Bracco (UK) Ltd - Oxford

Address: Magdalen Centre, The Oxford Science Park, Robert Robinson Ave, Littlemore, Oxford OX4 4GA, United Kingdom.
Phone: 1628851500.

Specialties: Pharmaceutical company.
Other points of interest: Wheelchair accessible entrance, Wheelchair accessible parking lot.
Opinions: This company has 1 reviews on Google My Business.
Average opinion: 5/5.

Location of Bracco (UK) Ltd

1628851500

Bracco (UK) Ltd is a well-known pharmaceutical company located in Oxford, United Kingdom. The company's headquarters is situated in a convenient location at the following address: Magdalen Centre, The Oxford Science Park, Robert Robinson Ave, Littlemore, Oxford OX4 4GA. If you need to contact them, you can easily do so by calling 1628851500.

Bracco (UK) Ltd is a specialist in the pharmaceutical industry, providing high-quality products and services to its clients. The company's expertise and commitment to excellence have earned it a reputation as a trusted and reliable partner in the healthcare sector.

One of the standout features of Bracco (UK) Ltd is its commitment to accessibility. The company's headquarters has a wheelchair accessible entrance and parking lot, making it easy for people with mobility challenges to visit and do business with the company.

In addition to its physical location, Bracco (UK) Ltd has an online presence through its website. The website provides valuable information about the company, its products, and services. It is a useful resource for anyone looking to learn more about the company and what it has to offer.

When it comes to reviews and ratings, Bracco (UK) Ltd has received positive feedback from its clients. The company has a 5/5 rating on Google My Business based on 1 review. This high rating is a testament to the company's commitment to providing excellent service and products to its clients.

Reviews of Bracco (UK) Ltd

Viorel Bungau

5/5

-About carcinogenesis- Electronegativity is a nucleus of an atom's ability to attract and maintain a cloud of electrons. Copper atom electronegativity is higher than the Iron atom electronegativity. Atom with lower electronegativity (Iron),remove the atom with higher electronegativity (Copper) of combinations. This means that,in conditions of acidosis, we have cytochrome oxidase with iron (red, neoplastic), instead of cytochrome oxidase with copper (green, normal).I think this is the key to carcinogenesis. "Duality of cytochrome oxidase. Proliferation(growth) and Differentiation(maturation) cell." Cytochrome oxidase is present in two forms, depending on the context of acid-base internal environment: 1.- Form acidic (acidosis), which contains two Iron atoms, will be red, will absorb the additional green energy of the hydrogen atom, derived from carbohydrates, with formation of H2O, metabolic context that will promote cell proliferation. 2.-Form alkaline (alkalosis), containing two copper atoms, will be green, will absorb the additional red energy of the carbon atom, derived from carbohydrates, with formation of CO2, metabolic context that will promote cell differentiation. According to the principle electronegativity metals, under certain conditions the acid-base imbalance (acidosis),iron will replace copper in combination, cytocromoxidase became inactive (it contains two copper atoms) leading to changing oxidation-reduction potential, BUT THE COLOR FROM BLUE-GREEN, TO REED, to block the final biological oxidation and the appearance of aerobic glycolysis.
Final biological oxidation, the production of CO2 and H2O, should be reconsidered in the sense that a distinction must be made between the oxidation of carbon and hydrogen oxidation. In the case of carbon atoms, cytochrome oxidase must have an alkaline chemical structure, to be colored green and so can absorb additional red energy carbon atoms derived from carbohydrate. For the oxidation of H atom cytochrome oxidase must have a acidic chemical structure, to be colored red, and so can absorb additional green energy hydrogen atom derived from carbohydrate. We imagine an experiment to prove that the final biological oxidation, in addition to a process of oxidation-reduction, to form H2O and CO2, there is a photochemical effect, whereby the transfer of energy from the atom H or C atom, is make selective color on the principle of complementary colors, structures involved in this process are colored (red hemoglobin Fe, Mg chlorophyll green, blue ceruloplasmin Cu, Fe cytochrome oxidase red, Cu cytochrome oxidase green etc). The basic idea is that if life pigments (chlorophyll, hemoglobin, cytochromes), which provides energy metabolism of the cell, are colored, we can control their activities through chromotherapy, on the basis of complementary color and energy rebalance the body, with a figured X-ray colors. Sincerely,, Dr.Viorel Bungau