18F-MK-6240 PET for early and late detection of neurofibrillary tangles

Pascoal, Tharick A.; Therriault, Joseph; Benedet, Andréa Lessa; Savard, Mélissa; Lussier, Firoza Z; Chamoun, Mira; Tissot, Cécile; Qureshi, Muhammad Naveed Iqbal; Kang, Min Su; Mathotaarachchi, Sulantha; Stevenson, Jenna; Hopewell, Robert; Massarweh, Gassan; Soucy, Jean‐Paul; Gauthier, Serge; Rosa‐Neto, Pedro

doi:10.1093/brain/awaa180

Cited by 156 publications

(165 citation statements)

References 38 publications

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“…Additional pre-processing corrections were performed as described elsewhere 35 . PET images were meninges and skull stripped, linearly and non-linearly registered to the ADNI template space and then spatially smoothed to achieve a nal resolution of 8 mm FWHM 36 . The inferior cerebellum and whole cerebellum gray matter were used as the reference regions for [ 18 F]MK6240 and [ 18 F]AZD4694, respectively.…”

Section: Imaging Analysismentioning

confidence: 99%

Cerebrospinal fluid p-tau231 as an early indicator of emerging pathology in Alzheimer’s disease

Ashton

Benedet

Pascoal

et al. 2021

Preprint

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Biomarkers for early phosphorylation of tau constitute an unmet need for disease modifying intervention in early stages of Alzheimer’s disease (AD). Recent advances in targeted mass spectrometry and immunoassays have revealed phosphorylation sites, in the cerebrospinal fluid (CSF), with potentially greater utility as preclinical and diagnostic biomarkers as compared to the well validated biomarker – phosphorylated tau at threonine 181 (p-tau181). Phosphorylated tau (p-tau) epitopes in cerebrospinal fluid (CSF) are highly accurate biomarkers for Alzheimer’s disease (AD) neuropathology and are already increased before cognitive symptoms have manifested. However, it is unknown if these preclinical increases transpire earlier, prior to amyloid-beta (Aβ) positivity threshold, and if an ordinal sequence of p-tau epitopes occurs at this incipient phase. In this study, we measured cerebrospinal (CSF) p-tau181, p-tau217 and p-tau231 in 171 participants across the AD continuum compared to AD neuropathology as indexed by Ab ([18F]AZD4694) and tau ([18F]MK6240) position emission tomography. CSF P-tau217 and p-tau231 predicted Aβ and tau at the preclinical and dementia stages to a similar degree but p-tau231 attained abnormal levels first. P-tau231 was more sensitive to the earliest changes in Aβ in the medial orbitofrontal, precuneus and posterior cingulate cortices before global Aβ PET positivity had been achieved. Our findings demonstrate that CSF p-tau231 increases early in development of AD pathology and is a principal candidate for detecting incipient Aβ pathology for therapeutic trial application.

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Section: Imaging Analysismentioning

confidence: 99%

Cerebrospinal fluid p-tau231 as an early indicator of emerging pathology in Alzheimer’s disease

Ashton

Benedet

Pascoal

et al. 2021

Preprint

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“…In contrast, tau pathology in AD is characterized by a more readily apparent pattern of spread, originating in the entorhinal cortex with additional involvement of neocortical regions in the temporal lobe, association cortices, and finally the primary sensory cortices [35]. Despite inter-individual variations, this well-defined anatomical progression has been systematized in neuropathological staging schemes such as those proposed by Braak [36] or Delacourte [37], and recapitulated in PET imaging studies with recently developed tau PET tracers [38][39][40]. While there is a general trend for more advanced clinical disease to be associated with higher tau stages, a range of tau stages is generally observed at each clinical stage, possibly reflecting a role of co-pathologies and/or cognitive reserve [7].…”

Section: Stagingmentioning

confidence: 99%

The Use, Standardization, and Interpretation of Brain Imaging Data in Clinical Trials of Neurodegenerative Disorders

Schwarz

2021

Neurotherapeutics

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Imaging biomarkers play a wide-ranging role in clinical trials for neurological disorders. This includes selecting the appropriate trial participants, establishing target engagement and mechanism-related pharmacodynamic effect, monitoring safety, and providing evidence of disease modification. In the early stages of clinical drug development, evidence of target engagement and/or downstream pharmacodynamic effect—especially with a clear relationship to dose—can provide confidence that the therapeutic candidate should be advanced to larger and more expensive trials, and can inform the selection of the dose(s) to be further tested, i.e., to “de-risk” the drug development program. In these later-phase trials, evidence that the therapeutic candidate is altering disease-related biomarkers can provide important evidence that the clinical benefit of the compound (if observed) is grounded in meaningful biological changes. The interpretation of disease-related imaging markers, and comparability across different trials and imaging tools, is greatly improved when standardized outcome measures are defined. This standardization should not impinge on scientific advances in the imaging tools per se but provides a common language in which the results generated by these tools are expressed. PET markers of pathological protein aggregates and structural imaging of brain atrophy are common disease-related elements across many neurological disorders. However, PET tracers for pathologies beyond amyloid β and tau are needed, and the interpretability of structural imaging can be enhanced by some simple considerations to guard against the possible confound of pseudo-atrophy. Learnings from much-studied conditions such as Alzheimer’s disease and multiple sclerosis will be beneficial as the field embraces rarer diseases.

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“…The pathological findings of extracellular deposits of amyloid-β plaques and intraneuronal neurofibrillary tangles containing aggregated tau protein are observed as diagnostic markers in the brains of patients with Alzheimer's disease [162,163]. PET imaging with radioligands for amyloid-β or tau protein, such as 11 C-PiB and 18 F-MK-6240, respectively, is already being used to diagnose Alzheimer's disease in living patients [164][165][166], replacing pathological diagnosis.…”

Section: Pet Imaging For Oxidative Stress In Patients With Alzheimer'mentioning

confidence: 99%

PET Imaging for Oxidative Stress in Neurodegenerative Disorders Associated with Mitochondrial Dysfunction

et al. 2020

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Oxidative stress based on mitochondrial dysfunction is assumed to be the principal molecular mechanism for the pathogenesis of many neurodegenerative disorders. However, the effects of oxidative stress on the neurodegeneration process in living patients remain to be elucidated. Molecular imaging with positron emission tomography (PET) can directly evaluate subtle biological changes, including the redox status. The present review focuses on recent advances in PET imaging for oxidative stress, in particular the use of the Cu-ATSM radioligand, in neurodegenerative disorders associated with mitochondrial dysfunction. Since reactive oxygen species are mostly generated by leakage of excess electrons from an over-reductive state due to mitochondrial respiratory chain impairment, PET with 62Cu-ATSM, the accumulation of which depends on an over-reductive state, is able to image oxidative stress. 62Cu-ATSM PET studies demonstrated enhanced oxidative stress in the disease-related brain regions of patients with mitochondrial disease, Parkinson’s disease, and amyotrophic lateral sclerosis. Furthermore, the magnitude of oxidative stress increased with disease severity, indicating that oxidative stress based on mitochondrial dysfunction contributes to promoting neurodegeneration in these diseases. Oxidative stress imaging has improved our insights into the pathological mechanisms of neurodegenerative disorders, and is a promising tool for monitoring further antioxidant therapies.

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18F-MK-6240 PET for early and late detection of neurofibrillary tangles

Cited by 156 publications

References 38 publications

Cerebrospinal fluid p-tau231 as an early indicator of emerging pathology in Alzheimer’s disease

Cerebrospinal fluid p-tau231 as an early indicator of emerging pathology in Alzheimer’s disease

The Use, Standardization, and Interpretation of Brain Imaging Data in Clinical Trials of Neurodegenerative Disorders

PET Imaging for Oxidative Stress in Neurodegenerative Disorders Associated with Mitochondrial Dysfunction

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