MARKERS-NDD Progression Markers (NCT06596746)

Overview

MARKERS-NDD is an observational cohort study focused on identifying and validating progression biomarkers in neurodegenerative diseases, including Progressive Supranuclear Palsy (PSP), Corticobasal Syndrome (CBS), Multiple System Atrophy (MSA), and Parkinson's Disease (PD). This multi-center, international initiative addresses one of the most critical gaps in neurodegenerative disease research: the lack of validated biomarkers that can reliably track disease progression and serve as surrogate endpoints in clinical trials["@markersndd"].

Overview

MARKERS-NDD is an observational cohort study focused on identifying and validating progression biomarkers in neurodegenerative diseases, including Progressive Supranuclear Palsy (PSP), Corticobasal Syndrome (CBS), Multiple System Atrophy (MSA), and Parkinson's Disease (PD). This multi-center, international initiative addresses one of the most critical gaps in neurodegenerative disease research: the lack of validated biomarkers that can reliably track disease progression and serve as surrogate endpoints in clinical trials["@markersndd"].

The study represents a paradigm shift in how we approach biomarker discovery for atypical parkinsonism and tauopathies. Rather than focusing solely on diagnostic biomarkers, MARKERS-NDD prioritizes longitudinal progression markers that can quantify the rate of neurodegeneration, predict clinical decline, and potentially serve as endpoints for disease-modifying therapy trials.

Study Details

| Field | Value |
|-------|-------|
| NCT Number | NCT06596746 |
| Status | Recruiting |
| Study Type | Observational, Prospective Cohort |
| Conditions | PSP, CBS, MSA, PD |
| Sponsor | International Consortium of Academic Medical Centers |
| Enrollment | Target: 500+ participants |
| Follow-up Duration | Minimum 2 years, optional extension to 5 years |
| Sites | Multiple international academic centers |

The study employs a standardized, longitudinal design with comprehensive baseline characterization and standardized follow-up assessments at 6-month intervals.

Scientific Rationale

The Need for Progression Biomarkers

The lack of validated progression biomarkers represents a major obstacle to developing disease-modifying therapies for neurodegenerative diseases. Unlike oncology, where tumor size or survival can serve as objective endpoints, neurodegenerative disease progression is measured through clinical rating scales that are inherently subjective, show high variability, and may not capture the full spectrum of disease pathology.

Several factors highlight the urgent need for progression biomarkers:

Tauopathies and Disease Progression

PSP and CBS are primary 4R-tauopathies characterized by the intracellular accumulation of hyperphosphorylated tau protein in neurons and glia[@hoglinger2017]. The disease course involves:

• Regional spread: Tau pathology progresses in a predictable pattern through the brain
• Neuronal loss: Progressive death of neurons in affected regions
• Network disruption: Degeneration of specific brain networks measured via functional connectivity
• Neuroinflammation: Activation of microglia correlating with disease severity

Biomarker Modalities Under Investigation

The MARKERS-NDD study evaluates biomarkers across multiple modalities:

Fluid Biomarkers

Cerebrospinal fluid (CSF) and blood biomarkers provide direct insights into CNS pathology:

| Biomarker | Target | Clinical Relevance |
|-----------|--------|---------------------|
| NfL | Neurofilament light chain | Axonal degeneration, progression rate[@krismer2018] |
| p-tau181/217 | Phosphorylated tau | Tau pathology burden |
| t-tau | Total tau | Neuronal injury |
| Alpha-synuclein | Aggregated alpha-synuclein | Synucleinopathy burden |
| GFAP | Glial fibrillary acidic protein | Astrocyte activation |
| YKL-40 | Chitinase-3-like protein | Neuroinflammation |
| UCH-L1 | Ubiquitin C-terminal hydrolase | Neuronal injury |

Neuroimaging Biomarkers

Advanced neuroimaging provides in vivo measures of neurodegeneration:

• Volumetric MRI: Regional brain atrophy rates, particularly in brainstem and basal ganglia
• Diffusion Tensor Imaging (DTI): White matter microstructural integrity, especially superior cerebellar peduncle
• FDG-PET: Regional hypometabolism patterns characteristic of each disorder
• Tau PET: In vivo tau pathology visualization (using second-generation tracers like PM-PBB3)
• VMAT2 PET: Presynaptic dopaminergic terminal integrity

Digital Biomarkers

Wearable sensor-based assessments provide objective, continuous measures:

• Quantitative gait analysis using instrumented walkways
• Wearable accelerometer-based motor assessments
• Voice and speech analysis for dysarthria quantification
• Oculomotor assessment using video-oculography

Objectives

Primary Objectives

Secondary Objectives

Eligibility Criteria

Inclusion Criteria

• Age 40-85 years
• Clinical diagnosis of one of the following:
• PSP (any subtype) according to MDS-PSP criteria[@hoglinger2017]
• CBS according to Armstrong criteria[@armstrong2013]
• MSA (parkinsonian or cerebellar subtype)
• Idiopathic PD (for comparison)
• Ability to undergo repeated clinical and imaging assessments
• Willingness to participate in long-term follow-up (minimum 2 years)
• MRI compatibility (no pacemakers, cochlear implants, or other contraindications)
• Capacity to provide informed consent

Exclusion Criteria

• Significant comorbid neurological conditions (stroke, traumatic brain injury, normal pressure hydrocephalus)
• Active psychiatric conditions that would interfere with assessments
• Inability to cooperate with study procedures
• Terminal illness with life expectancy < 2 years
• Current participation in interventional clinical trials

Study Design

Longitudinal Cohort Design

The study employs a prospective cohort design with the following features:

Sample Size Considerations

Given the rarity of PSP and CBS, the study requires multi-center collaboration to achieve adequate statistical power. The target enrollment of 500+ participants across all conditions ensures:

• Sufficient PSP and CBS cases for subtype-specific analyses
• Power to detect moderate correlations between biomarkers and progression
• Generalizability across different populations and clinical sites

Outcome Measures

Primary Endpoints

Secondary Endpoints

• Time to disease milestones (wheelchair dependence, severe dysphagia, nursing home placement)
• Correlation between fluid and imaging biomarkers
• Validation of digital motor assessments against clinical measures
• Quality of life trajectory (PDQ-39, PSP-QoL)
• Conversion between diagnostic categories (e.g., PD to PDD)

Exploratory Endpoints

• Genetic modifiers of progression
• Pharmacogenomic predictors of treatment response
• Machine learning-based predictive models

Clinical Subtypes and Their Biomarker Profiles

PSP Subtypes

The study captures the spectrum of PSP phenotypes[@respondek2013]:

• Richardson's syndrome (PSP-RS): Classic presentation with vertical gaze palsy, postural instability, and symmetric akinesia-rigidity
• PSP-parkinsonism (PSP-P): Asymmetric onset, better levodopa response, less prominent gaze palsy
• PSP-corticobasal syndrome (PSP-CBS): Features of CBS with PSP pathology
• Pure akinesia with gait freezing (PAGF): Predominant gait freezing with minimal other features
• Frontal presentation (PSP-F): Predominant frontal cognitive and behavioral symptoms

CBS Subtypes

Corticobasal syndrome presents with heterogeneous features:

• Alien limb phenomena: Involuntary limb movements
• Apraxia: Motor planning deficits
• Cortical sensory loss: Impaired two-point discrimination
• Akinesia-rigidity: Often asymmetric

MSA Subtypes

Multiple system atrophy has two main variants[@krismer2018]:

• MSA-P (parkinsonian): Dominant parkinsonian features
• MSA-C (cerebellar): Dominant cerebellar features (ataxia, nystagmus)

Significance for Clinical Development

Enabling Disease-Modifying Therapy Trials

The MARKERS-NDD study addresses critical barriers to clinical trial success:

Current Therapeutic Landscape

Several disease-modifying therapies are in development for PSP[@litvan2011]:

| Approach | Examples | Development Stage |
|----------|----------|-------------------|
| Tau aggregation inhibitors | Tolfenamic acid, Lithium | Phase 2 |
| Anti-tau immunotherapies | ABBV-8E12, UCB0107 | Phase 1-2 |
| Anti-tau ASOs | BIIB080, IONIS-MAPTRx | Phase 1-2 |
| Neuroprotective agents | CoQ10, TPN-101 | Phase 2 |

The MARKERS-NDD study will help identify which patients are most likely to benefit from these emerging treatments through biomarker stratification.

Regulatory Implications

Regulatory agencies have expressed increasing flexibility regarding biomarker-based endpoints:

• FDA: Guidance on biomarker qualification and use in accelerated approval
• EMA: Adaptive pathway approaches for rare diseases
• Ishihara Initiative: International collaboration on biomarker validation

Comparison with Related Studies

The MARKERS-NDD study complements other biomarker initiatives:

• PROSPECT-MRI: UK-based PSP MRI biomarker study
• 4RTNI: US-based tau imaging network
• CBS/PSP Genetic Study: Genetic modifiers of disease progression
• MSA-SG: MSA study group natural history registry

• [NADAPT Study](/clinical-trials/nad-replenishment-parkinsonism-nct06162013): NAD replenishment in Parkinsonism
• [NCT03872102](/clinical-trials/neuroimaging-parkinsonian-syndromes-nct03872102): Advanced neuroimaging for PSP
• [NCT05121012](/clinical-trials/synaptic-loss-msa-nct05121012): Synaptic loss biomarkers in MSA

Future Directions

Extended Follow-up

The optional 5-year extension will enable:

• Assessment of very long-term biomarker trajectories
• Correlation with end-of-life clinical status
• Validation of progression models

Multi-omic Integration

Future analyses will integrate:

• Genomics: GWAS and whole-exome sequencing
• Proteomics: CSF and blood proteomics
• Metabolomics: Metabolic biomarker panels
• Transcriptomics: Gene expression profiling

Machine Learning Applications

Advanced computational approaches will:

• Develop predictive models combining multiple biomarkers
• Identify novel biomarker patterns
• Personalize disease progression estimates

See Also

• [Progressive Supranuclear Palsy](/diseases/progressive-supranuclear-palsy)
• [Corticobasal Syndrome](/diseases/corticobasal-syndrome)
• [Multiple System Atrophy](/diseases/multiple-system-atrophy)
• [Tau Protein](/proteins/tau)
• [Neurofilament Light Chain](/proteins/nfl)
• [Biomarkers in Neurodegeneration](/mechanisms/neuroimaging-biomarkers)

External Links

• [MARKERS-NDD on ClinicalTrials.gov](https://clinicaltrials.gov/study/NCT06596746)
• [CurePSP Foundation](https://curepsp.org/)
• [PSP Europe Network](https://www.psp-europe.net/)
• [Movement Disorder Society](https://www.movementdisorders.org/)

References