The Benefits of Live Blood Analysis
Live blood cell analysis or live blood analysis is the observation and examination of live blood cells with the aid of a high resolution darkfield compound microscope. This technique of inspection is commonly known as darkfield microscopy. With all the merits of such analysis, this diagnostic test is still considered as refuted. However, this testing is done by some health care practitioners in order to decide on what the course of treatment should be.
Because of the rise in cases of degenerative diseases, like cancer, diabetes, heart disease, osteoporosis, the importance of live blood analysis has become apparent. This is because the analysis of blood, as originally proposed by the French biologist, Antoine Bechamp, is starting to expose some remarkable solutions for diseases that modern medicine, which is based on the theories of Louis Pasteur, a contemporary of Bechamp, has not been able to solve so far.
Live blood analysis includes taking a blood sample through a tiny pin prick on the fingertip. Then, such single drop of blood sample is placed under a specially adapted microscope, known as the darkfield compound microscope. A darkfield compound microscope is a high powered instrument that is equipped with a darkfield condenser, that illuminates biological samples from the sides, not from the below. With the use of an attached camera, a darkfield compound microscope is connected to a video screen for better viewing. The image seen on the video screen is the 20,000 times magnification of the tiny blood sample. Since the blood is still living, occurrences can be observed such as that of yeasts, molds, bacteria, parasites, immune system activity, allergies, hormonal imbalances, sugar intolerances, to name a few.
It is important to note however that live blood analysis (LBA) is immensely different from the standard blood test, known as complete blood count (CBC). In CBC, the blood cells are no longer living and are, therefore, merely tallied.
Explaining the disparities of both tests further, a CBC report includes an inventory of the total number of white blood cells, which denotes the immune system. However, stressing yet again that blood cells in CBC are dead, there is no way of telling if the said white blood cells are actually working or not as immune defenses of the body. In LBA, white blood cells are alive and can be viewed on the video screen attached to the darkfield compound microscope. The images on the video screen show the movement through the blood plasma of white blood cells. Their functions of collecting bacteria and waste can be witnessed. The experience of seeing white blood cells in action is very unique encounter. Furthermore, LBA delivers a qualitative analysis of blood rather than a quantitative one as rendered by CBC.
The performance of live blood analysis enables health care practitioners to have the opportunity for understanding of the mechanisms of particular diseases. Since food is utilized by the body to repair and strengthen itself, health practitioners can better advise their patients on how such patients can regain the control and responsibility for their health.
