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Lipoza® - Q10 (Liposomal Coenzyme Q10)

Coenzyme Q10 plays a crucial role in the production of energy within cells and serves as a powerful antioxidant. Coenzyme-Q10 is sensitive and degrades when in contact to stomach acid and digestive enzymes. LIPOZA-Q10 improves the bioavailability of Coenzyme-Q10. Coenzyme-Q10 is a fat-soluble compound, and liposomes are lipid- based carriers. This makes it easier for the body to absorb and transport Coenzyme-Q10 to target cells.

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Role of Coenzyme Q10

Strong Anti-oxidant

Skin Health

Fertility

benefits of LIPOZA Q10

  • Neutralizes free radicals
  • Protects brain cells from oxidative damage
  • Boosts brain energy for better function
  • Supports heart tissue and blood vessel health
  • Enhances heart energy production
  • Shields skin from UV damage
  • Improves skin elasticity and reduces aging signs
  • Reduces migraine frequency, nausea, and vomiting
  • Supports eye health and vision clarity
  • Lowers oxidative stress in retinal cells
  • Helps reduce inflammation in the body
  • Regulates inflammatory pathways
  • Supports reproductive health
  • Improves egg and sperm quality through better energy production
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Dynamic Light Scattering (DLS) for particle size measurement

Dynamic Light Scattering (DLS) is employed to evaluate the particle size distribution and polydispersity of liposomal formulations, providing essential information on colloidal stability, dispersion uniformity, and potential bioavailability.
For example – Lipoza®-Curcumin

Zeta Potential Analysis for surface charge and stability

Zeta potential analysis provides insight into the surface charge and colloidal stability of liposomal formulations, where higher negative values indicate improved dispersion stability and reduced risk of particle aggregation.
For example – Lipoza®-VitC

Absorption and permeability through models like Caco-2 cell lines.

Caco-2 studies utilize human intestinal epithelial cell monolayers to evaluate the permeability and predicted absorption of test substances across the gut barrier.

For example – Lipoza-Glutathione
Demonstrated superior permeability, showing 0.95% transport compared to 0.29% for Reduced L-Glutathione—an approximate 3.28-fold increase. This enhanced permeability, despite lower glutathione content, indicates improved intestinal absorption and supports its potential as a more bioavailable form of glutathione supplementation.

1.TEM-Based Structural Analysis of Liposomal Formulations

Transmission Electron Microscopy (TEM) provides high-resolution visualization of liposomal morphology, enabling assessment of vesicle size, shape, and internal structure. Liposomes generally appear as well-defined spherical vesicles with a distinct bilayer and a darker core region.
For example – Lipoza®-Q10

2.SEM-Based Surface Characterization of Liposomes

Scanning Electron Microscopy (SEM) offers detailed visualization of surface morphology, enabling assessment of particle texture, external structure, and overall physical characteristics of liposomal powders. This technique helps confirm uniformity, surface smoothness, and morphological integrity of the formulation.
For example – Lipoza®-Fe
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