Science of Cellular Extraction
SCIENCE INSPIRED BY NATURE | CELLULAR EXTRACTION™ works with gradients to transfer the natural water-soluble molecules of a species into a liquid extractant, delivering a True to Nature plant extract - the hydrophilic plant profile of phyto-compounds and their derivatives (the entourage) as they exist in the fruit, leaf, flower, wood, seed or fungi of a species. Plants move phyto-compounds by natural gradients. Mimicking this action, Cellular Extraction™ works with increased osmolarity (hypertonic conditions) by exposing plant material to a liquid extractant medium (carrier solvent) in a pressurised, air-less environment, disrupting the semi permeable membranes of the cells, moving the natural water-soluble molecules into the liquid medium matrix.
THE NEW SCIENCE OF HARNESSING THE POWER OF NATURE
COLD PROCESS . CLOSED SYSTEM . HIGH PRESSURE . RAPID EXTRACTION
NATIVE EXTRACTS' innovation in extraction is a process that rapidly alternates static and dynamic stages within a closed system, creating an equilibrium between a plant cell and the liquid medium that simulates the cell environment. The extractant enters the cell wall to diffuse phyto-compounds, without stressing or degrading the plant's biomatrix, delivering the full plant profile of water-soluble or oil-soluble phyto-compounds, as they exist in nature – available for long periods of time.
Outdated extraction methods (maceration, percolation, powders, etc.) place the plant under extreme stress that rapidly uses up the phyto-compounds and compromises their bonds, resulting in an extract of decomposing plant matter. NOW, phyto-compounds are easily transferred from their original cell environment to a medium ready to formulate. Bio-actives can now be derived from once-thought impervious sources. Our extraction process does not compromise the integrity of the fruit or plant, unlike the old methods of drawn-out maceration or percolation, where the raw material is often left stewing for days, exposed to heat, fermenting and breaking down. CELLULAR EXTRACTIONS are clean, fresh and rapid. The process has revolutionised what we can derive from fruits and plants.
THE FIRST TRUE TO NATURE EXTRACT
CELLULAR EXTRACTION™ delivers the first True to Nature full plant profile of phyto-compounds (and their derivatives) found in any fruit, leaf, wood or flower in a botanical extract; independently verified by government laboratory LCMS, guaranteeing their source and activity. Many NATIVE EXTRACTS are organic certified and reflect the multi-compound, multifunctional benefits of the most potent botanical species on the planet. Since 2016, we have further evolved our processes and continue to revolutionise the botanical extract. We continually advance our knowledge in plant profiling and extraction technology, engineering our processes to take Cellular Extraction™ to new heights.
MULTIFUNCTIONAL
MORE OUT OF YOUR EXTRACT
One extract delivers the power of 3–10 phyto-compounds and their derivatives, the entourage. Multi-functionality creates new efficacy, formulation flexibility and potentially cost effectiveness. Our extracts are pure, unadulterated, sans synthetic additives.
◦ New possibilities and differentiation.
◦ Limitless unique sources from nature.
◦ New imagery and marketability.
◦ Create advanced 'natural' product lines with real stories and benefits.
3.8 BILLION YEARS OF BENCHMARKING
Nature doesn't create just a single compound. Species evolve through natural selection, becoming efficient at creating and storing multiple compounds in their synergistic relationships to sustain their survival and reproduction. A botanical extract should reflect the true blueprint of a plant. CELLULAR EXTRACTION™ harnesses nature's evolved strategies to create and store powerful phyto-active forces from the cells of fruit, wood, leaf and flowers. Formulate with nature's best strategies - you're no longer limited to standardised synthetic imitations or inferior extract technologies that destroy phyto-activity.
NATIVE EXTRACTS draws on the brilliance of nature's design, understanding how compounds are stored, plant's systems, cellular composition, liquid mediums, environmental stressors and plant behaviour to arrive at a technology that respects, works with and bio-mimics these mechanisms that have been tried and tested by nature for billions of years.