Enjoy the Nelson Honey honeycomb from the pure environment of New Zealand. You can eat it as-is, or spread on warm bread or on top of your salad or oatmeal.
Only logged in customers who have purchased this product may leave a review.
The science behind Bee Venom is still developing and researchers continue to find new uses for it. We add small quantities of Bee Venom to Manuka Honey to create our hugely successful Nectar Ease product range and this also forms the basis for our Royal Nectar skincare range.
Bee venom composition
Bee Venom composition and strength varies between Honeybee species and small variances are identifiable between bee breeds and locations.
Bee Venom contains a variety of peptides, including melittin, apamin, adolapin, the mast-cell-degranulating (MCD) peptide, enzymes (i.e., phospholipase A(2)), biologically active amines (i.e., histamine and epinephrine), and nonpeptide components which have a variety of pharmaceutical properties.
Bee Venom’s unique composition has multiple effects on the body. The natural components of Bee Venom have been isolated and studied scientifically and one of the most important components has been identified as Melittin. Making up about 50% of the Bee Venom.
Bee venom uses
Here at Nelson Honey we use Bee venom in two ways and have become famous for our innovation with this ingredient.
We started adding Bee Venom to honey over 3 decades ago after feedback from beekeepers about its success in supporting an active lifestyle. A range of Nectar Ease products was formed with our original Bee Venom and Manuka Honey, Nectar Ease, gaining a reputation in New Zealand for providing a joint health product in a tasty format.
More recent research has focused on using Bee venom as a cosmetic ingredient and its topical application for promoting skin regeneration. Research published in South Korea in 2015 showed that a bee venom serum treatment clinically improved facial wrinkles by decreasing total wrinkle area, total wrinkle count and average wrinkle depth.
Nectar Ease honey was originally used as a facial treatment gaining worldwide media attention from which our Royal Nectar skincare range was born.
Today the Royal Nectar skincare range has a strong following and particularly famous with Chinese consumers.
Bee venom extraction
The Bee Venom used in Nectar Ease is extracted exclusively from the Apis Melifera species of Honeybee. Bee Venom is extracted from Honeybees using low voltage electrical stimulation. Bee keepers use a so-called collection frame which has wire electrodes installed that have a low electrical current running through them on a glass base, just like in the picture above. These frames are installed in honey hives and bees that come into contact with the wire electrodes will receive a small electrical shock. This causes bees to sting the glass, releasing the venom without losing their barbed sting (which usually results in bee deaths).
Once the collection process has finished, the Bee Venom dries on the glass, then the whole frame is transported to a laboratory to collect the venom.
The National Center for Biotechnology Information (NCBI) offers a great source of published research about Bee Venom. Below are links to several interesting articles.
The beneficial effects of honeybee-venom serum on facial wrinkles in humans. http://www.ncbi.nlm.nih.gov/pubmed/26491274Read More
Pollen grains are small, male reproduction units from flowering plants. The major components of pollen are proteins, amino acids, lipids and sugars. During nectar gathering, bees distribute pollen from one flower to another. Pollen grains can be distinguished by their outer form and chemical or nutrient composition. This knowledge of pollen is useful in determining the geographic and botanical origin of honeys.
The pollen collected by beekeepers is not same as the fine, powdery pollen from flowers. The hundreds of pollen grains per flower collected by honeybees are packed into pollen pellets on their hind legs with the help of special combs and hairs. A honeybee carries two pollen pellets per trip.Read More