Pulsed Laser Shatters Parasites & Viruses

In another biophysics breakthrough, new research indicates that pulses of visible light from a laser can be used to destroy viruses in biological samples, such as blood. According to reports, the visible light is actually more effective at disrupting the virus' structure than traditional eradication methods, such as UV or microwave irradiation. Those other forms can also trigger mutations within the viruses, perhaps generating resistances.

A laser is a device which is built on the principles of quantum mechanics to create a beam of light where all of the photons are in a coherent state - usually with the same frequency and phase. (Most light sources emit incoherent light, where the phase varies randomly.) Among the other effects, this means that the light from a laser is often tightly focused and does not diverge much, resulting in the traditional laser beam.
How a Laser Works
In simplest terms, a laser uses light to stimulate the electrons in a "gain medium" into an excited state (called optical pumping). When the electrons collapse into the lower-energy unexcited state, they emit photons. These photons pass between two mirrors, so there are more and more photons exciting the gain medium, "amplifying" the intensity of the beam. A narrow hole in one of the mirrors allows a small amount of the light to escape (i.e. the laser beam itself).


How do the flash tube and the crystal make laser light?

1.A high-voltage electric supply makes the tube flash on and off.
2.Every time the tube flashes, it "pumps" energy into the ruby crystal. The flashes it makes inject energy into the crystal in the form of photons.
3.Atoms in the ruby crystal (large green blobs) soak up this energy in a process called absorption. When an atom absorbs a photon of energy, one of its electrons jumps from a low energy level to a higher one. This puts the atom into an excited state, but makes it unstable. Because the excited atom is unstable, the electron can stay in the higher energy level only for a few milliseconds. It falls back to its original level, giving off the energy it absorbed as a new photon of light radiation (small blue blob). This process is called spontaneous emission.

4.The photons that atoms give off zoom up and down inside the ruby crystal, travelling at the speed of light.
5.Every so often, one of these photons hits an already excited atom. When this happens, the excited atom gives off two photons of light instead of one. This is called stimulated emission. Now one photon of light has produced two, so the light has been amplified (increased in strength). In other words, "light amplification" (an increase in the amount of light) has been caused by "stimulated emission of radiation" (hence the name "laser", because that's exactly how a laser works!)
6.A mirror at one end of the laser tube keeps the photons bouncing back and forth inside the crystal.
7.A partial mirror at the other end of the tube bounces some photons back into the crystal but lets some escape.
8.The escaping photons form a very concentrated beam of powerful laser light.



Laser Blasts Viruses In Blood
ScienceDaily (Sep. 5, 2007) — A father-son research team working from separate laboratory benches across the country has discovered a new use for lasers — zapping viruses out of blood. The technique, which holds promise for disinfecting blood for transfusions, uses a low-power laser beam with a pulse lasting just fractions of a second.
Johns Hopkins University student Shaw-Wei David Tsen says it was during a stroll in the park with his father that the idea was born. Tsen, an immunology researcher in the laboratory of T.C. Wu at Hopkins’ Kimmel Cancer Center, sought a new method to rid isolated blood of dangerous pathogens, including the viruses HIV and hepatitis C. He says current techniques using UV irradiation and radioisotopes can leave a trail of mutated or damaged blood components.

Using ultrasonic vibrations to destroy viruses was one possibility, but his father, Kong-Thon Tsen, a laser expert at Arizona State University, had a better idea: Lasers, unlike ultrasound, can penetrate energy-absorbing water surrounding the viruses and directly vibrate the pathogen itself.

A study by Kong-Thon Tsen of Arizona State University along with researchers at Johns Hopkins University shows how strong blasts of visible light from a low-power laser can kill viruses. The laser technique appears to be more successful than other methods at killing viruses, while also posing less harm to healthy tissue.

In their study, the researchers blasted a virus with a quick pulse of purple laser light. The laser, which only shines for 100 femtoseconds (a femtosecond is one millionth of a billionth of a second), causes the virus's capsid (its outer shell) to vibrate and become damaged. Essentially, the virus becomes "deactivated" while the area around the virus remains unharmed. The treatment doesn't cause viruses to mutate either, which is a problem in other virus treatments and can lead to viral resistance.

While the treatment is still in testing, it presents an array of potential applications. Serious diseases like HIV/AIDS and hepatitis could be blasted with laser light.

The researchers aimed a low-power laser with a pulse lasting 100 femtoseconds (10-13 second) into glass tubes containing saline-diluted viruses that infect bacteria, also known as bacteriophages. The amount of infectious virus within each cube plummeted 100- to 1000-fold after the laser treatment. “I had to repeat the experiment several times to convince myself that the laser worked this well,” says the younger Tsen.

His laser is different from those emitting a continuous beam of visible light. “Our laser repeatedly sends a rapid pulse of light and then relaxes, allowing the solution surrounding the virus to cool off,” Tsen says. “This significantly reduces heat damage to normal blood components.”

The low-power laser fries at frequencies that can selectively nail viruses, but leave the human cells around them unharmed. The laser doesn't destroy viruses through heat -- but through vibrations, instead.

Building on the idea that vibration wrecks a virus’ outer shell, the scientists found that their low-power laser selectively destroys viruses and spares normal human cells around them, while stronger beams kill almost everything.

Father and son speculate that laser vibrations could destroy drug-resistant and -sensitive viruses alike.

Wu says that the technique his student developed “could potentially be used to control communicable diseases by giving infusions of laser-treated blood products.”

The scientists published their results in the July 13 issue of the Journal of Physics: Condensed Matter. They will continue their studies using different viruses.

Says Wu, “We believe this work on bacterial viruses is promising, but the real test will be with more serious pathogens like HIV and hepatitis.”

The National Science Foundation funded the research.

Additional collaborators include Chih-Long Chang and Chien-Fu Hung from Johns Hopkins and Juliann G. Kiang from the Uniformed Services University of the Health Sciences.


How is laser light different from ordinary light?

Lasers are more than just powerful flashlights. The difference between ordinary light and laser light is like the difference between ripples in your bathtub and huge waves on the sea. You've probably noticed that if you move your hands back and forth in the bathtub you can make quite strong waves. If you keep moving your hands in step with the waves you make, the waves get bigger and bigger. Imagine doing this a few million times in the open ocean. Before long, you'd have mountainous waves towering over your head!

A laser does something similar with light waves. It starts off with weak light and keeps adding more and more energy so the light waves become ever more concentrated. The "white" light produced by an ordinary flashlight contains many different light rays of different wavelengths that are incoherent (out of step with one another). But in a laser, all the light rays have the same wavelength and they are coherent (in step). This is what makes laser light such a powerful concentration of energy.



Semiconductor Laser Tharpy treats HIV/AIDS
New technologies are currently being studied in the world, in which the laser impulses can kill viruses contained in blood without killing the healthy tissues. These technologies are in the stage of verification and they consist in laser light impulses destroying viruses, ut not healthy cells: http://news.israelinfo.ru/.

Pictures Taken With a Darkfield Microscope

Laser semiconductor laser therapy of the blood – works on the principle of normalisation of blood conditions and immunity, increasing this way the resistance of live tissues to bacteria, viruses and infections. It leads to the incerase of quality of life and to the treatment or suppression of primary disease or accompanying complications.

The study of Mr. Sizov and Maslov /1999/ studied the effectiveness of laser therapy in HIV/AIDS treatment. They have irradiated the blood, bone marrow and immuno-competent zones of human body. The conditions of patients improved already after one application of laser therapy. The normalization of blood was proven and the immunity improvement. Bz the majority of patients the disease did not proceed to the heaviest stage during and after the treatment http://www.milta.kiev.ua/pubs/BOOK2/g23.html

On the basis of these results, positive effect of laser on the blood and immunity can be expected in most cases diagnosed with HIV/AIDS.

Clinical studies carried out in Russia on HIV/AIDS ???/???? show that the complex laser effect is efficient and brings results. It leads to effective normalization /modulation/ of blood. It also leads to the improvement of general patients´ conditions of patients, lifesaving and improvement of quality of life through elimination of AIDS related illnesses. Monitoring shows that positive results of treatment persist for a relatively long time, i.e. 6 to 12 months after last treatment.

Nasal and Blood Laser enables a day-to-day blood irradiation and this causes that the effect lasts for a long time. It enables also surface irradiation of biologically active points. Several sources find such combined therapy to be effective and efficient. However, crucial is the blood irradiation through nasal cavity with the complex curative effect on the whole human body. In the case of HIV diagnosis, some resources list regions/points such as: veins in the region of elbow, region of projection of thymus, projection of liver from the front, projection of spleen from the front, armpit and vertebra and other imunity related points.

Ing. František Kokoš, Yalong Trade s.r.o.


Blood can be irradiated by either the intravenal, the skin or the intranasal method, with the lattermost one becoming the most spread these days. The intravenal method is the most widely described one, since there exist hundreds medical studies about it and it has been used in Russia for 20 years and in Germany and other countries of western Europe for over 10 years. The intranasal method has been applied for 10 years and its mechanisms are the same. Nasal blood irradiation, however, also stimulates Your meridians, since the laser light works as a needle in acupuncture, i.e. it stimulates the acupuncture points within the nose.

The first doctors to use the internal blood irradiation method were cardiosurgeons E.N. Meshalkiny and V.S. Sergievski (1981), followed by gradual applications of the method in stomatology, endocrinology, urology, cardiology, surgery and neurosurgery, gastroenterology, oncology, lung medicine and other areas of medicine.

The effects mentioned below belong to the basic mechanism those ILBI (Intranasal Laser Blood Irradiation) treatment factors that are cited during almost all activities concerning laser blood irradiation:

Correction of cellular and humoral immunity, increase in the phagocytic activity of macrophagues, increase in the bactericidal activity of the blood serum and complementary systems, decrease in the levels of the C-reactive protein, the medium molecules and the plasma toxicity, increase in the amount of the IgA, IgM and IgG immunoglobulins in the blood serum , the change in the level of circulating immunity complexes, increase in the number of lymphocytes and a change in their functional activity, increase in the capability of T-lymphocytes to form rosettes and in the DNA-synthetic activity of the lymphocytes, stabilization of the relation of T-suppressors and T-helpers, increase in the non-specific resistance of the organism, improvement in the rheological properties of blood and microcirculation, regulation of the blood`s haemostatic capacity, impacts on blood vessel dilation, anti-inflammatory effect, analgesic effect, normalization of ion composition of the blood, improvements in the blood function of oxygen transportation and decrease in the particle voltage of carbon dioxide, arterial-venal difference in the amount of oxygen is increased as a sign of normalized tissue metabolism, normalization of proteolytic activity of the blood, increase in the anti-oxidizing activity of the blood, normalization of POL (peroxide oxygenation of lipids) processes in cell membranes, stimulation of erythrocytes, stimulation of intracellular DNA-correction systems in case of irradiation by radioactive materials, normalization of exchange processes (of lipids, proteins, hydrocarbons, intracellular energy balance), normalization and stimulation of regeneration processes.


How come it works with so many diseases?
Is it not harmful?

The universality of low-energy laser irradiation`s biological effectiveness, and particularly the method of blood irradiation, is conditioned by the influence on regulation and homeostasis support on the lower cellular and subcellular levels. However, the irradiation also corrects physiological reactions on higher levels. The pathological focal points of these processes are the first places in which people notice an improvement, but enhancements of rheological blood properties and microcirculation help to spread the improvements into all organs. This is why it works with so many diseases.

Only a very small amount of energy enters into the organism, only about 9Joule / 5mW during 30min. (or 1 800 sec.). Part of it leaves the body immediately. Just for illustration, a daily dose of consumed food brings more than a million times greater amount of energy into our body. The laser light energy is absolutely clean, it is not affected by digestive processes and is totally without harmful constituents. It is much cleaner than what we breathe, eat or drink. This energy helps the state of the human organism to normalize. Laser blood irradiation has normalizing and regulative effects – it uses the organism`s regulatory mechanisms to either stimulate or hinder certain activities when necessary. The answer therefore is – it is definitely not harmful. The effect is only and purely a normalizing one, working on a scale allowed by the particular body.

Laser blood irradiation triggers changes in blood production elements, changing the properties of blood itself (blood plasma composition, rheological properties etc.) which leads to reactions on the level of whole organs and tissues.

When suffering from a disease, blood properties become particularly significant. Only pathological affection (infection, influence of various substances) on blood itself exposes it to changes. Biochemical changes that our blood experiences during lifetime are a reflection of emerging damage to our organism. Our organs are connected to each other by blood vessels and blood. Our blood is therefore a kind of reporter of everything that takes place in our body. One of the first things low-level laser blood irradiation triggers is the activation of microcirculation. It works on the tissue level, its performance is universal for all organs, where it helps with restructuring by means of intensifying certain functions of cell parts.

Improvements in microcirculation and supplying of various tissues with oxygen by means of ILBI (Intranasal Laser Blood Irradiation) are closely connected to the positive effects of low-level laser blood irradiation on the exchange of substances, because it also increases the oxygenation of energy materials – glucose, piruvat, lactose. [Skulchenko V.V., 1991].

Blood Laser Therapy for the heart and Circulation

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Sadly The web page authors after 25 years of working with alternative health in our Free alternative clinic,are not allowed to endorse the accuracy or reliability of any of the information, content or guidelines (collectively, the "Materials") contained on, distributed through, or linked, downloaded or accessed from these links. You hereby acknowledge that any reliance upon any Materials shall be at your sole risk.

1)Not suitable for the following groups:cancer patient,pregnancy ,patient with hemorrhagic disease.
2)Children shall only use the instrument under the direction of their parents.
3) The elder patients and sensitive patients must accept the low-power and short treatment at the beginning,the rate of work could be increased as the body adjusts.

Those of You interested in the matter of laser blood irradiation are welcome to check out the following links that will help you learn more. For specialists, we recommend the book written by

Gejnic, Moskvin, Achilov: Intravenal laser blood irradiation, which is a comprehensive source of information you won`t find anywhere else. A part of it is published on Russian servers. We have acquired information from many sources from this article. We focus Your attention to S.V.Moskvin, a significant specialist in this field and the author of the article published on the Medprosvet website. You can find more information on the websites below.


• http://www.matrixlaser.ru/?page=media&act=pubs&subact=6
• http://www.matrix-mustang.ru/?page=products&act=laser&subact=VLOK-405
• www.egla.de
• www.webermedical.com
• www.walt.nu
• www.laserpartner.cz
• www.laserpartner.org
• www.laser.nu
Ing. František Kokoš, YALONG TRADE s.r.o., 10.6.2009, revised on 26.11.2009.