Search

Your search keyword '"Bischof, Gerard N."' showing total 155 results
Start Over Author "Bischof, Gerard N."
155 results on '"Bischof, Gerard N."'

1. Translating the future: Image-to-image translation for the prediction of future brain metabolism

Author

Doering, Elena, Hönig, Merle C., Deußer, Tobias, Bischof, Gerard N., van Eimeren, Thilo, Drzezga, Alexander, and Ellingsen, Lotta M.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Physics - Medical Physics, Quantitative Biology - Neurons and Cognition
Abstract

Alzheimer's disease (AD) is a progressive neurodegenerative disorder leading to cognitive decline. [$^{18}$F]-Fluorodeoxyglucose positron emission tomography ([$^{18}$F]-FDG PET) is used to monitor brain metabolism, aiding in the diagnosis and assessment of AD over time. However, the feasibility of multi-time point [$^{18}$F]-FDG PET scans for diagnosis is limited due to radiation exposure, cost, and patient burden. To address this, we have developed a predictive image-to-image translation (I2I) model to forecast future [$^{18}$F]-FDG PET scans using baseline and year-one data. The proposed model employs a convolutional neural network architecture with long-short term memory and was trained on [$^{18}$F]-FDG PET data from 161 individuals from the Alzheimer's Disease Neuroimaging Initiative. Our I2I network showed high accuracy in predicting year-two [18F]-FDG PET scans, with a mean absolute error of 0.031 and a structural similarity index of 0.961. Furthermore, the model successfully predicted PET scans up to seven years post-baseline. Notably, the predicted [$^{18}$F]-FDG PET signal in an AD-susceptible meta-region was highly accurate for individuals with mild cognitive impairment across years. In contrast, a linear model was sufficient for predicting brain metabolism in cognitively normal and dementia subjects. In conclusion, both the I2I network and the linear model could offer valuable prognostic insights, guiding early intervention strategies to preemptively address anticipated declines in brain metabolism and potentially to monitor treatment effects., Comment: Accepted to SPIE Medical Imaging 2024

Published
2024
Full Text
View/download PDF

5. AMYPAD: Correlation of Amyloid PET results with anxiety and depressive symptoms in SCD+, MCI and dementia patients

Author

Zeyen, Philip, primary, Sannemann, Lena, additional, Escher, Claus, additional, Maier, Franziska, additional, Rostamzadeh, Ayda, additional, Drzezga, Alexander, additional, Giehl, Kathrin, additional, Bischof, Gerard N, additional, Hönig, Merle C., additional, Altomare, Daniele, additional, Garibotto, Valentina, additional, Barkhof, Frederik, additional, Scheltens, Philip, additional, van Berckel, Bart N.M., additional, Collij, Lyduine E., additional, Molinuevo, Jose Luis, additional, Grau‐Rivera, Oriol, additional, Gispert, Juan Domingo, additional, Delrieu, Julien, additional, Payoux, Pierre, additional, Nordberg, Agneta K, additional, Savitcheva, Irina, additional, Walker, Zuzana, additional, Edison, Paul, additional, Demonet, Jean‐François, additional, Stephens, Andrew W., additional, Gismondi, Rossella, additional, Farrar, Gill, additional, Frisoni, Giovanni B, additional, and Jessen, Frank, additional

Published
2023
Full Text
View/download PDF

6. A Volume‐Based Alternative for classifying ATN: Data from the Tau Propagation over Time (T‐POT) cohort

Author

Doering, Elena, primary, Hönig, Merle C., additional, Dzialas, Verena, additional, Lothmann, Julia, additional, Giehl, Kathrin, additional, Theis, Hendrik, additional, Jäger, Elena, additional, Andrassy, Gregory, additional, Bauer, Andreas, additional, Elmenhorst, David, additional, Kroll, Tina, additional, Matusch, Andreas, additional, Krapf, Philip, additional, Neumaier, Bernd, additional, Lerche, Christoph, additional, Tellmann, Lutz, additional, Frensch, Silke, additional, Zeyen, Philip, additional, Sand, Frederik, additional, Richter, Nils, additional, Jessen, Frank, additional, Onur, Oezguer A., additional, Ramirez, Alfredo, additional, van Eimeren, Thilo, additional, Drzezga, Alexander, additional, and Bischof, Gerard N, additional

Published
2023
Full Text
View/download PDF

7. Association Between Years of Education and Amyloid Burden in Patients With Subjective Cognitive Decline, MCI, and Alzheimer Disease.

Author

Hönig, Merle, Altomare, Daniele, Caprioglio, Camilla, Collij, Lyduine, Barkhof, Frederik, Van Berckel, Bart, Scheltens, Philip, Farrar, Gill, Battle, Mark R., Theis, Hendrik, Giehl, Kathrin, Bischof, Gerard N., Garibotto, Valentina, Molinuevo, JoséLuis L., Grau-Rivera, Oriol, Delrieu, Julien, Payoux, Pierre, Demonet, Jean Francois, Nordberg, Agneta K., and Savitcheva, Irina

Published
2024
Full Text
View/download PDF

9. Subcortical tau‐accumulation predicts neuronal dysfunction in the cortex based on functional connectivity in 4R‐tauopathies

Author

Roemer, Sebastian Niclas, primary, Franzmeier, Nicolai, additional, Katzdobler, Sabrina, additional, Nitschmann, Alexander, additional, Barthel, Henryk, additional, Bischof, Gerard N, additional, Beyer, Leonie, additional, Marek, Ken, additional, Song, Mengmeng, additional, Wagemann, Olivia, additional, Palleis, Carla, additional, Nack, Anne, additional, Fietzek, Urban, additional, Kurz, Carolin, additional, Haeckert, Jan, additional, Stapf, Theresa, additional, Ferschmann, Chrsitian, additional, Scheifele, Maximilian, additional, Eckenweber, Florian, additional, Biechele, Gloria, additional, Biel, Davina, additional, Dewenter, Anna, additional, Steward, Anna, additional, Schoenecker, Sonja, additional, Saur, Dorothee, additional, Schroeter, Matthias L., additional, Rumpf, Jost‐Julian, additional, Rullmann, Michael, additional, Schildan, Andreas, additional, Patt, Marianne, additional, Stephens, Andrew W, additional, van Eimeren, Thilo, additional, Drzezga, Alexander, additional, Danek, Adrian, additional, Classen, Joseph, additional, Bürger, Katharina, additional, Janowitz, Daniel, additional, Rauchmann, Boris‐Stephan, additional, Stöcklein, Sophia, additional, Perneczky, Robert, additional, Schoeberl, Florian, additional, Zwergal, Andreas, additional, Bartenstein, Peter, additional, Neumaier, Bernd, additional, Villemagne, Victor L, additional, Seibyl, John, additional, Sabri, Osama, additional, Ewers, Michael, additional, Levin, Johannes, additional, Brendel, Matthias, additional, and Höglinger, Günter, additional

Published
2022
Full Text
View/download PDF

11. Quantification supports visual assessment of challenging amyloid‐PET images.

Author

Collij, Lyduine E., Bischof, Gerard N, Altomare, Daniele, García, David Vállez, Alves, Isadora Lopes, Battle, Mark R, Hegde, Manoj, Wolz, Robin, Gismondi, Rossella, Stephens, Andrew W., Walker, Zuzana, Scheltens, Philip, Nordberg, Agneta K, Gispert, Juan Domingo, Farrar, Gill, Drzezga, Alexander, Perissinotti, Andrés, Morbelli, Silvia, Buckley, Christopher, and Garibotto, Valentina

Abstract

Background: In clinical practice, amyloid‐PET images are visually assessed to determine the presence or absence of amyloid pathology. The expected arrival of disease‐modifying treatments warrants the need for objective quantification of amyloid burden to further support treatment decisions. Here, we investigated whether quantification increases reader confidence and influences visual read (VR) classification in patients with challenging or ambiguous amyloid information sampled across the clinical continuum. Methods: From the AMYPAD‐DPMS trial (N = 840), we selected a subsample of 85 amyloid‐PET scans ([18F]flutemetamol, N = 48/[18F]florbetaben, N = 53), for which 1) visual assessment was discordant with amyloid status based on Centiloid (CL) (cut‐off = 21) and/or 2) were assessed with a low confidence (i.e. ≤3 on a 5‐point scale) by the local reader. In addition, concordant negative and positive (N = 8/8) scans across tracers were included to balance the dataset (N = 101, Table‐1). PET images were processed using GEHCs AMYPYPE PET‐only pipeline, providing global CL and regional z‐scores for 7 cortical ROIs. VR classification and corresponding confidence was assessed for 3 independent certified assessors before and after disclosure of the quantification results. In addition, readers stated whether CL quantification and/or the regional z‐scores supported their assessment. Reader agreement was assessed using Fleiss Kappa. Changes in reader confidence after disclosure was assessed using paired t‐test. Results: Overall, readers reported global CL and regional z‐score quantification to be VR‐supportive in 76.2% and 49.7% of assessments, respectively. After disclosure of quantitative results, concordance between readers (Kbaseline= 0.60; Kpost‐disclosure= 0.79), concordance between majority‐VR and CL‐status (agreementbaseline = 75.2%; agreementpost‐disclosure = 81.2%), and reader confidence (Mbaseline= 4.0 vs. Mpost‐disclosure= 4.37, t = ‐5.8, p<0.001) significantly improved. Classification changed for 26 (8.6%) assessments, with 8 (30.8%) changing to VR‐ and 18 (69.2%) to VR+. In these cases, CL was considered supportive in 16 (61.5%) cases, regional z‐scores were considered supportive for 8/10 remaining cases, and most often for the posterior cingulate/precuneus region. The 2 remaining cases had a low confidence at both time‐points. Example cases are shown in Figure 1. Conclusion: In a dataset enriched with challenging amyloid‐PET scans for visual assessment, quantification resulted in a significantly increased agreement and confidence across readers. We further aim to determine in which cases quantification was considered most supportive. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

14. Feasibility of short imaging protocols for [ 18 F]PI‐2620 tau‐PET in progressive supranuclear palsy

Author

Song, Mengmeng, primary, Scheifele, Maximilian, additional, Barthel, Henryk, additional, van Eimeren, Thilo, additional, Beyer, Leonie, additional, Marek, Ken, additional, Eckenweber, Florian, additional, Palleis, Carla, additional, Finze, Anika, additional, Kaiser, Lena, additional, Kern, Maike, additional, Nitschmann, Alexander, additional, Biechele, Gloria, additional, Katzdobler, Sabrina, additional, Bischof, Gerard N, additional, Hammes, Jochen, additional, Jessen, Frank, additional, Saur, Dorothee, additional, Schroeter, Matthias L., additional, Rumpf, Jost‐Julian, additional, Rullmann, Michael, additional, Schildan, Andreas, additional, Patt, Marianne, additional, Neumaier, Bernd, additional, Stephens, Andrew W, additional, Rauchmann, Boris‐Stephan, additional, Perneczky, Robert, additional, Levin, Johannes, additional, Classen, Joseph, additional, Höglinger, Günter, additional, Bartenstein, Peter, additional, Boening, Guido, additional, Ziegler, Sibylle, additional, Villemagne, Victor L L, additional, Drzezga, Alexander, additional, Seibyl, John P, additional, Sabri, Osama, additional, and Brendel, Matthias, additional

Published
2021
Full Text
View/download PDF

17. The strategic biomarker roadmap for the validation of Alzheimer's diagnostic biomarkers: methodological update

Author

Boccardi, Marina, Dodich, Alessandra, Albanese, Emiliano, Gayet-Ageron, Angele, Festari, Cristina, Ashton, Nicholas J., Bischof, Gerard N., Chiotis, Konstantinos, Leuzy, Antoine, Wolters, Emma E., Walter, Martin A., Rabinovici, Gil D., Carrillo, Maria, Drzezga, Alexander, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Villemagne, Victor L., Winblad, Bengt, Frisoni, Giovanni B., Garibotto, Valentina, Boccardi, Marina, Dodich, Alessandra, Albanese, Emiliano, Gayet-Ageron, Angele, Festari, Cristina, Ashton, Nicholas J., Bischof, Gerard N., Chiotis, Konstantinos, Leuzy, Antoine, Wolters, Emma E., Walter, Martin A., Rabinovici, Gil D., Carrillo, Maria, Drzezga, Alexander, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Villemagne, Victor L., Winblad, Bengt, Frisoni, Giovanni B., and Garibotto, Valentina

Abstract

Background The 2017 Alzheimer's disease (AD) Strategic Biomarker Roadmap (SBR) structured the validation of AD diagnostic biomarkers into 5 phases, systematically assessing analytical validity (Phases 1-2), clinical validity (Phases 3-4), and clinical utility (Phase 5) through primary and secondary Aims. This framework allows to map knowledge gaps and research priorities, accelerating the route towards clinical implementation. Within an initiative aimed to assess the development of biomarkers of tau pathology, we revised this methodology consistently with progress in AD research. Methods We critically appraised the adequacy of the 2017 Biomarker Roadmap within current diagnostic frameworks, discussed updates at a workshop convening the Alzheimer's Association and 8 leading AD biomarker research groups, and detailed the methods to allow consistent assessment of aims achievement for tau and other AD diagnostic biomarkers. Results The 2020 update applies to all AD diagnostic biomarkers. In Phases 2-3, we admitted a greater variety of study designs (e.g., cross-sectional in addition to longitudinal) and reference standards (e.g., biomarker confirmation in addition to clinical progression) based on construct (in addition to criterion) validity. We structured a systematic data extraction to enable transparent and formal evidence assessment procedures. Finally, we have clarified issues that need to be addressed to generate data eligible to evidence-to-decision procedures. Discussion This revision allows for more versatile and precise assessment of existing evidence, keeps up with theoretical developments, and helps clinical researchers in producing evidence suitable for evidence-to-decision procedures. Compliance with this methodology is essential to implement AD biomarkers efficiently in clinical research and diagnostics.

Published
2021

18. The Strategic Biomarker Roadmap for the validation of Alzheimer's diagnostic biomarkers: methodological update (vol 48, pg 2070, 2021)

Author

Boccardi, Marina, Dodich, Alessandra, Albanese, Emiliano, Gayet-Ageron, Angele, Festari, Cristina, Ashton, Nicholas J., Bischof, Gerard N., Chiotis, Konstantinos, Leuzy, Antoine, Wolters, Emma E., Walter, Martin, Rabinovici, Gil D., Carrillo, Maria, Drzezga, Alexander, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Villemagne, Victor L., Winblad, Bengt, Frisoni, Giovanni, Garibotto, Valentina, Boccardi, Marina, Dodich, Alessandra, Albanese, Emiliano, Gayet-Ageron, Angele, Festari, Cristina, Ashton, Nicholas J., Bischof, Gerard N., Chiotis, Konstantinos, Leuzy, Antoine, Wolters, Emma E., Walter, Martin, Rabinovici, Gil D., Carrillo, Maria, Drzezga, Alexander, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Villemagne, Victor L., Winblad, Bengt, Frisoni, Giovanni, and Garibotto, Valentina

Published
2021

19. Clinical validity of second-generation tau PET tracers as biomarkers for Alzheimer's disease in the context of a structured 5-phase development framework

Author

Bischof, Gerard N., Dodich, Alessandra, Boccardi, Marina, van Eimeren, Thilo, Festari, Cristina, Barthel, Henryk, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Sabri, Osama, Giovanni, B. Frisoni G., Garibotto, Valentina, Drzezga, Alexander, Bischof, Gerard N., Dodich, Alessandra, Boccardi, Marina, van Eimeren, Thilo, Festari, Cristina, Barthel, Henryk, Hansson, Oskar, Nordberg, Agneta, Ossenkoppele, Rik, Sabri, Osama, Giovanni, B. Frisoni G., Garibotto, Valentina, and Drzezga, Alexander

Abstract

Purpose In 2017, the Geneva Alzheimer's disease (AD) strategic biomarker roadmap initiative proposed a framework of the systematic validation AD biomarkers to harmonize and accelerate their development and implementation in clinical practice. Here, we use this framework to examine the translatability of the second-generation tau PET tracers into the clinical context. Methods All available literature was systematically searched based on a set of search terms that related independently to analytic validity (phases 1-2), clinical validity (phase 3-4), and clinical utility (phase 5). The progress on each of the phases was determined based on scientific criteria applied for each phase and coded as fully, partially, preliminary achieved or not achieved at all. Results The validation of the second-generation tau PET tracers has successfully passed the analytical phase 1 of the strategic biomarker roadmap. Assay definition studies showed evidence on the superiority over first-generation tau PET tracers in terms of off-target binding. Studies have partially achieved the primary aim of the analytical validity stage (phase 2), and preliminary evidence has been provided for the assessment of covariates on PET signal retention. Studies investigating of the clinical validity in phases 3, 4, and 5 are still underway. Conclusion The current literature provides overall preliminary evidence on the establishment of the second-generation tau PET tracers into the clinical context, thereby successfully addressing some methodological issues from the tau PET tracer of the first generation. Nevertheless, bigger cohort studies, longitudinal follow-up, and examination of diverse disease population are still needed to gauge their clinical validity.

Published
2021

20. One-Stop Shop: F-18-Flortaucipir PET Differentiates Amyloid-Positive and -Negative Forms of Neurodegenerative Diseases

Author

Hammes, Jochen, Bischof, Gerard N., Bohn, Karl P., Onur, Oezguer, Schneider, Anja, Fliessbach, Klaus, Hoenig, Merle C., Jessen, Frank, Neumaier, Bernd, Drzezga, Alexander, van Eimeren, Thilo, Hammes, Jochen, Bischof, Gerard N., Bohn, Karl P., Onur, Oezguer, Schneider, Anja, Fliessbach, Klaus, Hoenig, Merle C., Jessen, Frank, Neumaier, Bernd, Drzezga, Alexander, and van Eimeren, Thilo

Abstract

Tau protein aggregations are a hallmark of amyloid-associated Alzheimer disease and some forms of non-amyloid-associated frontotemporal lobar degeneration. In recent years, several tracers for in vivo tau imaging have been under evaluation. This study investigated the ability of F-18-flortaucipir PET not only to assess tau positivity but also to differentiate between amyloid-positive and-negative forms of neurodegeneration on the basis of different F-18-flortaucipir PET signatures. Methods: The F-18-flortaucipir PET data of 35 patients with amyloid-positive neurodegeneration, 19 patients with amyloidnegative neurodegeneration, and 17 healthy controls were included in a data-driven scaled subprofile model (SSM)/principal-component analysis (PCA) identifying spatial covariance patterns. SSM/PCA pattern expression strengths were tested for their ability to predict amyloid status in a receiver-operating-characteristic analysis and validated with a leave-one-out approach. Results: Pattern expression strengths predicted amyloid status with a sensitivity of 0.94 and a specificity of 0.83. A support vector machine classification based on pattern expression strengths in 2 different SSM/PCA components yielded a prediction accuracy of 98%. Anatomically, prediction performance was driven by parietooccipital gray matter in amyloid-positive patients versus predominant white matter binding in amyloid-negative patients. Conclusion: SSM/PCA-derived binding patterns of F-18-flortaucipir differentiate between amyloid-positive and-negative neurodegenerative diseases with high accuracy. F-18-flortaucipir PET alone may convey additional information equivalent to that from amyloid PET. Together with a perfusion-weighted early-phase acquisition (F-18-FDG PET-equivalent), a single scan potentially contains comprehensive information on amyloid (A), tau (T), and neurodegeneration (N) status as required by recent biomarker classification algorithms (A/T/N).

Published
2021

21. Finding New Communities: A Principle of Neuronal Network Reorganization in Alzheimer's Disease

Author

Weller, Anna, Bischof, Gerard N., Schlueter, Philipp, Richter, Nils, Dronse, Julian, Onur, Oezguer, Neumaier, Bernd, Kukolja, Juraj, Langen, Karl-Josef, Fink, Gereon, Kunoth, Angela, Shao, Yaping, van Eimeren, Thilo, Drzezga, Alexander, Weller, Anna, Bischof, Gerard N., Schlueter, Philipp, Richter, Nils, Dronse, Julian, Onur, Oezguer, Neumaier, Bernd, Kukolja, Juraj, Langen, Karl-Josef, Fink, Gereon, Kunoth, Angela, Shao, Yaping, van Eimeren, Thilo, and Drzezga, Alexander

Abstract

Background: Graph-theoretical analyses have been previously used to investigate changes in the functional connectome in patients with Alzheimer's disease (AD). However, these analyses generally assume static organizational principles, thereby neglecting a fundamental reconfiguration of functional connections in the face of neurodegeneration. Methods: Here, we focus on differences in the community structure of the functional connectome in young and old individuals and patients with AD. Patients with AD, moreover, underwent molecular imaging positron emission tomography by using [18F]AV1451 to measure tau burden, a major hallmark of AD. Results: Although the overall organizational principles of the community structure of the human functional connectome were preserved even in advanced healthy aging, they were considerably changed in AD. We discovered that the communities in AD are re-organized, with nodes changing their allegiance to communities, thus resulting in an overall less efficient re-organized community structure. We further discovered that nodes with a tendency to leave the communities displayed a relatively higher tau pathology burden. Discussion: Together, this study suggests that local tau pathology in AD is associated to fundamental changes in basic organizational principles of the human connectome. Our results shed new light on previous findings obtained by using the graph theory in AD and imply a general principle of the brain in response to neurodegeneration.

Published
2021

22. Indication of retrograde tau spreading along Braak stages and functional connectivity pathways

Author

Seemiller, Joseph, Bischof, Gerard N., Hoenig, Merle C., Tahmasian, Masoud, van Eimeren, Thilo, Drzezga, Alexander, Seemiller, Joseph, Bischof, Gerard N., Hoenig, Merle C., Tahmasian, Masoud, van Eimeren, Thilo, and Drzezga, Alexander

Abstract

Purpose Tau pathology progression in Alzheimer's disease (AD) is explained through the network degeneration hypothesis and the neuropathological Braak stages; however, the compatibility of these models remains unclear. Methods We utilized [18F]AV-1451 tau-PET scans of 39 subjects with AD and 39 sex-matched amyloid-negative healthy controls (HC) in the ADNI (Alzheimer's Disease Neuroimaging Initiative) dataset. The peak cluster of tau-tracer uptake was identified in each Braak stage of neuropathological tau deposition and used to create a seed-based functional connectivity network (FCN) using 198 HC subjects, to identify healthy networks unaffected by neurodegeneration. Results Voxel-wise tau deposition was both significantly higher inside relative to outside FCNs and correlated significantly and positively with levels of healthy functional connectivity. Within many isolated Braak stages and regions, the correlation between tau and intrinsic functional connectivity was significantly stronger than it was across the whole brain. In this way, each peak cluster of tau was related to multiple Braak stages traditionally associated with both earlier and later stages of disease. Conclusion We show specificity of healthy FCN topography for AD-pathological tau as well as positive voxel-by-voxel correlations between pathological tau and healthy functional connectivity. We propose a model of up- and downstream functional tau progression, suggesting that tau pathology evolves along functional connectivity networks not only downstream (i.e., along the expected sequence of the established Braak stages) but also in part upstream or retrograde (i.e., against the expected sequence of the established Braak stages), with pathology in earlier Braak stages intensified by its functional relationship to later disease stages.

Published
2021

23. Entorhinal Tau Predicts Hippocampal Activation and Memory Deficits in Alzheimer's Disease

Author

Richter, Nils, Bischof, Gerard N., Dronse, Julian, Nellessen, Nils, Neumaier, Bernd, Langen, Karl-Josef, Drzezga, Alexander, Fink, Gereon R., van Eimeren, Thilo, Kukolja, Juraj, Onur, Oezguer A., Richter, Nils, Bischof, Gerard N., Dronse, Julian, Nellessen, Nils, Neumaier, Bernd, Langen, Karl-Josef, Drzezga, Alexander, Fink, Gereon R., van Eimeren, Thilo, Kukolja, Juraj, and Onur, Oezguer A.

Abstract

Background: To date, it remains unclear how amyloid plaques and neurofibrillary tangles are related to neural activation and, consequently, cognition in Alzheimer's disease (AD). Recent findings indicate that tau accumulation may drive hippocampal hyperactivity in cognitively normal aging, but it remains to be elucidated how tau accumulation is related to neural activation in AD. Objective: To determine whether the association between tau accumulation and hippocampal hyperactivation persists in mild cognitive impairment (MCI) and mild dementia or if the two measures dissociate with disease progression, we investigated the relationship between local tau deposits and memory-related neural activation in MCI and mild dementia due to AD. Methods: Fifteen patients with MCI or mild dementia due to AD underwent a neuropsychological assessment and performed an item memory task during functional magnetic resonance imaging. Cerebral tau accumulation was assessed using positron emission tomography and [F-18]-AV-1451. Results: Entorhinal, but not global tau accumulation, was highly correlated with hippocampal activation due to visual item memory encoding and predicted memory loss over time. Neural activation in the posterior cingulate cortex and the fusiform gyrus was not significantly correlated with tau accumulation. Conclusion: These findings extend previous observations in cognitively normal aging, demonstrating that entorhinal tau continues to be closely associated with hippocampal hyperactivity and memory performance in MCI and mild dementia due to AD. Furthermore, data suggest that this association is strongest in medial temporal lobe structures. In summary, our data provide novel insights into the relationship of tau accumulation to neural activation and memory in AD.

Published
2020

24. Early role of iron in modulating amyloid's association with neurodegeneration

Author

Bilgel, Murat, Bischof, Gerard N., Bilgel, Murat, and Bischof, Gerard N.

Abstract

Neurodegeneration in Alzheimer disease (AD) is thought to be driven by a complex interaction of multiple molecular and physiologic brain changes that take place over decades before the onset of clinical symptoms. Understanding how early brain changes may instigate neurodegeneration in preclinical AD, which is defined by the presence of amyloid plaques in the absence of cognitive symptoms,(1) is important for the development of therapies to prevent or delay cognitive impairment.

Published
2020

26. Alzheimer’s disease biomarker roadmap 2020: Second‐generation tau PET tracers

Author

Bischof, Gerard N., primary, Dodich, Alessandra, additional, Ashton, Nicholas J, additional, Boccardi, Marina, additional, Barthel, Henryk, additional, Carrillo, Maria C., additional, Chiotis, Konstantinos, additional, Corre, Julie, additional, Démonet, Jean‐François, additional, Gietl, Anton F., additional, Johnson, Keith A., additional, Hansson, Oskar, additional, Leuzy, Antoine, additional, Lorenzi, Marco, additional, Nordberg, Agneta K, additional, Ossenkoppele, Rik, additional, Rabinovici, Gil D., additional, Ratib, Osman, additional, Sabri, Osama, additional, Treyer, Valerie, additional, Unschuld, Paul G., additional, Villemagne, Victor L.L., additional, Wolters, Emma E., additional, Winblad, Bengt, additional, Frisoni, Giovanni B., additional, Garibotto, Valentina, additional, and Drzezga, Alexander, additional

Published
2020
Full Text
View/download PDF

29. Alzheimer’s disease biomarker roadmap 2020: Fluid biomarkers

Author

Ashton, Nicholas J, primary, Leuzy, Antoine, additional, Karikari, Thomas K, additional, Dodich, Alessandra, additional, Boccardi, Marina, additional, Barthel, Henryk, additional, Bischof, Gerard N, additional, Carrillo, Maria C, additional, Chiotis, Konstantinos, additional, Corre, Julie, additional, Démonet, Jean‐François, additional, Drzezga, Alexander, additional, Gietl, Anton F., additional, Johnson, Karen C, additional, Lorenzi, Marco, additional, Nordberg, Agneta K, additional, Ossenkoppele, Rik, additional, Rabinovici, Gil D, additional, Ratib, Osman, additional, Sabri, Osama, additional, Treyer, Valerie, additional, Unschuld, Paul G., additional, Villemagne, Victor LL, additional, Winblad, Bengt, additional, Wolters, Emma E, additional, Frisoni, Giovanni B, additional, Garibotto, Valentina, additional, Mattsson, Niklas, additional, Zetterberg, Henrik, additional, Blennow, Kaj, additional, and Hansson, Oskar, additional

Published
2020
Full Text
View/download PDF

30. Alzheimer’s disease biomarker roadmap 2020: [ 18 F]flortaucipir

Author

Wolters, Emma E., primary, Chiotis, Konstantinos, additional, Dodich, Alessandra, additional, Ashton, Nicholas J., additional, Barthel, Henryk, additional, Bischof, Gerard N., additional, Boccardi, Marina, additional, Carrillo, Maria C., additional, Corre, Julie, additional, Démonet, Jean‐François, additional, Drzezga, Alexander, additional, Gietl, Anton F., additional, Hansson, Oskar, additional, Johnson, Keith A., additional, Leuzy, Antoine, additional, Lorenzi, Marco, additional, Rabinovici, Gil D., additional, Ratib, Osman, additional, Sabri, Osama, additional, Treyer, Valerie, additional, Unschuld, Paul G., additional, Villemagne, Victor L.L., additional, Winblad, Bengt, additional, Frisoni, Giovanni B., additional, Garibotto, Valentina, additional, Nordberg, Agneta K., additional, and Ossenkoppele, Rik, additional

Published
2020
Full Text
View/download PDF

31. Alzheimer’s disease biomarker roadmap 2020: Time for tau

Author

Dodich, Alessandra, primary, Boccardi, Marina, additional, Ashton, Nicholas J, additional, Barthel, Henryk, additional, Bischof, Gerard N., additional, Carrillo, Maria C., additional, Chiotis, Konstantinos, additional, Corre, Julie, additional, Démonet, Jean‐François, additional, Drzezga, Alexander, additional, Gietl, Anton F., additional, Hansson, Oskar, additional, Johnson, Keith A., additional, Leuzy, Antoine, additional, Lorenzi, Marco, additional, Nordberg, Agneta K., additional, Ossenkoppele, Rik, additional, Rabinovici, Gil D., additional, Ratib, Osman, additional, Sabri, Osama, additional, Treyer, Valerie, additional, Unschuld, Paul G., additional, Villemagne, Victor L.L., additional, Winblad, Bengt, additional, Wolters, Emma E., additional, Frisoni, Giovanni B., additional, and Garibotto, Valentina, additional

Published
2020
Full Text
View/download PDF

32. Feasibility of short imaging protocols for [18F]PI‐2620 tau‐PET in progressive supranuclear palsy.

Author

Song, Mengmeng, Scheifele, Maximilian, Barthel, Henryk, van Eimeren, Thilo, Beyer, Leonie, Marek, Ken, Eckenweber, Florian, Palleis, Carla, Finze, Anika, Kaiser, Lena, Kern, Maike, Nitschmann, Alexander, Biechele, Gloria, Katzdobler, Sabrina, Bischof, Gerard N, Hammes, Jochen, Jessen, Frank, Saur, Dorothee, Schroeter, Matthias L., and Rumpf, Jost‐Julian

Abstract

Background: Dynamic 60‐minute positron‐emission‐tomography (PET) imaging with the novel tau radiotracer [18F]PI‐2620 facilitated accurate discrimination between patients with progressive supranuclear palsy (PSP) and healthy controls (HCs). We now aimed to investigate if shorter acquisition and static time windows of [18F]PI‐2620 tau‐PET can be used for imaging of patients with PSP. Method: We evaluated 37 patients at five different centers with probable or possible PSP Richardson syndrome (PSP‐RS) together with ten HCs. [18F]PI‐2620 PET was performed by a dynamic 60 minute scan. Distribution volume ratios (DVRs, multilinear reference tissue model 2, cerebellar reference) were calculated using full and truncated scan durations (0‐60, 0‐50, 0‐40, 0‐30, and 0‐20 minutes p.i.). Standardized uptake value ratios (SUVrs, cerebellar reference) were obtained from static imaging windows with 20 minutes duration (20‐40, 30‐50, and 40‐60 minutes p.i.). All DVR and SUVr data were compared with regard to their potential to discriminate patients with PSP‐RS from HCs in predefined subcortical and cortical target regions (effect size, receiver operating area under the curve (AUC), multi‐region classifier). Finally, we tested if shorter [18F]PI‐2620 PET imaging can also be applied to patients with Alzheimer's disease (n=11). Result: The effect size of 0‐50 and 0‐40 DVR was equivalent to 0‐60 DVR (averaged Cohen's d: 1.22 and 1.16 vs. 1.26), whereas the performance dropped for 0‐30 or 0‐20 DVR. The 20‐40 SUVr indicated the best performance of all short static acquisition windows (averaged Cohen's d: 0.99). The globus pallidus internus discriminated patients with PSP and healthy controls at a similarly high level for 0‐60 DVR (AUC: 0.96), 0‐40 DVR (AUC: 0.96), and 20‐40 SUVr (AUC: 0.94). The multi‐region classifier sensitivity of these time windows was consistently 86%. 0‐40 DVR showed similar performance in Alzheimer's disease when compared to 0‐60 DVR. Conclusion: Short dynamic acquisition and static imaging windows can be used for [18F]PI‐2620 PET imaging of PSP. 0‐40 minute dynamic scanning offers the best balance between accuracy and economic scanning and is may also be suitable for [18F]PI‐2620 PET imaging of Alzheimer's disease. [ABSTRACT FROM AUTHOR]

Published
2021
Full Text
View/download PDF

33. Engineered antibodies : new possibilities for brain PET?

Author

Sehlin, Dag, Syvänen, Stina, Ballanger, Benedicte, Barthel, Henryk, Bischof, Gerard N., Boche, Delphine, Boecker, Hennig, Bohn, Karl Peter, Borghammer, Per, Cross, Donna, Di Monte, Donato, Drzezga, Alexander, Endepols, Heike, Giehl, Kathrin, Goedert, Michel, Hammes, Jochen, Hansson, Oskar, Herholz, Karl, Hoeglinger, Guenter, Hoenig, Merle, Jessen, Frank, Klockgether, Thomas, Lafaye, Pierre, Lammerstma, Adriaan, Mandelkow, Eckhard, Mandelkow, Eva-Maria, Maurer, Andreas, Mollenhauer, Brit, Neumaier, Bernd, Nordberg, Agneta, Onur, Ozgur, Reetz, Kathrin, Rodriguez-Vietez, Elena, Rominger, Axel, Rowe, James, Sabri, Osama, Schneider, Anja, Strafella, Antonio, van Eimeren, Thilo, Vasdev, Neil, Villemagne, Victor, Willbold, Dieter, Sehlin, Dag, Syvänen, Stina, Ballanger, Benedicte, Barthel, Henryk, Bischof, Gerard N., Boche, Delphine, Boecker, Hennig, Bohn, Karl Peter, Borghammer, Per, Cross, Donna, Di Monte, Donato, Drzezga, Alexander, Endepols, Heike, Giehl, Kathrin, Goedert, Michel, Hammes, Jochen, Hansson, Oskar, Herholz, Karl, Hoeglinger, Guenter, Hoenig, Merle, Jessen, Frank, Klockgether, Thomas, Lafaye, Pierre, Lammerstma, Adriaan, Mandelkow, Eckhard, Mandelkow, Eva-Maria, Maurer, Andreas, Mollenhauer, Brit, Neumaier, Bernd, Nordberg, Agneta, Onur, Ozgur, Reetz, Kathrin, Rodriguez-Vietez, Elena, Rominger, Axel, Rowe, James, Sabri, Osama, Schneider, Anja, Strafella, Antonio, van Eimeren, Thilo, Vasdev, Neil, Villemagne, Victor, and Willbold, Dieter

Abstract

Almost 50 million people worldwide are affected by Alzheimer's disease (AD), the most common neurodegenerative disorder. Development of disease-modifying therapies would benefit from reliable, non-invasive positron emission tomography (PET) biomarkers for early diagnosis, monitoring of disease progression, and assessment of therapeutic effects. Traditionally, PET ligands have been based on small molecules that, with the right properties, can penetrate the blood-brain barrier (BBB) and visualize targets in the brain. Recently a new class of PET ligands based on antibodies have emerged, mainly in applications related to cancer. While antibodies have advantages such as high specificity and affinity, their passage across the BBB is limited. Thus, to be used as brain PET ligands, antibodies need to be modified for active transport into the brain. Here, we review the development of radioligands based on antibodies for visualization of intrabrain targets. We focus on antibodies modified into a bispecific format, with the capacity to undergo transferrin receptor 1 (TfR1)-mediated transcytosis to enter the brain and access pathological proteins, e.g. amyloid-beta. A number of such antibody ligands have been developed, displaying differences in brain uptake, pharmacokinetics, and ability to bind and visualize the target in the brain of transgenic mice. Potential pathological changes related to neurodegeneration, e.g. misfolded proteins and neuroinflammation, are suggested as future targets for this novel type of radioligand. Challenges are also discussed, such as the temporal match of radionuclide half-life with the ligand's pharmacokinetic profile and translation to human use. In conclusion, brain PET imaging using bispecific antibodies, modified for receptor-mediated transcytosis across the BBB, is a promising method for specifically visualizing molecules in the brain that are difficult to target with traditional small molecule ligands.

Published
2019
Full Text
View/download PDF

34. Level of education mitigates the impact of tau pathology on neuronal function

Author

Hoenig, Merle C., Bischof, Gerard N., Onur, Ozgur A., Kukolja, Juraj, Jessen, Frank, Fliessbach, Klaus, Neumaier, Bernd, Fink, Gereon R., Kalbe, Elke, Drzezga, Alexander, van Eimeren, Thilo, Hoenig, Merle C., Bischof, Gerard N., Onur, Ozgur A., Kukolja, Juraj, Jessen, Frank, Fliessbach, Klaus, Neumaier, Bernd, Fink, Gereon R., Kalbe, Elke, Drzezga, Alexander, and van Eimeren, Thilo

Abstract

PurposeUsing PET imaging in a group of patients with Alzheimer's disease (AD), we investigated whether level of education, a proxy for resilience, mitigates the harmful impact of tau pathology on neuronal function.MethodsWe included 38 patients with mild-to-moderate AD (mean age 677years, mean MMSE score 244, mean years of education 14 +/- 4; 20 men, 18 women) in whom a [F-18]AV-1451 scan (a measure of tau pathology) and an [F-18]FDG scan (a measure of neuronal function) were available. The preprocessed PET scans were z-transformed using templates for [F-18]AV-1451 and [F-18]FDG from healthy controls, and subsequently thresholded at a z-score of >= 3.0, representing an one-tailed p value of 0.001. Next, three volumes were computed in each patient: the tau-specific volume (tau pathology without neuronal dysfunction), the FDG-specific volume (neuronal dysfunction without tau pathology), and the overlap volume (tau pathology and neuronal dysfunction). Mean z-scores and volumes were extracted and used as dependent variables in regression analysis with years of education as predictor, and age and MMSE score as covariates.Results Years of education were positively associated with tau-specific volume (beta=0.362, p=0.022), suggesting a lower impact of tau pathology on neuronal function in patients with higher levels of education. Concomitantly, level of education was positively related to tau burden in the overlap volume (beta=0.303, p=0.036) implying that with higher levels of education more tau pathology is necessary to induce neuronal dysfunction.Conclusion In patients with higher levels of education, tau pathology is less paralleled by regional and remote neuronal dysfunction. The data suggest that early life-time factors such as level of education support resilience mechanisms, which ameliorate AD-related effects later in life.

Published
2019

35. Subthreshold amyloid and its biological and clinical meaning Long way ahead

Author

Bischof, Gerard N., Jacobs, Heidi I. L., Bischof, Gerard N., and Jacobs, Heidi I. L.

Abstract

The development of in vivo imaging of the pathologic hallmark of Alzheimer disease (AD), beta-amyloid (A beta), altered the framing of its pathophysiology and formulation of inclusion criteria for clinical trials. Recent evidence suggests that in vivo measures of A beta deposition below a threshold indicative of A beta positivity carry critical information on future cognitive decline and accumulation of AD pathology, potentially already at a younger age. Here, we integrate the existing literature on histopathology of A beta and its convergence and divergence with in vivo A beta imaging. The evidence presented amounts to a reconceptualization, in which we advocate for a closer look into A beta accumulation rates in earlier life, the factors that promote accumulation, comparative studies with different markers of A beta, and longitudinal designs to elucidate when AD pathology rises and how it shifts from benign to malignant stages that ultimately define AD. These efforts open a new window of opportunity for disease-modifying interventions.

Published
2019

36. Connectomics and molecular imaging in neurodegeneration

Author

Bischof, Gerard N., Ewers, Michael, Franzmeier, Nicolai, Grothe, Michel J., Hoenig, Merle, Kocagoncu, Ece, Neitzel, Julia, Rowe, James B., Strafella, Antonio, Drzezga, Alexander, van Eimeren, Thilo, Bischof, Gerard N., Ewers, Michael, Franzmeier, Nicolai, Grothe, Michel J., Hoenig, Merle, Kocagoncu, Ece, Neitzel, Julia, Rowe, James B., Strafella, Antonio, Drzezga, Alexander, and van Eimeren, Thilo

Abstract

Our understanding on human neurodegenerative disease was previously limited to clinical data and inferences about the underlying pathology based on histopathological examination. Animal models and in vitro experiments have provided evidence for a cell-autonomous and a non-cell-autonomous mechanism for the accumulation of neuropathology. Combining modern neuroimaging tools to identify distinct neural networks (connectomics) with target-specific positron emission tomography (PET) tracers is an emerging and vibrant field of research with the potential to examine the contributions of cell-autonomous and non-cell-autonomous mechanisms to the spread of pathology. The evidence provided here suggests that both cell-autonomous and non-cell-autonomous processes relate to the observed in vivo characteristics of protein pathology and neurodegeneration across the disease spectrum. We propose a synergistic model of cell-autonomous and non-cell-autonomous accounts that integrates the most critical factors (i.e., protein strain, susceptible cell feature and connectome) contributing to the development of neuronal dysfunction and in turn produces the observed clinical phenotypes. We believe that a timely and longitudinal pursuit of such research programs will greatly advance our understanding of the complex mechanisms driving human neurodegenerative diseases.

Published
2019

37. IC-P-003: THE CAPTAINS STUDY: STANDARDIZING VISUAL INTERPRETATION STRATEGIES FOR AMYLOID PET TRACERS

Author

Bischof, Gerard N., primary, Bartenstein, Peter, additional, Barthel, Henryk, additional, Van Berckel, Bart N.M., additional, Dore, Vincent, additional, van Eimeren, Thilo, additional, Forster, Norman, additional, Hammes, Jochen, additional, Lammertsma, Adrian, additional, Minoshima, Satoshi, additional, Rowe, Chris, additional, Sabri, Osama, additional, Seibyl, John, additional, Van Laere, Koen, additional, Vandenberghe, Rik, additional, Villemagne, Victor L., additional, Yakushev, Igor, additional, and Drzezga, Alexander, additional

Published
2019
Full Text
View/download PDF

38. Networks of tau distribution in Alzheimer's disease

Author

Hoenig, Merle C., Bischof, Gerard N., Seemiller, Joseph, Hammes, Jochen, Kukolja, Juraj, Onur, Ozgur A., Jessen, Frank, Fliessbach, Klaus, Neumaier, Bernd, Fink, Gereon R., van Eimeren, Thilo, Drzezga, Alexander, Hoenig, Merle C., Bischof, Gerard N., Seemiller, Joseph, Hammes, Jochen, Kukolja, Juraj, Onur, Ozgur A., Jessen, Frank, Fliessbach, Klaus, Neumaier, Bernd, Fink, Gereon R., van Eimeren, Thilo, and Drzezga, Alexander

Abstract

A stereotypical anatomical propagation of tau pathology has been described in Alzheimer's disease. According to recent concepts (network degeneration hypothesis), this propagation is thought to be indicative of misfolded tau proteins possibly spreading along functional networks. If true, tau pathology accumulation should correlate in functionally connected brain regions. Therefore, we examined whether independent components could be identified in the distribution pattern of in vivo tau pathology and whether these components correspond with specific functional connectivity networks. Twenty-two 18 F-AV-1451 PET scans of patients with amnestic Alzheimer's disease (mean age = 66.00 +/- 7.22 years, 14 males/eight females) were spatially normalized, intensity standardized to the cerebellum, and z-transformed using the mean and deviation image of a healthy control sample to assess Alzheimer's disease-related tau pathology. First, to detect distinct tau pathology networks, the deviation maps were subjected to an independent component analysis. Second, to investigate if regions of high tau burden are associated with functional connectivity networks, we extracted the region with the maximum z-value in each of the generated tau pathology networks and used them as seeds in a subsequent resting-state functional MRI analysis, conducted in a group of healthy adults (n = 26) who were part of the 1000 Functional Connectomes Project. Third, to examine if tau pathology co-localizes with functional connectivity networks, we quantified the spatial overlap between the seed-based networks and the corresponding tau pathology network by calculating the Dice similarity coefficient. Additionally, we assessed if the tau-dependent seed-based networks correspond with known functional resting-state networks. Finally, we examined the relevance of the identified components in regard to the neuropathological Braak stages. We identified 10 independently coherent tau pathology networks with the majori

Published
2018

39. Contributors

Author

Aarntzen, Erik, Achilefu, Samuel, Akam, Eman A., Albaghdadi, Mazen, Beer, Ambros J., Bharti, Santosh, Bhujwalla, Zaver M., Bischof, Gérard N., Biswal, Sandip, Boss, Marti, Botnar, René M., Brinson, Zabecca, Brom, Maarten, Buitinga, Mijke, Bulte, Jeff W.M., Caravan, Peter, Chan, Heang-Ping, Chandy, Mark, Chaney, Aisling M., Chen, Delphine L., Chen, Xiaoyuan (Shawn), Chenevert, Thomas L., Coughlin, Jennifer M., Covington, Matthew F., Cumming, Paul, Daldrup-Link, Heike E., Deal, Emily M., de Galan, Bastiaan, Derlin, Thorsten, Dewhirst, Mark W., Di Paolo, Arianna, Drzezga, Alexander, Du, Yong, Thi-Quynh Duong, Mai, Ehman, Richard L., Eriksson, Olof, Galli, Filippo, Gatenby, Robert A., Gelovani, Juri, Giehl, Kathrin, Giger, Maryellen L., Goel, Reema, Gold, Garry, Gotthardt, Martin, Graham, Michael M., Gropler, Robert J., Gründer, Gerhard, Gulhane, Avanti, Hadjiiski, Lubomir, Hajhosseiny, Reza, Hammoud, Dima A., Helfer, Brooke M., Hicks, Rodney J., Higuchi, Takahiro, Hoffman, John M., Honer, Michael, Huang, Sung-Cheng (Henry), Hung, Jessica, Hwang, Do Won, Jackson, Isaac M., Jacobs, Andreas H., Jaffer, Farouc A., Jain, Sanjay K., James, Michelle L., Jansen, Tom, Johansson, Lars, Joosten, Lieke, Kakkad, Samata, Kamson, David, Kang, Sae-Ryung, Kelly, Kimberly A., Knopp, Michelle I., Knopp, Michael V., Kogan, Feliks, Krishnamachary, Balaji, Künnecke, Basil, Lee, Dong Soo, Libby, Peter, Luker, Gary D., Luker, Kathryn E., Makowski, Marcus R., Mankoff, David A., Massoud, Tarik F., Meyer, Charles R., Miller, Zach, Min, Jung-Joon, Mondal, Suman B., Montesi, Sydney B., Navin, Patrick J., Nekolla, Stephan G., Niu, Gang, Notohamiprodjo, Susan, Ordoñez, Alvaro A., Osborn, Eric A., Pacheco-Torres, Jesus, Pagano, Gennaro, Palmer, Gregory M., Paulmurugan, Ramasamy, Penet, Marie-France, Phinikaridou, Alkystis, Pomper, Martin G., Prieto, Claudia, Qi, Haikun, Raghunand, Natarajan, Ramar, Thangam, Reynolds, Fred, Ropella-Panagis, Kathleen, Ross, Brian D., Rowe, Steven P., Rudin, Markus, Sadaghiani, Mohammad S., Sager, Hendrik, Samala, Ravi, Saraste, Antti, Schelhaas, Sonja, Schwaiger, Markus, Schwarz, Sally W., Seiberlich, Nicole, Shapiro, Mikhail G., Shim, Hyunsuk, Signore, Alberto, Solnes, Lilja B., Suh, Minseok, Tsien, Christina, van Eimeren, Thilo, Varasteh, Zohreh, Venkatesh, Sudhakar Kundapur, Viel, Thomas, Waerzeggers, Yannic, Wahl, Richard L., Weber, Wolfgang, Werner, Rudolf A., Winkeler, Alexandra, Wong, Dean F., Wright, Chadwick L., Wu, Anna M., Wu, Joseph C., Yoon, Daehyun, You, Sung-Hwan, Yuan, Chun, Yuan, Hong, Zanzonico, Pat, Zhao, Xue-Qiao, Zhou, Iris Y., and Zinnhardt, Bastian

Published
2021
Full Text
View/download PDF

41. In vivo Patterns of Tau Pathology, Amyloid-beta Burden, and Neuronal Dysfunction in Clinical Variants of Alzheimer's Disease

Author

Dronse, Julian, Fliessbach, Klaus, Bischof, Gerard N., von Reutern, Boris, Faber, Jennifer, Hammes, Jochen, Kuhnert, Georg, Neumaier, Bernd, Onur, Oezguer A., Kukolja, Juraj, van Eimeren, Thilo, Jessen, Frank, Fink, Gereon R., Klockgether, Thomas, Drzezga, Alexander, Dronse, Julian, Fliessbach, Klaus, Bischof, Gerard N., von Reutern, Boris, Faber, Jennifer, Hammes, Jochen, Kuhnert, Georg, Neumaier, Bernd, Onur, Oezguer A., Kukolja, Juraj, van Eimeren, Thilo, Jessen, Frank, Fink, Gereon R., Klockgether, Thomas, and Drzezga, Alexander

Abstract

The clinical heterogeneity of Alzheimer's disease is not reflected in the rather diffuse cortical deposition of amyloid-beta. We assessed the relationship between clinical symptoms, in vivo tau pathology, amyloid distribution, and hypometabolism in variants of Alzheimer's disease using novel multimodal PET imaging techniques. Tau pathology was primarily observed in brain regions related to clinical symptoms and overlapped with areas of hypometabolism. In contrast, amyloid-beta deposition was diffusely distributed over the entire cortex. Tau PET imaging may thus serve as a valuable biomarker for the localization of neuronal injury in vivo and may help to validate atypical subtypes of Alzheimer's disease.

Published
2017

42. Association of Longitudinal Cognitive Decline With Amyloid Burden in Middle-aged and Older Adults Evidence for a Dose-Response Relationship

Author

Farrell, Michelle E., Kennedy, Kristen M., Rodrigue, Karen M., Wig, Gagan, Bischof, Gerard N., Rieck, Jennifer R., Chen, Xi, Festini, Sara B., Devous, Michael D., Sr., Park, Denise C., Farrell, Michelle E., Kennedy, Kristen M., Rodrigue, Karen M., Wig, Gagan, Bischof, Gerard N., Rieck, Jennifer R., Chen, Xi, Festini, Sara B., Devous, Michael D., Sr., and Park, Denise C.

Abstract

IMPORTANCE Presently, the clinical standard for reporting the results of an amyloid positron emission tomography scan is to assign a dichotomous rating of positive or negative for the presence of amyloid. In a 4-year longitudinal study, we investigated whether using a continuous measure of the magnitude of baseline amyloid burden would provide valuable information about the rate of future cognitive decline over the subsequent 4 years compared with a dichotomous measure in middle-aged and older adults. OBJECTIVE To examine whether a continuous, dose-response relationship between amyloid burden and cognitive decline was present among middle-aged and older adults. DESIGN, SETTING, AND PARTICIPANTS This cohort study included 174 participants from the Dallas Lifespan Brain Study who were 40 to 89 years old at the beginning of the study, were cognitively normal at baseline (a Mini-Mental State Examination score of 26 or higher) with no history of neurological or psychiatric disorders, and had completed amyloid imaging ([F-18]-florbetapir) at baseline and cognitive assessments at baseline and a 4-year follow-up. Continuous amyloid burden was measured as the mean cortical standardized uptake value ratio (SUVR) at baseline. MAIN OUTCOMES AND MEASURES Linear mixed models assessed the effect of increasing baseline amyloid over time (SUVR x time interaction) on episodic memory, reasoning, processing speed, vocabulary, and Mini-Mental State Examination performance. Age, sex, education, apolipoprotein epsilon 4, and the random effect of intercepts were included as covariates. RESULTS The mean (SD) age for all participants (n = 174) was 66.44 (11.74) years, and 65 participants (37%) were men. The primary analyses yielded significant SUVR x time interactions in episodic memory, processing speed, vocabulary, and Mini-Mental State Examination performance, but not in reasoning performance. Higher baseline SUVR projected greater cognitive decline over 4 years. When controlling for vari

Published
2017

44. Molecular imaging in early diagnosis, differential diagnosis and follow-up of patients with neurodegenerative diseases

Author

Hammes, Jochen, Bischof, Gerard N., Drzezga, Alexander, Hammes, Jochen, Bischof, Gerard N., and Drzezga, Alexander

Abstract

Purpose Current disease models suggest that many neurodegenerative disorders are associated with pathological protein aggregations that start to develop in the brain long before the onset of clinical symptoms. Therefore, biomarkers allowing early and reliable characterization of neurodegenerative disease are required. Here we illustrate the potential value of neuroimaging procedures by means of selected examples. Methods Multimodal imaging data of exemplary patients who underwent FDG, Amyloid and AV-1451-PET, FPCIT-SPECT and MRI imaging in the routine clinical workup in our department is presented and the currently available literature on the topic of imaging in neurodegenerative diseases was reviewed. Results The complementary value of the applied imaging methods is demonstrated in pairs of representative cases. Depending on the clinical question, individual methods or a meaningful multimodal combination is required to achieve optimal diagnostic benefit. Conclusion Imaging biomarkers have high potential for early diagnosis, differential diagnosis and follow-up of patients with neurodegenerative diseases already and will pathology-targeted therapies will be evaluated in clinical trials.

Published
2017

45. Tau-imaging in neurodegeneration

Author

Bischof, Gerard N., Endepols, Heike, van Eimeren, Thilo, Drzezga, Alexander, Bischof, Gerard N., Endepols, Heike, van Eimeren, Thilo, and Drzezga, Alexander

Abstract

Pathological cerebral aggregations of proteins are suggested to play a crucial role in the development of neurodegenerative disorders. For example, aggregation of the protein ss-amyloid in form of extracellular amyloid-plaques as well as intraneuronal depositions of the protein tau in form of neurofibrillary tangles represent hallmarks of Alzheimer's disease (AD). Recently, novel tracers for in vivo molecular imaging of tau-aggregates in the brain have been introduced, complementing existing tracers for imaging amyloid-plaques. Available data on these novel tracers indicate that the subject of Tau-PET may be of considerable complexity. On the one hand this refers to the various forms of appearance of tau-pathology in different types of neurodegenerative disorders. On the other hand, a number of hurdles regarding validation of these tracers still need to be overcome with regard to comparability and standardization of the different tracers, observed off-target/non-specific binding and quantitative interpretation of the signal. These issues will have to be clarified before systematic clinical application of this exciting new methodological approach may become possible. Potential applications refer to early detection of neurodegeneration, differential diagnosis between tauopathies and non-tauopathies and specific patient selection and follow-up in therapy trials. (C) 2017 Published by Elsevier Inc.

Published
2017

46. Multimodal correlation of dynamic [F-18]-AV-1451 perfusion PET and neuronal hypometabolism in [F-18]-FDG PET

Author

Hammes, Jochen, Leuwer, Isabel, Bischof, Gerard N., Drzezga, Alexander, van Eimeren, Thilo, Hammes, Jochen, Leuwer, Isabel, Bischof, Gerard N., Drzezga, Alexander, and van Eimeren, Thilo

Abstract

Purpose Cerebral glucose metabolism measured with [18F]-FDG PET is a well established marker of neuronal dysfunction in neurodegeneration. The tau-protein tracer [18F]-AV-1451 PET is currently under evaluation and shows promising results. Here, we assess the feasibility of early perfusion imaging with AV-1451 as a substite for FDG PET in assessing neuronal injury. Methods Twenty patients with suspected neurodegeneration underwent FDG and early phase AV-1451 PET imaging. Ten one-minute timeframes were acquired after application of 200 MBq AV-1451. FDG images were acquired on a different date according to clinical protocol. Early AV-1451 timeframes were coregistered to individual FDG-scans and spatially normalized. Voxel-wise intermodal correlations were calculated on within-subject level for every possible time window. The window with highest pooled correlation was considered optimal. Z-transformed deviation maps (ZMs) were created from both FDG and early AV-1451 images, comparing against FDG images of healthy controls. Results Regional patterns and extent of perfusion deficits were highly comparable to metabolic deficits. Best results were observed in a time window from 60 to 360 s (r = 0.86). Correlation strength ranged from r = 0.96 (subcortical gray matter) to 0.83 (frontal lobe) in regional analysis. ZMs of early AV-1451 and FDG images were highly similar. Conclusions Perfusion imaging with AV-1451 is a valid biomarker for assessment of neuronal dysfunction in neurodegenerative diseases. Radiation exposure and complexity of the diagnostic workup could be reduced significantly by routine acquisition of early AV-1451 images, sparing additional FDG PET.

Published
2017

Catalog

Books, media, physical & digital resources
See catalog results