Presented on September 8th, 2023.

Samar Muslemani, MOT., MSc. PhD
Universite de Sherbrooke

Issues related to cognitive impairments are sometimes misunderstood, especially when considering how they may relate to independence and activities of daily living (ADLs). These misunderstandings can sometimes create conflicts or prejudice. Learn from a leading expert about how cognitive impairments influence the ability to accomplish ADLs and social roles. And how occupational therapists and other healthcare professionals can help with ADL difficulties related to cognitive impairments.

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Originally presented on April 15th, 2022.

Do you have questions about brain-fog and the cognitive issues associated with DM1? Join DM expert Benjamin Gallais, PhD, of the the Center for the Study of Living Conditions and the Needs of the Population (ECOBES) for an “Ask-the-Expert” session on Key Neuropsychological Features of DM1.

View the open access article, Instrumental activities of daily living in adults with the DM1 childhood phenotype: going beyond motor impairments, referenced during the presentation.

Doctor Benjamin Gallais obtained his doctorate in clinical psychology from the University of Paris 8 in 2010 and received an MDF Research Fellowship in 2016. A clinical psychologist in France, his country of origin, he then completed a postdoctoral internship with the Interdisciplinary Research Group on Neuromuscular Diseases (GRIMN ) in the Saguenay, in order to deepen his knowledge of myotonic dystrophy type 1. Today, his expertise in this neuromuscular disease is recognized internationally. Specialized in health psychology and neuropsychology, Dr. Gallais is interested in the characterization of personality and damage to cognitive functions in neuromuscular diseases, their evolution and their impact on autonomy and social participation. In addition, his work focuses on the consequences of damage to the central nervous system, such as fatigue and motivational disorders. Dr. Gallais joined the ÉCOBES team in 2018.

Click here to find all our upcoming “Ask-the-Expert” question sessions!

MDF community members reported on the impact of myotonic dystrophy on the brain from their individual perspectives as people living with DM1, DM2 and as caregivers. Additional insights and comments were provided by members of the conference audience. The session input will be published and used to help drug developers understand the impact of DM on the brain from the patient perspective, and begin to identify clinical trial endpoints. From the 2017 MDF Annual Conference.

Dr. Melissa Dixon of the University of Utah discusses mental health challenges and symptoms sometimes experienced by people living with DM, and strategies for coping with everything from depression to anxiety and 'brain fog' From the 2017 MDF Annual Conference.

Dr. John Day of Stanford University presents an overview of brain-related DM impacts that can affect sleep, and current thinking regarding strategies to manage this very prevalent DM symptom. From the 2017 MDF Annual Conference.

Understanding of the CNS Manifestations Is an Unmet Need in DM

While skeletal muscle biomarkers and clinical endpoints are rightly the current focus of interventional clinical trials in DM1, as they are most likely to inform go/no-go decisions, the CNS burden in DM is considerable and likely requires targeted therapy development programs. Pharmaceutical and biotechnology firms increasingly recognize the need for CNS biomarkers and clinically meaningful endpoint measures, but, likely due to the costs of brain imaging studies, efforts to evaluate brain structural changes with MRI are often modest. A recent review details accomplishments in brain imaging in DM and assesses the path forward to more informative studies.

CNS Imaging Studies May Yield Vital DM1 Clinical Trial Endpoint Measures

Dr. Kees Okkersen and team members at Radboud University Medical Centre and the University of Glasgow have conducted a comprehensive review of published studies that used a variety of imaging methodologies (MRI, functional MRI, MRS, ultrasound, SPECT, PET, and CT) to assess DM1. Their review article in Neurology relies upon a total of 81 cross-sectional and longitudinal studies to draw conclusions about the pattern of changes in the CNS in DM1, to show how they relate to other genetic and clinical parameters, and to provide direction to optimize future studies.

The research team followed a careful search/selection strategy that triaged publications from 1974-2016 in the Embase and MEDLINE databases to include 81 studies, reporting a total of 1,663 DM1 cases, in their analysis. Conclusions were drawn from aggregate analysis of findings from these studies and included comments on the strengths, weaknesses, and overall validity of the various imaging strategies used in DM1. The aggregate data showed widespread structural changes to gray and white matter in cerebral cortex, cerebellum, and basal ganglia, with little evidence of specific regional involvement or sparing; a finding consistent with neuropathologic observations in DM1. Substantial white matter involvement was a consistent feature across studies (with prevalence of 70% in DM1 subjects vs. 6% in controls). Specificity in cortical region involvement was seen across the 7 PET studies that met inclusion criteria; these findings were supported by SPECT studies (n = 5). Findings of fMRI studies supported personality and social cognition patterns seen in DM1.

Overall, the aggregate analysis supported some correlations between findings from brain imaging and genetic/clinical features. If clinical trial endpoints are to be developed, it is essential to understand the natural history of the structural and functional changes in the brain in DM1. The research team, however, observed that only 3 of the 81 studies that qualified for their analysis were longitudinal imaging studies. Such studies were deemed to be particularly important since some of the imaging changes in DM1 are associated with normal aging and it will be important to understand whether DM1 pathophysiology starts within specific brain regions before generalizing. 

Taken together, this review of brain imaging provides careful selection and analysis of completed studies in DM1. Sufficiently powered longitudinal studies represent a clear need for the field. Given the high costs of such studies, a consortium approach with an agreed upon data collection, sharing, and analysis protocol is likely the best path forward to understanding and developing therapies for CNS manifestations of DM1.

Brain imaging in myotonic dystrophy type 1: A systematic review.
Okkersen K, Monckton DG, Le N, Tuladhar AM, Raaphorst J, van Engelen BGM.
Neurology. 2017 Aug 2. pii: 10.1212/WNL.0000000000004300. doi: 10.1212/WNL.0000000000004300. [Epub ahead of print] Review.

Impact of DM1 on the Brain

DM1 is characterized by involvement of multiple organ systems, raising challenges for understanding disease mechanisms, development of effective disease management strategies, and designing effective and testing therapeutics. The disease burden and unmet need represented by the CNS sequella of DM1 have received insufficient attention to date. Recent efforts by MDF, including the Consensus-based Care Recommendations for Adults with DM1 and the recent session at the 2017 MDF Annual Conference, “Bringing the Patient Voice to CNS-Targeting Drug Development in Myotonic Dystrophy” are important efforts to address this challenge. Given the impact on the brain, a key part of the challenge is understanding how aware are patients of their own disease and to what extent can they assist researchers in improving management and therapy of DM1?

A New Study of Disease Awareness in DM1

Dr. Sigrid Baldanzi and colleagues at the University of Pisa have published results from a cross-sectional study of 65 adult-onset DM1 patients, assessing cognitive function and quality of life. Specifically, the research team was interested in determining how cognitive dysfunction and neuropsychological manifestations of DM1 impacted the patient’s awareness of their own disease—a phenomenon known as anosgnosia or lack of insight.

Anosgnosia, and the consequent reduced patient participation with caregivers, can impact DM1 in multiple ways-- diagnosis can be delayed, lack of awareness and misattribution of the causes of their symptoms can occur, and patient compliance with treatment impacted. To better understand patient awareness in DM1, the research team used a battery of endpoints to assess clinical and neuropsychological status, quality of life, and disease unawareness. The team defined disease unawareness as “an altered ability to recognize the presence or appreciate the severity of deficits in sensory, perceptual, motor, affective, or cognitive functioning.”

The cognitive profile of study subjects was heterogeneous, but executive functions, cognitive flexibility, conceptualization, and visuo-spatial memory tasks ranked below matched control subjects. Assessment of quality of life using INQoL revealed only a mild impact of the patient’s disability. In assessing patient awareness of the impact of their disease, those with mild motor involvement frequently understated their degree of motor impairment in comparison to physician-rated (MIRS) motor abilities. For approximately half of the cohort, discrepancies were noted between patient INQoL ratings and caregivers reports of disease impact. Patients underreported psycho-social difficulties, including their independence and social relationships, when compared to caregiver reports. Patients did not exhibit deficits in awareness of emotional aspects as detected by INQoL.

The research team concluded that DM1 patients did not experience generalized disease unawareness, but rather that unawareness of particular psychosocial and behavioral deficits were present in over half of their cohort. They hypothesize a linkage between anosognosia and brain dysfunction in DM1 and suggest that the terminology “social cognition dysfunction” captures the disease unawareness seen here. Indeed, understanding of the specific features of anosognosia in DM1 may help elucidate its underlying neuroanatomical correlates.  

Finally, the research team noted that analytic tools for anosognisia must be tailored for specific diseases and suggest that patient/caregiver discrepancies in INQoL scores form the basis for such a tool for DM1.

Reference:

Disease awareness in myotonic dystrophy type 1: an observational cross-sectional study.
Baldanzi S, Bevilacqua F, Lorio R, Volpi L, Simoncini C, Petrucci A, Cosottini M, Massimetti G, Tognoni G, Ricci G,Angelini C, Siciliano G.
Orphanet J Rare Dis. 2016 Apr 4;11:34. doi: 10.1186/s13023-016-0417-z.