Katarina,
Thank you for posting the instructions for such
a helpful low cost instrument. Have you (or
anyone else out there) heard of other uses for
this device (the nebulizer {using an airbrush} )
for applying CS to the lungs.
How about for chestcolds, coughs, to help the
lungs before or after quitting smoking?
Bil
----- Original Message -----
From: Katarina Wittich <kato...@mindspring.com>
To: Silver A <silver-list@eskimo.com>
Sent: Wednesday, December 01, 1999 2:10 PM
Subject: CS>Nebulizer Instructions
> Dear List members,
> Here are Brooks' complete instructions for making a nebulizer.
> In the future we can tell people to do a search for Nebulizer instructions
> in the archives.
> Katarina
>
>
>
>
> > From: Brooks Bradley <liat...@flash.net>
> > To: silver-list@eskimo.com <silver-list@eskimo.com>
> > Date: Friday, April 23, 1999 10:45 PM
> > Subject: New Experimental CS X Oxygen Protocol For Unresponsive
> > Pulmonary Pathogens
> >
> >
> > To all interested list members,
> >
> > I would like to relate an experimental protocol recently developed by
> > one of our younger (and brighter) staff members. He originated the
> > idea and assembled all parts into a working model in less than two
> > days-------after his original inspiration.
> >
> > The original problem manifested as a result of our fruitless search
> > for some effective procedure for attacking the bi-lateral form of
> > those bacterial pneumonias which have proved non-responsive to all of
> > the anti-biotic protocols. This challenge has been especially dear
> > to our hearts since one of our engineers lost his 47 year old wife (a
> > wonderful school teacher), at the age of 47--------nine years ago.
> >
> > We have used this system on 3 volunteers----and this only----within
> > the past four weeks. However, we have been absolutely astounded by
> > the results.
> >
> > One 75 year old ashma sufferer, unable to gain more than momentary
> > relief during the past 8 years, was able to dispense with his very
> > labor-intensive (unbelieveably costly) hospice-assisted protocols
> > ............ 18 days after undertaking this protocol. We now suspect
> > that his ashma was the result of some form of secondary bacterial
> > pathogen......this because of the speed and degree of his recovery.
> >
> > Another of our volunteers (71 years), afflicted with a sub-clinical
> > 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)
> >
> > The third volunteer was an 81 year old male, completely
> > non-responsive to all therapies for bi-lateral pneumonia of a
> > bacterial nature. This condition had persisted for 6 months and he
> > was approaching a moribund state, very rapidly.
> >
> > 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-CS 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. Yesterday (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 "schock" over the
> > developments. His analysis is this is the most pronounced case of
> > "spontaneous remission" in his 30 years of practice. No one has
> > informed the M.D. of our experimental protocols, used on this
> > volunteer. Our volunteer's immediate family is so irate over the
> > fact that his alleopathic pulmonary "team" was totally unable to
> > reverse his decline toward immediate life-departure (the crisis
> > management team did offer to place him on 100% life support until
> > clinical death) they wanted to instigate some form of legal action.
> >
> > We reminded them of their earlier agreement with us, that regardless
> > of the outcome of our experimental protocol, "neither the procedural
> > result nor the protocol itself, would be broached with the
> > volunteer's alleopathic counsel".
> >
> > Additionally, based upon the anecdotal nature of this one case, there
> > is no way to prove efficacy.
> >
> > THE PROTOCOL: This consists simply of using a nebulizing system
> > constructed from 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 economcal 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 5 ppm CS, 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/CS
> > fog mixture into their mouth-----and inhale directly into the
> > pulmonary system. At the end of each inhalation, the volunteer simply
> > released pressure on the button and shortly exhaled. This procedure
> > was repeated until the entire contents of the 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 (24 hours) for
> > the entire duration of these researches.
> >
> > I will post the bill-of-materials, plus assembly details in another
> > post sometime tomorrow. However, as a word of encouragement for
> > those unable to afford the $680.00 for a hospital-type nebulizer,
> > the total cost of our assembly, less the oxygen bottle and regulator,
> > was less than $20.00. Additionally, our particle size was BETTER from
> > the $10.85 Taiwanese bargain air brush than from our $680.00
> > hospital-grade nebulizer (at least our measurements indicated so).
> >
> > I will also, tell you where you can purchase these air-brush kits. We
> > have already purchased 20 of them, outfitted them, and given them to
> > very needy Experimental Volunteers of a charity nature.
> >
> > Within the next 8 weeks, we should have some useable "raw" data,
> > which I will attempt to share with interested list members. Please
> > forgive this lengthy post, but my excitement over this exceptionally
> > low-cost----and promising protocol, has been keeping me awake
> > nights......lately. May you all be well.
> >
> > Sincerely,
> >
> > Brooks Bradley.
>
> ----- Original Message -----
> From: Brooks Bradley <liat...@flash.net>
> To: <silver-list@eskimo.com>
> Sent: Sunday, 25 April 1999 10:12
> Subject: CS>Parts List and Comments on CSXO2 Nebulizing System
>
>
> Good Afternoon List Members.
> Following is a list of the components required for enabling
> the protocol we used in the experimental researches I outlined last
> evening.
> The air-brush kit we used, was obtained from a mail-order
> concern specializing in myriad hardware/electrical/hand-tool items.
> Their quality is toward the low-end industrial, but quite adequate for
> the home/hobby user. Our machine shop/proto-type builders have used
> them for years. The company is Harbor Freight, located in Camarillo,
> California. They now have outlets in one or two other cities. We
> obtained our air-brush kits from the Fort Worth, Texas store (we are
> located in Fort Worth). The stock number is #6131. Our purchasing
> person informed me this item cost us less than $10.00 each, and the
> last 20 purchased cost less than $8.00. As of last Wednesday, this
> store still had some of these units. 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 5-10 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 foo-proof, as there is nowhere else to connect). Now
> SLOWLY open the O2 control knob on the O2 regulator and set the inlet
> prssure 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.
> Our best results were obtained by the volunteer inserting
> the discharge nozzle about 1 inch inside their OPEN mouth and
> breathing deep---an long---on each inhalation; holding the breath for
> a count of 3 or 4 and then executing a complete exhalation. 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------works great.
> Remember NEVER USE PURE OXYGEN NEAR OPEN FLAMES OR
> COMBUSTIBLE MATERIALS. To do so would make this protocol quite
> irrelevant.
> Good luck to all, and if you have any questions just post
> them and I will try to answer. Sincerely. Brooks Bradley. p.s.
> Any serviceable air-brush assembly could be used. However, try to
> obtain one that will yield the smallest size particle possible.
>
>
>
> ----- Original Message -----
> From: Brooks Bradley <liat...@flash.net>
> To: <silver-list@eskimo.com>
> Sent: Sunday, 25 April 1999 11:08
> Subject: CS>P.S. To CS X O2 Hardware Assembly Instruction Post
>
>
> Dear List Members.
> I failed to include a suggestion, which some may find of
> critical importance. 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, youmay 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 CS into the VOLUNTEER
> animal/pet 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.
> Sincerely. Brooks Bradley.
>
>
>
>
>
>
>
>
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