Patent Application: US-201113066340-A

Abstract:
the present invention realtes to compositions and methods to improve the microenvironments in and around the wound in an effort to enhance healing . specifically , the present invention comprises application of tissue and cells culture nutrient media , such as minimum essential media , supplemented with insulin and / or with substances exhibiting insulin - like activity , such as cinnamon or cinnamon extracts including but not limited to mhcp . the media is applied to the wound to stimulate the viable cells in the wound bed and the adjacent cells in the periphery of the wound to proliferate and grow into the wound in order to achieve wound closure .

Description:
in describing the present invention in the specification , a number of terms are used . the term wound is used throughout the specification to describe skin wounds , which are treated , by the formulations and the method according to the present invention . a skin wound is defined herein as a breach in the continuity of the skin that is caused by direct injury to the skin . skin wounds are generally characterized by several types : punctures , incisions , including those produced by a variety of surgical procedures , excisions , lacerations , atrophic skin or necrotic wounds and burns , including large burn areas . the formulation according to the present invention is used in varying degrees for enhancing the healing of all types of wounds of the skin , including those which occur after a mesh autograph procedure . compositions according to the present invention are unexpectedly effective to treat chronic wound conditions . the term “ delivery polymer ” is used throughout the specification to describe a polymer which can be used in combination with a cellular nutrient medium ( preferably , serum free ), a non - steroidal anabolic hormone insulin or insulin - like substances and mixtures thereof , and optionally , individually which are preferably used for topical application to the treated wounds according to the present invention . these delivery systems polymers include , for example , numerous hydrogels in hydrated or unhydrated form , such as those derived from hydroxyethylmetacrylate ( hema ), glycerolmetacrylate ( gma ) and polyvinylpyrrolidone ( pvp ), polyethylene glycol ( peg ) and various carbohydrates , cellulose , and related hydrophilic cellulose polymers , dextran , polyethyleneoxide , dextran - polyethylene , acrylamide , amylase , collagen , gelatin , sepharose , agarose ( for example , as an agarose saturated gel ), related polymers and mixtures thereof , among numerous others . one of ordinary skill in the art will recognize to vary the type and amount of delivery polymer in compositions according to the present invention to provide enhanced wound healing characteristic appropriate for topical delivery . the term delivery polymer is also used to describe polymers that provide slow - release or sustained release characteristics to the wound healing formulations of the invention . the term “ gelling agent ” is used to describe those polymers , which may be included in aqueous formulations according to the present invention in effective amounts to gel these formulations . the term “ methyl hydroxy chalcone polymer ” ( mhcp ) is used to describe a component of cinnamon which functions similar to insulin in 3t3 - l adipocytes cell cultures and were most effective in increasing glucose metabolism and may be used as a substitute for insulin or in addition to insulin pursuant to the present invention . compositions which include effective amounts of mhcp and insulin and optionally , at least one further component selected from the group consisting of insulin - like growth factor ( ifg ), polyphenol type - a polymer , selenium , chromium , curcuma and mixtures thereof are preferred aspects of the invention because of the synergistic favorable impact such components have on wound healing , especially the healing of chronic wounds . in general , mhcp is included in compositions according to the present invention in an effective amount , generally at concentration ranging from about 0 . 001 mg / ml to about 25 mg / ml , about 0 . 01 mg / ml to about 10 mg / ml , about 0 . 025 mg / ml to about 5 mg / ml , although concentrations outside of these ranges are also useful . in certain preferred aspects of the invention , the mhcp ranges from about 0 . 025 mg / ml to about 0 . 5 - 1 . 0 mg / ml . by way of a standard , in general , the biological of activity of 0 . 1 mg / ml of mhcp is approximately equivalent to the biological activity of about 100 nm of insulin . percentage weights may fall outside of these ranges , depending upon the type and size of the wound and other factors , as well recognized by one of ordinary skill in the art . thus , the biological activity of mhcp at concentrations of about 0 . 1 mg / ml is about equivalent to the range of activity of 100 nm of insulin . preferred mhcp concentration within the preferred media mcdb 153 ranges from about 0 . 01 mg / ml to about 1 mg / ml . preferably the mhcp in mcdb 153 ranges from about 0 . 025 mg / ml to about 0 . 5 mg / ml . according to anderson et al . polyphenol type - a polymers found in cinnamon may function as antioxidants , and act as synergistic agents to insulin by potentiating its action and by also contributing to the control of glucose tolerance and diabetes . the term “ cellular nutrient medium ” or “ cellular nutrient mixture ” is used throughout the specification to describe a medium or mixture ( generally , at least a minimum essential medium ) which preferably contains no serum ( is serum - free ), and in combination with insulin or insulin - like substances ( e . g . mhcp , poly / phenolic type - a polymer , insulin - like growth factor , selenium , chromium , curcuma and mixtures thereof ), at least one of them comprising the wound healing compositions according to the present invention . the nutrient medium , preferably serum - free , according to the present invention comprises the following elements : ( a ) essential amino acids ; ( b ) non - essential amino acids ; ( c ) vitamins selected from a group consisting of biotin , folate , lipoate , niacinamide , pantothenate , pyrodine , riboflavin , thiamin and vitamin b 12 and mixtures thereof , preferably a vitamin mixture comprising folate , niacinamide , pantothenate , pyrodine , riboflavin and thiamin ; ( d ) glucose ; and ( e ) a mixture of inorganic ions selected from a group consisting of calcium , sodium , potassium , magnesium , chloride and mixtures thereof , preferably a mixture comprising calcium , potassium , magnesium and chloride . all of these elements ( a ), ( b ), ( c ), ( d ) and ( e ) are included with the anabolic hormone and optionally the insulin like substances in concentrations and / or amounts effective for enhancing the growth of cells which surround , have been injured by or are responsible for healing a wound . the preferred concentration of essential and non - essential amino acids used in the present invention is from about 5 . 0 um (! 0 − 6 mole ) to about 50 mmol . ( 10 − 3 mole ). the proffered concentration of vitamins used in the present invention ranges from about 1 nanomole ( 10 − 9 mol .) to about 10 um . the preferred concentration of glucose used in this invention ranges from about 1 umol . to about 10 or more mmol . in case of elements ( e ), these organic ions are preferably included in the present compositions are at concentration ranges of about 1 umol to about 50 mmol . in addition to the elements ( a ), ( b ), ( c ), ( d ) and ( e ), the nutrient medium according to the present invention optionally contain any one of one or more of the following element : ( f ) purines and pyrimidines ; ( g ) other organic compounds ; ( h ) other inorganic ions ; ( i ) trace elements ; ( j ) buffers and indicators and ( k ) other supplements . all of the optional elements ( f ), ( g ), ( h ), ( i ), ( j ) and ( k ), when they are included in the nutrient medium according to the present invention are included in the amounts effective for enhancing the growth of cells involved in wound healing processes in combination with insulin or its mimicking substitute cinnamon or mhcp , further including an effective amount of insulin - like growth factor , igf , selenium , chromium , curcuma and mixtures thereof . preferably , components ( f ), ( g ), ( j ) and ( k ) range in concentration from about 1 mmol to about 10 mmol . in the case of components ( h ) and ( j ) the concentration preferably ranges from about 1 umol . to about 50 mmol . one of ordinary skill in the art will be able to readily modify the type and amount of the components of the cellular nutrient medium within the teaching of the present invention . in addition to serum free cellular nutrient medium , the present invention may also make use of cellular nutrient medium containing serum , although the use of serum containing cellular nutrient medium is generally less preferred than is serum free medium . examples of such nutrient medium include , among numerous others , dmem , ham f12 and ham f10 , all containing serum . the term “ cellular nutrient medium ” or “ nutrient mixture ” is used to describe all types of nutrient medium contemplated for the use in the present invention which contain at least the basic elements ( generally , of a minimum essential medium ) as described hereinabove , and such term includes serum free cellular nutrient medium . the cellular nutrient medium according to the present invention includes one or more commercially available media in solution or lyophilate ( solid ) form . the cellular nutrien medium used may be in the form of a lyophilate which may be reconstructed with water , preferably sterilized , distilled water and then supplemented with the anabolic hormone insulin or cinnamon or hydroxychalcone or polyphenol type - a polymer or mixtures thereof , and optionally , by each one separately and further including optional components igf , selenium , chromium or curcuma and mixtures thereof . alternatively , the nutrient medium may be used directly in formulations according to the present invention in the form of a lyophilate , or related solid - type material , rather than a solution , especially when gels , creams , elixirs , powders or other delivery vehicles are to be used for delivery . it is clearly preferred when utilizing solid - type materials for delivering the wound healing compositions according to the present invention that the delivery system in the form of a hydrogel or other form containing moistening quantities of water . many of the commercially available media ( preferably , serum free ) are available from suppliers such as collaborative research incorporated , bedford , gibco , grand island , n . y ., or biological industries , beth haemek , israel . these media may be used as purchased or modified within the scope and practice of the present invention . the term “ non - steroidal anabolic hormone ” is used throughout the specification to describe the primary hormone in the instant invention that promotes wound healing in combination with cellular nutrient media . the primary hormone is insulin or alternatively a nutrient substitute such as cinnamon , or other natural product which contains effective amounts of mhcp itself or polyphenol type - a polymer . as used herein , the term non - steroidal anabolic hormone includes naturally isolated ( preferably human ) or synthetically produced versions of insulin that are known to function substantially the same as the naturally occurring hormone and includes , where relevant , compounds produced by genetic engineering processes and techniques . the non - steroidal anabolic hormone that is especially preferred is insulin . while not being limited by way of theory , it is believed that the inclusion of at least one selected from the two , insulin or mhcp and preferably both components , serves to enhance the effect of the nutrient media in increasing the rate and natural process of wound healing . thus , it is believed that the non - steroidal anabolic hormone actually enables the wound cells to utilize or process the nutrient in the media , which action result in an enhanced rate of wound healing . a combination of insulin and mchp in effective amounts as otherwise described herein is shown to be synergistic in enhancing wound healing . the amount of each component , which is used in the formulation according to the present invention , will depend upon the type and size of the wound , but each component preferably is included in the amount effective for significantly enhancing the healing of a wound relative to traditionally wound healing therapies . in general , in embodiments according to the present invention , the formulation include an anabolic hormone or similar agent such as igf and / or insulin in concentrations of at least about 0 . 005 ng / ml preferably about 0 . 5 ng / ml to about 50 ng / ml or more , more preferably about 50 ng / ml to about 20 ng / ml or more . in the case of formulations containing insulin , the amount of insulin generally falls outside of this range , because of its tendency to degrade and become inactive a more rapid rate then other anabolic hormones . stabilized form of insulin could obviously be used at concentrations outside the above range . preferably , the anabolic hormone is insulin and / or a cinnamon extract as insulin substitute such as methylhydroxychalcone polymer or polyphenol type - a polymer , further including one or more of selenium , insulin - like growth factor , chromium , curcuma and mixtures thereof and because of the benefit this hormone or its substitute ( s ) have in promoting the growth and elaboration of cells and their generally absence of toxicity . the preferred anabolic hormone is human insulin , which is well - known protein is readily commercially from a number of sources ( for example , sigma chemical co ., usa or novo nordisk , copenhagen , denmark ). it is constituted from a number of amino acids ( approximately 51 ) with a total molecular weight of about 5 , 500 . human insulin for use in the present invention is generally prepared using genetic engineering techniques . depending upon the manufacturer , the insulin may have slightly different activity based upon its weight ; however the activity of insulin defined in units is , of course , standard . while not being limited by way of theory , in the present invention , it is believed that the insulin promotes the wound healing by enhancing the transport and utilization of glucose by the cells . the cellular nutrient medium , used in the present invention , is any nutrient medium having the effect of enhancing the recovery of wounded or atrophic skin tissues when used in combination with the cell growth - stimulating compound . in the preferred embodiment of the present invention , the nutrient media is composed of the components set forth herein , it is mixed with effective amounts of the non - steroidal anabolic hormone or its substitute to form the compositions of the present invention . preferably , the medium is serum - free . the cellular media comprises effective amounts of the following constituent : ( a ) essential ; ( b ) non - essential amino acids ; ( c ) vitamins as previously described ; ( d ) inorganic ions as previously described and ( e ) glucose ; optionally , ( f ) purines and pyrimidines ; ( g ) other organic compounds ; ( h ) other inorganic ions ; ( i ) trace elements ; ( j ) buffers and indicators and ( k ) other supplements . preferably , the cellular nutrient medium used herein contains effective amounts of elements ( f ) through ( k ). serum free nutrient medium is preferred . the preferred serum free nutrient medium is modified mcdb , a well - known medium . mixtures of standard nutrient media may also be used with favorable results in the instant invention . while not being limited by way of theory , it is believed that one plausible explanation of the mechanism of accelerated wound healing is that the presence of the anabolic hormone , and in particular , insulin and / or hydroxychalcone ( preferably a mixture of at least one of these and most preferably a combination of insulin and mhcp in nutrient medium , further including igf , selenium , chromium and / or curcuma ) in the formulations according to the present invention , promotes the utilization of the nutrient medium and consequentially , growth in situ of the granulation tissue , i . e ., within the wound itself . at the same time , the novel formulations may also induce the stimulation of the vascular elements and promote the growth of vascularized granulation tissue preparatory to split skin grafting . the present formulation may in this same way also be useful to promote the healing , growth and regeneration of atrophic skin and to function as atrophic skin adjuvants . the proliferation of vascularized granulation promotes epidermal growth from the peripheral edges of the wound over the vascular substratum and from the deeper layers of the dermis leading to an early closure of the skin over the wound . the mechanism , which might be assumed , is that in the proliferation phase , new capillaries and fibroblasts appear in the wound from the first day on and reach their maximum levels after one week . the new vessels in the granulation tissue originate as budlike structures on nearby vessels , penetrating the wound , become canalized and ramify throughout the wound by cell multiplication . it is further believed that the function of the nutrient medium is to provide nutrients to the normal , distressed and injured cells and skin that surround or comprise the wound to be treated , in order to enhance the growth and repair mechanisms that are responsible for the healing of the wound . in this way , the nutrient medium functions with the anabolic hormone or the nutrient substitute to promote the normal processes of elaboration , synthesis and growth leading to the healing of the wound and adjacent skin areas . in addition , the gelled media serves to maintain a moist environment surrounding the wound area . a number of nutrient media , preferably serum free , alone or in combination may be used in the present invention , including commercially available media or other media well known in the art . examples of such media ( all without serum or having had serum removed ) include adc - 1 , lpm ( bovine serum albumin - free ), ( 10 ( ham ), f12 ( ham ), dccm1 , dccm2 , rpmi 1640 , bgj medium ( fitton - jackson modification ), basal medium eagle ( bme with the addition of earl &# 39 ; s salt base ), dulbecco &# 39 ; s modified eagle medium ( dmem - without serum ), glasgow modification eagle medium ( gmem ), leibovitz l - 15 medium , mccoy &# 39 ; s 5 a medium , medium m199 ( m199e - with eagle &# 39 ; s minimum essential medium ( mem - e with eagle base ), minimum essential medium eagle ( mem - h - with hank &# 39 ; s salt base ) and minimum essential medium eagle ) mem - naa - with non essential amino acids ), among numerous others . these and other useful serum - free nutrient media are available from gibco , grand island , n . y ., usa and biological industries , bet haemek , israel , among others . in addition , serum - containing nutrient media may also be used in compositions according to the present invention , but the use of the serum - containing media is less preferred because of the possibility that the serum may be contaminated with microbial agents and because the patient may develop immunological reaction to certain antigenic components contained in the serum . while a large number of serum free nutrient media may be used in the present invention , a preferred but not the only nutrient media for use in the present invention is modified mcdb 153 . experiments that were performed to extend the viability of split skin grafts show that the use of modified mcdb 153 medium prolonged the limit of viability from 3 to 9 weeks . histological examination of specimen indicated a strong attachment of the epidermal layer to the dermal substratum in all specimen kept in the modified mcdb 153 medium at 4 °- 8 °- c . hereafter are presented the particular constituents and concentrations of the above groups in mcdb 153 . weights of each of the above in the medium may be varied within the concentration described herein above to provide formulations workable within the description of the present invention . preferably , the non - steroidal anabolic hormone to be incorporated into the mcdb 153 composition according to the present invention is a mixture of insulin and / or its substitute at effective concentrations . most preferably , the anabolic hormone insulin ( with or without transferring ) or the insulin substitute each included in effective concentrations for promoting wound healing . the effective amount of insulin generally ranges from about 5 ng / ml to about 100 ug / ml and more preferably about 500 ng / ml to about 5 ug / ml within this range . higher amounts of insulin may be merited where the formulation is stored for longer periods of time . the synergistic activity of insulin and its nutrient substitute suggests that they will enhance the activity of the indigenous natural occurring insulin in and around the wound whether the wound is traumatic or results from atrophic processes and the concomitant sparse blood supply to the area . the anabolic hormone insulin was found to impart a maturing stimulus of the growing culture . insulin may be commercially obtained and generally provided in mu quantities ( about 41 ng of insulin ). the international unit of insulin ( si = system international ) is the activity contains in 0 . 04167 mg ( 41 . 67 ug ) of the 4 th international standard preparation ( 1958 ). the standard preparation is quantity of purified zinc insulin crystals extracted 52 % from bovine and 48 % from porcine pancreas ( se martindale pharmacopoeia , 26 th ed .). the formulation according to the present invention may also include an effective amount of an antimicrobial agent , for example , antibiotics , antiviral and antifungal agents , such as griseofulvin and nystatin , and the like . the antimicrobial agent may be added for its ability to treat infections , or alternatively , for its prophylactic effect avoiding an infection . when antimicrobial agents are contemplated for use in the present invention , an amount effective to treat an infection or a prophylactic amount of such agents is chosen . the amount of antimicrobial agent used is that amount typically used in topical application . one of ordinary skill in the art can easily determine the type and amount of antimicrobial agents chosen for use in formulations according to the present invention . in general the antimicrobial agent may vary widely depending on the efficacy of the agent to be delivered and the prophylactic treatment or the severity of the infection . however , in general , the amount of antimicrobial agent to be used in the present invention will range from about 0 . 05 ug / ml to about 250 mg / ml with the preferred range of about 50 to about 200 ug / ml . of course , these ranges will vary depending upon the condition of the infection to be treated as well as the strength of the antimicrobial agent employed . for example , in the case of treatment of fungal infections , the amount of amphotericin used generally ranges from about 0 . 1 ug / ml to about 100 ug / ml with a preferred concentration of about 0 . 25 ug / ml . in the case of antibiotics and in particular , penicillin , streptomycin and gentamycin , these agents are generally utilized within the concentration range of about 0 . 05 ug / ml to about 250 mg / ml with preferred concentration of about 25 ug / ml to about 250 ug / ml . in the case of the use of antibiotics , any number of antibiotics may be used , including sulfa drugs , penicillin , chloramphenicol and aminoglycosides , among others , but it is preferable to use the broad spectrum antibiotics , for example cephalosporin or tetracycline in a prophylactic amount or alternatively , in an amount effective for treating bacterial infection . in using antibiotics , one of ordinary skill in the art will recognize to minimize or avoid the use of antibiotics that may produce allergic reactions in the treated patients . in certain embodiments according to the present invention , the formulations as described herein are further formulated with hydrogels or related delivery polymers for delivering the formulation according to the present invention to the wound . in these embodiments , the formulations consists of effective amounts of anabolic hormone insulin or it nutrient substitute with a nutrient media , either alone or in addition to other optional components , are admixed with amounts of a delivery polymer effective for producing a gel , for example a hydrogel polymer derived from hema ( hydroxyethylmethacrylate ) or nvp ( n - vinylpyrrlidone ), polyethylene glycol ( peg ), polyethylene , gelatin , various carbohydrates , sepharose , agarose , methylcellulose , hydroxymethyl and hydroxyethylcellulose and related hydrophilic cellulose polymers including cellulose , dextran , polyethylene oxide , dextrin - polyethylene , agarose , acrylamide , polyacrilamide , amyloseor collagen to promote wound healing and skin growth . in general , the amount of delivery polymer which is added to the formulations produce a gel generally ranges from about 0 . 1 % by weight to about 20 % by weight , preferably about 1 % to about 5 % or more by weight , depending upon the type of delivery polymer used . the gel compositions according to the present invention preferably contain sufficient water or moisture to maintain the wound environment in a moist state — a condition shown to be beneficial to the wound healing . in addition to accelerating wound healing through the application of the formulations of the present invention , the compositions that are formulated with a delivery polymer also exhibit the added benefit of preventing or slowing the formation of a scab on the wound . while not being limited by way of theory , it is believed that the resultant wound tissue , which remains soft and moist instead of dry and scab - like , produces a beneficial , cosmetically pleasing and increased rate wound healing . in addition to solution , gel or hydrogels forms , compositions according to the present invention also may be formulated as creams , elixirs , lotions , powders and the like . the various components of the wound treatment compositions according to the present invention may have to be varied in order to maintain effective concentrations for promoting wound healing . when the wound healing compositions are formulated according to the present invention , these compositions may also contain an amount of pharmaceutically acceptable excipient and , in addition , other additive such as diluents , compounding agents , bulking agents , surfactants and the like . one of the ordinary skills in the art will recognize to vary the concentrations of the individual components as a function of the type of delivery vehicle used for the wound treatment compositions in order to facilitate and enhance the wound healing activity of the present formulations . in a method for treating wounds according to the present invention , the formulations as described hereinabove are topically applied to the wound tissue as a liquid or gel preferably at least once a day and up to six or more times a day . in the case of formulations containing a delivery polymer , preferably as a moisten delivery polymer , the formulations may be administered less frequently then when the formulation are applied as a liquid , for example , once every several days or more . one of ordinary skill in the art will readily be able to determine the amount and frequency of administering the formulation according to the present invention . the amount of material that is spread on the wound as a treatment will be readily apparent to one of ordinary skill in the art . in general , in solution or in gel form , about 1 cc of the formulation is applied per 1 cm 2 of the wound area . depending upon the depth of the wound to be treated , an amount greater or lesser then the 1 cc of formulation per 1 cm 2 of the wound surface may be utilized . in many instances , the depth of the formulation on the wound shall be at least about 2 mm and shall cover the whole surface of the wound . one gram of agarose type 1 - a ; low eeo ( sigma chemical co ) was dissolved in 10 cc of 2 × distilled water . the solution was autoclaved . all preparations of the gel media were made using a final concentration of either 1 % agarose or gelatin . the preferred media contained essential and non - essential amino acids , vitamins , other organic constituents , major inorganic salts , trace elements and buffers are supplemented with cacl , l - glutamine and the non - steroidal anabolic hormone insulin . at concentrations indicated below . ninety cc of the above - defined medium was warmed in a water bath to 40 ° c . following autoclaving , 10 cc of the 1 % agarose gel solution was allowed to cool to 40 ° c ., and the solution was then added to the medium to produce a homogenous mixture . the mixture was then aspirated into 10 or 20 cc syringes and refrigerated at 4 ° c . hartley - derived albino guinea pigs weighing 300 - 400 grams were used in this study . the animals were housed in individual cages and fed regularly guinea pig chow and water enriched with 0itamin c ad libitum . all surgical procedures were performed under general anesthesia using katamin hcl ([ d ]- 2 -( o - chlorophenyl )- 2 -( methylamino ) cyclohexanone hydrochloride , available from park - davis ) 150 mg / kg i . m . all histological sections were prepared using hematoxylene and eosin stain as well as mason &# 39 ; s trichrome method for collagen . each animal was anesthetized and four bilateral symmetrical full thickness skin segments measuring 2 × 3 cm were excised from the dorsum of each animal , two from the scapular region and two from the lumbar region . after washing the wound with warm saline , the wounds were dressed with the gel at a concentration of about 1 cc / cm 2 , covered with a polyethylene base synthetic membrane omiderm ( omicron , israel ) and anchored with gauze , elastic adhesive and retelast netting ( medinet , s . p . a ., italy ). the dressing were changed every 48 hours under general anesthesia , at which time the wounds were washed with warm saline to remove any debris and the remaining gel within the wound , measures , photographed and fresh gel was applied and the wounds dressed as described above . at days 4 , 6 , 8 , 10 , and 12 , the animals were sacrificed and the wounds with the surrounding structures were removed and prepared for histological examination . the thickness of the newly formed epithelial layer and the underlying granulation tissue were measured using light microscopy ( zeiss ) at 100 × magnification . the wound micrographs were analyzed using imagemeasure ( phoenix corp ., seattle , wash .) computerized morphometric program and the experimental results were plotted as graphs showing the fractional change in the area ( i . e . the closure rate ) of the wounds treated with the gel - media + hormone versus the various controls . the wound closure rate was tabulated and peak closure day (% closure ) was determined . peak closure rate has been used as the measure of wound healing potency . peak closure rate is the maximum slope of the vs , time curve . peak closure rate indicate the time after the start of the treatment at which tissue healing or growth rate reaches a maximum value ( maximum rate ); i . e . when the treatment is optimal . seven groups of experiments were performed using various combinations of medicaments as controls : experiment 1 — gelatin in saline ( n = 12 ) vs . agarose in saline ( n12 ) fig1 experiment 2 — test for control — scarlet red ( n = 12 ) and agarose in saline ( n = 12 ) as positive and negative control respectively . fig2 experiment 3 — agarose in medium supplemented with insulin ( n = 12 ) vs . agarose in medium without insulin ( n = 12 ). experiment 4 — agarose in saline with insulin ( no medium ) ( n = 33 , 5 ug / ml ), vs . agarose in medium containing insulin ( n = 12 ) fig3 . experiment 5 — agarose in saline ( n = 12 ) supplemented with insulin vs . agarose in medium supplemented with insulin ( n = 12 ): experiment 6 — agarose medium supplemented with insulin without disinfectant compress ( n = 12 ) vs . the same medicament plus 10 minutes compress of esdc ( symbollon corp .) applied during the change of bandages ( n = 15 ). experiment 7 — agarose in medium supplemented with insulin ( n = 12 ) vs . agarose in saline supplemented with insulin ( n = 12 ). gelatin and agarose were prepared in saline and the two gels were used to treat experimental wounds . the rate of closure of the wounds treated with agarose was faster than the rate of closure of wounds treated with gelatin . wound closure comparison indicates that the closure of 50 % was 31 % faster with agarose in saline as compared to gelatin in saline . peak closure rate occurred 33 % earlier with agarose in saline treatment . scarlet red dressing ( o - tolylazo - otolylazi - beta - naphthol plus lanolin , olive oil and petroleum from chesebrough - ponds , inc ., hospital products division , greenwich , conn ., usa - an azo dye - containing preparation routinely used in hospitals and claimed to increase epithelialization ) was used as a positive control and saline in agarose was used as negative control . the rate of wound closure in each of these formulations was plotted against that of the wounds treated with media + insulin ( n = 15 ). comparison of the wound closure rate indicated that 50 % closure was 50 % faster with the media + insulin treatment as compared to both controls . peak closure rate occurred 50 % and 40 % later for saline and scarlet red treatment respectively , as compared to media + insulin . treatment with media + insulin formulation induced accelerated wound healing compared to treatment with media prepared in agarose without insulin . the rate of wound closure using the media alone was similar to that of the wound treated with saline in agarose . since the media alone did not induce any stimulatory effect on the wounds closure , the presence of insulin appeared essential for utilization of the media by the cells . comparison of wound closure rate indicates that closure of 50 % was 60 % slower with media alone compared to media + insulin . peak closure rate occurred 50 % earlier in media + insulin treated wounds compared to wound treated with media alone . test of agarose in media + insulin with and without esdc disinfectant compress the rate of wound closure with the media + disinfectant treatment was initially faster than that of the wounds treated with media alone . however , on the 2 nd day the rate of the wound closure for wounds treated with media + insulin accelerated and was faster than the closure rate of wounds treated with the addition of the disinfectant compress . after the initial period of time , the disinfectant exerted cumulative cytotoxic effect that slows the healing process . comparison of wound closure rate indicated that the closure of 50 % was 45 % slower with the disinfectant treatment . peak closure rate occurred 100 % later with the disinfectant treatment compared to medium + insulin without the disinfectant treatment . the following conclusions can be drawn from the results of the experiments presented herein . using the formulations employed , use of agarose improves wound closure rate as compared to gelatin . in particular , closure of wound treated with gelatin in saline is about 33 % slower than the closure of wounds treated with agarose in saline . the use of scarlet red dressing as a positive control and saline as a negative control yielded similar results and slower closure when compared with media + insulin treatment . the presence of insulin in the presence of medium produces significant wound healing benefit ( wound closure is significantly higher ). treatment with gel media ( agarose ) without insulin was slower than media with insulin and similar to the rate of closure of agarose in saline . the presence of insulin in media evidenced significantly wound - healing activity vs . insulin in saline . the use of agarose in media containing insulin produced a scar that had a soft tissue texture and a smooth surface ( an unexpected result ). it produced a more aesthetic and natural looking surface compared to scarlet red or saline . in most instances , neither bulging nor any indentation occurred and the level of the scar tissue is continuous with the conformation of the surrounding non - wounded skin . the texture of the scar is also similar to that of the surrounding non - wounded tissue and discoloration eventually dissolved . the focus of our interest primarily was the wound closure and our results using the animal model point to the efficacy of media supplemented with insulin formulation according to the present invention , regardless whether the rate of the wound closure was due to wound contraction or epithelialization or to combination of the two . with these mechanisms taken into account , the exponential decrease in wound area was nevertheless , significantly faster using media supplemented with insulin . the various controls used in this study illustrate that , both media alone and insulin alone , individually or together did not achieve the closure rates for wounds treated with both . furthermore , negative ( scarlet red ) and positive ( saline ) controls yielded similar and slower rates of closure . since trace quantities of growth factors and constitute part of the wound exudates ( freshney et . al . ), none were added to the formulation of the gel media . while not being limited byway of theory , it is our hypothesis that the application of the gel media into the wound space created a complex , biologically active substrate which may act with the autologous growth factors which , in turn , reinforce the biological activity of the gel . the gel media combined with properties and characteristics of a biologically active material that , in addition , contains all the nutritional requirements , for cellular proliferation . our results regarding the gel &# 39 ; s efficacy appear to agree with earlier findings of mulder , g . d et . al . who claimed that early wound exudates induced cellular proliferation . the animal model presented herein imposes certain limitations : wounds are clean , surgically made and uncomplicated by contamination . this point is important since the gel media provides a growth substrate for bacteria . it is believed that , in contaminated wounds , a bacteriogram followed by or concomitant with specific antibiotics or disinfectant treatment in combination with the gel media treatment may be indicated . this invention has been described in terms of specific embodiments set forth in detail herein , but it should be understood that these are by way of illustration and the invention is not necessarily limited hereto . modifications and variations will be apparent from the disclosure and may be resorted to without departing from the spirit of the invention s those skilled in the art will readily understand . accordingly , such variations and modifications are considered to be within the purview and scope of the invention and the following claims . among the common treatments for chronic atrophic wounds , moist dressing is used to create optimal environment and to prevent desiccation of the wound bed . enriched cell culture medium supplemented with insulin was gelled in 1 % agarose . the gel was applied to the surface of the wound ( 1 ml / cm 2 ) once a day . all wound included in the study were clinically clear of infection , following topical antiseptics or antibiotics . etiology of the wounds was varied from venous and / or arterial insufficiency to insulin - dependant and non - dependant diabetic ulcers , or combinations of the above . a total of 288 wounds were within the inclusion criteria , with only contaminated and neoplastic wounds excluded . about 80 % of the patients were ambulatory and the wound were examined by the attending physician every 7 to 14 days at an outpatient clinic . the remaining 20 % were admitted to the study while hospitalized . healing started 7 - 14 days after the initial treatment . the criterion for success was determined on complete wound closure that was attained in 189 of the 288 patients ( 65 . 6 %). the average time required for healing of the wounds caused by systemic pathologies ( n = 181 ) and those based on regional status ( n = 107 ) were 12 and 4 . 4 weeks respectively , compared with 290 and 10 . 3 weeks of previous conventional treatment . in 19 extensive wounds , when vascularization and granulation tissue growth started , a successful surgical closure was attained . most of he wounds in patients that did not continue the treatment ( 34 . 4 %) exhibited reduction of wound volume ranging from 11 % to 98 % of the initial volume . the reasons for discontinued treatment ranged from difficulties in reaching the clinic for the weekly examination rather then reasons directly related to the treatment itself and occurred in the early stages of the treatment . thus the healing was rapid with minimum scaring and pain . no side effects or allergic reactions were reported or observed . an 80 - year - old male was a non - insulin - dependant patient . he suffered from venous insufficiency , asthma controlled by prednisone , and from siderblastic anemia . he presented with a two years old leg ulcer which previously was treated with antiseptics . the treatment with the gel lasted 4 months partially in the hospital and later on an ambulatory basis . a 69 - years - old male patient who had a history of 45 years old traumatic injury resulting in lymphostasis and lymphoededema of both lower extremities was admitted into the study . he had multiple leg ulcers which were continuously treated over the years with every conceivable medication or technique . the ambulatory treatment with the gel lasted 4 months for one of the ulcers and five months for complete closure of all he ulcers . a 73 - years - old male with venous insufficiency of both legs presented an off / on leg ulcer of 19 years duration . previous treatments included antiseptics and topical antibiotics ; granuflex was used for at least 2 months . ambulatory treatment with the gel lasted 3 months after which complete closure was obtained . failure of healing is attributed , among other factors , to deficiency of important minerals , vitamins and other nutrients in the wound fluid . since the chronic wound , ischemic conditions prevail , healing is hindered by the lack of those blood borne nutrients . the gel treatment aims to change microenvironment of the chronic atrophic wound thereby affecting the metabolic processes in the wound cells . it has been shown that the physiochemical composition of the wound fluid is quantitatively similar but not identical to serum . shelling et . al . reported that the main difference is in the salt concentration ; in the wound fluid potassium and calcium are higher and sodium and phosphate are lower . furthermore , white et . al . claim that there is less protein , glycoproteins , lipids and globulins . these differences decrease as the wound heals and cellular metabolic requirements return to normal . linge c . use of insulin containing composition for wound treatment . 2010 january - 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