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Clostridium Butyricum for Motor and Non-motor Symptoms in Parkinson's Disease
Clostridium Butyricum for Motor and Non-motor Symptoms in Parkinson's Disease
Trial Overview
| Field | Value |
|-------|-------|
| NCT Number | [NCT06548256](https://clinicaltrials.gov/study/NCT06548256) |
| Status | Recruiting |
| Sponsor | Pusan National University (Korea) |
| Phase | Not specified |
| Intervention | Miyarisan-BM (Clostridium Butyricum Miyairi) |
Mechanism
[Clostridium butyricum](https://en.wikipedia.org/wiki/Clostridium_butyricum) is a butyrate-producing gut bacterium that has been studied for its beneficial effects on gut health and inflammation. The proposed mechanisms in Parkinson's disease include:
Rationale
...
Clostridium Butyricum for Motor and Non-motor Symptoms in Parkinson's Disease
Trial Overview
| Field | Value |
|-------|-------|
| NCT Number | [NCT06548256](https://clinicaltrials.gov/study/NCT06548256) |
| Status | Recruiting |
| Sponsor | Pusan National University (Korea) |
| Phase | Not specified |
| Intervention | Miyarisan-BM (Clostridium Butyricum Miyairi) |
Mechanism
[Clostridium butyricum](https://en.wikipedia.org/wiki/Clostridium_butyricum) is a butyrate-producing gut bacterium that has been studied for its beneficial effects on gut health and inflammation. The proposed mechanisms in Parkinson's disease include:
Rationale
The [gut-brain axis](/mechanisms/gut-immune-brain-axis-parkinsons) plays a critical role in Parkinson's disease pathogenesis. Many PD patients exhibit gut dysfunction years before motor symptoms appear. Gut inflammation and dysbiosis may contribute to alpha-synuclein aggregation in the enteric nervous system, which then propagates to the central nervous system via the vagus nerve.
Clostridium butyricum supplementation represents a targeted approach to:
- Reduce gut inflammation
- Restore microbiome balance
- Improve gut barrier function
- Potentially slow alpha-synuclein propagation
Butyrate and Neurodegeneration
The Butyrate Molecule
[Butyrate](/mechanisms/short-chain-fatty-acids-neurodegeneration) is a four-carbon short-chain fatty acid (SCFA) produced by bacterial fermentation of dietary fiber in the colon[@butyrate2023]. It serves as:
- Primary energy source for colonocytes
- Histone deacetylase (HDAC) inhibitor: Epigenetic regulation of gene expression
- Anti-inflammatory agent: Modulates immune cell function
- Barrier enhancer: Strengthens gut tight junctions
Butyrate's Effects on the Brain
The mechanisms by which butyrate may influence neurodegenerative processes include:
Clinical Evidence
Preclinical Studies
Multiple preclinical studies support the use of butyrate-producing bacteria in PD models[@gutbrain2024][@microbiome2023]:
- Motor function improvement: Reducedrotarod latency in mouse PD models
- Neuroprotection: Preserved dopaminergic neurons in the substantia nigra
- Gut barrier improvement: Restored intestinal epithelial integrity
- Microbiome restoration: Rebalanced gut bacterial populations
Human Studies
- Reduced fecal butyrate levels in PD patients compared to controls
- Correlation between butyrate-producing bacteria and motor symptoms
- Pilot studies showing probiotic benefits on motor scores
Study Design Details
Primary Endpoints
- Motor assessment: Change in MDS-UPDRS Part III (motor) score
- Non-motor assessment: Non-Motor Symptoms Scale (NMSS)
- Quality of life: PDQ-39
Secondary Endpoints
- Gut microbiome: Changes in fecal bacterial composition
- Inflammatory markers: Serum cytokines
- Butyrate levels: Fecal SCFA concentrations
- Safety: Adverse event monitoring
Comparison with Other Probiotic Approaches
| Probiotic | Mechanism | Evidence | Stage |
|-----------|-----------|----------|-------|
| Clostridium butyricum | Butyrate production | Preclinical | Phase 2 |
| Bacillus subtilis | Protease, butyrate | Preclinical | Phase 2 |
| Lactobacillus | Various | Mixed | Phase 2/3 |
| Multi-strain | Synergistic | Moderate | Phase 3 |
Future Directions
Combination Approaches
Future studies may explore:
- Synbiotic combinations: Prebiotic + probiotic
- Fecal microbiota transplantation (FMT)
- Targeted metabolic therapy: Direct SCFA supplementation
Biomarker Development
- Microbiome signatures: Predict treatment response
- Metabolic markers: Monitor butyrate production
- Inflammatory biomarkers: Track anti-inflammatory effects
Related Pages
- [Gut-Immune-Brain Axis in Parkinson's Disease](/mechanisms/gut-immune-brain-axis-parkinsons)
- [Microbiome-Targeted Interventions for PD](/therapeutics/microbiome-gut-brain-axis-parkinsons)
- [Bacillus Subtilis for PD](/clinical-trials/bacillus-subtilis-pd)
- [Probiotic Depression in PD](/clinical-trials/probiotic-depression-parkinsons-nct05568498)
- [Short-Chain Fatty Acids in Neurodegeneration](/mechanisms/short-chain-fatty-acids-neurodegeneration)
References
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