &lt; .001). The parahippocampal-entorhinal cortex was thinner in the BSO group (median [IQR], 3.91 [3.64-4.00] mm) than the control group (3.97 [3.89-4.28] mm; P = .046). Entorhinal white matter fractional anisotropy was lower in the BSO group (median [IQR], 0.19 [0.18-0.22]) than the control group (0.22 [0.20-0.23]; P = .03). Women were treated with estrogen in both groups (BSO, n = 22 of 23 [96%]; control, n = 10 of 19 [53%]). Global cognitive status test results did not differ between the groups. CONCLUSIONS AND RELEVANCE: Abrupt hormonal changes associated with BSO in premenopausal women may lead to medial temporal lobe structural abnormalities later in life. Longitudinal evaluation is needed to determine whether cognitive decline follows.

Published

2019