Polyphosphazenes, methods of making, and uses thereof

1 - 33 . (canceled) 34 . A method of enhancing an immunological response to an immunologically active compound in an individual comprising administering one or more compositions comprising a polyphosphazene having the following structure: a salt thereof, or a crosslinked analog thereof, wherein R′ and R″ at each occurrence on the polyphosphazene are independently selected from aliphatic; aryl; aralkyl; alkaryl; heteroaromatic; carbohydrates; heteroalkyl; halogen; -oxyaryl; -oxyaliphatic; -oxyfluoroalkyl, -oxyalkaryl, -oxyaralkyl; -thioaryl; thioaliphatic; -thioalkaryl; thioaralkyl; aminoalkyl, aminoaryl, N-ethylpyrrolidone; —NH—[(CH 2 ) x —O-] y -(aryl or aliphatic); and —O—[(CH 2 ) x —O-] y -(aryl or aliphatic); and, wherein n is an integer from 10 to 500,000; x is an in integer from 1 to 8 and v is an integer from 1 to 5,000; and the polyphosphazene has less than 2% by weight chloride. 35 . A method of enhancing an immunological response to an immunologically active compound in an individual comprising administering one or more compositions comprising a polyphosphazene having the following structure: a salt thereof, or a crosslinked analog thereof, wherein R′ and R″ at each occurrence on the polyphosphazene are independently selected from -phenylCO 2 H, -phenylSO 3 H, -phenylPO 3 H, -(aliphatic)CO 2 H, -(aliphatic)SO 3 H, -(aliphatic)PO 3 H, -phenyl(aliphatic)CO 2 H, -phenyl(aliphatic)SO 3 H, -phenyl(aliphatic)PO 3 H, —[(CH 2 ) x O] y phenylCO 2 H, —[(CH 2 ) x O] y phenylSO 3 H, —[(CH 2 ) x O] y phenylPO 3 H, —[(CH 2 ) x O] y (aliphatic)CO 2 H, —[(CH 2 ) x O] y (aliphatic)SO 3 H, —[(CH 2 ) x O] y (aliphatic)PO 3 H, —[(CH 2 ) x O] y phenyl(aliphatic)CO 2 H, —[(CH 2 ) x O] y phenyl(aliphatic)SO 3 H, -or [(CH 2 ) x O] y phenyl(aliphatic)PO 3 H, wherein n is an integer from 2,500 to 500,000, and the polyphosphazene has a z-average molecular diameter of at least 70 nm in phosphate buffered saline at pH 7.4. 36 . The method of claim 34 , wherein the composition further comprises an immunologically active compound and the immunologically active compound is encapsulated by the polyphosphazene and the polyphosphazene is crosslinked. 37 . The method of claim 35 , wherein the composition further comprises an immunologically active compound and the immunologically active compound is encapsulated by the polyphosphazene and the polyphosphazene is crosslinked. 38 . The method of claim 34 , wherein R′ and R″ are at each occurrence on the polyphosphazene are independently selected from -phenylCO 2 H, -phenylSO 3 H, -phenylPO 3 H, -(aliphatic)CO 2 H, -(aliphatic)SO 3 H, -(aliphatic)PO 3 H, -phenyl(aliphatic)CO 2 H, -phenyl(aliphatic)SO 3 H, -phenyl(aliphatic)PO 3 H, —[(CH 2 ) x O] y phenylCO 2 H, —[(CH 2 ) x O] y phenylSO 3 H, —[(CH 2 ) x O] y phenylPO 3 H, —[(CH 2 ) x O] y (aliphatic)CO 2 H, —[(CH 2 ) x O] y (aliphatic)SO 3 H, —[(CH 2 ) x O] y (aliphatic)PO 3 H, —[(CH 2 ) x O] y phenyl(aliphatic)CO 2 H, —[(CH 2 ) x O] y phenyl(aliphatic)SO 3 H, -or [(CH 2 ) x O] y phenyl(aliphatic)PO 3 H, wherein x is an in integer from 1 to 8 and y is an integer from 1 to 5,000. 39 . The method of claim 34 , wherein 0 to 95% of R′ and/or R″ at each occurrence on the polyphosphazene are independently selected from aliphatic; aryl; aralkyl; alkaryl; heteroaromatic; carbohydrates; heteroalkyl; halogen; -oxyaryl; -oxyaliphatic; -oxyalkaryl, -oxyaralkyl; -thioaryl; thioaliphatic; -thioalkaryl; thioaralkyl; aminoalkyl, aminoaryl, N-ethylpyrrolidone; —NH—[(CH 2 ) x —O-] y -(aryl or aliphatic); and —O—[(CH 2 ) x —O-] y -(aryl or aliphatic), and wherein 5 to 100% of wherein R′ and R″ are at each occurrence on the polyphosphazene are independently selected from -phenylCO 2 H, -phenylSO 3 H, -phenylPO 3 H, -(aliphatic)CO 2 H, -(aliphatic)SO 3 H, -(aliphatic)PO 3 H, -phenyl(aliphatic)CO 2 H, -phenyl(aliphatic)SO 3 H, -phenyl(aliphatic)PO 3 H, —[(CH 2 ) x O] y phenylCO 2 H, —[(CH 2 ) x O] y phenylSO 3 H, —[(CH 2 ) x O] y phenylPO 3 H, —[(CH 2 ) x O] y (aliphatic)CO 2 H, —[(CH 2 ) x O] y (aliphatic)SO 3 H, —[(CH 2 ) x O] y (aliphatic)PO 3 H, —[(CH 2 ) x O] y phenyl(aliphatic)CO 2 H, —[(CH 2 ) x O] y phenyl(aliphatic)SO 3 H, -or [(CH 2 ) x O] y phenyl(aliphatic)PO 3 H, wherein x is an in integer from 1 to 8 and y is an integer from 1 to 20 40 . The method of claim 34 , wherein R′ and R″ are carboxylatophenoxy groups or a combination of carboxylatophenoxy groups and trifluoroethoxy groups. 41 . The method of claim 34 , wherein the polyphosphazene is a salt and the cation is selected from ammonium, potassium, sodium, calcium, iron, magnesium, quaternary ammonium, spermine, spermidine, and combinations thereof. 42 . The method of claim 34 , wherein the composition further comprises a pharmaceutically acceptable carrier. 43 . The method of claim 35 , wherein the polyphosphazene has less than 2% by weight chloride. 44 . The method of claim 35 , wherein R′ and R″ are carboxylatophenoxy groups or a combination of carboxylatophenoxy groups and trifluoroethoxy groups. 45 . The method of claim 35 , wherein the polyphosphazene is a salt and the cation is selected from ammonium, potassium, sodium, calcium, iron, magnesium, quaternary ammonium, spermine, spermidine, and combinations thereof. 46 . The method of claim 35 , wherein the composition further comprises a pharmaceutically acceptable carrier. 47 . The method of claim 35 , wherein the composition further comprises one or more salts, wherein the one or more salts do not comprise a chloride ion. 48 . The method of claim 36 , wherein the immunologically active compound is a vaccine antigen. 49 . The method of claim 37 , wherein the immunologically active compound is a vaccine antigen.