Title of Invention	DELIVERY SYSTEM
Abstract	A microbicidal delivery system including: a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula (IV); a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therA^ith.

Title of Invention

DELIVERY SYSTEM

Abstract

A microbicidal delivery system including: a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula (IV); a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therA^ith.

Full Text	Microbicidal dendrimer composition delivery system The present invention relates to the prevention and treatment of sexually transmitted infections and, in particular, relates to the use of a condom carrying a dendrimer having naphthyl disulfonate terminal groups. The global incidence of morbidity and mortality of sexually transmitted infections (STIs) caused by Human Immunodeficiency virus (HIV), Herpes virus (HSV) and other viral and microbial pathogens is estimated at several hundred million individuals worldwide. One approach to control the transmission of STIs is the use of topically applied, female/male controlled vaginal or rectal microbicides that inactivate the relevant pathogens. It has further been found that the use of detergent-based microbicides such as nonoxynol-9 (N-9) may have adverse effects in the prevention of HSV-2 or HIV. Whilst such detergents act by disrupting HSV and HIV membranes, they may also compromise the natural vaginal barrier and significantly increase susceptibility to infection. International patent application'no PCT/AU02/00407 (WO 02/079299), to applicants, the contents of which are incorporated herein by reference, discloses a class of dendrimers, (highly branched macromolecules with a definite envelope of polyanionic or cationic surface groups) which have been shown to exhibit a range of antiviral and antimicrobial activity with minimal toxicity. In antiviral and antimicrobial testing, a subset of these dendrimer structures have unexpectedly shown exceptional activity against a broad spectrum of microorganisms associated with sexually transmitted infection that makes them agents of choice for the development of a vaginal or rectal microbicide for the treatment or prophylaxis of sexually transmitted infections. One compound in particular, SPL7013, formula I, NHR where R represents a group of the formula \\/ or a pharmaceutically acceptable salt or solvate thereof; for example, has been found to have activity against various sexually transmitted infections. SPL7013 consists of a polylysine dendrimer scaffold with the active surface groups consisting of 32 naphthyl disulphonic acid groups. Each of the naphthyl disulphonate surface groups is attached to the branched dendrimer scaffold with an amido-methyleneoxy linkage to the 32 terminal groups. There are a number of options for the administration of the type of compound represented, for example, by formula I or a pharmaceutically acceptable salt or soivate thereof, in the treatment or prophylaxis of sexually transmitted infections, for example topical administration. A variety of topical administration routes are available. The particular mode selected will depend, of course, upon the particular condition being treated and the dosage required for preventative efficacy. Such modes of administration include the vaginal, rectal, oral and trans-dermal routes. Suitable formulations for topical, particularly vaginal or rectal, administration include solutions, suspensions, gels, lotions, foams, films, jellies, and creams as well as discrete units such as suppositories and microencapsulated suspensions. Other delivery systems can include sustained release delivery systems which can provide for slow release of the active component of the invention, including sustained release gels, creams, suppositories, or capsules. However, some of the topical modes of administration may have some disadvantages. For example, vaginal or rectal suppositories may not provide medication to the entire vagina or rectum due to their shape and/or placement in the vagina or rectum by the user. In addition, the medication being supplied by the suppositories may drain out of the vagina or rectum rather quickly, thus reducing the potential effectiveness of the medication. Similarly, the application of topical formulations in the form of a foam, jelly, cream or film may be messy, and the effectiveness of the formulation may be reduced due to drainage of the formulation from the vagina or rectum. Barrier methods, for example, condoms, are also used to prevent sexually transmitted infections. However, condoms have been known to rupture due to stresses, caused by, for example, stretching or incorrect use. Condoms may also develop microscopic leaks, or may contain small perforations that may lead to transfer of bodily fluids across the barrier, leading to risk of infection. It is, accordingly, an object of the present invention to overcome or at least alleviate one or more of the difficulties and deficiencies related to the prior art. Summary of the invention In a first embodiment of the present invention, there is provided a microbicidal delivery system including: a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula IV o' vo IV, a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith. Detailed description of the invention As used herein in this specification and claims, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to a "a macromolecule" includes one or more such macromolecules. By the term "comprises" (or its grammatical variants) as used herein in this specification and claims is equivalent to the term "includes" and should not be taken as excluding the presence of other elements or features. By the term "surface of the prophylactic device' as used herein in the specification and claims, we mean either the internal surface or the external surface or both surfaces of the device. It has surprisingly been found that the efficacy of the microbicidal composition may be increased by delivery of the composition to the potential site(s) of infection concomitant with sexual activity. Further, the potential adverse consequences of the partial failure of the prophylactic device may be substantially reduced with the inclusion of the microbicidal composition, as described above. The delivery system according to this aspect of the present invention may also reduce or eliminate the adverse side effects associated with detergent-based microbicides, resulting in significantly decreased susceptibility to infection with HSV-2 or HIV. Preferably, the microbicidal compound is selected from one or more of SPL7013 (represented by formula I below), SPL7304 (represented by formula II below), SPL7320 (represented by formula III below), where R in each case is represented by the group of formula IV; a microbicidally active derivative thereof, and a pharmaceutically acceptable salt or solvate thereof. •NHR RHN, NHR ,-NHR RHiy '0 Q H HfTO vY"^ V^^lN J " MnLo o H NHR RHN CyidH /v ^ O^YNHR HhL 0 S IHR ««f o \ n "^ "" ( NHR NHR RHN NHR MHR 'HR ,NHR RHN N N- r NHR V ^IHR N^^v^> NHR NHR IJHR C r '^, NHR —NHR •NHR V , 'V. N ( 3*' N" NHR RH NHR 8 where R represents a group of the formula IV IV. The structures of these compounds consist of a polylysine dendrimer, a polypropyleneimine dendrimer, and a polyamidoamine (PAMAM) dendrimer scaffold respectively, with the active surface groups consisting of 32 naphthyi disulphonic acid groups as sodium salts. Each of the naphthyl-disulphonate functional surface groups is attached to the branched dendrimer scaffold with an arnido-methyleneoxy linkage to the 32 terminal groups. The compound SPL7013 is preferred. As described above, the compounds SPL7013, SPL7304, and SPL7320 are preferred compounds of the present invention, and have been found to exhibit significant antiviral activity, particularly against viral and microbial vectors of the most common sexually transmitted infections. Common sexually transmitted infections include, but are not limited to papillomaviruses, Chlamydia trachomatis, Candida albicans, Trichomonas vaginalis, Herpes simplex viruses, Cyclomegalovirus, Neisseria gonorrhoeas, Human Immunodeficiency viruses, Treponema pallidum, Hepatitis B and C viruses, Calymmato bacterium granulomatis, Haemophilus ducreyi, Sarcoptes scabiei, Phthirus pubis, Mycoplasma, Gardnerella vaginalis. SPL7013 exhibits a broad-spectrum antiviral activity with high efficacy and minimal cell or animal toxicity, against vectors of several of the most important vaginally or rectally sexually transmitted infections. High activity has been determined against genital Herpes virus-2 (HSV-2) both in vitro cell tests and in vivo in an animal (mouse) model test and in vitro cell tests against Herpes virus-1 (HSV-1) and Human Immunodeficiency viruses (HIV-1 and HIV-2). It has also been shown to be active against the causative agent of genital warts, Human Papillomavirus (HPV), and against the bacterial vector of non-specific urethritis, Chlamydia trachomatis. In cell tests, SPL7013 has also shown activity against viral strains of Herpes virus-2 that are resistant to currently used modified nucleoside based antiviral agents. In addition SPL7304 and SPL7320 show high activity against HSV-1, HSV-2, HIV-1, and HIV-2. Furthermore SPL7013, SPL7304 and SPL7320 are active in CD4-dependant and CD4-independent HIV transmission assays, and are effective at preventing HIV-1 attachment and fusion. All compounds have been shown not to inhibit the growth of various species of beneficial Lactobacillus. In addition SPL7013, SPL7304, and SPL7320 have been shown to be effective in the prevention of infection of human peripheral blood monocular cells (PBMCs) with either HIV-1 RoJoorSIVBQ. 6pd. The pharmaceutically acceptable salt or solvate may be of any suitable type. Examples of suitable salts include, but are not limited to metallic salts (for example, aluminium, calcium, lithium, magnesium, potassium, sodium and zinc salts), organic salts (for example, N,N'-dibenzylethylenediamine, chloroprocaine, diethanolamine, ethylenediamine, cyelohexylamine, meglumine, (N-methylglucamine) and procaine), quaternary amines (for example, choline), sulphonium salts and phosphonium salts. The microbicidal composition preferably has a viscosity such that it remains in contact with the prophylactic device for an extended period of time, and does not flow off the prophylactic device on contact. As stated above, the microbicidal composition of this embodiment of the present invention includes a carrier, excipient or diluent. The microbicidal composition may be provided in the form of a solution, suspension, lotion, film, jelly, foam, gel, cream and the like. The carrier, excipient or diluent may include one or more of any and all conventional solvents, dispersion media, fillers, solid carriers, aqueous solutions, coatings, viscosity modifying agents, antibacterial and anti fungal agents, isotonic, and absorption enhancing or delaying agents, activity enhancing or delaying agents and the like. The use of such media and agents for pharmaceutically active substances is well known in the art, and it is described, by way of example, in Remington's Pharmaceutical 10 Sciences, 18th Edition, Mack Publishing Company, Pennsylvania, USA. Except insofar as any conventional carrier and/or diluent is incompatible with the active ingredient, use thereof in the microbicidal compositions of the present invention is contemplated. Vehicles suitable for topical administration include oil-in-water and water-in-oil emulsions, white petrolatum, hydrophilic petrolatum, lanolin emulsions, polyethylene glycols, cocoa butter, buffering agents (including Carbopol 971P), emollient oils (e.g. water-soluble oils including, for example, polyethylene glycol), a lubricating gel (including, for example, water, propylene glycol, hydroxyethyl cellulose, benzoic acid and sodium hydroxide), a water-soluble oil (including, for example, glycerine, propylene glycol, polyquaternium #5, methyl paraben and propyl paraben), a cream (including, for example, benzyl alcohol, cetearyl alcohol, cetyl esters, wax, octyldodecanol, polysorbate 60, purified water, and sorbitan monostearate), and the like. Preferably, the carriers, excipients and/or diluents include one or more of the group consisting of sodium hydroxide, water soluble oils, buffering agents, propylene glycol, glycerine and water. More preferably, the carriers, excipients and/or diluents include sodium hydroxide, edetate disodium dihydrate, methyl paraben, propyl paraben, Carbopol 971 P, propylene glycol, glycerine, and purified water in combination. The microbicidal composition may further include a secondary pharmaceutically active compound. Accordingly, in a further embodiment of the present invention there is provided a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of the formula IV 11 IV a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; a secondary pharmaceutically active compound; and a carrier, excipient or diluent therefor. The secondary pharmaceutically active component may be exemplified by, but not limited to, one or more of the compounds selected from the group consisting of: Acetonemia preparations Anaesthetics Anti-acid agents Antibacterials Anti-convulsivants Anti-histamines Anti-inf lam m atones Anti-parasitic agents Anti-STI agent Antiviral Pharmaceuticals Biologicals Branchedilators and expectorants Cardiovascular Pharmaceuticals Anabolic agents Analgesics Anti-arthritic agents Antibodies Anti-fungals Anti-inf ectives Anti-microbials Anti-protozoals Anti-ulcer agents Eiehaviour modification drugs Blood and blood substitutes Cancer therapy and related Pharmaceuticals Central nervous system Pharmaceuticals 12 Contrast agents Contraceptives Diabetes therapies Diuretics Fertility Pharmaceuticals Giowth hormones Growth promoters Hematinics Hemostatics Hormones and analogs Hormone replacement therapies Immunostimulants Minerals Muscle relaxants Natural products Nutraceuticals and nutritionals Obesity therapeutics Ophthalmic Pharmaceuticals Osteoporosis drugs Pain therapeutics Peptides and polypeptides Respiratory Pharmaceuticals Sedatives and tranquilizers Transplantation products Urinary acidifiers Vaccines and adjuvants Vitamins Preferably, the secondary pharmaceuticaliy active compound is a contraceptive or an agent active against sexually transmitted infections. More preferably, the secondary pharmaceuticaliy active compound is a contraceptive, most preferably, a spermicide. Examples of contraceptives and agents active against sexually transmitted infections include, but are not limited to, podophyllin, tetracycline, nyastatin, fluconazole, metronidazole, acyclovir, penicillin, cefotaxime, spectinomycin, retrovir, erythromycin, ceftriaxone, cotrimoxazole, benzyl benzoate, malathion, nonoxynol-9, octoxynol-9, menfegol, progestin, estrogen, and estradiol. Other suitable secondary pharmaceuticaliy active components which are contraceptives or agents active against sexually transmitted infections would be known to the person skilled in the art. The microbicidal composition may be carried on the prophylactic device in any suitable manner. Examples include, but are not limited to, the composition being carried on a surface of the prophylactic device (for example, the internal surface, the external surface or both surfaces of the device), impregnated into the prophylactic device, covalently bound to a surface of the prophylactic device, and the like. 13 The prophylactic device may be of any suitable type, a condom, a cervical cap, contraceptive diaphragm, vaginal sponge, pessary, or the like may be used. A condom is preferred. The prophylactic device and microbicidal composition may be selected to ensure compatibility there between. Where a condom is used as the prophylactic device, the microbicidal composition may be carried on an external surface and/or an internal surface of the condom. Preferably, the microbicidal composition covers at least a substantial portion of the external surface and/or the internal surface of the condom. In a preferred aspect of this embodiment of the present invention, there is provided a microbicidal delivery system including a microbicidal compound of formula I RH! •NHR NHR RUN •NHR .NHR where R represents a group of the formula IV 14 .o- o IV. a carrier, excipient or diluent therefor; and a condom; the microbicidal composition being carried on a surface of the condom and being compatible therewith. In a further embodiment of the present invention, there is provided a microbicidal delivery system including a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula IV IV 15 a microbicidally active derivative thereof, or pharmaceuticaliy acceptable salt or solvate thereof; a secondary pharmaceutically active compound; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith. Preferably the secondary pharmaceutically active compound is an agent active against sexually transmitted infections. In another embodiment of the present invention, there is provided a method for the prevention of sexually transmitted infections in a human patient, including providing a microbicidal delivery system, including; a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula IV IV a microbicidally active derivative thereof, or 16 a pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on E surface of the prophylactic device and being compatible therewith. The microbicidal compound may be present in any suitable amounts. The amount of microbicidal composition should be sufficient for the reduction or prevention of sexually transmitted infections. This amount may depend on the particular sexually transmitted infection sought to be prevented, and individual patient parameters including age, physical condition, size, weight and concurrent treatment(s). These factors are well known to those of ordinary skill in the art and can be addressed with no more than routine experimentation. The weight % of microbicidal compound included in the microbicidal composition according to the present invention may be in the range of about 0.5% to 20% weight/weight, more preferably in the range of about 1% to 18% weight/weight, most preferably in the range of about 2% to 15% weight/weight. The microbicidal composition according to the present invention may be administered in an amount sufficient for the prevention of sexually transmitted infections. This amount may depend on the particular sexually transmitted infection sought to be prevented, and individual patient parameters including age, physical condition, size, weight and concurrent treatment(s). These factors are well known to those of ordinary skill in the art and can be addressed with no more than routine experimentation. The amount of microbicidal composition included in the microbicidal delivery system according to the present invention may be in the range of 0.25 g to 2 g. When the microbicidal composition is applied to the outside surface of the prophylactic device, the amount of microbicidal composition is preferably between about 0.5 g to 2.0 g, more preferably between about 0.75 g to 1.75 g, most preferably between about 1.0 g to 1.5 17 g. When the microbicidal composition is applied to the inside of the prophylactic device, the amount of microbicidal composition is preferably between about 0.1 g to 1.0 g, more preferably between about 0.15 g to 1.0 g, most preferably between about 0.25 to 0.65 g. Further features of the present invention will be apparent from the following Examples which are included by way of illustration, not limitation, of the invention. Examples Example 1 - Preparation of microbicidal composition (3% active). Table 1 - Ingredients for 3% microbicidal composition Ingredient Monograph Quantity per batch (kg) Excipients Sodium Hydroxide NF NF 0.1443 Edetate Disodium Dihydrate DSP USP 0.010 Methyl paraben NF NF 0.018 Propylparaben NF NF 0.002 Carbopol971PNF NF 0.500 Propylene Glycol DSP USP 0.100 Glycerin USP USP 0,100 Purified Water I USP 1.804 Purified Water II USP 8.370 Active Pharmaceutical Ingredients SPL7013 0.339 Protocol i. The equipment is sanitised and rinsed prior to manufacture. ii. In a stainless steel jug, Sodium Hydroxide, NF, is dissolved in purified water. 18 iii. In a stainless steel vessel, Edetate Disodium Dihydrate, USP, is added to purified water and stirred with a high shear mixer until dissolved, iv. Methyl- and Propyl- paraben, NF, are added one at a time and mixed until fully dispersed, v. Carbopol 971P, NF, is added slowly and the mixture stirred until the Carbopol 971 P, NF, is fully dispersed and a smooth gel is formed, vi. Propylene glycoi, USP, and Glycerin, USP, are added to the vessel and the solution mixed until the contents are fully dispersed. vii. Sodium Hydroxide solution from Step ii. is added until the pH is 4.5. viii. Following pH measurement, purified water is added to volume and the solution mixed until all ingredients are dispersed and a homogeneous gel is formed. ix. The bulk yield is measured. Example 2 - Condom Stability Study 1 %, 3% and 5% of active in Carbopol gel. Individually packaged male condoms made from natural rubber latex and intended for single use meet with certain minimum requirements specified in ASTM Designation: D 3492-97 (American Society for Testing and Materials, Standard Specification for Rubber Contraceptives, Male Condoms) test method. The test method is designed to ensure that condoms are of consistent quality. Certain ingredients in vaginal formulations may compromise condom integrity. This method was used to determine the effect of vaginal formulations on condoms. The following parameters were determined for the treated and untreated condoms: pressure at burst, volume at burst, length, thickness, and width. If the formulation compromises the condoms, the pressure and volume at burst are expected to be lower. The length of the condoms might be affected as well. A 4.0 g sample of gel was spread on 7.5 cm x 410 cm aluminium foil and wrapped around a condom. The condom was placed on polypropylene dowel and dowel was wrapped with the aluminium foil containing the test article. After 30 min the aluminium foil was removed and the condom was blotted free of adhering gel. The length, width volume, and pressure at burst of the treated condoms were then measured. 19 Air Burst Properties (Pressure and Volume at Burst) 1. Carry out the test at 25 ±5°C. 2. Unroll the condom onto the mount without stretching. The length of condom tested should be 150 ± 3 mm (uninflated). 3. Seal the condom to the system with the inflatable rubber ring (this rubber ring clamps off a constant length of the condom). 4. Ensure that air cannot leak through the seal or from the system during inflation. 5. Open the valve controlling the air to the condom and at the same time initiate the chart recorder. 6. Inflate the condom at a constant rate of 0.4 to 0.5 L/s (24 to 30 L/min). Record the flow rate. 7. Pressure is recorded as a function of time until the condom bursts. An immediate rise in the pressure is observed indicating initial time, At burst the pressure returns to zero. 8. Record the bursting pressure (to nearest 0.1 kiloPascals (kPa)) and calculate the bursting volume (to nearest 0.5 L). The pressure at burst can be read from the recording on the chart paper. The volume at burst is calculated using the following equation: Volume at burst (L) = Flow rate x time from initiation of study to burst Data for this experiment is provided in Table 2. 20 Table 2 - Exposure of condoms to vaginal gels for 30 minutes. — Treatment Untreated Treated for 30 Minutes Result Burst pressure (kPa) Time to Burst (sec) Burst volume (L) Burst pressure (kPa) Time to Burst (sec) Burst volume (M Placebo 1.97 84 38.27 1.96 80 36.43 Not compromised 1 % gel 1.97 84 38.27 1.86 83 37.85 Not compromised 3% gel 1.97 84 38.27 1.E2 82 37.58 Not compromised 5% gel 1.97 84 38.27 1.01 87 40.03 Not compromised Measurement of Length 1. Unroll the condom and smooth out the wrinkles (this is not necessary for treated condoms). 2. Put the condom on the mandrel and let it hang freely, stretched only by its own mass. 3. Note, to the nearest millimetre, the length of the condom as indicated on the scale outside the open end of the condom. Measurement of Width 1. Unroll the condom and smooth out the wrinkles (this is not necessary for treated condoms). 2. Place the condom on a flat surface. 3. Measure to the nearest 0.5 mm the width of the condom laid flat at a distance of 30 ± 5 mm from the open end. Data from these assays is provided in Table 3. Table 3 - Condom dimensions, Burst Strength and Burst Volume after treatment with microbicidal composition Condom Treatment Before Dipping After dipping Burst pressure (kPa) Burst Volume (L) Average Volume (L) Dimensions (mm) Dimensions (mm) Length Width Lengt h Width Time to Burst (s) 1 Plain (control) 182 53 85 1.98 38.99 38.27 2 Plain (control) 185 53 83 1.9 37.93 3 Plain (control) 184 53 83 2.02 37.88 1 Placebo ge! 185 53 187 53 70 1.69 32.22 36.43 2 Placebo gel 184 53 186 53 83 2.10 37.85 3 Placebo gel 185 53 185 53 86 2.09 3y./3 1 1% composition 185 53 186 53 83 1.9 37.93 37.85 2 1% composition 186 53 185 53 82 1.89 37.65 3 1 % composition 186 53 184 53 83 1.79 37.97 1 3% composition 186 53 187 53 89 1.95 40.65 37.58 2 3% composition 187 53 189 53 88 1.96 40.38 3 3% composition 186 53 187 53 69 1.55 31.71 1 5% composition 185 53 187 53 90 1.72 41.3 40.03 2 5% composition 185 53 185 53 82 1.9 37.65 3 5% composition 186 53 185 53 80 2.1 41.14 N> 22 References 1. ASTM Designation: D 3492-97, Standard Specification for Rubber Contraceptives (Male Condoms). 2. Condom Burst Test on a Placebo and Active Gel Formulation, CDDR-R4316-0600- NL-3, Pages 106 of 108 and 107 of 108, June 26, 2000. Example 3 - Evaluation of the effect of the microbicidal composition on condoms This investigation assesses the condom strength (using the Burst Test) of condoms lubricated with the microbicidal composition according to the present invention before and after ageing for 7 days at 70 °C. The condoms tested were: DF 53 N Thin, Batch no.: 0509052516 and the tests were conducted in S&T, Shah Alam. Procedure 1. 0.5g of the microbicidal composition containing 3% (w/w) of the active was dosed onto the external and internal surfaces of the condom (total: 1.0 g) and sealed in an aluminium foil (56 mm x 56 mm); 2. 160 pcs of the condoms were prepared, 80 pcs were kept in an oven at 70 °C for 7 days (aged) for an accelerated shelf life study and the balance 80 pcs were tested without ageing (unaged samples). 3. All of the unaged and aged sample were tested for Burst properties. 23 Results Burst properties (Tested ISO 4074:2002 Standards) Batch no. Burst Unaged Burst aged (7 days, 70 °C) MV SDV NCV WIP SDP NCR MV SDV i NCV MP SDP NCR 0509052516 51.34 5.93 0 1.63 0.18 2 44.14 3.01 \| 0 i j 1.49 0.10 0 Remarks: MV - Mean volume, SDV - Standard deviation of volume, NCV - Non-compliance of volume, MP - Mean pressure, SDP - Standard deviation of pressure, NCP - Non-compliance of pressure Results of the Burst Test showed that the microbicidal composition containing 3% (w/w) of the active has caused a significant drop in the mean volumes and pressure by 14.0% and 8.6% respectively but both mean volumes and pressures were well above the accepted criteria (Burst volume: 18 litres, Burst pressure: 1kPa) Therefore, we conclude that even though the microbicidal composition containing 3% (w/w) of the active has significantly reduced the burst volume and pressure of the condom (DF 53 Thin) the effect is still acceptable. Example 4 - Migration test for the microbicida! composition containing 3% (w/w) of the active Sample: Dosing: Bulk condom DF 53N Thin, the microbicidal composition containing 3% (w/w) of the active 1. 0.5 g internal & external condom 2. 0.5 g external only Results Condoms were prepared according to Example 3 above, and were kept at room temperature and tested for lubricant migration every week for 7 weeks. The condoms were unrolled carefully and placed on a piece of clean paper. The distance travelled by the lubricant from the teat of the condom was measured by a ruler. 24 Date .Ageing time/weeks Samples Dosing internal & external Dosing external only i ,j i 2 mean 1 2 mean S-Oct-05 0 (24 hours) 1 2 2.50 2.80 4.00 3.60 3.25 3.20 3.50 2.00 2.00 1.90 2.75 1.95 3.23 2.35 13-0ct-05 1 1 2 3,40 2.10 4.00 2.00 3.70 2.05 0.90 2.50 2.50 1.20 1.70 1.85 2.88 1.78 20-0ct-05 2 1 2 3.90 1.70 2.00 4.00 2.95 2.05 2.70 2.80 2.70 2.80 2,70 2.55 . 2.50 .'2.63 27-Oct-05 3 1 2 2.40 2.70 3.50 3.20 2.45 2.95 2.70 2.50 2.20 2.50 2.45 2.50 •'"' -2;70 • . v; J'"2:4¥" 3-Nov-05 4 1 2 - - - - - - IO-Nov-05 5 1 2 3.90 3.20 3.30 2.90 3.60 3.05 2.30 2.60 2.10 3.10 2.20 2.85 ';-3,\|p . "2;53-; 17-Nov-05 6 1 2 3.10 2.00 3.30 2.50 3.20 2.25 3.20 1.90 2.70 2.40 2.95 2.15 -2-'7y ",¥%? 24-Nov-OS 7 1 2 2.80 3.90 4.80 2.80 3.80 3.35 2.90 1.50 3.00 1.70 2.95 1.60 3.58 , :i2;lB •f'-iV Example 5 - Study to Assess the Effect of the microbicidal composition according to the present invention on HSV-2 Susceptibility 5 Background The study was conducted to detect potential adverse effects of the microbicidal composition according to the present invention by measuring susceptibility of mice to infection with herpes simplex virus type 2 (HSV-2), the virus that most commonly causes genital herpes. 25 The mouse HSV-2 vaginal transmission mode! is used by Richard Cone at Johns Hopkins University, Baltimore, USA, to assess toxicities associated with microbicides that could lead to susceptibility to pathogens such as HSV-2. Methods Mouse Model: Prior to the susceptibility assessment, female CF-1 mice (Harlan, Indianapolis, IN, USA) 6-8 weeks old are progestin treated (Depo Provera®, medroxyprogesterone acetate) to increase HSV-2 susceptibility, and to make the mice more uniform in terms of susceptibility than mice at different stages of the oestrous cycle. Viral Inoculum: Strain G of HSV-2, 5x108 TCID50/mL. Procedures: 20 uL of the microbicidal composition according to the present invention was administered to the vagina followed 12 hours later by administration of a low-dose inoculum of HSV-2 (0.1 IDso) delivered in 10 uL of Bartels medium. Control animals received 20 \|jL of PBS instead of test product. The inoculum is delivered 12 hours after application of the test product because previous experiments showed that this was the time at which peak susceptibility to HSV-2 infection occurred following administration of nonoxynol-9. In this study, a total of 40 mice received the microbicidal composition according to the present invention and a total of 40 mice received PBS. 26 Results Only 1 out of the 40 mice treated with the microbicidal composition according to the present invention became infected with HSV-li. In contrast, 7 out of 40 mice in the control group became infected. In other words, there was no increase in susceptibility following administration of the microbicidal composition according to the present invention. In previous studies, 29 out of 42 animals treated with nonoxynol-9, 20 out of 30 animals treated with microbicide ingredient 1, and 25 out-of 41 animals treated with microbicide ingredient 2, became infected. To determine relative susceptibility of the mice in previous studies, two groups of control mice were treated with PBS for every group of mice treated with test product. One control group was inoculated with 0.1 1D50, while the other was inoculated with 10 ID5o-The fraction of animals infected in each control group was then used to construct a dose-response graph (fraction infected vs. log ID), drawing a linear interpolation between the low and high dose points. The fraction of mice infected in the test group was then plotted on this graph to determine the effective ID of the low-dose inoculum in this test group. Relative susceptibility was defined as the effective ID the low-dose inoculum delivered to the test mice divided by the ID it delivered to the control animals. Animals treated with nonoxynol-9 were 29.7 times more susceptible to HSV-2 infection than the control animals (P Conclusion The microbicidal composition according to the present invention does not appear to lead to increased susceptibility in the mouse-model of HSV-2 infection. Nonoxynol-9 and other detergent microbicides may lead to increased susceptibility. 27 Reference Cone RA, Hoen TE, Wang XX & Moench TR. Microbicidal Detergents Increase HSV Susceptibility in Mice Without Causing Visible Epithelial Defects, Abstract # 02421, "Microbicides 2004" Conference, London, UK; March 2004. It will be appreciated that variations and modifications may be made to the invention as broadly described herein, other than those specifically described without departing from the spirit and scope of the invention. It is to be understood that this invention extends to •include all such variations and modifications. The claims defininq the invention are as follows: 1. A microbicidal delivery system including: a microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula IV (Formula Removed) a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device; the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith. 2. A microbicidal delivery system according to claim 1 wherein the microbicidal compound is selected from one or more of the compounds of formula I, II or III where R represents a group of the formula IV 3. A microbicidal delivery system according to claim 2 wherein the microbicidal (Formula Removed) compound is the compound of formula I. 4. A microbicidal delivery system according to claim 2, wherein the microbicidal compound is a pharmaceutically acceptable salt of the compound of formula I, II or III. 5. A microbicidal delivery system according to claim 4, wherein the salt is a metallic salt selected from the group consisting of one or more of aluminium, calcium, lithium, magnesium, potassium, sodium and zinc salts. 6. A microbicidal delivery system according to claim 4, wherein the salt is an organic salt selected from the group consisting of one or more of N,N'- dibenzylethylenediamine, chloroprocaine, diethanolamine, ethylenediamine, cyclohexylamine, meglumine (N-methylglucamine) and procaine. 7. A microbicidal delivery system according to claim 4, wherein the salt is selected from one or more of the group consisting of one or more of a quaternary amine, a sulphonium salt and a phosphonium salt. 8. A microbicidal delivery system according to claim 1, wherein the carrier, excipient or diluent includes one or more of the group consisting of sodium hydroxide, water soluble oils, buffering agents, propylene glycol, glycerine and water. 9. A microbicidal delivery system according to claim 1 wherein the microbicidal compound is present in the microbicida! composition in an amount of from about 0.5% to 20% weight/weight. 10. A microbicidal delivery system according to claim 9 wherein the microbicidal compound is present in the microbicidal composition in an amount of from about 2% to 15% weight/weight. 11. A microbicidal delivery system according to claim 1 wherein the microbicidal composition is present in an amount of from about 0.25 to 2 g. 12. A microbicidal delivery system according to claim 1, wherein the microbicidal composition further includes a secondary pharrnaceutically active compound which is a contraceptive or an agent active against sexually transmitted infections. 13. A microbicidal delivery system according to claim 12, wherein the secondary pharrnaceutically active compound is a contraceptive. 14. A microbicidal delivery system according to claim 13, wherein the secondary pharrnaceutically active compound is a spermicide. 15. A microbicidal delivery system according to claim 12, wherein the secondary pharmaceutically active compound is selected from one or more of the group consisting of podophyliin, tetracycline, nystatin, fluconazole, metronidazole, acyclovir, penicillin, cefotaxime, specinomycin, retrovir, erythromycin, ceftriaxone, cotrimoxazole, cotrimoxazole, benzyl benzoate, malathion, nonoxynol-9, octoxynol-9, menfegol, progestin, estrogen and estradiol. 16. A microbicidal delivery system according to claim 1 wherein the prophylactic device is selected from the group consisting of a condom, cervical cap, contraceptive diaphragm, vaginal sponge or pessary, 17. A microbicidal delivery system according to claim 16 wherein the prophylactic device is a condom. 18. A microbicidal delivery system according to claim 1, wherein the microbicidal composition is carried on an external surface of the prophylactic device. 19. A microbicidal delivery system according to claim 1, wherein the microbicidal composition is impregnated into the prophylactic device. 20. A microbicidal delivery system according to claim 1, wherein the microbicidal composition is covalently bound to a surface of the prophylactic device. 21. A microbicidal delivery system including a microbicidal compound of formula I(Formula Removed) a carrier, excipient or diluent therefor; and a condom; the microbicidal composition being carried on a surface of the condom and being compatible therewith. 22. A microbicidal delivery system according to claim 21, wherein the microbicidal composition is carried on an external surface, and/or an internal surface of the condom. 23. A microbicidal delivery system according to claim 22, wherein the microbicidal composition covers at least a substantial portion of the external surface and/or the internal surface of the condom. 24. A microbicidal composition including a microbicidal compound including a dendrimer including one or more surface groups of formula IV (Formula Removed) a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and a secondary pharmaceuticaliy active composition; and 25. A microbicidal composition according to claim 24 wherein the microbicidal compound is selected from one or more of the compounds of formula I, II or III (Formula Removed) where R represents a group of the formula IV (Formula Removed) 26. A microbicidal composition according to claim 24, wherein the microbicidal compound is present in the microbicidal composition in an amount of from about 0.5% to 20% weight/weight. 27. A microbicida! composition according 10 claim 26, wherein the microbicidal compound is present in the microbicida! composition in an amount of from about 2% to 15% weight/weight. 28. A microbicidal composition according to claim 24, wherein the microbicida! composition is present in an amount of from about 0.25 to 2 g, 29. A microbicidal composition according to claim 24, wherein the secondary pharmaceutically active compound is a contraceptive or an agent active against sexually transmitted infections. 30. A method for the prevention of sexually transmitted infections in a human patient, including providing a microbicidal delivery system according to claim 1. 31. A method according to claim 30, wherein the disease is a vaginally, rectally or orally transmitted sexually transmitted infection selected from one or more of the group consisting of HSV-1, HSV-2, HIV-1, HIV-2 and HPV infection and Chiamydia trachomatis infection. 32 Use of a microbicidal compound according to claim 1, a microbicidally active derivative thereof, or a pharmaceutically acceptable salt or solvate thereof, in the manufacture of a microbiciaai delivery system for the prevention of sexually transmitted infections in a human patient. 33. Use of a compound of formula 1, II or 111 according to claim 2, a microbicidally active derivative thereof, or a pharmaceuticalyacceptable salt or solvate thereof, in the manufacture of a microbicidal delivery system for the prevention of sexually transmitted infections in a human patient. 34. Use according to claim 32, wherein the disease is a vaginally, rectally or orally transmitted sexually transmitted infection selected from HSV-1, HSV-2, HIV-1, HIV-2 and HPV infection and Chiamydia trachomaiis infection.

Full Text

Microbicidal dendrimer composition delivery system
The present invention relates to the prevention and treatment of sexually transmitted infections and, in particular, relates to the use of a condom carrying a dendrimer having naphthyl disulfonate terminal groups.
The global incidence of morbidity and mortality of sexually transmitted infections (STIs) caused by Human Immunodeficiency virus (HIV), Herpes virus (HSV) and other viral and microbial pathogens is estimated at several hundred million individuals worldwide. One approach to control the transmission of STIs is the use of topically applied, female/male controlled vaginal or rectal microbicides that inactivate the relevant pathogens.
It has further been found that the use of detergent-based microbicides such as nonoxynol-9 (N-9) may have adverse effects in the prevention of HSV-2 or HIV. Whilst such detergents act by disrupting HSV and HIV membranes, they may also compromise the natural vaginal barrier and significantly increase susceptibility to infection.
International patent application'no PCT/AU02/00407 (WO 02/079299), to applicants, the contents of which are incorporated herein by reference, discloses a class of dendrimers, (highly branched macromolecules with a definite envelope of polyanionic or cationic surface groups) which have been shown to exhibit a range of antiviral and antimicrobial activity with minimal toxicity.
In antiviral and antimicrobial testing, a subset of these dendrimer structures have unexpectedly shown exceptional activity against a broad spectrum of microorganisms associated with sexually transmitted infection that makes them agents of choice for the development of a vaginal or rectal microbicide for the treatment or prophylaxis of sexually transmitted infections.
One compound in particular, SPL7013, formula I,

NHR

where R represents a group of the formula \\/

or a pharmaceutically acceptable salt or solvate thereof; for example,

has been found to have activity against various sexually transmitted infections.
SPL7013 consists of a polylysine dendrimer scaffold with the active surface groups consisting of 32 naphthyl disulphonic acid groups. Each of the naphthyl disulphonate surface groups is attached to the branched dendrimer scaffold with an amido-methyleneoxy linkage to the 32 terminal groups.
There are a number of options for the administration of the type of compound represented, for example, by formula I or a pharmaceutically acceptable salt or soivate thereof, in the treatment or prophylaxis of sexually transmitted infections, for example topical administration. A variety of topical administration routes are available. The particular mode selected will depend, of course, upon the particular condition being treated and the dosage required for preventative efficacy. Such modes of administration include the vaginal, rectal, oral and trans-dermal routes. Suitable formulations for topical, particularly vaginal or rectal, administration include solutions, suspensions, gels, lotions, foams, films, jellies, and creams as well as discrete units such as suppositories and microencapsulated suspensions. Other delivery systems can include sustained release delivery systems which can provide for slow release of the active component of the invention, including sustained release gels, creams, suppositories, or capsules.
However, some of the topical modes of administration may have some disadvantages. For example, vaginal or rectal suppositories may not provide medication to the entire vagina or rectum due to their shape and/or placement in the vagina or rectum by the user. In addition, the medication being supplied by the suppositories may drain out of the vagina or rectum rather quickly, thus reducing the potential effectiveness of the medication. Similarly, the application of topical formulations in the form of a foam, jelly, cream or film may be messy, and the effectiveness of the formulation may be reduced due to drainage of the formulation from the vagina or rectum.
Barrier methods, for example, condoms, are also used to prevent sexually transmitted infections. However, condoms have been known to rupture due to stresses, caused by, for example, stretching or incorrect use. Condoms may also develop microscopic leaks, or may contain small perforations that may lead to transfer of bodily fluids across the barrier, leading to risk of infection.

It is, accordingly, an object of the present invention to overcome or at least alleviate one or more of the difficulties and deficiencies related to the prior art.
Summary of the invention
In a first embodiment of the present invention, there is provided a microbicidal delivery system including:
a microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of formula IV

o' vo IV,
a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and
a carrier, excipient or diluent therefor; and a prophylactic device;
the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith.

Detailed description of the invention
As used herein in this specification and claims, the singular forms "a", "an" and "the" include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to a "a macromolecule" includes one or more such macromolecules.
By the term "comprises" (or its grammatical variants) as used herein in this specification and claims is equivalent to the term "includes" and should not be taken as excluding the presence of other elements or features.
By the term "surface of the prophylactic device' as used herein in the specification and claims, we mean either the internal surface or the external surface or both surfaces of the device.
It has surprisingly been found that the efficacy of the microbicidal composition may be increased by delivery of the composition to the potential site(s) of infection concomitant with sexual activity.
Further, the potential adverse consequences of the partial failure of the prophylactic device may be substantially reduced with the inclusion of the microbicidal composition, as described above.
The delivery system according to this aspect of the present invention may also reduce or eliminate the adverse side effects associated with detergent-based microbicides, resulting in significantly decreased susceptibility to infection with HSV-2 or HIV.
Preferably, the microbicidal compound is selected from one or more of SPL7013 (represented by formula I below), SPL7304 (represented by formula II below), SPL7320 (represented by formula III below), where R in each case is represented by the group of formula IV; a microbicidally active derivative thereof, and a pharmaceutically acceptable salt or solvate thereof.

•NHR
RHN,
NHR
,-NHR
RHiy
'0 Q H HfTO
vY"^ V^^lN J "
MnLo o H NHR

RHN CyidH
/v
^ O^YNHR HhL 0 S
IHR
««f o \ n "^ ""
( NHR
NHR
RHN

NHR

MHR

'HR
,NHR

RHN

N N-

r

NHR

V ^IHR
N^^v^>
NHR NHR
IJHR

C
r
'^,

NHR

—NHR •NHR

V
,
'V.
N (

3*'
N"

NHR

RH

NHR

8
where R represents a group of the formula IV

IV.
The structures of these compounds consist of a polylysine dendrimer, a polypropyleneimine dendrimer, and a polyamidoamine (PAMAM) dendrimer scaffold respectively, with the active surface groups consisting of 32 naphthyi disulphonic acid groups as sodium salts. Each of the naphthyl-disulphonate functional surface groups is attached to the branched dendrimer scaffold with an arnido-methyleneoxy linkage to the 32 terminal groups. The compound SPL7013 is preferred.
As described above, the compounds SPL7013, SPL7304, and SPL7320 are preferred compounds of the present invention, and have been found to exhibit significant antiviral activity, particularly against viral and microbial vectors of the most common sexually transmitted infections. Common sexually transmitted infections include, but are not limited to papillomaviruses, Chlamydia trachomatis, Candida albicans, Trichomonas vaginalis, Herpes simplex viruses, Cyclomegalovirus, Neisseria gonorrhoeas, Human Immunodeficiency viruses, Treponema pallidum, Hepatitis B and C viruses, Calymmato bacterium granulomatis, Haemophilus ducreyi, Sarcoptes scabiei, Phthirus pubis, Mycoplasma, Gardnerella vaginalis.
SPL7013 exhibits a broad-spectrum antiviral activity with high efficacy and minimal cell or animal toxicity, against vectors of several of the most important vaginally or rectally sexually transmitted infections. High activity has been determined against genital Herpes virus-2 (HSV-2) both in vitro cell tests and in vivo in an animal (mouse) model test and in vitro cell tests against Herpes virus-1 (HSV-1) and Human Immunodeficiency

viruses (HIV-1 and HIV-2). It has also been shown to be active against the causative agent of genital warts, Human Papillomavirus (HPV), and against the bacterial vector of non-specific urethritis, Chlamydia trachomatis. In cell tests, SPL7013 has also shown activity against viral strains of Herpes virus-2 that are resistant to currently used modified nucleoside based antiviral agents. In addition SPL7304 and SPL7320 show high activity against HSV-1, HSV-2, HIV-1, and HIV-2. Furthermore SPL7013, SPL7304 and SPL7320 are active in CD4-dependant and CD4-independent HIV transmission assays, and are effective at preventing HIV-1 attachment and fusion. All compounds have been shown not to inhibit the growth of various species of beneficial Lactobacillus. In addition SPL7013, SPL7304, and SPL7320 have been shown to be effective in the prevention of infection of human peripheral blood monocular cells (PBMCs) with either HIV-1 RoJoorSIVBQ. 6pd.
The pharmaceutically acceptable salt or solvate may be of any suitable type. Examples of suitable salts include, but are not limited to metallic salts (for example, aluminium, calcium, lithium, magnesium, potassium, sodium and zinc salts), organic salts (for example, N,N'-dibenzylethylenediamine, chloroprocaine, diethanolamine, ethylenediamine, cyelohexylamine, meglumine, (N-methylglucamine) and procaine), quaternary amines (for example, choline), sulphonium salts and phosphonium salts.
The microbicidal composition preferably has a viscosity such that it remains in contact with the prophylactic device for an extended period of time, and does not flow off the prophylactic device on contact.
As stated above, the microbicidal composition of this embodiment of the present invention includes a carrier, excipient or diluent. The microbicidal composition may be provided in the form of a solution, suspension, lotion, film, jelly, foam, gel, cream and the like. The carrier, excipient or diluent may include one or more of any and all conventional solvents, dispersion media, fillers, solid carriers, aqueous solutions, coatings, viscosity modifying agents, antibacterial and anti fungal agents, isotonic, and absorption enhancing or delaying agents, activity enhancing or delaying agents and the like. The use of such media and agents for pharmaceutically active substances is well known in the art, and it is described, by way of example, in Remington's Pharmaceutical

10
Sciences, 18th Edition, Mack Publishing Company, Pennsylvania, USA. Except insofar as any conventional carrier and/or diluent is incompatible with the active ingredient, use thereof in the microbicidal compositions of the present invention is contemplated.
Vehicles suitable for topical administration include oil-in-water and water-in-oil emulsions, white petrolatum, hydrophilic petrolatum, lanolin emulsions, polyethylene glycols, cocoa butter, buffering agents (including Carbopol 971P), emollient oils (e.g. water-soluble oils including, for example, polyethylene glycol), a lubricating gel (including, for example, water, propylene glycol, hydroxyethyl cellulose, benzoic acid and sodium hydroxide), a water-soluble oil (including, for example, glycerine, propylene glycol, polyquaternium #5, methyl paraben and propyl paraben), a cream (including, for example, benzyl alcohol, cetearyl alcohol, cetyl esters, wax, octyldodecanol, polysorbate 60, purified water, and sorbitan monostearate), and the like.
Preferably, the carriers, excipients and/or diluents include one or more of the group consisting of sodium hydroxide, water soluble oils, buffering agents, propylene glycol, glycerine and water. More preferably, the carriers, excipients and/or diluents include sodium hydroxide, edetate disodium dihydrate, methyl paraben, propyl paraben, Carbopol 971 P, propylene glycol, glycerine, and purified water in combination.
The microbicidal composition may further include a secondary pharmaceutically active compound.
Accordingly, in a further embodiment of the present invention there is provided a microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of the formula IV

11

IV
a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof;
a secondary pharmaceutically active compound; and a carrier, excipient or diluent therefor.
The secondary pharmaceutically active component may be exemplified by, but not limited to, one or more of the compounds selected from the group consisting of:

Acetonemia preparations
Anaesthetics
Anti-acid agents
Antibacterials
Anti-convulsivants
Anti-histamines
Anti-inf lam m atones
Anti-parasitic agents
Anti-STI agent
Antiviral Pharmaceuticals
Biologicals
Branchedilators and
expectorants
Cardiovascular Pharmaceuticals

Anabolic agents
Analgesics
Anti-arthritic agents
Antibodies
Anti-fungals
Anti-inf ectives
Anti-microbials
Anti-protozoals
Anti-ulcer agents
Eiehaviour modification drugs
Blood and blood substitutes
Cancer therapy and related
Pharmaceuticals
Central nervous system
Pharmaceuticals

12
Contrast agents Contraceptives
Diabetes therapies Diuretics
Fertility Pharmaceuticals Giowth hormones
Growth promoters Hematinics
Hemostatics Hormones and analogs
Hormone replacement therapies Immunostimulants
Minerals Muscle relaxants
Natural products Nutraceuticals and nutritionals
Obesity therapeutics Ophthalmic Pharmaceuticals
Osteoporosis drugs Pain therapeutics
Peptides and polypeptides Respiratory Pharmaceuticals
Sedatives and tranquilizers Transplantation products
Urinary acidifiers Vaccines and adjuvants
Vitamins
Preferably, the secondary pharmaceuticaliy active compound is a contraceptive or an agent active against sexually transmitted infections. More preferably, the secondary pharmaceuticaliy active compound is a contraceptive, most preferably, a spermicide. Examples of contraceptives and agents active against sexually transmitted infections include, but are not limited to, podophyllin, tetracycline, nyastatin, fluconazole, metronidazole, acyclovir, penicillin, cefotaxime, spectinomycin, retrovir, erythromycin, ceftriaxone, cotrimoxazole, benzyl benzoate, malathion, nonoxynol-9, octoxynol-9, menfegol, progestin, estrogen, and estradiol. Other suitable secondary pharmaceuticaliy active components which are contraceptives or agents active against sexually transmitted infections would be known to the person skilled in the art.
The microbicidal composition may be carried on the prophylactic device in any suitable manner. Examples include, but are not limited to, the composition being carried on a surface of the prophylactic device (for example, the internal surface, the external surface or both surfaces of the device), impregnated into the prophylactic device, covalently bound to a surface of the prophylactic device, and the like.

13
The prophylactic device may be of any suitable type, a condom, a cervical cap, contraceptive diaphragm, vaginal sponge, pessary, or the like may be used. A condom is preferred.
The prophylactic device and microbicidal composition may be selected to ensure compatibility there between.
Where a condom is used as the prophylactic device, the microbicidal composition may be carried on an external surface and/or an internal surface of the condom. Preferably, the microbicidal composition covers at least a substantial portion of the external surface and/or the internal surface of the condom.
In a preferred aspect of this embodiment of the present invention, there is provided a microbicidal delivery system including
a microbicidal compound of formula I

RH!
•NHR
NHR
RUN
•NHR

.NHR

where R represents a group of the formula IV

14

.o-
o
IV.

a carrier, excipient or diluent therefor; and a condom;
the microbicidal composition being carried on a surface of the condom and being compatible therewith.
In a further embodiment of the present invention, there is provided a microbicidal delivery system including
a microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of formula IV

IV

15
a microbicidally active derivative thereof, or pharmaceuticaliy acceptable salt or solvate thereof;
a secondary pharmaceutically active compound; and a carrier, excipient or diluent therefor; and a prophylactic device;
the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith.
Preferably the secondary pharmaceutically active compound is an agent active against sexually transmitted infections.
In another embodiment of the present invention, there is provided a method for the prevention of sexually transmitted infections in a human patient, including providing a microbicidal delivery system, including;
a microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of formula IV

IV a microbicidally active derivative thereof, or

16
a pharmaceutically acceptable salt or solvate thereof; and a carrier, excipient or diluent therefor; and a prophylactic device;
the microbicidal composition being carried on E surface of the prophylactic device and being compatible therewith.
The microbicidal compound may be present in any suitable amounts. The amount of microbicidal composition should be sufficient for the reduction or prevention of sexually transmitted infections. This amount may depend on the particular sexually transmitted infection sought to be prevented, and individual patient parameters including age, physical condition, size, weight and concurrent treatment(s). These factors are well known to those of ordinary skill in the art and can be addressed with no more than routine experimentation.
The weight % of microbicidal compound included in the microbicidal composition according to the present invention may be in the range of about 0.5% to 20% weight/weight, more preferably in the range of about 1% to 18% weight/weight, most preferably in the range of about 2% to 15% weight/weight.
The microbicidal composition according to the present invention may be administered in an amount sufficient for the prevention of sexually transmitted infections. This amount may depend on the particular sexually transmitted infection sought to be prevented, and individual patient parameters including age, physical condition, size, weight and concurrent treatment(s). These factors are well known to those of ordinary skill in the art and can be addressed with no more than routine experimentation.
The amount of microbicidal composition included in the microbicidal delivery system according to the present invention may be in the range of 0.25 g to 2 g. When the microbicidal composition is applied to the outside surface of the prophylactic device, the amount of microbicidal composition is preferably between about 0.5 g to 2.0 g, more preferably between about 0.75 g to 1.75 g, most preferably between about 1.0 g to 1.5

17
g. When the microbicidal composition is applied to the inside of the prophylactic device, the amount of microbicidal composition is preferably between about 0.1 g to 1.0 g, more preferably between about 0.15 g to 1.0 g, most preferably between about 0.25 to 0.65 g.
Further features of the present invention will be apparent from the following Examples which are included by way of illustration, not limitation, of the invention.
Examples
Example 1 - Preparation of microbicidal composition (3% active).
Table 1 - Ingredients for 3% microbicidal composition

Ingredient Monograph Quantity per batch (kg)
Excipients
Sodium Hydroxide NF NF 0.1443
Edetate Disodium Dihydrate DSP USP 0.010
Methyl paraben NF NF 0.018
Propylparaben NF NF 0.002
Carbopol971PNF NF 0.500
Propylene Glycol DSP USP 0.100
Glycerin USP USP 0,100
Purified Water I USP 1.804
Purified Water II USP 8.370
Active Pharmaceutical Ingredients
SPL7013 0.339
Protocol
i. The equipment is sanitised and rinsed prior to manufacture.
ii. In a stainless steel jug, Sodium Hydroxide, NF, is dissolved in purified water.

18
iii. In a stainless steel vessel, Edetate Disodium Dihydrate, USP, is added to purified
water and stirred with a high shear mixer until dissolved, iv. Methyl- and Propyl- paraben, NF, are added one at a time and mixed until fully
dispersed, v. Carbopol 971P, NF, is added slowly and the mixture stirred until the Carbopol
971 P, NF, is fully dispersed and a smooth gel is formed, vi. Propylene glycoi, USP, and Glycerin, USP, are added to the vessel and the
solution mixed until the contents are fully dispersed. vii. Sodium Hydroxide solution from Step ii. is added until the pH is 4.5. viii. Following pH measurement, purified water is added to volume and the solution
mixed until all ingredients are dispersed and a homogeneous gel is formed. ix. The bulk yield is measured.
Example 2 - Condom Stability Study 1 %, 3% and 5% of active in Carbopol gel.
Individually packaged male condoms made from natural rubber latex and intended for single use meet with certain minimum requirements specified in ASTM Designation: D 3492-97 (American Society for Testing and Materials, Standard Specification for Rubber Contraceptives, Male Condoms) test method. The test method is designed to ensure that condoms are of consistent quality. Certain ingredients in vaginal formulations may compromise condom integrity. This method was used to determine the effect of vaginal formulations on condoms. The following parameters were determined for the treated and untreated condoms: pressure at burst, volume at burst, length, thickness, and width. If the formulation compromises the condoms, the pressure and volume at burst are expected to be lower. The length of the condoms might be affected as well.
A 4.0 g sample of gel was spread on 7.5 cm x 410 cm aluminium foil and wrapped around a condom. The condom was placed on polypropylene dowel and dowel was wrapped with the aluminium foil containing the test article. After 30 min the aluminium foil was removed and the condom was blotted free of adhering gel. The length, width volume, and pressure at burst of the treated condoms were then measured.

19
Air Burst Properties (Pressure and Volume at Burst)
1. Carry out the test at 25 ±5°C.
2. Unroll the condom onto the mount without stretching. The length of condom tested
should be 150 ± 3 mm (uninflated).
3. Seal the condom to the system with the inflatable rubber ring (this rubber ring
clamps off a constant length of the condom).
4. Ensure that air cannot leak through the seal or from the system during inflation.
5. Open the valve controlling the air to the condom and at the same time initiate the
chart recorder.
6. Inflate the condom at a constant rate of 0.4 to 0.5 L/s (24 to 30 L/min). Record the
flow rate.
7. Pressure is recorded as a function of time until the condom bursts. An immediate
rise in the pressure is observed indicating initial time, At burst the pressure returns to
zero.
8. Record the bursting pressure (to nearest 0.1 kiloPascals (kPa)) and calculate the
bursting volume (to nearest 0.5 L). The pressure at burst can be read from the
recording on the chart paper. The volume at burst is calculated using the following
equation:
Volume at burst (L) = Flow rate x time from initiation of study to burst
Data for this experiment is provided in Table 2.

20
Table 2 - Exposure of condoms to vaginal gels for 30 minutes.

—
Treatment Untreated Treated for 30 Minutes Result

Burst pressure (kPa) Time to Burst (sec) Burst volume (L) Burst pressure
(kPa) Time to Burst (sec) Burst volume (M

Placebo 1.97 84 38.27 1.96 80 36.43 Not compromised
1 % gel 1.97 84 38.27 1.86 83 37.85 Not compromised
3% gel 1.97 84 38.27 1.E2 82 37.58 Not compromised
5% gel 1.97 84 38.27 1.01 87 40.03 Not compromised
Measurement of Length
1. Unroll the condom and smooth out the wrinkles (this is not necessary for treated
condoms).
2. Put the condom on the mandrel and let it hang freely, stretched only by its own
mass.
3. Note, to the nearest millimetre, the length of the condom as indicated on the scale
outside the open end of the condom.
Measurement of Width
1. Unroll the condom and smooth out the wrinkles (this is not necessary for treated
condoms).
2. Place the condom on a flat surface.
3. Measure to the nearest 0.5 mm the width of the condom laid flat at a distance of
30 ± 5 mm from the open end.
Data from these assays is provided in Table 3.

Table 3 - Condom dimensions, Burst Strength and Burst Volume after treatment with microbicidal composition

Condom Treatment Before Dipping After dipping Burst pressure (kPa) Burst Volume (L) Average Volume (L)

Dimensions (mm) Dimensions (mm)

Length Width Lengt h Width Time to Burst
(s)

1 Plain (control) 182 53 85 1.98 38.99 38.27
2 Plain (control) 185 53 83 1.9 37.93

3 Plain (control) 184 53 83 2.02 37.88

1 Placebo ge! 185 53 187 53 70 1.69 32.22 36.43
2 Placebo gel 184 53 186 53 83 2.10 37.85

3 Placebo gel 185 53 185 53 86 2.09 3y./3

1 1% composition 185 53 186 53 83 1.9 37.93 37.85
2 1% composition 186 53 185 53 82 1.89 37.65

3 1 % composition 186 53 184 53 83 1.79 37.97

1 3% composition 186 53 187 53 89 1.95 40.65 37.58
2 3% composition 187 53 189 53 88 1.96 40.38

3 3% composition 186 53 187 53 69 1.55 31.71

1 5% composition 185 53 187 53 90 1.72 41.3 40.03
2 5% composition 185 53 185 53 82 1.9 37.65

3 5% composition 186 53 185 53 80 2.1 41.14

N>

22
References
1. ASTM Designation: D 3492-97, Standard Specification for Rubber Contraceptives
(Male Condoms).
2. Condom Burst Test on a Placebo and Active Gel Formulation, CDDR-R4316-0600-
NL-3, Pages 106 of 108 and 107 of 108, June 26, 2000.
Example 3 - Evaluation of the effect of the microbicidal composition on condoms
This investigation assesses the condom strength (using the Burst Test) of condoms lubricated with the microbicidal composition according to the present invention before and after ageing for 7 days at 70 °C.
The condoms tested were: DF 53 N Thin, Batch no.: 0509052516 and the tests were conducted in S&T, Shah Alam.
Procedure
1. 0.5g of the microbicidal composition containing 3% (w/w) of the active was dosed
onto the external and internal surfaces of the condom (total: 1.0 g) and sealed in an
aluminium foil (56 mm x 56 mm);
2. 160 pcs of the condoms were prepared, 80 pcs were kept in an oven at 70 °C for 7
days (aged) for an accelerated shelf life study and the balance 80 pcs were tested
without ageing (unaged samples).
3. All of the unaged and aged sample were tested for Burst properties.

23
Results
Burst properties (Tested ISO 4074:2002 Standards)

Batch no. Burst Unaged
Burst aged (7 days, 70 °C)

MV SDV NCV WIP SDP NCR MV SDV i NCV MP SDP NCR
0509052516 51.34 5.93 0 1.63 0.18 2 44.14 3.01 | 0
i
j 1.49 0.10 0
Remarks: MV - Mean volume, SDV - Standard deviation of volume, NCV - Non-compliance of volume, MP - Mean pressure, SDP - Standard deviation of pressure, NCP - Non-compliance of pressure
Results of the Burst Test showed that the microbicidal composition containing 3% (w/w) of the active has caused a significant drop in the mean volumes and pressure by 14.0% and 8.6% respectively but both mean volumes and pressures were well above the accepted criteria (Burst volume: 18 litres, Burst pressure: 1kPa) Therefore, we conclude that even though the microbicidal composition containing 3% (w/w) of the active has significantly reduced the burst volume and pressure of the condom (DF 53 Thin) the effect is still acceptable.
Example 4 - Migration test for the microbicida! composition containing 3% (w/w) of the active

Sample:
Dosing:

Bulk condom DF 53N Thin, the microbicidal composition containing 3% (w/w) of the active
1. 0.5 g internal & external condom
2. 0.5 g external only

Results
Condoms were prepared according to Example 3 above, and were kept at room temperature and tested for lubricant migration every week for 7 weeks. The condoms were unrolled carefully and placed on a piece of clean paper. The distance travelled by the lubricant from the teat of the condom was measured by a ruler.

24

Date .Ageing time/weeks Samples Dosing internal & external Dosing external only
i

,j
i 2 mean 1 2 mean
S-Oct-05 0 (24 hours) 1
2 2.50 2.80 4.00 3.60 3.25 3.20 3.50
2.00 2.00 1.90 2.75 1.95

3.23

2.35
13-0ct-05 1 1 2 3,40 2.10 4.00 2.00 3.70 2.05 0.90 2.50 2.50 1.20 1.70 1.85

2.88

1.78
20-0ct-05 2 1 2 3.90 1.70 2.00 4.00 2.95 2.05 2.70 2.80 2.70 2.80 2,70 2.55

. 2.50

.'2.63
27-Oct-05 3 1 2 2.40 2.70 3.50 3.20 2.45 2.95 2.70 2.50 2.20 2.50 2.45 2.50

•'"' -2;70 • . v;

J'"2:4¥"
3-Nov-05 4 1 2 - - - - - -
IO-Nov-05 5 1 2 3.90 3.20 3.30 2.90 3.60 3.05 2.30 2.60 2.10 3.10 2.20 2.85

';-3,|p

. "2;53-;
17-Nov-05 6 1 2 3.10 2.00 3.30 2.50 3.20 2.25 3.20 1.90 2.70 2.40 2.95 2.15

-2-'7y

",¥%?
24-Nov-OS 7 1 2 2.80 3.90 4.80 2.80 3.80 3.35 2.90 1.50 3.00 1.70 2.95 1.60

3.58 ,

:i2;lB •f'-iV
Example 5 - Study to Assess the Effect of the microbicidal composition according to the present invention on HSV-2 Susceptibility
5 Background
The study was conducted to detect potential adverse effects of the microbicidal composition according to the present invention by measuring susceptibility of mice to infection with herpes simplex virus type 2 (HSV-2), the virus that most commonly causes genital herpes.

25
The mouse HSV-2 vaginal transmission mode! is used by Richard Cone at Johns Hopkins University, Baltimore, USA, to assess toxicities associated with microbicides that could lead to susceptibility to pathogens such as HSV-2.
Methods Mouse Model:
Prior to the susceptibility assessment, female CF-1 mice (Harlan, Indianapolis, IN, USA) 6-8 weeks old are progestin treated (Depo Provera®, medroxyprogesterone acetate) to increase HSV-2 susceptibility, and to make the mice more uniform in terms of susceptibility than mice at different stages of the oestrous cycle.
Viral Inoculum:
Strain G of HSV-2, 5x108 TCID50/mL.
Procedures:
20 uL of the microbicidal composition according to the present invention was administered to the vagina followed 12 hours later by administration of a low-dose inoculum of HSV-2 (0.1 IDso) delivered in 10 uL of Bartels medium. Control animals received 20 |jL of PBS instead of test product.
The inoculum is delivered 12 hours after application of the test product because previous experiments showed that this was the time at which peak susceptibility to HSV-2 infection occurred following administration of nonoxynol-9.
In this study, a total of 40 mice received the microbicidal composition according to the present invention and a total of 40 mice received PBS.

26
Results
Only 1 out of the 40 mice treated with the microbicidal composition according to the present invention became infected with HSV-li. In contrast, 7 out of 40 mice in the control group became infected. In other words, there was no increase in susceptibility following administration of the microbicidal composition according to the present invention.
In previous studies, 29 out of 42 animals treated with nonoxynol-9, 20 out of 30 animals treated with microbicide ingredient 1, and 25 out-of 41 animals treated with microbicide ingredient 2, became infected.
To determine relative susceptibility of the mice in previous studies, two groups of control mice were treated with PBS for every group of mice treated with test product. One control group was inoculated with 0.1 1D50, while the other was inoculated with 10 ID5o-The fraction of animals infected in each control group was then used to construct a dose-response graph (fraction infected vs. log ID), drawing a linear interpolation between the low and high dose points. The fraction of mice infected in the test group was then plotted on this graph to determine the effective ID of the low-dose inoculum in this test group. Relative susceptibility was defined as the effective ID the low-dose inoculum delivered to the test mice divided by the ID it delivered to the control animals.
Animals treated with nonoxynol-9 were 29.7 times more susceptible to HSV-2 infection than the control animals (P Conclusion
The microbicidal composition according to the present invention does not appear to lead to increased susceptibility in the mouse-model of HSV-2 infection. Nonoxynol-9 and other detergent microbicides may lead to increased susceptibility.

27
Reference
Cone RA, Hoen TE, Wang XX & Moench TR. Microbicidal Detergents Increase HSV Susceptibility in Mice Without Causing Visible Epithelial Defects, Abstract # 02421, "Microbicides 2004" Conference, London, UK; March 2004.
It will be appreciated that variations and modifications may be made to the invention as broadly described herein, other than those specifically described without departing from the spirit and scope of the invention. It is to be understood that this invention extends to •include all such variations and modifications.

The claims defininq the invention are as follows:
1. A microbicidal delivery system including:
a microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of formula IV
(Formula Removed)
a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and
a carrier, excipient or diluent therefor; and a prophylactic device;
the microbicidal composition being carried on a surface of the prophylactic device and being compatible therewith.
2. A microbicidal delivery system according to claim 1 wherein the microbicidal compound is selected from one or more of the compounds of formula I, II or III

where R represents a group of the formula IV

3. A microbicidal delivery system according to claim 2 wherein the microbicidal
(Formula Removed) compound is the compound of formula I.
4. A microbicidal delivery system according to claim 2, wherein the microbicidal
compound is a pharmaceutically acceptable salt of the compound of formula I, II or III.
5. A microbicidal delivery system according to claim 4, wherein the salt is a metallic
salt selected from the group consisting of one or more of aluminium, calcium, lithium,
magnesium, potassium, sodium and zinc salts.
6. A microbicidal delivery system according to claim 4, wherein the salt is an
organic salt selected from the group consisting of one or more of N,N'-
dibenzylethylenediamine, chloroprocaine, diethanolamine, ethylenediamine,
cyclohexylamine, meglumine (N-methylglucamine) and procaine.
7. A microbicidal delivery system according to claim 4, wherein the salt is selected
from one or more of the group consisting of one or more of a quaternary amine, a
sulphonium salt and a phosphonium salt.
8. A microbicidal delivery system according to claim 1, wherein the carrier, excipient
or diluent includes one or more of the group consisting of sodium hydroxide, water
soluble oils, buffering agents, propylene glycol, glycerine and water.

9. A microbicidal delivery system according to claim 1 wherein the microbicidal
compound is present in the microbicida! composition in an amount of from about 0.5%
to 20% weight/weight.
10. A microbicidal delivery system according to claim 9 wherein the microbicidal
compound is present in the microbicidal composition in an amount of from about 2% to
15% weight/weight.
11. A microbicidal delivery system according to claim 1 wherein the microbicidal
composition is present in an amount of from about 0.25 to 2 g.
12. A microbicidal delivery system according to claim 1, wherein the microbicidal
composition further includes a secondary pharrnaceutically active compound which is a
contraceptive or an agent active against sexually transmitted infections.
13. A microbicidal delivery system according to claim 12, wherein the secondary
pharrnaceutically active compound is a contraceptive.
14. A microbicidal delivery system according to claim 13, wherein the secondary
pharrnaceutically active compound is a spermicide.
15. A microbicidal delivery system according to claim 12, wherein the secondary
pharmaceutically active compound is selected from one or more of the group consisting
of podophyliin, tetracycline, nystatin, fluconazole, metronidazole, acyclovir, penicillin,
cefotaxime, specinomycin, retrovir, erythromycin, ceftriaxone, cotrimoxazole,
cotrimoxazole, benzyl benzoate, malathion, nonoxynol-9, octoxynol-9, menfegol,
progestin, estrogen and estradiol.
16. A microbicidal delivery system according to claim 1 wherein the prophylactic
device is selected from the group consisting of a condom, cervical cap, contraceptive
diaphragm, vaginal sponge or pessary,
17. A microbicidal delivery system according to claim 16 wherein the prophylactic
device is a condom.

18. A microbicidal delivery system according to claim 1, wherein the microbicidal
composition is carried on an external surface of the prophylactic device.
19. A microbicidal delivery system according to claim 1, wherein the microbicidal
composition is impregnated into the prophylactic device.
20. A microbicidal delivery system according to claim 1, wherein the microbicidal
composition is covalently bound to a surface of the prophylactic device.
21. A microbicidal delivery system including
a microbicidal compound of formula I(Formula Removed)

a carrier, excipient or diluent therefor; and a condom;
the microbicidal composition being carried on a surface of the condom and being compatible therewith.
22. A microbicidal delivery system according to claim 21, wherein the microbicidal
composition is carried on an external surface, and/or an internal surface of the condom.
23. A microbicidal delivery system according to claim 22, wherein the microbicidal
composition covers at least a substantial portion of the external surface and/or the
internal surface of the condom.
24. A microbicidal composition including
a microbicidal compound including a dendrimer including one or more surface groups of formula IV

(Formula Removed)
a microbicidally active derivative thereof, or pharmaceutically acceptable salt or solvate thereof; and
a secondary pharmaceuticaliy active composition; and
25. A microbicidal composition according to claim 24 wherein the microbicidal compound is selected from one or more of the compounds of formula I, II or III
(Formula Removed)

where R represents a group of the formula IV

(Formula Removed)
26. A microbicidal composition according to claim 24, wherein the microbicidal compound is present in the microbicidal composition in an amount of from about 0.5% to 20% weight/weight.

27. A microbicida! composition according 10 claim 26, wherein the microbicidal
compound is present in the microbicida! composition in an amount of from about 2% to
15% weight/weight.
28. A microbicidal composition according to claim 24, wherein the microbicida!
composition is present in an amount of from about 0.25 to 2 g,
29. A microbicidal composition according to claim 24, wherein the secondary
pharmaceutically active compound is a contraceptive or an agent active against
sexually transmitted infections.
30. A method for the prevention of sexually transmitted infections in a human patient,
including providing a microbicidal delivery system according to claim 1.
31. A method according to claim 30, wherein the disease is a vaginally, rectally or
orally transmitted sexually transmitted infection selected from one or more of the group
consisting of HSV-1, HSV-2, HIV-1, HIV-2 and HPV infection and Chiamydia
trachomatis infection.
32 Use of a microbicidal compound according to claim 1, a microbicidally active derivative thereof, or a pharmaceutically acceptable salt or solvate thereof, in the manufacture of a microbiciaai delivery system for the prevention of sexually transmitted infections in a human patient.
33. Use of a compound of formula 1, II or 111 according to claim 2, a microbicidally
active derivative thereof, or a pharmaceuticalyacceptable salt or solvate thereof, in the
manufacture of a microbicidal delivery system for the prevention of sexually transmitted
infections in a human patient.
34. Use according to claim 32, wherein the disease is a vaginally, rectally or orally
transmitted sexually transmitted infection selected from HSV-1, HSV-2, HIV-1, HIV-2
and HPV infection and Chiamydia trachomaiis infection.

Documents:

2831-delnp-2008- claims.pdf

2831-delnp-2008-Abstract-(16-07-2014).pdf

2831-delnp-2008-abstract.pdf

2831-delnp-2008-Assignment-(16-07-2014).pdf

2831-delnp-2008-Claims-(05-02-2015).pdf

2831-delnp-2008-Claims-(16-07-2014).pdf

2831-delnp-2008-Correspondance Others-(05-02-2015).pdf

2831-delnp-2008-Correspondence Others-(06-01-2015).pdf

2831-delnp-2008-Correspondence Others-(16-07-2014).pdf

2831-delnp-2008-Correspondence Others-(23-01-2014).pdf

2831-delnp-2008-Correspondence-others (08-11-2012).pdf

2831-delnp-2008-Correspondence-Others-(08-05-2013).pdf

2831-DELNP-2008-Correspondence-Others-(28-08-2009).pdf

2831-delnp-2008-correspondence-others.pdf

2831-delnp-2008-description (complete).pdf

2831-delnp-2008-form-1.pdf

2831-DELNP-2008-Form-18.pdf

2831-delnp-2008-Form-2-(16-07-2014).pdf

2831-delnp-2008-form-2.pdf

2831-delnp-2008-Form-3 (08-11-2012).pdf

2831-delnp-2008-Form-3-(08-05-2013).pdf

2831-delnp-2008-Form-3-(23-01-2014).pdf

2831-delnp-2008-form-3.pdf

2831-delnp-2008-form-5.pdf

2831-DELNP-2008-GPA-(28-08-2009).pdf

2831-delnp-2008-Marked-Claims-(05-02-2015).pdf

2831-delnp-2008-Others-(05-02-2015).pdf

2831-delnp-2008-pct-210.pdf

2831-delnp-2008-pct-220.pdf

2831-delnp-2008-pct-304.pdf

2831-delnp-2008-Petition-137-(16-07-2014).pdf

« Previous Patent

Next Patent »

Patent Number

265822

Indian Patent Application Number

2831/DELNP/2008

PG Journal Number

12/2015

Publication Date

20-Mar-2015

Grant Date

18-Mar-2015

Date of Filing

04-Apr-2008

Name of Patentee

STARPHARMA PTY. LIMITED

Applicant Address

BAKER BUILDING, 75 COMMERCIAL ROAD, MELBOURNE, VICTORIA 3004, AUSTRALIA

Inventors:

#	Inventor's Name	Inventor's Address
1	GROGAN, OWEN TIMOTHY	3/36 MIDDLETON STREET, BLACK ROCK, VICTORIA 3193, AUSTRALIA
2	MCCARTHY, THOMAS DAVID	40 TOORONGA ROAD, MALVERN EAST, VICTORIA 3145, AUSTRALIA
3	HENDERSON, SCOTT ANDREW	6 DOOLAN COURT, ROWVILLE, VICTORIA 3178, AUSTRALIA

PCT International Classification Number

A61K 31/785

PCT International Application Number

PCT/AU2006/000120

PCT International Filing date

2006-02-01

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2005905750	2005-10-18	Australia