Experts release appropriate use recommendations for Alzheimer’s disease blood biomarkers

Alzheimer’s disease blood biomarkers (BBMs) may revolutionize the diagnosis of Alzheimer’s in the future, but are not yet ready for widespread use, according to a newly-published article by leading international clinicians and researchers convened by the Alzheimer’s Association^®. At the same time, they are important and valuable for current research trials and cautious initial use in specialized memory clinics.

Blood-based markers show promise for improving, and possibly even redefining, the diagnostic work-up for Alzheimer's. Remarkable progress has been made, but additional data are needed before BBMs can be used as a stand-alone test for diagnosis, and before considering broad use in primary care settings."

Maria C. Carrillo, Ph.D., Alzheimer's Association chief science officer and co-author of the article

"In this article, the expert workgroup clearly defines both short- and long-term research priorities needed to fill significant knowledge gaps that still exist, such as how well these blood-based markers work in diverse communities and in those living with multiple health conditions," Carrillo added. "Also included are consensus appropriate use recommendations for use of BBMs in the clinic and in research trials."

"The Alzheimer's Association Appropriate Use Recommendations for Blood Biomarkers in Alzheimer's Disease," by Oskar Hansson, M.D., Ph.D., et al, is published online today by Alzheimer's & Dementia: The Journal of the Alzheimer's Association. The recommendations will be reported today and tomorrow at the Alzheimer's Association International Conference^® (AAIC^®) 2022 in San Diego and online.

"Blood-based biomarkers for Alzheimer's are already improving the design of clinical trials, and they are very likely to revolutionize the diagnosis of Alzheimer's in the future," said Oskar Hansson, M.D., Ph.D., director of the Center for Neurodegenerative Diseases at Lund University and Skane University Hospital, Malmo, Sweden, and first author on the newly published article. "That said, the implementation of such markers in trials and practice must be done in a careful and controlled way so as not to accidentally cause more harm than good. Much more research is needed before widespread clinical use of BBMs."

According to the article, BBMs show "great promise" — especially markers for Alzheimer's-related brain changes related to nerve cell damage/death, and tau and beta amyloid accumulation — for "future use in both clinical practice and trials. However, few prospective studies have investigated the implementation of such BBMs in more heterogeneous populations."

Not ready for "prime time"

The workgroup points out that no studies have extensively evaluated BBMs for neurodegenerative diseases in primary care, and calls for "well-performed BBM studies in diverse primary care populations." Such studies should also evaluate the impact of BBMs on diagnostic accuracy and change in patient management.

In addition, use of BBMs for general population risk screening and as direct-to-consumer risk tests are not recommended.

The workgroup also says that BBMs should not yet be used as primary endpoints in pivotal treatment trials. However, this does not preclude the use of certain BBMs for decision making in clinical trials with adaptive design, where they could be used to inform decisions on continuing a trial or not.

Many current uses

There are current uses for Alzheimer's BBMs, according to the workgroup. For example, they "recommend use of BBMs as (pre-)screeners to identify individuals likely to have Alzheimer's pathological changes for inclusion in trials evaluating disease-modifying therapies, provided Alzheimer's status is confirmed with positron emission tomography (PET) or cerebrospinal fluid (CSF) testing."

BBMs can be used as exploratory outcomes in most clinical trials in Alzheimer's and other neurodegenerative dementias. In non-Alzheimer's trials, BBMs can be used to identify patients who likely have Alzheimer's-related brain changes, if that is a condition of exclusion from the study.

"We also recommend cautiously starting use of BBMs in specialized memory clinics as part of the diagnostic work-up of patients already experiencing cognitive symptoms, as long as the results are confirmed whenever possible with CSF or PET, which are the current reference standards," said Charlotte E. Teunissen, M.D., Ph.D., head of the Neurochemistry Laboratory at Amsterdam University Medical Centers, the Netherlands and senior author on the article.

"The implementation of BBMs in primary care will likely take a much longer time because there are very few relevant and high-quality research studies on Alzheimer's-related BBMs conducted in this setting, but more prospective studies are expected to launch in the coming years," Teunissen added.

Establishing the path for BBMs in research

The appropriate use recommendations (AURs) provide specific guidance for current use of, and research needed on, the four most advanced types of Alzheimer's plasma biomarkers: plasma amyloid-beta 42/amyloid-beta 40 (Aβ42/Aβ40), phospho-tau (p-tau), neurofilament light (NfL), and glial fibrillary acidic protein (GFAP), as well as potential combinations of markers. For example, the need for:

• Real-world studies on the robustness of plasma Aβ42/Aβ40 as a diagnostic test for cerebral Aβ pathology.
• Head-to-head studies comparing the performance of different forms of p-tau in different clinical contexts and across disease stages.

Most important and enlightening are the recommendations repeated by the authors throughout the AURs or those they say apply across the biomarkers, including:

• Perform prospective studies in primary care settings, including representative and diverse populations with cognitive symptoms. Evaluate the causes of false positives and negatives; the reference standard must be of high quality and preferably include CSF or PET.
• Study whether BBMs outperform what is already available today in primary care, and if they also improve diagnosis and management, including treatment decisions.
• [Gain] better understanding of biological and disease-associated variability and potential impact of medical comorbidities and concomitant medications.
• [Learn whether] certain BBM-based algorithms can be used alone to support an Alzheimer's diagnosis, or should they only be used as a gatekeeper to CSF/PET.
• Eventually (a) perform head-to-head comparisons of different plasma biomarker assays, and (b) establish the most optimal combinations of easily accessible biomarkers.

Defining the need

According to the workgroup, about 25-30% of patients with a clinical diagnosis of Alzheimer's dementia are misdiagnosed when assessed at specialized dementia clinics, and the accuracy of clinical diagnosis is similar or even lower for other dementias, including frontotemporal dementia, dementia with Lewy bodies and vascular dementia. In fact, in most countries, most patients with cognitive or behavioral symptoms are managed in primary care where the misdiagnosis is even higher. The problem is especially acute in the earliest stages of the disease.

"There is a great global need for accurate BBM-based diagnostic and prognostic algorithms that can substantially improve the accuracy of a diagnostic work-up of Alzheimer's, particularly in the early stages of the disease," said Reisa Sperling, M.D., professor of Neurology at Harvard Medical School and director of the Center for Alzheimer Research and Treatment at Brigham and Women's Hospital and Massachusetts General Hospital, and a co-author of the article.

The established CSF and PET measures have excellent diagnostic properties, but are less useful outside very specialized clinics due to limited accessibility, invasiveness (e.g., CSF measures require a lumbar puncture, and PET requires infusion of stable isotopes and exposure to radiation) and high costs. This precludes use of CSF and PET biomarkers in most primary and secondary care settings worldwide.

"A major benefit of the use of blood-based biomarkers is that the collection of blood is less invasive and likely less costly than CSF or neuroimaging markers, and more feasible for primary care practitioners," said Adam Boxer, M.D., Ph.D., Endowed Professor in Memory in Aging at the Weill Institute for Neurosciences, University of California, San Francisco and a co-author of the article. "This may enable earlier and more equitable referral of individuals to dementia specialists and participation in clinical trials of potential new therapies."