Abstract:
Minimizing the leaching of iodine through packaging containing organic iodophor solution, by introducing into the packaging an amount of additional iodide which minimizes leaching of the iodine through the packaging and stabilizes the iodophor solution therein. The iodophor is preferably polyvinylpyrrolidone iodine.

Description:
BACKGROUND OF THE INVENTION 
     The present invention is directed to minimizing loss of iodine from an iodophor solution, notably polyvinylpyrrolidone iodophor, which is stored within a packaging. More specifically, the present invention is directed to a method for minimizing this loss, and to the packaging provided therefor, in which a certain minimal level of additional iodide is provided, in addition to the iodophor solution, which prevents or minimizes leaching of iodine through the packaging itself. 
     Combination of elemental iodine and certain organic polymers, e.g., polyvinylpyrrolidone and detergent polymers, have been termed iodophors. The organic polymers used to form an iodophor comprise a broad range in molecular weight and chain length, and may be either ionic or non-ionic in character, as well as possessing either surfactant or non-surfactant properties. A loose bond forms between the iodine and organic polymer to form a complex. Aqueous solutions of up to about 30% in iodine content, may be prepared. 
     The general method for the preparation of a iodophor complex is to bring into intimate contact, elemental diatomic iodine with the selected polymer, either in the dry or powder form or in the presence of a suitable solvent. Heat may be used to accelerate complex formation. Upon completion of the reaction, the iodophor complex of the respective polymeric carrier with iodine is obtained in certain reproducible proportions of one to the other. 
     Iodophor preparations are described in terms of available or titratable iodine which is considered to be the iodine released from the complex to exert germicidal action thereof. However, such available iodine determinations do not reflect either the total iodine content of the iodophor, or its germicidal potency. The iodine moiety of polyvinylpyrrolidone (povidone)-iodine complex is present in an aqueous iodophor solution in the form of different thermodynamically stable anionic iodine species and diatomic iodine. The anionic iodine forms are capable of generating diatomic iodine in the course of their respective equilibrium reactions. The anionic species do not distribute themselves into an extracting solvent which removes only the nonionic iodine. Such iodine is generated in the course of the iodine equilibrium reaction and extraction thereof by a solvent fractionates the equilibrium state. The disturbed equilibrium reaction is soon re-established to restore new anionic iodine species, but now at a different concentration level since the previous aqueous iodine content of the solution has been reduced by the extracting solvent. 
     Since the iodophor iodine exerting microbicidal action exists in solution in dynamic equilibrium with ionic iodine species, removal of one or more of the iodine species results in formation of new equilibrium forms. An extracting solvent removes or consumes iodine from the iodophor solution in a manner similar to that of a microbial and organic load during degerming use of the iodophor solution. The amount of iodine available for germicidal action in an iodophor preparation therefore is the amount of iodine in equilibrium in the solution at the time of use. Such equilibrium iodine content represents the germicidal potency of the preparation, but not the total iodine content titrated for the preparation nor the apparent distribution of the iodine forms. Although iodophor solutions have been assayed in the art for available or titratable iodine, it is the equilibrium iodine which is the particular form of iodine present in the iodophor solution that is instantly available to exert microbicidal action. This form of iodine differs from titratable iodine and the other iodine species present in the iodophor solution. Therefore, the equilibrium iodine content of an iodophor solution is to be distinguished from its titratable iodine content. 
     The titratable iodine content of an iodophor preparation includes the iodine reservoir of the iodophor preparation (povidone iodine), as well as the equilibrium iodine in solution: 
     
         Titratable iodine=Reservoir Iodine+Equilibrium Iodine 
    
     However, it is the equilibrium iodine alone that exerts the microbicidal action of the preparation at any given moment. The portion of the titratable iodine content remaining after subtracting the amount of equilibrium iodine present, serves as the iodine reservoir to generate new equilibrium iodine in solution as it is consumed by the microbial and bio-organic load in the course of microbicidal activity, but does not exert such germicidal action by itself. 
     Povidone-iodine (polyvinylpyrrolidone-iodine or PVP-I) USP (U.S. Pharmacopeia) is the raw material used in the preparation of all PVP-I containing formulations. Povidone-iodine is a complex of iodine with povidone. It contains not less than 9.0% by weight, and not more than 12% by weight of available-iodine (titratable iodine) calculated on a dry basis. Povidone Iodine USP has a specification for iodide ion of not more than 6.6% by weight on a dry basis. 
     The level of iodide ions inherently present in any PVP-I formulation using PVP-I raw material, therefore depends on the amount of iodide ion present in the raw material PVP-I used. For example, on a theoretical basis, if the PVP-I contains 6% by weight iodide ion, then a formulation containing 10% by weight of PVP-I would contain 0.6% by weight iodide ion. However, PVP-I raw material containing a level of iodide ion greater than specifications of the U.S. Pharmacopeia, could also be used in formulating a PVP-I containing product. 
     Thus, the minimum amount of iodide ion inherently present in a PVP-I formulation could be as low as 0.0% by weight, while the maximum amount of iodide ion inherently present in such a PVP-I formulation would be the amount contributed by the PVP-I raw material used to formulate the same. For example, on a theoretical basis, if a formulation contains 0.36% by weight PVP-I, and the PVP-I contains the maximum iodide allowable of 6.6% by weight, then the formulation will have 0.0237% by weight iodide present. 
     Iodophor solutions, notably povidone-iodine, have been packaged for medicinal use, e.g. in soft plastic bottles or containers which can be used for various medicinal purposes, e.g. douching. However, a severe problem that has been encountered with such packaged iodophor solutions, is that elemental iodine (equilibrium iodine) has leached through the packaging itself. This has resulted both in a decrease in stability and medicinal capacity of the iodophor solution contained within the packaging, and has also made it difficult to handle such packaging since the elemental iodine which has leached therethrough causes staining and burning if touched. 
     However, it has now been surprisingly found that separate introduction of additional iodide, above and apart from the iodide already present in the noted iodophor solution, actually reduces and even totally eliminates the leaching of any elemental iodine from the iodophor solution through the packaging. 
     SUMMARY OF THE INVENTION 
     Accordingly, it is an object of the present invention to improve the packaged stability of iodophor solutions, such as povidone-iodine. 
     It is also an object of the present invention to reduce and even totally eliminate possibility of iodine leaching from a packaged iodophor solution, through the packaging thereof. 
     It is another object of the present invention to maintain the medicinal capacity of iodophor solution that has been packaged, especially in a plastic container or packaging. 
     It is an additional object of the present invention to reduce and even totally eliminate detrimental effects such as decrease in stability and medicinal capacity, which occur when iodine leaches through packaging containing an iodophor solution of the same, which might also cause staining and/or burning when touched. 
     These and other objects are attained by the present invention which is directed to a packaging containing organic iodophor solution, and an amount of additional iodide which improves the stability of the iodophor and minimizes leaching of iodine through the packaging. The iodophor is preferably polyvinyl pyrrolidone iodophor. The packaging is preferably formed from polyethylene, and is preferably a sealed plastic container, e.g. a squeezable plastic douche bottle. 
     Preferably, at least about 0.01% by weight of the additional iodide, based on the iodophor solution, is introduced into the packaging. The packaging preferably contains up to about 4.0% of the additional iodide, more preferably up to about 1.5% of the additional iodide, and most preferably up to about 1.0% of the additional iodide, based on the iodophor solution. The packaging also preferably contains at least about 0.02% of the additional iodide, and more preferably at least about 0.07% of the additional iodide, based on the iodophor solution. 
     The iodophor solution itself preferably comprises about 0.01%-0.03% of iodide therein, in addition to the additional amount of iodide that has been introduced, with this additional iodide preferably being KI. 
     Furthermore, the present invention is also directed to a method for improving the stability of the iodophor and minimizing leaching of iodine from iodophor solution through packaging containing the same, which comprises introducing, into the packaging, an additional amount of iodide which improves the stability of the iodophor and minimizes leaching of iodine through the packaging. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     A conventional iodophor preparation, e.g. the povidone-iodine, can be prepared in a conventional manner outlined in the Background portion of the present case, and can then be introduced in any convenient manner into the appropriate packaging. The minimum amount of additional iodide (e.g. potassium iodide) for example, which must be added to such a formulation is most preferably about 0.076% by weight, based on the iodophor solution itself, while the maximum amount of additional iodide to be added to such a formulation is dictated by the nature of the formulation itself and packaging. In any event, preferably up to a maximum of about 1.5% by weight iodide, based on the iodophor solution, may be added into the packaging itself. 
     The preferred amount of iodide added to the noted iodophor formulation, depends on the nature of the formulation and on the packaging. For example, an optimal amount of additional iodide to be added would provide a formulation containing about 0.36% PVP-I and about 0.91% weight/volume iodide when the formulation is packaged in a low density, polyethylene packaging (all percents are used herein are weight/volume unless otherwise noted). This particular formulation results in the desired stability, as documented in Table X below (Example I2). The 3 Mo/40° C. data in Table X shows that for Examples 12, 13 and 14, the percent available iodine shows acceptable stability, while Examples 10 and 11 do not show as good stability. However, the same formulation in a different package may require a different, preferred level of iodide. 
     The present invention is applicable to all halophors, including iodophors, with the iodophors being any iodine-releasing material, including surfactant-iodophors. While PVP-I is the preferred iodophor, the present invention is applicable to any iodine-releasing material. For example, other iodophor complexes comprise non-ionic, cationic and anionic detergent carriers. An iodophor compound may be prepared with a commercially available non-ionic surface active agent as for example, the liquid non-ionic polyglycol ether type surface active agents which are obtained by condensing alkylene oxides with water-insoluble organic compounds containing at least six carbon atoms and having an active hydrogen, such as organic hydroxy compounds, i.e., alcohols, phenols, thiophene, primary and secondary amines, carboxylic and sulfonic acids and their amides. Non-ionic polyglycol ether type surface active agents of this class are well known in the art and are disclosed, together with methods for their preparation in U.S. Pat. Nos. 1,970,578 and 2,213,477. These agents may be represented by the general formula: 
     
         R-(-CHR.sup.1 -CHR.sup.1 -O-).sub.n -H 
    
     wherein R represents the residue of organic compound containing an active hydrogen, R 1  represents hydrogen or lower alkyl and `n` represents an interger of from 3 to 100 or higher, but usually from 6 to 50. These compounds are readily obtained by the methods disclosed in the above cited U.S. Pat. Nos. 1,970,578 and 2,213,477 by condensing a polyglycol ether containing the required number of alkyleneoxy groups, or an alkylene oxide, usually ethylene oxide, propylene oxide or butylene oxide, with a water-insoluble organic compound containing at least 6 carbon atoms and having an active hydrogen, as for example an alkylphenol. 
     Other members of the group of non-ionic surfactants also may be used to prepare iodophors as, for example, the class of non-ionic surfactants characterized by the condensation of polyoxypropylene glycol with ethylene oxide containing various chain lengths. Such non-ionic agents are disclosed and claimed in U.S. Pat. No. 2,674,619 and have the general formula: 
     
         HO-(C.sub.2 H.sub.4 O).sub.z (C.sub.3 H.sub.6).sub.y (C.sub.2 H.sub.4 O).sub.z,H 
    
     wherein Y equals at least 15; and (C 2  H 4 ) z+z, equals 20-90 percent of the total weight of the compound. These non-ionic surfaces active agents are available commercially and known by the trade name Pluronics, a product of Wyandotte Chemicals Corporation of Wyandotte, Mich. and for purposes of brevity these non-ionic compounds will hereinafter be referred to as Pluronics. 
     A suitable non-ionic surfactant iodophor complex may be prepared by dissolving in acidified water a sufficient quantity, as for example, between 90 and 99 percent by weight, of the selected non-ionic surface active agent as for example, octylphenoxypoly-(ethleneoxy) ethanol, wherein R is an octylphenoxy group, R&#39; is a hydrogen and n is nine, and adding from 1 to 12 grams of iodide ion obtained from a soluble iodide salt including hydriodic acid, and from 0.1 to 1.0 percent by weight of iodate ion, all the while maintaining the pH of the solution to be below pH 3. A strong brown color instantly develops as the exothermic reaction proceeds and the mixture is stirred while the pH is monitored and adding small increments of the iodate ion until there is no longer any iodide ion available upon assay. Stirring is continued for at least one hour, after which the solvent is evaporated. 
     In place of octylphenoxypoly-(ethyleneoxy) ethanol described above, there may be substituted other members of this class of non-ionic detergents as for example, nonylphenoxypoly (ethyleneoxy) ethanol. 
     It has also been found that anionic iodine complexed may also be prepared utilizing members of the group of anionic surface active agents represented by the formula: 
     
         R-NR&#39;-CH.sub.2 -CHx-SO.sub.3 -Y 
    
     wherein R is the radical CxH (2x+1) CO;x being an integer of from 5 to 17, R being selected from group consisting of hydrogen, (C 1  -C 4 ) alkyl and cyclohexyl radicals and Y being selected from the group consisting of salt-forming cations. The preferred anionic detergent compounds are of the well known groups of anionic surface active agents known as alkanoyl taurates and alkylaryl sulfonate such as alkyl benzene sodium sulfonate and alkyl naphthyl sodium sulfonate. 
     When it is desired to utilize anionic detergent agents as a carrier for iodine in the preparation of iodophors, then from 90 to 99 percent by weight of the selected anionic iodine carrier is mixed with from 1 to 10 percent by weight of iodide ion and the whole is dissolved in acidulated water. Then, from 0.1 to 1.0 percent of an iodate ion is added slowly until no further iodide ion is present in the solution upon testing. The solvent is evaporated to recover the formed iodophor complex in a substantially pure form. 
     When a cationic detergent iodophor is desired as the iodine carrier, then the well known cationic surfactant compounds as for example, the quaternary ammonium salts such as those formed by the alkylation of fatty amines; straight-chain fatty amine salts having from 8 to 18 carbon atoms in chain length, as for example, octadecyl maine; amino amides and imidazolines may be used. The manufacturing process as described above is used to result in a superior iodophor preparation than was hitherto known after the methods described in the prior art. 
     When a cationic detergent iodophor is to be prepared, then the same ratios of reagents are used, that is from 90 to 99 percent by weight of the selected cationic detergent compound is dissolved in acidulated aqueous solution and from 1 to 10 percent by weight of iodide ion is added together with from 0.01 to 1.0 percent of iodate ion. The mixture is stirred until no iodide ion is evident upon testing. The formed cationic detergent iodophor is recovered in a substantially pure form and exhibits an extraordinary stability. 
     The amount of iodide present in iodophor formulations comes from the inherent quantity of iodide present in the iodophors. The minimum amount of additional iodide (e.g. potassium iodide) which must be added to such an iodophor formulation, is preferably about 0.0765%, based on the overall iodophor solution, while a maximum amount of additional iodide which should be added to such a formulation, and is dictated by the nature of the formulation and the packaging, is preferably up to about 1.5% based on the iodophor preparation. 
     A preferred amount of iodide to be added to a formulation naturally depends on the nature of the formulation and the packaging component, as noted above. An amount of iodide that gives the optimal desired characteristics (stability) in a formulation for a particular packaging component, is the goal. A preferred amount of added iodide preferably lies in the range of about 0.076% to 1.5%, depending upon the packaging. 
     Examples of iodide, salts which can be added to such iodophor preparations, include sodium iodide, potassium iodide, calcium iodide, and zinc iodide, with potassium iodide specifically being preferred. The present invention is extremely effective with all kinds of packaging that has been used to contain PVP-I formulations, i.e. most types of plastic materials which are permeable to iodine, such as low density polyethylene, high density polyethylene, etc. The loss of iodine is a function of the type of plastic, wall thickness of the container thereof, and also of the temperature. 
     The iodophor preparation with the additional iodide may be prepared in the following manner: 
     (i) In a suitable stainless steel tank, purified water representing approximately 90% of the purified water required for the batch is collected. Mechanical agitation; is started 
     (ii) The iodophor (povidone-iodine) powder is added into the vortex created by the mixer; 
     (iii) In a separate stainless steel container the additional iodide (as the salt, such as potassium or sodium salt) is dissolved in purified water representing approximately 5% of the total batch volume. This solution is added to the batch and mixed; 
     (iv) Surfactant is slowly added to the batch and mixed; 
     (v) Enough purified water to bring the batch to 98% of final volume is added. Fragance, if any is added, and mixed; 
     (vi) pH of the batch is adjusted to the desired pH. A solution of 5% sodium hydroxide is used to adjust the pH when below the target pH. A solution of diluted hydrochloric acid is used the adjust to pH when above the target pH; and 
     (vii) Sufficient purified water is added to bring the batch to final volume and mixed, followed by packaging into containers. 
     Variations of this procedure would also accomplish the same results. For example, the iodide could be added at any stage of the manufacturing process, such as (1) before the povidone-iodine, (2) with the povidone-iodine as a powder or solution, or (3) after the addition of the surfactant and fragance. The additional iodide could alternately be added to the iodophor raw material during manufacture or after manufacture. 
     The present invention will be described in greater detail below, with reference to the following examples which have been conducted to illustrate the present invention, and to which the present invention is not, however, intended to be limited to the specific details thereof. In these examples, all ingredients are commercially available and the compositions were all prepared as noted above, with the stability of the product assessed by monitoring the percent by weight/volume available iodine over time, at a particular temperature and for a particular packaging. The % available iodine was determined by the method described in U.S. Pharmacopeia XXI under povidone iodine topical solution (page 864). The sample size was increased to 50 ml. with appropriate correction in the calculations when dilute solutions were assayed. All plastic packaging components had wall thickness in the range of about 0.030 inches, plus/minus 0.012 inches. 
     EXAMPLE I 
     
         ______________________________________Ingredient     % w/v______________________________________PVP-I           0.5 (0.5 g in 100 ml of the formula)Surfactant      0.004Fragrance       0.01Purified Water qs ad          100Iodide present in the iodophor solution was about 0.025%.No additional Iodide was added.______________________________________ 
    
     The resulting solution was examined for stability in the following packaging at 40° C.: 
     1. Low Density Polyethylene (LDPE) 
     2. High Density Polyethylene (HDPE) 
     3. Glass 
     The stability profiles are presented in Table I 
     
                       TABLE I______________________________________STABILITY PROFILE OF EXAMPLE 1 IN LDPE,HDPE AND GLASS AT 40° C.      % Available IodineTIME         LDPE       HDPE    GLASS______________________________________Initial      0.048      0.048   0.0481 Month/40° C.        0.023      0.034   0.0412 Months/40° C.        0.015      0.025   0.0413 Months/40° C.        0.007      0.023   0.040______________________________________ 
    
     As can be observed, the stability of the product is a function of the packaging at a given temperature. 
     The present invention will demonstrate, as documented below, that stability (even in one of the the worst situations when packaged in Low Density Polyethylene) can be greatly improved when an additional amount of Iodide is included in the formula. 
     EXAMPLE 2 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.6Surfactant        0.004Fragrance         0.004Purified water qs ad             100Iodide present in the iodophorsolution was about 0.03%.No additional Iodide was added.______________________________________ 
    
     The resulting solution was examined for stability in bottles made of 60% High Density Polyethylene and 40% Low Density Polyethylene. 
     The stability profile at 40° C. is presented in Table II: 
     
                       TABLE II______________________________________STABILITY PROFILE OF EXAMPLE 2 IN A PACKAGECONTAINING 60% HDPE AND 40% LDPETIME           % Available Iodine______________________________________Initial        0.0601 Month/40° C.          0.0412 Months/40° C.          0.0253 Months/40° C.          0.024______________________________________ The stability in a package containing 60% HDPE and 40% LDPE is better tha when packaged in 100% LDPE, but not as good as when packaged in 100% HDPE (Example 1). 
    
     EXAMPLE 3 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.6Surfactant        0.004Fragrance         0.004Iodide            0.076Purified Water qs ad             100______________________________________ 
    
     Iodide present in the iodophor solution was about 0.03%. Added Iodide was 0.076% 
     The resulting solution was examined for stability in the following containers at 40° C.: 
     1. Glass 
     2. High Density Polyethylene 
     3. Low Density Polyethylene coated with Polyvinyl Alcohol 
     4. Low Density Polyethylene coated with Polyvinylidine Chloride 
     5. Fluorinated Low Density Polyethylene bottle (#8187-95); LDPE Bottle with Fluorine modified surface in contact with the Product) 
     6. Fluorinated Low Density Polyethylene bottle (#8187-96; LDPE Bottle with a specially treated experimental gas formulation) 
     The stability profiles at 40° C. are presented in Table III: 
     
                       TABLE III______________________________________STABILITY PROFILE OF EXAMPLE 3 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine     Package #TIME        1      2       3    4     5    6______________________________________Initial     0.06   0.06    0.06 0.06  0.06 0.061 Month/40° C.       0.057  0.053   0.041                           0.046 0.042                                      0.0512 Months/40° C.       0.057  0.050   0.033                           0.038 0.033                                      0.0453 Months/40° C.       0.057  0.047   0.028                           0.023 0.027                                      0.043______________________________________ 
    
     EXAMPLE 4 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Purified Water qs ad             100______________________________________ 
    
     Iodide present in the iodophor solution was about 0.018%. No additional Iodide was added. 
     The resulting solution was examined for stability in the following packages at 40° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     &#34;Form-fill seal bottles&#34; are plastic containers which are manufactured from a thermoplastic granulate, filled, and sealed in the same automatic machine. In operation, a plastic tube is extruded from melted plastic granulate. Then, by a plastic forming process called blow-molding, compressed air is blown into the tube, pushing out the warm plastic walls until they conform to the shape of a surrounding mold. A metered amount of product is introduced into the formed container. The container is sealed, the mold opens and the finished, filled container is released on to a conveyor. 
     &#34;Natural&#34; polyethylene contains no added pigment. The &#34;White&#34; polyethylene contains a pigment (such as Titanium Dioxide) to render the plastic white. 
     The stability profiles at 40° C. are presented in Table IV: 
     
                       TABLE IV______________________________________STABILITY PROFILE OF EXAMPLE 4 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/40° C.         0.036  0.016    0.008                              0.027  0.0272 Months/40° C.         0.035  0.009    0.007                              0.022  0.0223 Months/40° C.         0.034  0.002    0.005                              0.018  0.020______________________________________ 
    
     EXAMPLE 5 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.15Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.15%. 
     The resulting solution was examined for stability in the following packages at 40° C.: 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 40° C. are presented in Table V: 
     
                       TABLE V______________________________________STABILITY PROFILE OF EXAMPLE 5 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/40° C.         0.036  0.031    0.029                              0.033  0.0332 Months/40° C.         0.035  0.028    0.024                              0.031  0.0313 Months/40° C.         0.034  0.025    0.020                              0.031  0.031______________________________________ 
    
     EXAMPLE 6 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.228Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.228%. 
     The resulting solution was examined for stability in the following packages at 40° C.: 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 40° C. are presented in Table VI: 
     
                       TABLE VI______________________________________STABILITY PROFILE OF EXAMPLE 6 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine    Package #TIME       1        2      3      4     5______________________________________Initial    0.036    0.036  0.036  0.036 0.0361 Month/40° C.      0.036    0.033  0.031  0.034 0.0342 Months/40° C.      0.036    0.030  0.028  0.033 0.0333 Months/40° C.      0.034    0.028  0.022   0.0325                                   0.032______________________________________ 
    
     EXAMPLE 7 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.036Surfactant        0.004Fragrance         0.004Iodide            0.342Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.342%. 
     The resulting solution was examined for stability in the following packages at 40° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 40° C. are presented in Table VII: 
     
                       TABLE VII______________________________________STABILITY PROFILE OF EXAMPLE 7 IN LDPE,HDPE AND GLASS AT 40° C.Available Iodine    Package #TIME       1        2      3      4    5______________________________________Initial    0.036    0.036  0.036  0.036                                  0.0361 Month/40° C.      0.036    0.034  0.034  0.035                                  0.0332 Months/40° C.      0.036    0.032  0.029  0.034                                  0.0343 Months/40° C.      0.035    0.031  0.026  0.034                                   0.0335______________________________________ 
    
     EXAMPLE 8 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.45Surfactant        0.004Fragrance         0.004Iodide            0.285Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.023%. Added Iodide was 0.285%. 
     The resulting solution was examined for stability in the following packages at 40° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 40° C. are presented in Table VIII. 
     
                       TABLE VIII______________________________________STABILITY PROFILE OF EXAMPLE 8 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine    Package #TIME       1        2      3      4     5______________________________________Initial    0.045    0.045  0.045  0.045 0.0451 Month/40° C.      0.045    0.043  0.041  0.044 0.0432 Months/40° C.      0.041    0.041  0.041  0.042 0.0423 Months/40° C.      0.043    0.038  0.038   0.0416                                   0.041______________________________________ 
    
     EXAMPLE 9 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.45Surfactant        0.004Fragrance         0.004Iodide            0.426Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.022%. Added Iodide was 0.42%. 
     The resulting solution was examined for stability in the following packages at 40° C.: 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 40° C. are presented in Table IX: 
     
                       TABLE IX______________________________________STABILITY PROFILE OF EXAMPLE 9 IN LDPE,HDPE AND GLASS AT 40° C.% Available Iodine    Package #TIME       1        2      3      4     5______________________________________Initial    0.045    0.045  0.045  0.045 0.0451 Month/40° C.      0.045    0.043  0.042  0.044 0.0442 Months/40° C.      0.044    0.041  0.040  0.043 0.0433 Months/40° C.      0.043    0.040  0.036   0.0426                                   0.042______________________________________ 
    
     EXAMPLE 10 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.61Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.61%. 
     The resulting solution was examined for stability in Low Density Polyethylene and glass at 40° C. and Room Temperature. A comparative stability Table of Example 10 to Example 14 is presented after the Example 14 formula in Tables X and XI. 
     This series of examples demonstrates the effects of increasing amounts of Iodide on the stability in the same package. 
     EXAMPLE 11 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.76Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.76%. 
     The resulting solution was examined for stability in Low Density Polyethylene and glass at 40° C. and Room Temperature. 
     EXAMPLE 12 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.91Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 0.91%. 
     The resulting solution was examined for stability in Low Density Polyethylene and glass at 40° C. and Room Temperature. 
     EXAMPLE 13 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            1.14Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 1.14%. 
     The resulting solution was examined for stability in Low Density Polyethylene and glass at 40° C. and Room Temperature. 
     EXAMPLE 14 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            1.52Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.018%. Added Iodide was 1.52%. 
     The resulting solution was examined for stability in Low Density Polyethylene and glass at 40° C. and Room Temperature. 
     
                       TABLE X______________________________________COMPARATIVE STABILITY DATAFOR EXAMPLES 10 TO 14IN LOW DENSITY POLYETHYLENE AT40° C. AND ROOM TEMPERATURE% Available Iodine       Example #TIME          10     11       12   13     14______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/40° C.         0.029  0.029    0.031                              0.034  0.0342 Months/40° C.         0.025  0.026    0.036                              0.034  0.0343 Months/40° C.         0.022  0.024    0.026                              0.032  0.0323 Month/R.T.  0.034  0.033    0.035                              0.035  0.036______________________________________ 
    
     
                       TABLE XI______________________________________COMPARATIVE STABILITY DATA FOR EXAMPLES 10TO 14 IN GLASS AT 40° C. AND ROOM TEMPERATURE% Available Iodine      Example #TIME             10      11    12   13     14______________________________________Initial          0.036  0.036  0.036                               0.036  0.0361 Month/40° C.            0.033  0.033  0.033                               0.034  0.0342 Months/40° C.            0.032  0.032  0.033                               0.034  0.0343 Months/40° C.            0.032  0.031  0.032                               0.032  0.0323 Month/R.T.     0.035  0.035  0.036                               0.036  0.036______________________________________ 
    
     EXAMPLE 15 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. No additional iodide was added. 
     The resulting solution was examined for stability in low density polyethylene at 40° C. and room temperature. In Tables XII and XIII, a comparative stability profile of Example 15 to Example 20 is presented. This series of examples demonstrates the effect of iodide on stability in the same package. 
     In Table XIV, comparative rabbit vaginal irritation data for Examples 15 to 20 demonstrating that the added Iodide has essentially no effect on rabbit vaginal irritation is presented. 
     In Table XV, comparative in vitro killing time data for Examples 15 to 20 demonstrating that the added Iodide has essentially no effect on antimicrobial activity is presented. 
     EXAMPLE 16 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Iodide                  0.076Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. Added Iodide was 0.076%. 
     EXAMPLE 17 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Iodide                  0.19Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. Added Iodide was 0.019%. 
     EXAMPLE 18 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Iodide                  0.38Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. Added Iodide was 0.038%. 
     EXAMPLE 19 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Iodide                  0.57Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. Added Iodide was 0.056%. 
     EXAMPLE 20 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.6Surfactant              0.004Fragrance               0.004Iodide                  0.76Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.03%. Added Iodide was 0.076%. 
     
                       TABLE XII______________________________________COMPARATIVE STABILITY DATA FOR EXAMPLES 15 TO20 IN LOW DENSITY POLYETHYLENE AT 40° C. AND RT% Available Iodine      Example #TIME         15      16    17   18   19   20______________________________________Initial      0.060  0.059  0.061                           0.059                                0.061                                     0.0591 Month/40° C.        0.041  0.049  0.054                           0.054                                0.056                                     0.0572 Months/40° C.        0.025  0.041  0.048                           0.051                                0.053                                     0.0543 Months/40° C.        0.024  0.034  0.046                           0.047                                0.051                                     0.0523 Month/R.T. 0.033  0.057  0.059                           0.058                                0.060                                     0.060______________________________________ 
    
     
                       TABLE XIII______________________________________COMPARATIVE STABILITY DATA FOR EXAMPLES15 TO 20 IN GLASS AT 40° C. AND RT% Available Iodine      Example #TIME         15     16     17   18   19   20______________________________________Initial      0.060  0.059  0.061                           0.059                                0.061                                     0.0591 Month/40° C.        0.057  0.057  0.059                           0.057                                0.058                                     0.0582 Months/40° C.        0.056  0.057  0.058                           0.056                                0.057                                     0.0573 Months/40° C.        0.055  0.057  0.057                           0.056                                0.057                                     0.0563 Month/R.T. 0.058  0.059  0.060                           0.057                                0.060                                     0.060______________________________________ 
    
     
                                           TABLE XIV__________________________________________________________________________RABBIT VAGINAL IRRITATION TEST FOR EXAMPLES 15 TO 20   Example 15          Example 16                 Example 17                        Example 18                               Example 19                                      Example 20__________________________________________________________________________% Iodide    0.03% 0.03%  0.03%  0.03%  0.03%  0.03%InherentlyContained% Iodide   0.0%    0.076%                 0.19%  0.38%  0.57%  0.76%AddedRabbit Vaginal   0/6    0/6    0/6    0/6    0/6    0/6Irritation   non-irritating          non-irritating                 non-irritating                        non-irritating                               non-irritating                                      non-irritating__________________________________________________________________________ 
    
     
                                           TABLE XV__________________________________________________________________________In Vitro KILLING TIME TEST FOR EXAMPLES 15 TO 20      Example 15            Example 16                  Example 17                        Example 18                              Example 19                                    Example 20__________________________________________________________________________% Iodide    0.03%            0.03% 0.03% 0.03% 0.03% 0.03%Inherently Contained% Iodide   0.0%   0.076%                  0.19% 0.38% 0.57% 0.76%AddedIn Vitro Killing TimeC. Albicans      &lt;30 sec.            &lt;30 sec                  &lt;30 sec.                        1 min.                              &lt;30 sec.                                    &lt;30 sec.S. Aureus  &lt;30 sec.            &lt;30 sec                  &lt;30 sec.                        &lt;30 sec.                              &lt;30 sec.                                    &lt;30 sec.G. Vaginale      &lt;30 sec.            &lt;30 sec                  &lt;30 sec.                        &lt;30 sec.                              &lt;30 sec.                                    &lt;30 sec.H. Simplex II      1 min.*            1 min.*                  1 min.*                         1 min.*                              1 min.*                                    1 min.*__________________________________________________________________________ * ≧6 Log reduction 
    
     Thus, the comparative testing documented above, clearly illustrates the dramatic improvement in stability that is provided by the present invention herein. In particular, the percentage improvement from initial value after the addition of iodide in accordance with the present invention, is quite substantial, as illustrated below. 
     Referring to Example 4 (the formulation with no additional iodide included), the percent available iodine decreases from an initial value of 0.036% to 0.034% in container 1, i.e. the glass control, after 3 Mo/40° C., namely a decrease of 5.5%. However, in the case of container 3, namely the low density polyethylene form fill sealed bottle, the percent available iodine decreased from an initial value of 0.036% to 0.005%, namely a decrease in percent available iodine of 88.1%. 
     When considering Example 5 where 0.15% iodide was added to the iodophor formulation in accordance with the present invention, this addition did not greatly improve the stability in container 1, namely the glass container as noted in Table V, as expected. However, in all other plastic containers, a dramatic improvement in stability is documented, especially in container 3. From Table V, it is seen that the percent available iodine for container 3 has dropped from an initial level of 0.036% to 0.020%, namely a decrease in percent available iodine of only 44.4%. Typically, for PVP-I containing products, the U.S. Pharmacopeia allows a 20% overage from label claim and requires a minimum 85% of label after 3 Mo/40° C. stability testing. This translates into an allowable drop of 35%. It becomes clear then that, for container 3, although a dramatic improvement in stability has been achieved by the addition of 0.15% iodide to the formula, it is not until the added iodide is increased to 0.342% (Example 7), that the percent available iodine for container 3 will meet the U. S. Pharmacopeia guidelines. 
     In other words, in Example 7, the percent available iodine after 3 Mo/40° C. with respect to container 3, drops to 0.026% from an initial level of 0.036%, namely a drop of 27.7% from the initial level which is within the U. S. Pharmacopeia guidelines of maximum allowable drop of 35% 
     However, for containers 4 and 5, the addition of 0.15% iodide to the formula is adequate to improve stability to acceptable levels, as documented in Tables 4 and 5. For container 4, when no added iodide was included in the formula (Example 4 and Table 4), the percent average iodine dropped from 0.036% to 0.018% after 3 Mo/40° C., namely a drop of 50%. However, when 0.15% iodide was added to the formulation in accordance with the present invention in Example 5, then the percent available iodine dropped from 0.036% only to 0.031% after 3 Mo/40° C., namely a drop of only 13.9% as documented in Table V. 
     Similarly for container 5, the percent average iodine drops from 0.036% to 0.020% after 3 Mo/40° C. when there is no iodide added to the formula as documented in Table 4 of Example 4, namely a drop of 44.4%. With 0.15% iodide added to the formulation, the percent available iodine drops from 0.036% only to 0.031%, namely a drop of only 13.9% as documented in Table V of Example 5. 
     Careful examination of the testing documented below will reveal that the same trend holds for the data accumulated at conditions of elevated temperature, namely 45° C. and 56° C., but naturally with not as dramatic an improvement in stability because of these higher temperatures. 
     EXAMPLE 21 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.36Surfactant              0.004Fragrance               0.004Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.18%. No additional Iodide was added. 
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C.: 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XVI, and at 45° C. in Table XVII: 
     
                       TABLE XVI______________________________________STABILITY PROFILE OF EXAMPLE 21 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine      Package #TIME             1      2      3    4      5______________________________________Initial          0.036  0.036  0.036                               0.036  0.0361 Month/56° C.            0.021  0.000  0.000                               0.009  0.0152 Months/56° C.            0.019  0.000  0.000                               0.001  0.0083 Months/56° C.            0.017  0.000  0.000                               0.000  0.002______________________________________ 
    
     
                       TABLE XVII______________________________________STABILITY PROFILE OF EXAMPLE 21 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine      Package #TIME             1      2      3    4      5______________________________________Initial          0.036  0.036  0.036                               0.036  0.0361 Month/45° C.            0.032  0.008  0.000                               0.023  0.0252 Months/45° C.            0.030  0.008  0.000                               0.016  0.0183 Months/45° C.            0.028  0.000  0.000                               0.011  0.011______________________________________ 
    
     EXAMPLE 22 
     
         ______________________________________Ingredient              % w/v______________________________________PVP-I                   0.36Surfactant              0.004Fragrance               0.004Iodide                  0.15Purified Water qs ad    100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.18%. Added Iodide was 0.15%. 
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C.: 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XVIII, and at 45° C. in Table XIX: 
     
                       TABLE XVIII______________________________________STABILITY PROFILE OF EXAMPLE 22 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine      Package #TIME             1      2      3    4      5______________________________________Initial          0.036  0.036  0.036                               0.036  0.0361 Month/56° C.            0.031  0.013  0.000                               0.025  0.0262 Months/56° C.            0.030  0.004  0.000                               0.019  0.0213 Months/56° C.            0.029  0.001  0.000                               0.011  0.019______________________________________ 
    
     
                       TABLE XIX______________________________________STABILITY PROFILE OF EXAMPLE 22 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine      Package #TIME             1      2      3    4      5______________________________________Initial          0.036  0.036  0.036                               0.036  0.0361 Month/45° C.            0.034  0.028  0.026                               0.032  0.0312 Months/45° C.            0.032  0.023  0.020                               0.030  0.0303 Months/45° C.            0.032  0.020  0.017                               0.030  0.029______________________________________ 
    
     EXAMPLE 23 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.228Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.18%. Added Iodide was 0.228%. 
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XX, and at 45° C. in Table XXI: 
     
                       TABLE XX______________________________________STABILITY PROFILE OF EXAMPLE 23 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/56° C.         0.032  0.022    0.010                              0.028  0.0302 Months/56° C.         0.031  0.011    0.000                              0.023  0.0273 Months/56° C.         0.030  0.009    0.500                              0.020  0.023______________________________________ 
    
     
                       TABLE XXI______________________________________STABILITY PROFILE OF EXAMPLE 23 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/45° C.         0.036  0.030    0.029                              0.033  0.0322 Months/45° C.         0.034  0.026    0.025                              0.031  0.0153 Months/45° C.         0.034  0.024    0.019                              0.030  0.030______________________________________ 
    
     EXAMPLE 24 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.36Surfactant        0.004Fragrance         0.004Iodide            0.342Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.18%. Added Iodide was 0.342%. 
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XXII, and at 45° C. in Table XXIII: 
     
                       TABLE XXII______________________________________STABILITY PROFILE OF EXAMPLE 24 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/56° C.         0.032  0.026    0.019                              0.030  0.0322 Months/56° C.         0.032  0.016    --   0.027  0.0283 Months/56° C.         0.031  0.013    --   0.024  0.025______________________________________ 
    
     
                       TABLE XXIII______________________________________STABILITY PROFILE OF EXAMPLE 24 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.036  0.036    0.036                              0.036  0.0361 Month/45° C.         0.036  0.032    0.030                              0.034  0.0362 Months/45° C.         0.035  0.031    0.028                              0.031  0.0313 Months/45° C.         0.034  0.027    0.025                              0.032  0.030______________________________________ 
    
     EXAMPLE 25 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.45Surfactant        0.004Fragrance         0.004Iodide            0.285Purified Water qs ad             100______________________________________ 
    
     Iodide present in the Iodophor solution was about 0.023%. Added Iodide was 0.285%. 
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XXIV, and at 45° C. in Table XXV: 
     
                       TABLE XXIV______________________________________STABILITY PROFILE OF EXAMPLE 25 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.045  0.045    0.045                              0.045  0.0451 Month/56° C.         0.041  0.028    0.021                              0.038  0.0372 Months/56° C.         0.040  0.018    --   0.033  0.0343 Months/56° C.         0.040  0.010    --   0.029  0.030______________________________________ 
    
     
                       TABLE XXV______________________________________STABILITY PROFILE OF EXAMPLE 25 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.045  0.045    0.045                              0.045  0.0451 Month/45° C.         0.044  0.040    0.038                              0.042  0.0422 Months/45° C.         0.043  0.037    0.035                              0.041  0.0403 Months/45° C.         0.042  0.034    0.032                              0.040  0.039______________________________________ 
    
     EXAMPLE 26 
     
         ______________________________________Ingredient        % w/v______________________________________PVP-I             0.45Surfactant        0.004Fragrance         0.004Iodide            0.426Purified Water qs ad             100Iodide present in the Iodophorsolution was about 0.022%.Added Iodide was 0.426%.______________________________________ 
    
     The resulting solution was examined for stability in the following packages at 56° C., and 45° C. 
     
         ______________________________________PKG#       Type______________________________________1.      Glass2.      Low Density Polyethylene3.      Low Density Polyethylene form fill seal bottle.4.      High Density Polyethylene (Natural)5.      High Density Polyethylene (White)______________________________________ 
    
     The stability profiles at 56° C. are presented in Table XXVI, and at 45° C. in Table XXVII: 
     
                       TABLE XXVI______________________________________STABILITY PROFILE OF EXAMPLE 26 IN LDPE,HDPE AND GLASS AT 56° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.045  0.045    0.045                              0.045  0.0451 Month/56° C.         0.041  0.036    0.028                              0.040  0.0402 Months/56° C.         0.040  0.027    --   0.036  0.0393 Months/56° C.         0.040  0.020    --   0.033  0.036______________________________________ 
    
     
                       TABLE XXVII______________________________________STABILITY PROFILE OF EXAMPLE 26 IN LDPE,HDPE AND GLASS AT 45° C.% Available Iodine       Package #TIME          1      2        3    4      5______________________________________Initial       0.045  0.045    0.045                              0.045  0.0451 Month/45° C.         0.044  0.041    0.041                              0.043  0.0422 Months/45° C.         0.044  0.038    0.036                              0.041  0.0413 Months/45° C.         0.043  0.036    0.034                              0.041  0.040______________________________________ 
    
     While it is clear that prevention of leaching of iodine occurs when the package is plastic, the improvement in stability when the packaging in non-permeable (glass) is also documented. For example, considering examples 21, 22, and 23, example 21 contains no additional iodide added, example 22 contains 0.15% additional iodide added, and example 23 contains 0.228% additional iodide added. When the stability at 56° C. (Table XVI, XVIII, XX) in glass (a material which is non-permeable to iodine) is examined, an observed improvement in stability which added iodide is documented below in Table XXVIII: 
     
                       TABLE XXVIII______________________________________               Example 22               0.15%               % Available     Example 21               Iodine (w/v) Example 23     None      Package (#1) 0.228%Added Iodide     Glass     Glass        Glass______________________________________Initial   0.036     0.036        0.0361 Month/56° C.     0.021     0.031        0.0322 Month/56° C.     0.019     0.030        0.0313 Month/56° C.     0.017     0.029        0.030               An improvement                            At 3 MO/               in stability at                            56° C. an               3 MO/56° C.                            improvement in               of 33.3% over                            stability of 36%               Example 21   over Ex. 21______________________________________ Although the examples above relate to liquid products, other dosage forms (such as semisolids) will also show stabilization of iodophor and prevention of leaking of iodine through packaging with the added iodide. 
    
     The preceding description of the present invention is merely exemplary, and is not intended to limit the scope thereof in any way.