SKU MSC
Mesenchymal Stem Cells
MIT • RESEARCH USE ONLY
Mitochondria
Isolated, functional mitochondria harvested from mesenchymal stem cells (MSCs), typically from umbilical cord tissue. Mitochondria generate ATP, the cell's primary energy currency. Each vial supplies approximately 20–40 billion mitochondria per 2 ml, isolated with proprietary, non-denaturing techniques intended to preserve mitochondrial integrity and bioenergetic function.
ATP-competent isolates
BIOENERGETIC UNIT
— Functional organelles that retain oxidative phosphorylation after extraction — aimed at restoring cellular power currency in dysfunctional tissues.
Youthful UCT MSC source
DONOR BIOLOGY
— Harvested from perinatal MSC cultures with lower senescence and higher bioactivity versus adult mitochondria donors.
Integration · redox · apoptosis
MECHANISTIC TRIAD
— Host-cell uptake may normalize energy flux, attenuate oxidative stress, and reprogram apoptotic signaling in degenerative and metabolic disease models.
ROUTES, FORMATS & APPLICATIONS
Routes
IV
Quantities
| 20~40 Billion Mitochondria | 2ml |
Potential Applications
- Parkinson's disease
- Alzheimer's disease
- Multiple sclerosis
- Stroke recovery
- Traumatic brain injury
- Chronic fatigue syndrome
- Fibromyalgia
- Mitochondrial myopathies
- Type 2 diabetes
- Insulin resistance
- Obesity-related inflammation
- Cardiovascular conditions
- Anti-aging therapies
- Liver and kidney disorders
- Fertility and reproductive health
- Athletic recovery and performance
BIOENERGETICS & ISOLATION
Functional Mitochondrial Isolates
Isolation uses proprietary, non-denaturing methods aimed at preserving structural integrity and oxidative phosphorylation capacity. Young MSC donors are selected to mirror higher bioenergetic potential relative to adult-derived material.
ATP generation retained
Mitochondria retain ATP-producing capability after extraction.
Host-cell integration
Potential integration with host cells to restore energy production and modulate stress and apoptotic signaling.
Youthful donor mitochondria
Sourced from umbilical cord MSCs characterized as lower senescence and higher bioactivity than adult counterparts.
Cell-free delivery advantages
Cell-free format minimizes immune rejection risk for systemic or localized use.
Compliance · Mitochondria
cGMP manufacturing & cryopreservation
Cells are manufactured under cGMP conditions and cryopreserved using a non-toxic, glucose-based method with greater than 98% viability.
cGMPNON-TOXIC CRYOPRESERVATION>98% VIABILITY
Viability & cryopreservation
Cryopreserved using a non-toxic, glucose-based method with greater than 98% viability.
GLUCOSE-BASED CRYO>98% VIABILITY
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