Guest guest Posted October 27, 2001 Report Share Posted October 27, 2001 It's about time I posted this thing again....because though it's a pneumonia article, it's also useful for Anthrax, any drug-resistant lung infection, and most fungus - ANY thing that silver will kill (650 and counting). Note that the oxygen propellant is there because oxygen is known to cofactor with silver to produce up to 1000 TIMES the effectiveness of either one alone. Keep this post alive - forward widely. ______________________________________________ Tackling drug-resistant pneumonia with colloidal silver Body Electric I have a fellow researcher to thank for this life saver-- Bradley, a senior partner of a privately funded non-profit research facility that does not accept donations. Here it is, straight from the lab: We are a STRICTLY experimental research organization. I am simply relating a case in which a non-toxic protocol seemed efficacious in a very CHALLENGING circumstance. The original problem manifested as a result of our fruitless search for some effective procedure for attacking the bilateral form of those bacterial pneumonias which have proved non-responsive to all of the antibiotic protocols. We have evaluated colloidal silver and many methods of its employment. Only one method was ever rapidly effective in an " essentially terminal " evaluation. The methodology employed in these experiments included the following protocol: Using a very fine particle nebulizer, a 25 psi to 35 psi, regulated O2 supply as the gas drive and a colloidal silver mixture compounded as follows: Starting with 8 ounces of 10 ppm colloidal silver (warmed to approx. 105 degrees F.) dissolve MSM in this solution to the point of saturation (until no more will go into solution); next add 20 per cent by volume of DMSO to the parent mixture. A volunteer (male, 72 yrs.) was suffering from late-stage bilateral bacterial pneumonia. Using this material in a very simple nebulizer fashioned from an artist's airbrush, we witnessed an astonishing, rapid, recovery from this moribund individual. The patient used approximately 3/4 of an ounce of liquid every 4 hours. Within 48 hours his lungs started to clear (his lung capacity had been around 25 per cent and his attending physcians had openly resigned themselves to his immediate demise). The rapid onset of pus and mucosa-bound bacterial debris did, indeed, place a biological challenge on him. The volume of this material was astonishing. We believe that the accompanying oxygen plus the transporting capability of the MSM/DMSO combination, were critical to this splendid outcome. Another of our volunteers (71 years), afflicted with a subclinical bronchial infection, non-responsive to any protocol including Rife Beam Ray Therapy, has improved by at least 75% within the past 21 days, and shows every indication of complete resolution within the next week or so. This volunteer was in perfect health in every other way except for the bronchial disorder (complicated by a minor but persistant post-nasal drainage). A third example is an 81 year old male, completely non-responsive to all therapies for bilateral pneumonia of a bacterial nature. This condition had persisted for 6 months and he was very rapidly approaching a moribund state. 24 hours after beginning this protocol, he encountered a very serious crisis evolving from major Herxheimer's Reaction. Pustule formation was so rapid and intense, 100% oxygen support was required and the treatment protocol was suspended for two days while the volunteer's condition was stabilized. Two days after resumption of the oxygen-colloidal silver protocol, no supporting O2 therapy was required as the subject was fully able to breathe adequately unassisted. The volume of sputum/pus fluid was massive. Excepting very sore chest area (from prolonged coughing) the volunteer was much improved. Within five days he became very alert and began to overcome his narcoleptic tendencies. Within ten days he became ambulatory again. Within 15 days his lungs were unobstructed enough he could breathe fully, with no audio evidence of fluid presence in the pulmonary tract. On the 21st day his lungs checked to be 90% clear, with only one tiny spot in the lower left quadrant of the left lung. His M.D. pulmonary specialist is in a state of " shock " over the developments. His analysis is this is the most pronounced case of " spontaneous remission " in his 30 years of practice. Deep, slow inhalations where the volunteer discharged the mist for approximately 4 or 5 seconds, shutting it off while continuing the inhalation to the count of 8 seemed the ideal. If the volunteer had insufficient lung capacity to maintain an 8 second inhalation, the ratio should be maintained at 50 per cent e.g. 6 seconds = 3 seconds on for airbrush discharge, + 3 seconds continued inhalation after airbrush shut-down. This procedure was repeated until the entire contents of the small air brush supply bottle was below the intake point of the supply-siphon tube (about 50-75 breaths total). This protocol was employed twice daily for the entire duration of these researches. Ideally, there should be about 1/4 " circular clearance around the air brush head while inside the mouth, as this provides the optimum venturi action for incorporating air with the O2. In acute circumstances, the volunteer can close his/her mouth completely around the nozzle and breathe 100% O2. Call me for construction details. Considering the options, and the recent 600 per cent rise in drug-resistant infections, wouldn't you like your doctor to be aware of this method? Clip and keep. The life you save could be your own. The nebulizing system consists simply of a conventional artist's air brush assembly, with modified pneumatic plumbing facilitating its connection to a pressure-regulated pure O2 supply. The air brush mechanism was chosen because it provides an exeptionally economical means of furnishing a very small particle aerosol fog (4 micron vicinity). Using a very simple adapter from the air brush pressure regulator, to the O2 supply hose coupling, plus a standard welding system size oxygen fitting (female), the assembly is connected directly to the Oxygen port outlet from either a small medical-type O2 bottle or a standard welding system O2 bottle outlet (they both contain the same purity oxygen). Using the small fluid-supply bottle which comes in the air brush kit, then filling the supply bottle approximately 3/4ths full (about 1/2 ounce) of 10 ppm colloidal silver, we were ready to start. The O2 system (we used two-stage regulators) was SLOWLY set for constant regulation at 35 psi, at which point the system was ready for use. We placed the air brush in the hand of the volunteer, who in turn pressed the push-valve button when they wanted to direct the O2/colloidal silver fog mixture into their mouth and inhale directly into the pulmonary system. As a word of encouragement for those unable to afford the hospital-type nebulizer, the total cost of our assembly was very low indeed. And our particle size was better from the cheap Taiwanese bargain-brush than from our hospital-grade nebulizer (at least our measurements indicated so). Most commercial oxygen bottles are charged to a VERY HIGH pressure (in the neighborhood of 2000-3000 psi). Safety concerns recommend that a two-stage regulator is a wise precaution. In case of a regulator malfunction wherein the safety burst-disc failed to rupture, the down-stream portion of your system would be exposed, instantly, to system pressure if only a single-stage was employed. Not a very desireable circumstance involving O2 at 2000 psi. Two-stage regulation mitigates this risk. Remember -- never use pure oxygen near open flames or combustible materials. To do so would make this protocol quite irrelevant. I suggest supplementation with vitamin D as this will improve the immune response and help with autoimmune regulation and Alpha Lipoic Acid which is a powerful antioxidant and regenerator of the cellular scavenger Glutathione, which I am led to believe provides some protection to lung tissue. If you do not have immediate access to an O2 supply, and encounter an EMERGENCY experiment, you can connect into any available air compressor outlet (however, you may have to change out the compressor-side fitting). To be safe, let the air compressor charge to 35 psi and disconnect it from the power grid. There will be ample air pressure to execute your protocol. The air brush will function quite well to below 20 psi. Although your air supply may be contaminated, the alternative to getting colloidal silver into the VOLUNTEER animal may a much more grave situation, We had excellent, but less spectacular results using compressed air as the driving medium in some animal experiments in 1998, when addressing some serious pulmonary compromises involving felines. The company with the cheap air brush is Harbor Freight, located in Camarillo, California. (www.harborfreight.com) The stock number is #6131. Included in the kit are two liquid supply bottles (one 1/2 and one 1 oz), one air hose which couples between the pressure regulator and the air-brush assembly; one air pressure regulator; and the air-brush assembly itself. The additional parts required are for a hose assembly which facilitates coupling the input side of the air pressure regulator with the external oxygen supply used to power the nebulizer. Note: PURCHASE BRASS FITTINGS ONLY, oxygen is the pre-eminent combustion supporter. All of these components can be obtained from any commercial outlet stocking pneumatic system parts. This hose assembly includes: One 1/4 " Compression X 1/8 " Male NPT fitting (this is very important, for without it you cannot connect the O2 hose to the air-brush pressure regulator) One 1/4 " Barb X 1/8 " NPTF fitting. One 1/4 " X 9/16 RH Oxygen Fitting (will have a barb fitting on one end and the female coupling on the other). Approximately 4 feet of any good !/4 I.D. 200+ PSI air hose. Tell the clerk you are going to use oxygen in the hose. Assemble the parts by screwing the compression fitting into the 1/4 " barb X 1/8 " male NPT fitting. Do not worry, only one end of the compression fitting is compatible with the barb fitting. Next, insert the barb end of this fitting assemby into the air hose. Push the hose on until it is jam against the shoulder of the fitting. Any small, screw or compression-type clamp may be used to add security to the hose/fitting end. Next, insert the barb end of the oxygen fitting into the remaining hose end and secure with any satisfactory clamp. Your assembly is now complete. Next, carefully screw the exposed male end of the compression fitting into the bottom of the air brush pressure regulator. Now connect the small-diameter air-line between the air brush assembly and the pressure regulator (it is fool-proof, as there is nowhere else this tiny hose can connect). Select the small fluid-supply bottle and fill approximately 75-80% of capacity with 10 ppm colloidal silver and insert the angled tip assembly into the bottom of the air brush assembly. You are now ready to connect to your O2 supply and operate. Obtain a small medical O2 bottle (anywhere around 1/2 to 1 cubic feet capacity) or any size O2 arc welding system bottle. Be sure to have a two-stage regulator attached to the O2 bottle. Now connect the 9/16 " Oxygen-fitting to the O2 outlet from the two-stage regulator (also foolproof, as there is nowhere else to connect). Now SLOWLY open the O2 control knob on the O2 regulator and set the inlet pressure to your nebulizer assembly to a Maximum of 35 Pounds Per Square Inch (PSI). Next, screw the air brush air pressure regulator control knob (the tiny knob on top of the air pressure regulator) all the way closed.. Now, open the control knob about 2 and one-half turns. Next trigger the control botton on the air brush head until you see a fine fog each time you press down on the button. The mist is so fine, you may have to hold it against a dark back ground to see it. You are now ready to go. --- Outgoing mail is certified Virus Free. Checked by AVG anti-virus system (http://www.grisoft.com). Version: 6.0.264 / Virus Database: 136 - Release Date: 7/2/01 Quote Link to comment Share on other sites More sharing options...
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