"Provided in the present invention is a method for initiating the proliferation, migration and differentiation of stem cells in mammals, comprising the following steps: preparing a stem cell initiation agent containing chlorine dioxide and administering the stem cell initiation agent to target tissues of mammals, wherein an effective amount of chlorine dioxide is provided when administering the stem cell initiation agent to the target tissues of mammals. Also provided in the present invention is the use of chlorine dioxide in the preparation of a drug for initiating the proliferation, migration and differentiation of stem cells. The method of the present invention has a broad application range, and is suitable for various requirements of treating diseases using the tissue regeneration ability and immunity regulation ability of stem cells or prompting the initiation of the proliferation, migration and differentiation of stem cells in injured organs and organisms having regenerated tissues; furthermore, using the method of the present invention, the proliferation, migration and differentiation of stem cells can be initiated quickly and moderately; and the method has few side effects or no side effects, and can continuously be used for initiating the proliferation, migration and differentiation of stem cells." "The chlorine dioxide-containing stem cell promoter of the present invention can be administered by any route which can reach the intended tissue, for example, by intravenous drip, intravenous injection, intraarterial injection, intramuscular injection, subcutaneous injection, Intradermal, intracardiac, intraperitoneal, intrathecal, intraarticular, puncture, rectal, sublingual, nasal, transdermal, inhalation or topical administration to damaged organs or Organization, etc., "

****!!!!**** {Related to Alcide chlorine dioxide product} "Methods for preventing and treating microbial wound infections, especially of peritoneal cavity wounds including those having indwelling catheters, and enhancing wound repair while minimizing adhesions and scar formation involve the infusion or irrigation of the wound with a solution containing a pharmacologically acceptable carrier and chlorine dioxide in an amount ranging from about 5 ppm to 1000 ppm, and having a chlorine dioxide to chlorite ratio of at least 5:1. Typical solutions contain chlorine dioxide in isotonic saline and exhibit a pH of from about 5 to about 7.5. Sodium chlorite is employed in preferred embodiments." "formation of scarring and/or fibrous adhesions. An additional feature of ClO2 and related oxychlorine systems is their capability to inhibit the stimulation of fibroplasia, the proliferation of fibroblast cells and expression of collagen, which ordinarily ensues following wounding. As shown in the examples that follow, the oxychlorines resulting from acidification of chlorite to form chlorous acid significantly inhibits fibroblast proliferation and collagen formation." "A further study confirming the effect of ClO2 on wound healing set out in greater particularity below combines an investigation of the immediate cellular response (chemotaxis) of the body to injury using isolated polymorphonuclear leukocytes, and another investigation assessing the interaction of ClO2 with free radicals which form during the course of tissue repair collagen synthesis. In the former case, ClO2 was found to control chemotaxis by affecting the quality and morphology of the associated polymorphonuclear leukocytes. In the latter case, the ClO2, which is a stable free radical containing one unpaired electron, was found to neutralize the superoxide and related radicals involved in the process of collagen production." "solutions of 350 ppm in buffered saline have been shown to be safely infusable into cows' udders without stimulation of any immune response by the animals" "In contrast to antibiotics, systemic absorption of the compositions of the invention is minimized in treatments using them because of the inorganic nature of chlorine dioxide, and its reductive degradation to chloride as a result of its interaction with organic matter (including bacteria, fungi, and viruses). It is important to note that materials may be non-inflammatory (i.e., not provoke inflammation) but not anti-inflammatory (i.e., counter the effects of inflammation). Chlorine dioxide has been found to be non-inflammatory, by virtue of being infusible into the peritoneal cavity and other body cavities without evoking the inflammatory response, as well as being anti-inflammatory; see the copending U.S. application Ser. No. 08/133,465, filed Oct. 8, 1993, and parent case U.S. Pat. No. 5,252,343, cited and incorporated by reference above. In order to utilize the germ-killing and non-inflammatory qualities of chlorine dioxide, it is preferable to isolate it from chlorites and its acidic form, chlorous acid" " the lactate so formed may enhance angiogenesis, collagen synthesis and deposition, and modulate the response of fibroblasts to growth factors in the wound ...In embodiments where these effects are not desired, organic acids other than lactic acid are employed." "ability of the chlorine dioxide solutions to bring about a marked reduction in Staphylococcus epidermidis biofilms" "The 50 ppm ClO2 solution, on the other hand, is well tolerated by mammalian tissue, as, for example, when used as an eye irrigant, to treat bacterial infections induced in rabbits, to infuse into a cow's udder, or as a uterine douche for mares and cows in the prevention and treatment of endometritis." "a chlorine dioxide concentration of about 7.5 ppm inhibits free radical formation by 74% and at a concentration of 15 ppm, by 100%." "If the solution is prepared in the presence of a phosphate buffer which immediately neutralizes the lactic acid, the formation of chlorine dioxide is inhibited in the system. The solution has no inhibitory effect with rat fetal lung fibroblasts. Thus, it is not chlorite ion that is operative, but ClO2."

"29 patients underwent local treatment with TCDO (Oxoferin) while Beta-isodona was used in 31 cases." "Oxoferin induces a development of granulation tissue on exposed tendons, bones, and fasciae and the granular tissue is of much better quality than after treatment with Betaisodona. Concerning its effect on the degree of contamination, Oxoferin proved to be at least as efficacious as the established and effective antiseptic Betaisodona. Both substances are tolerated well and the application is simple"

******!!!!********* "inhaling high concentration ClO2 gases for an extended time can be dangerous for human health because the alveolar membrane is extremely thin (a mere 1-2 microns and in some places even below 1 micron). The effect of ClO2 in these membranes is somewhat counterbalanced, however, by the intense blood circulation there." "O2 can remove biofilms swiftly [12] because it is highly soluble in water and unlike ozone it does not react with the extracellular polysaccharides of the biofilm. This way ClO2 can penetrate into biofilms rapidly to reach and kill the microbes living within the film."

{Includes Alcide chlorine dioxide} "The repair processes of incised wounds depend, in part, on fibroplasia induced by soluble mediators from monocytic macrophages. Two topical antimicrobials were evaluated, each of which effectively controlled wound sepsis and yet each had widely different effects on fibroplasia and wound strength." "Alcide-treated wounds incorporated less than 50% of the amount of 14C-proline than did the wounds treated with C31G. However, Alcide-treated wounds epithelialized as rapidly as did control wounds, and had minimal scar formation. Microscopic evaluations indicated greatly reduced inflammatory infiltrates in Alcide-treated wounds, indicating that reduced wound strength may be associated with lack of fibroblast-stimulating activity by monocytes. "