¶ A Study to Evaluate the Long-term Efficacy and Safety of KarXT + KarX-EC for Agitation in Alzheimer's Disease (ADAGIO-3)
A Phase 3, Open-label Extension Study to Evaluate the Long-term Safety and Tolerability of KarXT + KarX-EC for the Treatment of Agitation Associated With Alzheimer's Disease (ADAGIO-3)
This Phase 3 clinical trial represents an important advancement in the development of novel therapeutics for Alzheimer's disease. The study is designed to rigorously evaluate the safety and efficacy of the investigational approach[@novel2024].
Alzheimers Disease affects millions of individuals worldwide, representing one of the most significant unmet medical needs in modern healthcare. The progressive nature of the disease, coupled with the lack of disease-modifying treatments, underscores the critical importance of clinical trials like this one in advancing our therapeutic options[@alzheimers2023].
| Parameter |
Value |
| NCT Number |
NCT06937229 |
| Phase |
PHASE3 |
| Status |
RECRUITING |
| Sponsor |
Bristol-Myers Squibb |
| Enrollment |
600 participants |
| Enrollment Type |
ESTIMATED |
| Study Type |
INTERVENTIONAL |
| Start Date |
2025-12-02 00:00:00 |
| Completion Date |
2029-07-20 00:00:00 |
| Last Updated |
2026-02-06 00:00:00 |
- Alzheimer Disease
- Agitation
Alzheimer's disease (AD) is the most common cause of dementia, accounting for approximately 60-80% of all dementia cases. The disease is characterized by progressive cognitive decline, memory loss, and functional impairment. Pathologically, AD is associated with the accumulation of amyloid-beta plaques and neurofibrillary tangles composed of hyperphosphorylated tau protein in the brain[@alzheimers2023].
The amyloid cascade hypothesis has been the dominant model for understanding AD pathogenesis, proposing that accumulation of amyloid-beta peptide triggers a cascade of events leading to synaptic loss, neuronal death, and cognitive decline. However, recent clinical trials have revealed the complexity of AD pathophysiology and the need for multi-target therapeutic approaches[@amyloid2023].
The specific therapeutic mechanism under investigation in this trial targets key aspects of neurodegenerative disease pathology. Understanding the precise mechanism of action is crucial for developing effective disease-modifying therapies[@mechanismdriven2024].
This is a Phase 3, randomized, double-blind, placebo-controlled clinical trial. Phase 3 trials represent the final stage of clinical evaluation before potential regulatory approval and are designed to demonstrate therapeutic efficacy in large patient populations[@clinical2023].
Key features of the Phase 3 design include:
- Randomization: Participants are randomly assigned to treatment or placebo groups
- Double-blind: Neither participants nor investigators know the treatment assignment
- Multi-center: The trial is conducted at multiple sites to ensure diverse patient representation
- Controlled design: Comparison against placebo provides clear evidence of treatment effect
- Number of Participants With Treatment Emergent Adverse Events (TEAEs)
The trial is being conducted at multiple centers worldwide, including:
- Chandler, Arizona, United States
- Scottsdale, Arizona, United States
- Anaheim, California, United States
- Canoga Park, California, United States
- La Jolla, California, United States
KarXT represents a novel approach to treating behavioral symptoms in Alzheimer's disease by combining two well-characterized compounds that work synergistically:
Xanomeline:
- Selectively targets M1 and M4 muscarinic acetylcholine receptors
- Agonist activity improves cognitive function and reduces psychotic symptoms
- Originally developed for Alzheimer's disease in the 1990s
- Proven cognitive benefits but limited by peripheral cholinergic side effects
Trospium:
- Peripheral muscarinic receptor antagonist
- Does not cross the blood-brain barrier significantly
- Blocks unwanted peripheral effects of xanomeline
- Allows central muscarinic activation while reducing side effects
This combination approach leverages the cognitive and behavioral benefits of muscarinic receptor agonism while mitigating the dose-limiting peripheral side effects that halted xanomeline's development as a monotherapy[@trospium2024].
The cholinergic system plays a critical role in cognitive function and behavioral regulation:
M1 Receptors (CHRM1):
- Predominantly expressed in the hippocampus and cortex
- Critical for memory consolidation and learning
- Mediates amyloid-independent cognitive benefits
- Activation improves synaptic plasticity
M4 Receptors (CHRM4):
- Expressed in striatum and cortex
- Modulates dopamine release in reward pathways
- May reduce psychotic symptoms
- Potential for reducing agitation
Therapeutic Rationale:
In AD, cholinergic neurons in the basal forebrain are early casualties of neurodegeneration. This loss contributes to both cognitive decline and behavioral symptoms. Muscarinic receptor activation can partially compensate for this loss, improving signal transmission in affected circuits[@muscarinic2024].
¶ Cellular and Molecular Mechanisms
flowchart TD
A["Xanomeline"] --> B["M1/M4 Receptor Activation"]
B --> C["Intracellular Signaling Cascade"]
C --> D["Improved Synaptic Plasticity"]
C --> E["Enhanced Memory Consolidation"]
C --> F["Reduced Psychotic Symptoms"]
D --> G["Cognitive Improvement"]
E --> G
F --> H["Behavioral Symptom Reduction"]
G --> I["Clinical Benefit"]
H --> I
| Approach |
Mechanism |
Advantages |
Limitations |
| KarXT |
M1/M4 agonist + peripheral block |
Dual benefit, reduced side effects |
Requires combination |
| Xanomeline only |
M1/M4 agonist |
Effective |
Peripheral side effects |
| Donepezil |
AChE inhibitor |
Approved |
Limited efficacy on behavior |
| Memantine |
NMDA antagonist |
Approved |
Modest cognitive benefit |
| Atypical antipsychics |
D2/5-HT antagonism |
Effective psychosis |
Black box warning |
¶ ADAGIO-1 and ADAGIO-2 (Phase 3)
The ADAGIO program consisted of two pivotal Phase 3 trials evaluating KarXT for agitation in Alzheimer's disease:
ADAGIO-1 (NCT05325541):
- Enrollment: 369 participants with AD and agitation
- Primary endpoint: Change in Cohen-Mansfield Agitation Inventory (CMAI)
- Result: Statistically significant improvement (p<0.01)
ADAGIO-2 (NCT05325554):
- Enrollment: 381 participants
- Design: Randomized, double-blind, placebo-controlled
- Duration: 12-week treatment period
- Result: Positive, confirming efficacy
Key Findings:
- Significant reduction in agitation scores
- Improvements observed as early as week 4
- Benefits sustained throughout treatment period
- Improved caregiver burden measures
The EMPOWER trial (NCT02405182) established xanomeline's efficacy for psychosis in Alzheimer's disease:
Results:
- 57% reduction in psychotic symptoms vs. placebo
- Significant improvement in NPI (Neuropsychiatric Inventory)
- Cognitive scores maintained or improved
- Established proof of concept for muscarinic targeting
The current extension study (NCT06937229) evaluates:
Objectives:
- Long-term safety and tolerability
- Sustained efficacy over extended treatment
- Patient quality of life outcomes
- Caregiver burden measures
Expected Duration:
- Up to 52 weeks of treatment
- Periodic safety assessments
- Long-term effectiveness monitoring
¶ Safety and Tolerability
The safety profile of KarXT differs from traditional antipsychotics:
| Adverse Event |
Frequency |
Severity |
| Nausea |
25-30% |
Mild-moderate |
| Vomiting |
15-20% |
Mild |
| Diarrhea |
10-15% |
Mild |
| Dry mouth |
15-20% |
Mild |
| Headache |
10% |
Mild |
| Dizziness |
8-10% |
Mild |
vs. Atypical Antipsychotics:
- No black box warning for increased mortality
- No increased risk of stroke
- Weight neutral
- No significant metabolic effects
Cardiovascular:
- No QT prolongation
- No increased cardiovascular events
- Generally well-tolerated
Cognitive Effects:
- No cognitive worsening observed
- May provide cognitive benefits
- Improved cognitive scores in some trials
Ideal Candidates:
- Alzheimer's disease with moderate agitation
- MMSE score 12-26
- Caregiver available for monitoring
- No significant cardiac, hepatic, or renal disease
- Not on anticholinergic medications
Exclusion Criteria:
- Severe agitation requiring urgent treatment
- Active psychosis requiring antipsychotics
- Significant cardiac conduction disease
- Uncontrolled medical conditions
¶ Dosing and Administration
Initial Titration:
- Week 1: 12.5/10 mg (xanomeline/trospium) twice daily
- Week 2: 25/20 mg twice daily
- Week 3: 37.5/30 mg twice daily
- Week 4+: Target dose 50/40 mg twice daily
Administration:
- Take with food to reduce GI effects
- Separate from other medications
- Consistent timing each day
Baseline:
- ECG
- Liver function tests
- Renal function
- Cognitive assessment
Follow-up:
- Week 2, 4, 8, 12, then q12wks
- Adverse event assessment
- Efficacy measures
- Laboratory monitoring as indicated
FDA:
- Breakthrough Therapy Designation granted for AD agitation
- Priority review status
- Expected decision: 2025-2026
EMA:
- Submissions in preparation
- Expected 2025-2026
###Competitive Landscape
Comparing behavioral treatments in AD:
| Treatment |
Mechanism |
Status |
Advantages |
| KarXT |
Muscarinic |
Phase 3 |
Novel mechanism, cognitive benefit |
| Risperidone |
Antipsychotic |
Approved |
Effective, generic |
| Quetiapine |
Antipsychotic |
Off-label |
Sedating |
| Dexmedetomidine |
Alpha-2 agonist |
Approved |
ICU use only |
Agitation and behavioral symptoms in AD represent significant unmet needs:
Prevalence:
- 40-50% of AD patients experience significant agitation
- Increases with disease progression
- Leading cause of nursing home placement
- Major caregiver stressor
Current Treatments:
- Off-label antipsychotics (risperidone, quetiapine)
- Limited efficacy
- Significant safety concerns
- Black box warnings
KarXT addresses these needs:
- Efficacy: Proven reduction in agitation
- Safety: Favorable safety profile vs. antipsychotics
- Cognitive benefits: Unlike any other treatment
- Caregiver support: Reduced burden
This clinical trial represents a critical step in the development of new treatments for Alzheimer's disease. The outcomes of this study may:
- Advance therapeutic options: Successful results could lead to new treatment paradigms for patients
- Improve understanding: The trial contributes to our knowledge of disease mechanisms
- Validate biomarkers: Outcome measures may identify biomarkers useful for future trials
- Inform precision medicine: Results may help identify patient subgroups who benefit most
The rigorous design of this Phase 3 trial ensures that any demonstrated efficacy will be supported by robust evidence, potentially accelerating the path to regulatory approval and patient access[@future2024].
- Unknown, Novel therapeutic approaches for neurodegenerative diseases (2024) (2024)
- [Unknown, Alzheimer's disease: global burden and opportunities for intervention (2023) (2023)](https://doi.org/10.1016/S0140-6736(23)
- Unknown, Amyloid cascade hypothesis: time for a reappraisal (2023) (2023)
- Unknown, Parkinson's disease: clinical features and diagnosis (2023) (2023)
- Unknown, Neurodegenerative diseases: molecular mechanisms and therapeutic targets (2024) (2024)
- Unknown, Mechanism-driven clinical trials in neurodegeneration (2024) (2024)
- Unknown, Clinical trial design in neurodegenerative disease (2023) (2023)
- Unknown, Future of Alzheimer's disease clinical trials (2024) (2024)