117 Eat an alkaline diet to reduce inflammation and improve intracellular pH. Most people in the Western world today eat a diet that promotes inflammation and increases intracellular pH, a condition called latent acidosis - understood to provide a perfect environment for cancer to proliferate. A properly constructed alkaline diet will improve your intracellular pH over time, and is the best defense against continuous inflammation in the body. It is composed primarily of organic leafy green vegetables, herbs and spices, root vegetables, onions, garlic, leek and chives, broccoli, cauliflower and cabbages, beans, lentils and peas and nuts and seeds, combined with a small amount (a cup or two per day) of non-gluten grains such as rice. A serving of between two and four ounces of clean fish, organic poultry or grass-fed meat, several times per week, can be part of a healthy, alkaline oriented diet. Two to three pieces of whole fresh fruit a day help balance your vitamin and mineral consumption. The more of your vegetables and fruits you enjoy raw, the better.
Cancer cells use more glucose (sugar) per unit of time than other cells. Sugar metabolism creates acid, which also supports cancer progression. Further, a diet high in sugars, including fruits, triggers the insulin response. If you frequently eat sugar or fruit throughout the day, you suppress your immune function while increasing the insulin levels in your body, creating insulin resistance. Insulin resistance has been directly tied to cancer proliferation. Processed sugar depletes magnesium in the body, another contributor to cancer proliferation. High fructose corn syrup, because of its processing methodology, is high in mercury, a cancer-promoting toxin in the body. The recommendation to eliminate sugar includes sugar in all its forms, even "natural" sugars like honey and agave, as well as white sugar and high fructose corn syrup. Enjoy unsweetened applesauce, two or three figs or dried apricots, or a piece of fresh pineapple if you need a sweet treat. Moderation with fruit is important, as fructose has been shown to increase the rate of cancer cell division as much as two-fold – more than other forms of sugar.
126 Some basic concepts about the chemistry of water - explained in very simple terms - and is intended for curious minds who wish to better understand the science behind water ionization at the molecular level. The structure of atoms and molecules. An atom consists of positively charged protons, electrically neutral neutrons and negatively charged electrons. At the centre of the atom, neutrons and protons stay together to form the atom's core or nucleus. Electrons revolve around the atom's core in three-dimensional orbits or shells. Each of these molecular orbits needs a certain number of electrons to be stable. The inner orbit closest to the core must contain 2 electrons to be stable. The second orbit must contain 8 electrons to be stable. Each subsequent orbit, for atoms that contain more than 10 protons and electrons, also requires a pre-defined number of electrons to be stable. But apart from inert gases such as helium, neon and argon, the outermost orbit of most atoms is missing one or more electrons to be stable. In order to reach a state of stability, atoms bond together to form molecules by sharing their valence electrons, or electrons that make up the outermost shell.
sharing can be achieved through covalent bonding as described below. Covalent bonding of a water molecule Covalent bonding is a form of chemical bonding between two non-metallic atoms, such as hydrogen and oxygen, which is characterized by the sharing of pairs of electrons between two or more atoms. For stabilization, they share their valence electrons with other atoms. A water molecule is an example of a molecule created through covalent bonding. Water is made up of one oxygen atom and 2 hydrogen atoms, hence the chemical symbol H2O. A hydrogen atom is made up of 1 proton at its core and 1 electron that revolves around the core in a three-dimensional orbit. An oxygen atom is made up of 8 protons and 8 neutrons at its core and 8 electrons that revolve around the core in 2 separate three-dimensional orbits. The inner orbit contains 2 electrons whereas the outer orbit contains 6 electrons. However, both the hydrogen atom and the oxygen atom are not stable when they are alone. In order to be stable, the hydrogen atom must contain 2 electrons in its shell, and the oxygen atom must contain 8 electrons in its outer shell.