From: treon3verdery@gmail.com   
      
   balloon angioplasty with paint coating prevents stuff breaking off and causing   
   strokes, lipid surface reactive paint, cyanocrylate surgical glue paint and   
   drain blocker, even protein reactive michael reaction paint are diffused out   
   of the angioplasty    
   balloon after it squishes the cholesterol flat   
      
   Reflector behind chest or cofocal ultrasound liquefies coronary artery plaque,   
   apertures could be used, as could waveguides, to make narrow beam ultrasonics,   
   as well as volume filling gratings, this liquefaction could come after balloon   
   angioplasty and    
   paint, and be a 8 minute exposure where the circulatory fluid through the   
   carotid is tapped and shunted through a filter to remove stroke causing   
   particles for an hour during and after the 8 minute ultrasound exposure, its   
   better to use only local    
   anesthetic so the patient can continually comment on how they feel, another   
   possibility is an ultrasonically vibrating balloon angioplasty balloon core   
   that simply disintegrates away plaque at the areas it touches, sufficiently   
   high ultrasonic power can    
   be used to make sure the plaque is liquified, cholesterol plaques may have a   
   different resonance frequency from artery tissue, ultrasound at that   
   cholesterol frequency, made àt an angioplasty balloon would be especially   
   harmless to the coronary arteries,   
    resonant mass, external ultrasound driven, another possibility is a laser,   
   with the light being on the surface of the angioplasty balloon, making slices   
   smaller and shallower than the diameter of a brain capillary, repeatedly until   
   the entire plaque is    
   removed, this has the benefit of skipping the carotid shunt, the laser could   
   be in a programmable outside machine, and reach the angioplasty balloon with a   
   polymer fiber optic, because laser comminution might be impeded by   
   erythroctes, the outer surface    
   of the photonic angioplasty balloon would have a transparent goo layer that   
   optically connects laser to plaque, based on the programmability of the   
   machine a nurse or "photonic angioplasty tech" could do the procedure, making   
   it 4-8 times more affordable    
   than a physician, reaching more people beneficially   
      
   I think wikipedia ghost imaging can be used to map the seafloor and floor of   
   large bodies of freshwater, providing valuable mineral location information   
      
   Diffusion gel balls at nasal sprays assist what were injected vaccines,   
   peptides, epigenetic RNA drugs to be strong enough to function as snorted   
   vaccines, peptides, and RNA epigenetic drugs, the ball is a depot that   
   diifuses a drug at higher doses over    
   many hours, to get the drug as near to the nasal membrane as possible gel   
   balls have mucolytic chemistry, this technology increases the convenience of   
   vaccination so more people are willing to get vaccinated, one thing a nasal   
   ball .5mm could do is have    
   gradually dissolving electrochemistry like a battery, with AgZn duometal   
   chemistry of .01mm diameter, this causes the entire surface except one   
   electrode to be an electrochemistry anode on the surface of the ball, pushing   
   drug ions into the space around    
   it like the nasal membrane   
      
   Battery technology circular fractal depthy surface  is a thing that increases   
   anode/electrode surface area, this circular fractal can be cheaply   
   accomplished with a grating/hologram and an etching laser doing many   
   preassembly anodes/electrodes in    
   parallel,    
      
   at a different battery technology apply high voltage and current to   
   electrodes/anode to purposefully grow dendrites before assembly into   
   batteries, then use laser peening or laser excavation to flatten or remove the   
   dendrites, this neutralization of    
   dendrite locations preclude some dendrite growth at the electrodes/anode from   
   exhausting what could be thought of as nucleation sites for dendrites, when   
   actually assembled with battery chemicals into a battery this increases the   
   number of recharge cycles   
      
   At batteries that contain a liquid electrolyte the equivalent of hydration   
   shells or solvation shells may effect chemical reactivity, various additives   
   could effect the size of the solvation shells, smaller number of solvation   
   shells could increase    
   chemical reactivity delivering more current faster from a battery, minimized   
   numbers of solvation shells could make recharging batteries faster   
      
      
    ch4 solvation shells and reactivity, a three chemical system could dissolve   
   methane in a cooh lengthy or short alkane or polyunsatureated C=C lipid, then   
   the solvation shells in the cooh-alkane could effect ch4 reactivity, and could   
   increase ch4    
   reactivity, so the third chemical is a solvation shell amount adjustor,   
   another chemical or electrical discharge could then more easily combine ch4   
   together from dielectric breakdown of methane dissolved in the cooh-alkane or   
   cooh-polyunsaturated    
   molecule, as an example ch4 likely has high dissolvability in liquid butane,   
   or cooh-butene, then that mix, sandwiched between electrodes is electric high   
   voltage treated, breaking down the dielectric character of the methane   
   dissolved in butane or    
   butene, combining ch4 with ch4 to make a more valuable longer alkane, if it   
   takes 1 high voltage kilowatt to generate the joule equivalent of 100   
   kilowatts of new ethane and higher molecular weight alkanes from zapping ch4   
   thats useful, the breakdown    
   voltage to combine ethane with another ch4, is likely a different dielectric   
   breakdown voltage, and so on with different dielectric breakdown voltages all   
   the way up to octane, so at a chemical plant, different sequential voltages   
   would be used to push (   
   metaphor zone refining) the reaction products towards octane and nonane, tall   
   chemical plants (petroleum crackers) are known to autosort the alkanes by   
   mass, with heavy tar at the base, octane at the middle, and methane at the   
   top, what is called tray    
   packing could now include different high voltages of trays for dielectric   
   breakdown of methane microbubbles introduced at the base, transforming the   
   molecule and incorporating the electrically generated Ch3 and ch2 ions into   
   the lighter than octane    
   hydrocarbons   
      
      
   [continued in next message]   
      
   --- SoupGate-Win32 v1.05   
    * Origin: you cannot sedate... all the things you hate (1:229/2)