Patent Document:

water - soluble polymers such as peg ( aldrich ), and monomethoxy peg ( mpeg , nippon oil and fats ) were utilized to bind poorly aqueous - soluble drugs . taxol ( sigma chemical ) was the drug utilized for covalent linking to the carrier polymers . the 8 - arm ` star ` peg polymer ( mw 22800 ) was obtained from macrochem labs and acrylic acid from aldrich . it should be recognized by anyone skilled in the art that other water - soluble polymers and other drugs may be utilized in a similar form of drug delivery . examples of water - soluble polymers ( denoted hereon by p ) that can be used as carriers in such a drug delivery system are polyethylene glycols ( peg ), polyvinyl alcohol , polyhydroxyethyl methacrylate , polyacrylamide , polyacrylic acid , polyethyloxazoline , polyvinyl pyrrolidinone , and polysaccharides such as chitosan , alginates , hyaluronic acid , dextrans , etc . these polymers can be covalently linked to the drugs by means of linkages ( denoted hereon by x ) such as ester , diester , urethane , amide , secondary or tertiary amine , ether etc . the purpose of covalently linking a water - insoluble or poorly water - soluble drug ( denoted hereon by d ) to a water - soluble polymer is to solubilize the drug in water to enable its delivery in a soluble form into the body . the solubility of taxol in water is very low , approximately 0 . 03 mg / ml , and at the required dosage of 200 - 500 mg , this requires the infusion of a liter of fluid using a cremaphore to solubilize the drug . thus it is desired to improve the solubility of taxol by conjugating it with a water - soluble polymer . with reference to fig1 table i below shows the chemical formulas of derivatives of taxol with linear pegs and some intermediates used in the preparation of these derivatives . the r 1 and r 2 substituents on taxol vary according to derivative and are indicated by the compound numbers which are used throughout the specification . taxol itself is represented by compound 1 . table i__________________________________________________________________________compoundnumber r . sub . 1 ( 2 &# 39 ;- position ) r . sub . 2 ( 7 - position ) __________________________________________________________________________1 oh oh2 ococ . sub . 3 h . sub . 3 n . sub . 2 ococ . sub . 3 h . sub . 3 n . sub . 23 oconh ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 3 oconh ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 34 ocooch . sub . 2 ccl . sub . 3 oh5 ocooch . sub . 2 ccl . sub . 3 oconh ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 36 oh oconh ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 37 ooc ( ch . sub . 2 ). sub . 2 coo ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 3 oh8 ooc ( ch . sub . 2 ). sub . 2 cooh oh9 ooc ( ch . sub . 2 ). sub . 3 cooh oh10 ooc ( ch . sub . 2 ). sub . 2 coo ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 3 oh11 ooc ( ch . sub . 2 ). sub . 3 coo ( ch . sub . 2 ch . sub . 2 o ). sub . n ch . sub . 3 oh__________________________________________________________________________ n is the degree of polymerization or number of repeat units in the polyme chain and is dependant on the molecular weight of the polymer . table ii below shows the general chemical formulas of linear peg and its derivatives and intermediates utilized to obtain the drug - peg conjugates . the general formula for peg and derivatives is r 3 ( ch 2 ch 2 o ) n ch 2 ch 2 r 4 in which the flanking groups r 3 and r 4 vary according to the derivative . peg itself is represented by compound 12 in which r 3 = r 4 = oh . thus a ` linear bifunctional ` peg is represented by the compound 12 having two hydroxyl groups available for chemical reaction while a ` linear monofunctional ` peg is represented by compound 13 in which one end of the peg is ` capped ` with a nonreactive alkoxy or aryloxy group . table ii______________________________________compound abbreviation r . sub . 3 r . sub . 4______________________________________12 peg ho oh13 mpeg ch . sub . 3 o oh14 mpeg - amine ch . sub . 3 o nh . sub . 215 mpeg - cooh ch . sub . 3 o oco ( ch . sub . 2 ). sub . 2 cooh16 peg - monoacrylate ho ococh ═ ch . sub . 217 peg - monomethacrylate ho ococ ( ch . sub . 3 )═ ch . sub . 218 mpeg - acrylate ch . sub . 3 o ococh ═ ch . sub . 219 mpeg - methacrylate ch . sub . 3 o ococ ( ch . sub . 3 )═ ch . sub . 2______________________________________ the derivative of taxol having peg at the 2 &# 39 ; and 7 positions ( compound 3 ) was prepared by first reacting taxol with 1 , 1 - carbonyldiimadazole ( cdi ) as a coupling agent and subsequently with monomethoxy polyethylene glycol - amine ( mpeg - amine , 14 ) to obtain the peg derivative coupled by a urethane linkage which is relatively stable to hydrolysis . this derivative was not expected to have a high biological activity since the 2 &# 39 ; position on taxol was substituted . in order to prepare a 7 - peg derivative of taxol , the 2 &# 39 ; position was first protected with the [( 2 , 2 , 2 - trichloroethyl ) oxy ] carbonyl , or ` troc ` protective group by reaction of taxol with 2 , 2 , 2 - trichloroethyl chloroformate . the 2 &# 39 ; protected derivative was then reacted with cdi and mpeg - amine as above to obtain the 2 &# 39 ;- troc - 7 - peg derivative followed by removal of the troc group to obtain the 7 - peg taxol . the water - solubility of these derivatives was determined in a uv spectrophotometer which clearly showed an absorbance for taxol when coupled to peg . a wide range of mpeg - amine molecular weights , as well as other linear pegs used for coupling of drugs can be utilized . typically a molecular weight range of 200 - 100000 ( corresponding n values between 5 - 2500 ) could be utilized for the derivatization . a preferred range is 600 - 20000 ( n = 10 - 500 ) and the most preferred range is 1000 - 10000 ( n = 20 - 250 ). another approach used was to deliver taxol in a soluble form such as the peg derivative that could be hydrolyzed to release taxol in an active form after delivery of the drug - polymer conjugate . in this method taxol was linked to peg at the 2 &# 39 ; position by a readily hydrolyzable ester linkage . two approaches were adopted to synthesize this derivative . the first involved modifying the hydroxyl end groups of mpeg with succinic anhydride to obtain the succinyl derivative of mpeg ( 15 ). this derivative was esterified with the 2 &# 39 ;- hydroxyl on taxol using dicyclohexyl carbodiimide ( dcc ) and 4 - dimethylamino pyridine ( dmap ) to obtain the derivative 7 . the second approach involved modification of the 2 &# 39 ; hydroxyl on taxol with succinic or glutaric anhydride to obtain the succinyl ( 8 ) or glutaryl ( 9 ) derivative of taxol which was esterified with the mpeg hydroxyl using dcc and dmap as before . both these procedures resulted in the formation of 2 &# 39 ;- mpeg taxol ( 10 or 11 ) that was readily hydrolyzable in an aqueous environment to give back active taxol and water - soluble carrier . a monofunctional peg ( mpeg ) or a bifunctional peg ( regular peg ) could be used for this reaction . peg ( mpeg and / or peg ) molecular weights 200 - 100000 ( n = 5 - 2500 ) could be utilized for the derivatization . a preferred range is 600 - 20000 ( n = 10 - 500 ) and the most preferred range is 1000 - 10000 ( n = 20 - 250 ). in the above functionalization techniques , the number of drug molecules per carrier molecule is restricted to a maximum of two taxol molecules per molecule of peg , and only one taxol per mpeg . in order to increase the number of taxols per carrier molecule , pegs with multiple arms such as branched molecules or star molecules are used . a branched peg was produced by solution polymerization of the monoacrylate derivative ( 16 ) or monomethacrylate derivative ( 17 ) of peg - 2000 in the presence of the thermal free radical initiator , 2 , 2 &# 39 ; - azobisisobutyronitrile ( aibn ). thus the number of available sites for coupling the drug to the ` brush - like ` polymer was dependant on the number of pegs having a free hydroxyl group that were incorporated into the growing polymer chain during the polymerization process . any one of the reactions mentioned above for linear pegs could be utilized to covalently link molecules of taxol to the branched polymer . also , mixtures of peg - monoacrylates of differing molecular weights could be utilized for the synthesis of a brush - like polymer in which the ` bristles ` are of differing lengths . the general formula of branched pegs synthesized for subsequent drug attachment is shown below : ## str1 ## wherein a = r 5 ( ch 2 ch 2 o ) n ch 2 ch 2 oco , and r 5 = ho ( in case of peg ) or ch 3 o ( in case of mpeg ); wherein b = r 5 ( ch 2 ch 2 o ) p ch 2 ch 2 oco , and r 5 = ho ( in case of peg ); wherein m , n , and p are the degrees of polymerization or number of repeat units in the polymer chain and are dependant on the molecular weight of the polymer . typically m , n , and p = 5 - 2500 when a drug d is bound to the above polymer through a covalent linking group x , the general formula remains the same except for r 5 which is replaced by d -- x --. ` star ` molecules of peg available commercially , e . g ., 8 - arm peg , mw 22800 , were functionalized with taxol using the techniques described above . these molecules may have a ` central core ` of divinyl benzene ( dvb ) which is anionically polymerized under controlled conditions to form living poly dvb nuclei having a predetermined number of active sites to which ethylene oxide is added to produce a known number of arms of peg and quenched with water when the desired molecular weight is achieved . alternately , they may have an oligomeric glycerol central core that is ethoxylated and used to initiate polymerization of ethylene oxide and quenched with water when the desired molecular weight is achieved . the range of usable molecular weights of these polymers ranges between 5000 and 200000 with a preferred range of 10000 - 100000 and a most preferred range of 20000 - 70000 . the upper limit of this latter range is necessary for the carrier to be excreted from the circulatory system . a general formula for the star peg is [ ho --( ch 2 ch 2 o ) n ch 2 ch 2 ] q -( central core ) in which q is the number of arms of peg attached to the central core . when a drug d is bound to the star polymer through a covalent linking group x , the general formula remains the same except for ho -- which is replaced by d -- x --. the number of arms , q can vary between 2 and 100 . a schematic of a star peg molecule with 8 arms ( q = 8 ) is shown below : ## str2 ## a modified version of the branched polymer system also used as a drug carrier was synthesized by copolymerization of a peg or mpeg monoacrylate with ` functional monomers `. functional monomers are defined as those monomers that bear reactive functional groups that can be utilized for coupling of drugs . examples of these are acrylic acid to provide carboxylic acid groups , allyl amine to provide primary amine groups , allyl alcohol to provide additional hydroxyl groups , or allyl chloride to provide chloride groups attached to the backbone of the branched copolymer . the copolymerization of acrylic acid and mpeg - 5000 monoacrylate was carried out in toluene in the presence of the thermal free radical initiator , 2 , 2 &# 39 ;- azobisisobutyronitrile ( aibn ). nonlimiting examples of functional monomers used in the synthesis are those bearing the carboxyl group , e . g ., acrylic acid , vinyl acetic acid ( 3 - butenoic acid ) and higher homologues ; those bearing the amine group , e . g ., allyl amine and higher homologues ; those bearing the hydroxyl group , e . g ., allyl alcohol ( 2 - propene - 1 - ol ) and higher homologues ; allyl chloride ( 3 - chloropropene ), other unsaturated halides and corresponding higher homologues . the presence of these pendant functional groups allows for the attachment of a wide range of drugs possessing different functionalities . the general formula of copolymers of peg and functional monomers synthesized for subsequent drug attachment is shown below : ## str3 ## wherein a = r 5 ( ch 2 ch 2 o ) n ch 2 ch 2 oco and r 5 = ho ( for peg ) or ch 3 o ( for mpeg ); wherein r 7 , r 8 = h , ch 3 , alkyl , or aryl ; wherein n and r are degrees of polymerization and vary between 5 and 2500 ; and j = cooh , oh , cho , nh 2 , cl , br , or i . when a drug d is bound to the above polymer at the site j , through a covalent linking group w ( selected from the same groups as x , but not necessarily identical ), j is replaced by d -- w --. also the drug may be bound at a , in which case r 5 is replaced by d -- x --. the above text describes the production of taxol derivatives with water - soluble polymers . these soluble polymeric carriers containing the bound drug may be crosslinked to produce an insoluble polymer matrix which is water - swellable and has hydrogel properties . such a matrix may be prepared in the form of a sphere , disc , cylinder , etc . that could be subsequently implanted at a suitable site for sustained release of the bound drug by hydrolysis . such a matrix is prepared by utilizing a branched or star peg in which a portion of the available sites are functionalized by polymerizable acrylate or methacrylate groups and the remainder are bound to the drug . this polymer is isolated , dissolved in aqueous buffer ( or organic solvent ) and crosslinked by a free radical process that may be thermally initiated or photoinitiated . following crosslinking , the gel is dessicated by drying in vacuum and stored dry until before use when it is hydrated . to carry out the crosslinking step in organic solvent , the polymer is dissolved at a suitable concentration to obtain a solution of mild viscosity , a thermal initiator such as aibn , or a uv photoinitiator such as 2 , 2 - dimethoxy - 2 - phenyl acetophenone ( dmpa ) is added . to prepare the gel in the form of a disk , the solution is poured into a mould and heated or exposed to long wave uv radiation to crosslink the polymer . if the crosslinking step is to be carried out in aqueous medium , the same proceedure is followed except for replacing the organic solvent with an aqueous buffer , adding a water - soluble uv initiator such as 2 , 2 &# 39 ;- azobis -( 2 - amidinopropane ) hydrochloride ( aaph ) and exposing to uv light , or using a visible light initiated system comprising the dye ethyl eosin and cocatalyst triethanol amine and exposing the sample to green light in the region of 500 - 580 nm . a small quantity of bifunctional crosslinkers may also be added , e . g ., tetraethylene glycol diacrylate . the degree of substitution of available sites by polymerizable groups is varied depending on the degree of crosslinking and drug loading required . the presently preferred ratio of unsaturated groups to all available sites is between 0 . 04 and 0 . 75 . a more preferred range is between 0 . 1 to 0 . 5 . the preferred mode of drug delivery for the soluble derivatives of taxol is intravenous . the polymer - drug conjugate is dissolved in normal saline or a physiological buffer and infused intravenously . the invention will now be described in greater detail by reference to the following non - limiting examples . taxol - peg : peg at both 2 &# 39 ; and 7 position coupled with a relatively stable urethane linkage . 10 mg ( 0 . 0117 mmol ) of taxol ( sigma chemical ) was dissolved in 5 ml of chloroform and a ten fold excess of 1 , 1 - carbonyldiimidazole ( cdi , 18 . 95 mg , 0 . 117 mmol ) was added to activate the hydroxyl ( oh ) groups on the taxol molecule . ( there are three oh groups on taxol ( compound 1 ) at the 1 , 7 , and the 2 &# 39 ; positions . the oh at the 2 &# 39 ; position is the most labile followed by the oh at the 7 position while the oh at the 1 position is sterically hindered and nonreactive . this proceedure resulted in the formation of the taxol - cdi ( 2 ) derivative at the 2 &# 39 ; and 7 positions ). the reaction was allowed to proceed for 2 hours at room temperature and then extracted in water 3 times to remove the excess cdi and imidazole formed as a reaction product and then dried over anhydrous sodium sulfate . monomethoxy polyethylene glycol amine ( mpeg - amine , 14 ) of molecular weight 5000 g / mol was added ( 58 . 5 mg , 0 . 117 mmol ) to the reaction mixture and allowed to react for 2 hours with stirring at room temperature . the product was extracted with 10 % aqueous potassium nitrate , dried over anhydrous sodium sulfate and evaporated in vacuo or freeze dried . uv spectroscopy ( shimadzu instruments ) was utilized to determine if taxol had been derivatized and if a water - soluble peg - taxol derivative ( 3 ) substituted at the 2 &# 39 ; and / or 7 position was obtained . taxol was added to water ( in an attempt to see any solubility that may result ) to give a suspension which was filtered and a scan of this sample was obtained . no characteristic absorbances for taxol were seen implying a negligible solubility below the detection limit of the instrument . a scan of taxol dissolved in ethanol , however , showed the characteristic absorbance in the region of 240 nm and a shoulder around 270 - 280 nm . next , mpeg - amine was dissolved in water and showed negligible absorption in the region of interest . a scan of the freeze dried product ( peg - taxol derivative ) was added to water ( 100 % of this product did not dissolve in water ) and filtered . it showed the characteristic absorption of taxol indicating that the drug was solubilized in water as a result of the coupling reaction with peg . taxol - peg : peg at 7 position coupled with a relatively stable urethane linkage . it is known that the c13 ester side chain and the 2 &# 39 ;- hydroxyl group on the side chain are essential for biological activity ( mathew et al ., 1992 , j . med . chem . 35 : 145 - 151 ). the introduction of a substituent at the 2 &# 39 ; position has resulted in a loss in the ability to promote microtubule assembly . derivatives of taxol having a substituent at the 7 position however , retain their ability to alter cell proliferation and microtubule polymerization . the following proceedure describes a method to obtain water - soluble peg derivatives of taxol having the peg substituent at the 7 position and not the 2 &# 39 ; position . the 2 &# 39 ;- hydroxyl on taxol was first protected using the [( 2 , 2 , 2 - trichloroethyl ) oxy ] carbonyl , or ` troc ` protective group . taxol ( 50 mg ) in chloroform ( 5 ml ) and pyridine ( 0 . 1 ml ) was cooled to - 20 ° c . and treated with 2 , 2 , 2 - trichloroethyl chloroformate ( 0 . 008 ml ) for 45 minutes . workup by standard methods yielded a the 2 &# 39 ;- troc derivative ( 4 ) together with small amounts of taxol and 2 &# 39 ;, 7 - bis troc taxol . the product could be isolated by tlc with ethyl acetate - hexane ( 1 : 1 ) as solvent : yield 85 %. the product 4 was reacted as in example 1 to obtain the 2 &# 39 ;- troc - 7 - mpeg taxol ( 5 ). the protective troc group was then removed by dissolving 5 in 2 ml methanol - acetic acid ( 9 : 1 ). and addition of zinc dust ( 40 mg ). the mixture was stirred for 10 minutes at room temperature , filtered to remove excess zinc and the 7 - peg taxol ( 6 ) obtained by precipitation with diethyl ether and drying in vacuo . water - soluble prodrugs of taxol : peg at the 2 &# 39 ; position bound by a hydrolyzable linkage ( reaction of taxol 2 &# 39 ;- oh with peg - cooh ) a peg derivative of taxol at the 2 &# 39 ;- oh position will make taxol soluble in aqueous medium . an ester at this position will be hydrolyzed to give back taxol in its active form . this strategy is utilized in the delivery of taxol in a water - soluble form . this form is called the ` prodrug `. preparation of mpeg - 1900 - cooh : mpeg - 1900 ( 9 . 5 g , 5 mmol ) was dissolved in toluene ( 50 ml ) and dried by distilling off most of the toluene ; succinic anhydride ( 20 g , 20 mmol ) was added and the mixture was stirred for 5 hours on an oil bath at 150 ° c . the mixture was cooled , taken up in dichloromethane and precipitated in ether . the product ( 15 ) was reprecipitated twice using dichloromethane / ether ; yield 8 . 5 g ( 85 %). homologues of succinnic anhydride , e . g ., glutaric anhydride , may be utilized for this reaction . preparation of mpeg - taxol ester ( 7 ): mpeg - cooh ( 0 . 5 mmol cooh ) and taxol ( 0 . 55 mmol ) were added to dichloromethane ( 20 ml ), and dicyclohexyl carbodiimide ( dcc , aldrich , 0 . 65 mmol ), and 4 - dimethyl aminopyridine ( dmap , aldrich , 0 . 125 mmol .) were added as coupling agents . the mixture stirred for 3 - 4 hours at room temperature , the precipitate of dicyclohexyl urea ( dcu ) filtered and the filtrate evaporated to dryness in vacuum . the residue was extracted with acetone and the product 7 precipitated by ether ; yields 70 - 85 %. water - soluble prodrugs of taxol : peg at the 2 &# 39 ; position bound by a hydrolyzable linkage ( reaction of taxol 2 &# 39 ;- cooh with peg - oh ) an alternate strategy to the one in example 3 is to make a carboxylic acid derivative of taxol and esterify it with untreated peg , i . e ., peg having available oh groups . the carboxylic acid derivatives of taxol are prior art have been synthesized by esterification with succinic or glutaric anhydrides ( deutsch et al , 1989 ; j . med . chem . 32 : 788 - 792 ). preparation of 2 &# 39 ;- succinyl taxol ( 8 ): taxol ( 0 . 5 g , 0 . 59 mmol ) and succinic anhydride ( 0 . 90 g , 7 . 6 mmol ) in 12 ml of pyridine were allowed to react for 3 hours at room temperature after which the mixture was evaporated to dryness in vacuo . the residue was treated with 20 ml of water , stirred for 20 min and then filtered . the precipitate was dissolved in acetone , water slowly added , and the fine crystals of 8 were collected ; yield ( 75 - 85 %). preparation of 2 &# 39 ;- glutaryl taxol ( 9 ): a similar proceedure used for 8 by reaction of taxol with glutaric anhydride gave 85 - 95 % yield of the derivative 9 when recrystallized from chloroform / benzene . preparation of mpeg - taxol ester ( 10 , 11 ): essentially the identical proceedure used for preparation of product 7 was used here , the mpeg - cooh being replaced by untreated mpeg ( 13 ) and taxol by products 8 or 9 to obtain respectively the products 10 and 11 . yields obtained were in the range of 75 - 85 %. the product 10 was identical to the product 7 obtained in example 3 . homologues of 8 and 9 obtained by reaction of taxol with homologues of cyclic anhydrides such as succinnic anhydride may be utilized for preparation of peg - taxol esters . water - soluble taxol - peg derivatives : use of branched chain or ` star ` pegs for a multiplicity of attachment sites for taxol . the use of derivatives in examples 1 through 4 describes the covalent attachment of taxol to pegs that are monofunctional ( 1 available attachment site per molecule ) such as mpeg or at most , those that are bifunctional ( regular pegs , 2 available attachment sites per molecule ). in order to increase the efficiency of drug delivery in terms of increasing the ratio of the mass of drug to the mass of inactive carrier ( in this case peg ), it is desirable to utilize a molecule ( carrier ) that for a given molecular weight , can carry several molecules of drug as opposed to one or two molecules per molecule of carrier . preparation of branched peg - taxol : branched polymers of peg produced by polymerization of a monoacrylate or monomethacrylate derivative were also used for covalent attachment of taxol . the monoacrylate ( 16 ) and monomethacrylate ( 17 ) derivatives of peg ( macrochem labs ) of molecular weights ranging from 1000 to 20000 having one free hydroxyl end group were polymerized in solution to obtain branched polymers of a given molecular weight . 10 g ( 5 mmol ) of peg 2000 monoacrylate was dissolved in 100 ml of dry toluene . a thermal free radical initiator 2 , 2 &# 39 ;- azobis isobutyronitrile ( aibn ) was added 0 . 016 g ( 0 . 1 mmol ) and the solution heated to 80 ° c . the reaction was allowed to proceed overnight and the polymer precipitated from solution with diethyl ether . the polymer was further purified by redissolution in toluene and reprecipitation with ether and dried in vacuo . the branched peg so obtained was then coupled to taxol by the techniques illustrated in examples 1 - 4 . those skilled in the art will recognize that other free radical initiators or initiating mechanisms , and other peg derivatives , e . g ., vinyl ethers of peg , may be utilized to obtain branched molecules . preparation of star peg - taxol : ` star ` peg , specifically 8 arm peg , mw 22800 ( macrochem labs ) was used as obtained . this peg had 8 potential coupling sites per molecule . other such pegs may also be used with a greater number of arms and higher molecular weight preferably less than 100000 to allow clearance from the body by the kidneys . the reactions described in examples 1 through 4 were utilized to covalently attach drugs such as taxol to these molecules . water - soluble taxol - peg derivatives : use of copolymers of peg and functional monomers for a multiplicity of attachment sites for taxol . another strategy for drug delivery is the copolymerization of functional monomers with polymerizable derivatives of peg such as mpeg - acrylate ( 18 ) or methacrylate ( 19 ) or the corresponding ` mono ` derivatives of regular peg . examples of functional monomers used in the synthesis are those bearing the carboxyl group , e . g ., acrylic acid , vinyl acetic acid ( 3 - butenoic acid ) and higher homologues ; those bearing the amine group , e . g ., allyl amine and higher homologues ; those bearing the hydroxyl group , e . g ., allyl alcohol ( 2 - propene - 1 - ol ) and higher homologues ; allyl chloride ( 3 - chloropropene ), other unsaturated halides and corresponding higher homologues , and unsaturated compounds bearing aldehyde groups . the presence of these pendant functional groups allows for the attachment of a wide range of drugs possessing different functionalities . copolymerization of mpeg - acrylate and acrylic acid : mpeg - acrylate was prepared by reaction of mpeg ( nippon oil and fat ) with acryloyl chloride ( aldrich ). mpeg - 5000 ( 10 g , 2 mmol ) was dissolved in toluene ( 150 ml ) and approximately 50 ml of toluene was distilled over to ensure removal of water . acryloyl chloride ( 4 mmol ) that had been distilled immediately prior to use , was added after the mpeg / toluene had been cooled on an ice bath . triethylamine ( 4 mmol , not essential ) was added and the reaction mixture refluxed for 4 hours . triethylamine hydrochloride , formed as a by product was filtered and the mpeg - acrylate precipitated with by addition of excess ether to the filtrate . the product was purified by reprecipitation from toluene and then dried in vacuo : yield 90 %. acrylic acid was vacuum distilled prior to use . mpeg - acrylate ( 1 mmol ) and acrylic acid ( 1 mmol ) were dissolved in dry toluene and the free radical thermal initiator aibn ( 0 . 05 mmol ) added . the reaction mixture was heated to 80 ° c ., the reaction was allowed to proceed overnight and the polymer precipitated from solution with diethyl ether . the polymer was further purified by redissolution in toluene and reprecipitation with ether and dried in vacuo . the copolymer containing labile carboxylic acid groups was then coupled to taxol by the technique described for product 7 . star ( 8 - arm ) peg - 22800 ( 2 . 85 g , containing 1 mmol oh groups ) was dissolved in 25 ml of dry toluene . the solution was cooled on an ice bath and 0 . 33 mmol of freshly distilled acryloyl chloride was added and the reaction mixture kept at 70 ° c . for 4 hours . the toluene was removed by vacuum distillation and the partial acrylate derivative redissolved in 25 ml of dry dichloromethane . 2 &# 39 ;- succinyl taxol ( 0 . 8 mmol , prepared as in example 4 ), dcc ( 0 . 95 mmol ) and dmap ( 0 . 18 mmol ) were added to the reaction mixture which was stirred at room temperature for 3 - 4 hours . the precipitate of dcu was filtered and the peg - partial acrylate derivatized with taxol ( star - peg - acrylate - taxol , spat ) was precipitated in excess ether and dried in vacuo . yield : 70 - 85 %. this derivative could be crosslinked by free radical polymerization in organic solvent or in aqueous medium by addition of the appropriate initiators . in organic solvent , the uv photoinitiator dmpa was used . a 10 wt % solution of spat in dichloromethane containing 0 . 05 % dmpa was poured in an open stainless steel mold in the shape of a small disc 1 cm diameter and thickness 0 . 5 cm and exposed to long - wave uv radiation from a mercury arc lamp . the solution gelled within 30 seconds . the gel was freeze dried . when placed in water or aqueous medium , the gelled discs would swell and imbibe water . a similar crosslinking proceedure was utilized in aqueous buffer except the photoinitiator in this case was water - soluble uv initiator aaph at 0 . 05 % concentration . other organic soluble initiators such as benzil , and other aqueous photoinitiating systems such as the ethyl eosin , triethanol amine system were also successful . a branched peg polymer , or a branched copolymer could be utilized instead of the star polymer to achieve a similar drug - immobilized gel .

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