Adipose-Derived Mesenchymal Stem Cell Therapy for Early Alzheimer's Disease (NCT06775964)

Study Overview

| Field | Value |
|-------|-------|
| NCT Number | [NCT06775964](https://clinicaltrials.gov/study/NCT06775964) |
| Title | Stem Cell Therapy for Early Alzheimer's Disease |
| Phase | Phase 1b/2a |
| Status | RECRUITING |
| Sponsor | Paul E Schulz, MD (UTHealth Houston) |
| Collaborator | Weston Brain Institute |
| Location | UT Health Science Center at Houston, TX |
| Enrollment | 12 subjects (estimated) |
| Start Date | February 2026 |
| Primary Completion | December 2026 |
| Study Completion | January 2027 |

Study Design

This is a Phase 1b/2a open-label, single-arm study evaluating the safety, tolerability, and efficacy of autologous, adipose-derived mesenchymal stem cells (adMSCs) in adults with late pre-symptomatic or prodromal Alzheimer's disease.

Rationale

Most currently approved AD drugs primarily treat symptoms. While anti-amyloid antibodies have successfully reduced amyloid burden, they have only modestly affected cognitive progression. This suggests that other pathological pathways are equally important for AD progression.

Study Overview

| Field | Value |
|-------|-------|
| NCT Number | [NCT06775964](https://clinicaltrials.gov/study/NCT06775964) |
| Title | Stem Cell Therapy for Early Alzheimer's Disease |
| Phase | Phase 1b/2a |
| Status | RECRUITING |
| Sponsor | Paul E Schulz, MD (UTHealth Houston) |
| Collaborator | Weston Brain Institute |
| Location | UT Health Science Center at Houston, TX |
| Enrollment | 12 subjects (estimated) |
| Start Date | February 2026 |
| Primary Completion | December 2026 |
| Study Completion | January 2027 |

Study Design

This is a Phase 1b/2a open-label, single-arm study evaluating the safety, tolerability, and efficacy of autologous, adipose-derived mesenchymal stem cells (adMSCs) in adults with late pre-symptomatic or prodromal Alzheimer's disease.

Rationale

Most currently approved AD drugs primarily treat symptoms. While anti-amyloid antibodies have successfully reduced amyloid burden, they have only modestly affected cognitive progression. This suggests that other pathological pathways are equally important for AD progression.

Neuroinflammation has emerged as a critical player in AD pathogenesis. Evidence includes:

• Elevated inflammatory markers in patients at different clinical stages of AD
• Identification of AD risk genes associated with innate immune functions
• Strong correlation between microglial activation and disease progression

• Anti-inflammatory properties
• Reduced amyloid-β activity
• Promotion of neurogenesis
• Low immunogenicity (autologous = patient-derived)

Intervention

Biological: adMSC — IV-infusion of autologous, adipose-derived mesenchymal stem cells (adMSCs), approximately 2×10⁸ cells in 250mL saline.

Dosing Schedule:

• 4 IV infusions over 12 weeks
• Infusions administered through a vein in the arm

Eligibility Criteria

Inclusion Criteria

• CRP ≥ 8 mg/L
• IL-6 ≥ 3.1 pg/mL
• TNF-α ≥ 10 pg/mL
• ESR ≥ 20 mm/h

Exclusion Criteria

Outcome Measures

Primary Outcomes

| Measure | Description | Timeframe |
|---------|-------------|-----------|
| Change in TSPO levels | Measured by PET scan from baseline to midpoint and end of study | Baseline, Day 169 |
| Inflammatory cytokines in CSF | Cytokine panel measured via ELISA | Baseline, Day 169 |

TSPO (Translocator Protein) is a marker for activated microglia. TSPO PET imaging correlates with neuroinflammation levels in the brain.

Secondary Outcomes

| Measure | Description | Timeframe |
|---------|-------------|-----------|
| Treatment-related adverse events | Safety monitoring throughout study | Baseline - Day 337 |
| Neurofilament light chain (Nf-L) in CSF | Neurodegeneration biomarker | Baseline, Day 169 |
| GFAP in CSF | Astrocyte activation marker | Baseline, Day 169 |
| Total Tau/phospho-Tau ratios in CSF | AD progression markers | Baseline, Day 169 |
| FDG PET imaging | Cerebral metabolism activity | Baseline, Day 169 |
| Amyloid-β 42/40 ratio in CSF | Amyloid pathology marker | Baseline, Day 169 |
| MMSE score | Cognitive function | Baseline, Day 337 |
| RBANS scores | Neuropsychological assessment | Baseline, Day 337 |
| Lawton IADL Scale | Functional independence | Baseline, Day 337 |
| Immune pathway markers in blood | Systemic inflammation | Baseline, Day 169, Day 337 |
| Immune pathway markers in CSF | CNS inflammation | Baseline, Day 169 |

Clinical Endpoints

Cognitive Measures

• MMSE (Mini-Mental State Examination): Scoring ranges from 0-30
• 24-30: No cognitive impairment
• 18-23: Mild cognitive impairment
• 0-17: Severe cognitive impairment
• RBANS (Repeatable Battery for the Assessment of Neuropsychological Status)
• Total scores range from 40 to 160 (mean 100, SD 15)
• ≥70: Average/Mild Impairment
• 55-69: Moderate Impairment
• <54: Severe Impairment
• Lawton IADL Scale: Measures instrumental activities of daily living
• Women: 0-8 scale (8 = independent)
• Men: 0-5 scale (5 = independent)

Biomarker Endpoints

| Biomarker | Tissue | Significance |
|-----------|--------|--------------|
| TSPO | PET | Microglial activation / neuroinflammation |
| Nf-L | CSF | Axonal neurodegeneration |
| GFAP | CSF | Astrocyte activation |
| Total Tau | CSF | Neurodegeneration |
| Phospho-Tau | CSF | Tau pathology |
| Aβ42/40 | CSF | Amyloid pathology |
| FDG PET | Brain | Cerebral glucose metabolism |

Scientific Context

Neuroinflammation in AD

The brain's immune system plays a dual role in Alzheimer's disease. While initially protective, chronic neuroinflammation drives disease progression through:

• Continuous microglial activation producing pro-inflammatory cytokines
• Impaired clearance of amyloid-β and tau
• Synaptic dysfunction and neuronal loss
• Spread of pathology across brain networks

TSPO as a Biomarker

Translocator protein (TSPO, 18kDa) is expressed primarily on activated microglia and peripheral immune cells. TSPO PET imaging provides:

• In vivo measurement of microglial activation
• Quantification of neuroinflammation burden
• Potential for monitoring treatment response

Mesenchymal Stem Cells for Neurodegeneration

Adipose-derived MSCs offer several advantages:

• Autologous source: Eliminates immune rejection risk
• Multi-modal action: Anti-inflammatory, anti-amyloid, pro-neurogenic
• Low immunogenicity: Reduced GVHD risk
• Easy harvesting: Minimally invasive fat tissue collection
• Established safety profile: Demonstrated in prior clinical studies

Contact Information

| Role | Name | Phone | Email |
|------|------|-------|-------|
| Principal Investigator | Paul E Schulz, MD | — | — |
| Study Contact | Harshali Patel | 713-486-0531 | Harshali.Patel@uth.tmc.edu |
| Study Contact | Javier Ortiz, PhD | 713-486-0505 | Guadalupe.J.Ortiz@uth.tmc.edu |
| Study Contact | Christine Farrell, PhD | 713-486-0527 | Christine.M.Farrell@uth.tmc.edu |

Related Pages

• [Alzheimer's Disease Clinical Trials Overview](/clinical-trials/alzheimers-disease)
• [Neuroinflammation Biomarkers](/biomarkers/inflammatory-biomarkers-alzheimers)
• [TSPO PET Imaging for Neuroinflammation](/mechanisms/tspo-pet-imaging-neuroinflammation)
• [Mesenchymal Stem Cell Therapy for Parkinson's Disease](/clinical-trials/nuerownd-stem-cell)
• [GFAP as Biomarker](/biomarkers/gfap-glial-fibrillary-acidic-protein)
• [Neurofilament Light Chain](/biomarkers/neurofilament-light-chain)
• [CSF Biomarkers in Neurodegeneration](/biomarkers/csf-biomarkers-neurodegenerative-disease)
• [Amyloid-β 42/40 Ratio](/biomarkers/amyloid-beta-42-40-ratio)