Unleashing the power of PTMC Microspheres
Optimizing dermal filler properties for ideal results
Composition
Innovative Advances in Design and Composition
PTMC Microspheres:
Minimizing Inflammation for Optimal Tissue Regeneration
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Round microspheres with smooth surfaces
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Homogenous particle size distribution of 40 ± 8 microns
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Amorphous, non-crystalline particles
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No fragmentation or particle bursts
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Controlled, surface erosion degradation
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No acidic byproducts
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Fully bioresorbable
New Degradation Mechanism
PTMC - Surface Erosion:
Unlike bulk erosion in other fillers, PTMC degrades layer by layer. This mechanism is mediated by the enzymes in your body and offers a steady and even resorption over time, reducing the risk of long-term complications.
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Loss of material is confined to the surface only
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Degradation from the outer surface towards the center
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Structural integrity of the particle is maintained
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No fragmentation or burst release of particles
Mechanism of Action
Based on the successful biological evalutation we expect an immediate volume boost, follewed by long-lasting, natural results thanks to the collagen your body produces
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Immediate effect: The CMC gel-carrier instantly fills and adds volume upon injection.
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Sustained correction: The gradual bioresorption of the PTMC microspheres creates a void that is naturally filled with collagen-rich tissue, leveraging their unique degradation behaviour for a long-lasting treatment effect.
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Fully bioresorbable: The gel-carrier is resorbed through phagocytosis during the first month after injection. The microspheres undergo enzymatic surface erosion, a controlled resorption process expected to last for a period of 78 to 80 weeks.
Disclaimer
MONA is under clinical investigation and has not yet received commercial approval. We are conducting clinical studies to establish its safety and efficancy profile in compliance with regulatory requirements. All claims made are beging clinically investigated