Modern Liposomal Liquid Formulas.
Codeage Nanofood® offers advanced nutritional and supplements formulas in a liquid format and with liposomal delivery.
What’s a liposomal delivery?
Liposomal delivery is a technique that can be used to alter the delivery of nutrients and other compounds. The nutrients can be encapsulated in a liposome, which is a small vesicle designed with the potential to help protect nutrients.
There are many potential applications for liposomal delivery. A liposomal delivery creates a modern avenue to transport nutrients and ingredients. This technique could also be used to change how and where nutrients are delivery in the organism.
Codeage Nanofood® leverages this modern mechanism to design a unique collection of nutritional formulas with a wide range of ingredients and nutrients.
A different vitamin C formula.
Nanofood® Wonder-C offers vitamin C, vitamin D3, vitamin E, and Zinc through a liposomal proprietary blend of non-GMO sunflower oil containing phosphatidylcholine. This liposomal and liquid vitamin C formula also comes with a unique orange tangerine flavor. Nanofood® Wonder-C liquid is convenient and easy to use.
“Nanofood® Wonder Heart is a liposomal CoQ10 formula.”
More about liposomes
Liposomes are lipid-based vesicles that can be used for compound delivery. They are generally formed by the self-assembly of amphipathic lipids into closed bilayer vesicles. The interior of the vesicle is hydrophobic, while the exterior is hydrophilic. This allows them to entrap water-soluble molecules inside the lipid bilayer.
There are several types of liposomes, including unilamellar, multilamellar, and chylomicron-like. Unilamellar liposomes are the smallest and often considered the most stable type. Multilamellar liposomes are larger and less stable than unilamellar liposomes. They are formed by the self-assembly of multiple amphipathic lipid bilayers. Chylomicron-like liposomes are even larger and less stable than multilamellar liposomes. They are formed by the self-assembly of a large number of amphipathic lipid bilayers.
Liposomes offer a promising new technology that will continue to evolve thanks in part to ongoing research at different institutions.
Wonder-D sachets.
Nanofood® Wonder-D in pouches and sachets offers vitamin D3, vitamin K2, and B12 with a convenient to use and transport sachet. This liposomal and liquid vitamin D formula also comes with a unique mixed berry flavor.
Liposomes can be formed instantly with the help of hydrated phospholipids
Liposomes and nutrition.
Liposomes and their application have evolved rapidly from their first description in the 1960s. A wide range of industries use them today to offer specific products or solutions.
Liposomes are today also used in nutrition and supplements as their “novel” delivery mechanisms create a potential to transport and offer nutrients differently.
Many liposomes are being produced with unique and distinctive characteristics, that greatly depend on the nature of its lipid components.
Throughout their development history, the addition of different compounds in the formulation of liposomes formulation has aimed to alter their permeability, change their stability, and the speed release of encapsulated bioactive compounds that could be found in them. Different applications may call for a different set of parameters in order to offer dedicated structures.
The same holds true in nutrition and supplementation where liposomes are experiencing renewed interest because of the potential they could offer in the ways formulas get created, delivered, and absorbed.
Liposomal Collagen Liquid.
Discover Nanofood® Liquid Vitamin C 1000 mg formula with vitamin E and citrus terpenes.
Liposomal Collagen Liquid.
Discover Nanofood® Trim & Glow with CLA, 3 types collagen, vitamin E, and hyaluronic acid.
Liposomal collagen in a liquid format as a modern collagen solution
Liposomal Quercetin Phytosome.
Discover Nanofood® Quercetin Phytosome with vitamin E.
Liposomal Melatonin Drops.
Discover Nanofood® Teen Daily Formula for teenagers.
Liposomal Melatonin Drops.
Discover Nanofood® Ultra Sleep melatonin + vitamin E liquid supplement.
A different carrier for nutrients.
The way for nutrients to be delivered and absorbed by the body may depend on a large numbers of variables. We may think that nutrients will be impacted by factors such as our own metabolism, the distribution of the nutrients once taken, our diet, regimen, and another multitude of factors.
Once a nutrient enters our organism, for example when we eat specific types of foods which contain that nutrient, it may become unevenly distributed in our body and tissues. The affinity of our organism to receive, process and use this nutrient, the specific pH levels in precise locations, and other permeability factors of our overall system may generate important differences.
When nutrients are distributed unevenly in the organism, their concentration might get reduced in specific body parts or organs. It is also important to try to understand the amount of nutrients that may be deployed at any specific time.
The idea that liposomes may use nanoparticules to entrap compounds and other nutrients makes them a compelling mechanism to explore.
Liposomal Melatonin Drops.
Discover Nanofood® Men’s Daily Vitamins Formula liquid supplement.
Liposomal Melatonin Liquid Drops.
Discover Nanofood® Women’s Multivitamins Formula liquid supplement.
Liposomal Melationin.
Discover Nanofood® Teen Sleep + melatonin with liposomal delivery.
Codeage Nanofood Wonder Heart.
CoQ10 also known as Coenzyme Q or sometimes ubiquinone, is a naturally occurring coenzyme that we can find in different foods we eat. Nanofood® offers a CoQ10 in a liquid pouch format with a liposomal delivery of coenzyme Q10. This liquid supplement features phosphatidylcholine as a component of the cellular membrane.
CoQ10 can be found in different parts of our organism and usually more importantly in our heart, pancreas, liver, or kidney.
Liposomal Vitamin D.
Discover Nanofood® Wonder-D vegan vitamin D3, K2, and B12 with liposomal delivery.
Phytosomes.
Phytosomes are plant-derived, water-soluble complexes that can be used as delivery vehicles for bioactive compounds. The complexes are generally formed through the encapsulation of a bioactive compound within a phospholipid bilayer. Phytosomes may offer a different set of applications than traditional herbal remedies for various purposes.
One of the primary differentiator of phytosomes is their absorption and bioavailability capabilities. Phospholipids are known for their potential ability to help facilitate the absorption of compounds across cellular membranes.*
The phospholipid bilayer in a phytosome can help to protect the bioactive compound from degradation, in order to change its uptake into cells.
Codeage Nanofood® Quercetin Phytosome leverages phytosomes to offer a different take on a quercetin formula.
A renewed interest for phospholipids.
Phospholipids are a type of lipid that could play an important role in the cell membrane. They are made up of a phosphorous atom bonded to two fatty acids and one glycerol molecule. Phospholipids are unique because their hydrophilic head is attracted to water, while their hydrophobic tails repel water. This allows them to form a bilayer in the cell membrane, which might help to regulate the passage of molecules in and out of the cell.
Phospholipids may also play a role in the formation of signaling complexes, which are used by cells to communicate with one another. By binding to specific receptors on the cell surface, phospholipids can initiate a signaling cascade that might lead to the activation of various genes. This process is essential for the proper functioning of the cell and can be disrupted by mutations in the receptor genes.
Phospholipids are also involved in the transport of cholesterol and other lipids in the bloodstream. The hydrophilic head of the phospholipid can bind to cholesterol and other lipids, while the hydrophobic tail helps to shuttle them across the membrane. This process can impact the levels of cholesterol and other lipids in the body.
Phospholipids are a vital component of the cell membrane and play a role in many important cellular processes. By understanding how they work, we can better understand how the cell functions.
