Biodegradable polymers. II. Degradation characteristics of hydrolysis-sensitive poly[(organo)phosphazenes].

Polyphosphazenes with hydrolytic labile substituents have potential as biodegradable materials. By proper choice of the substituents, polymers can be prepared which can degrade to harmless products. The rate of biodegradation and the nature of the degradation products can be widely varied by changing the chemical composition of the polymers. The degradation properties of a series of new polyphosphazene derivatives are discussed. The synthesis of phosphazene polymers with variable amounts of ethyl 2-(O-glycyl)lactate or ethyl 2-(O-alanyl)lactate as cosubstituents was described previously. These polymers were prepared by partial reaction of poly[(dichloro)phosphazene] with the corresponding amine compound. Total halogen replacement was achieved by subsequent introduction of glycine ethyl ester cosubstituents. The degradation characteristics of these polymers in organic solution or in vitro was investigated. It was demonstrated that the introduction of hydrolysis-sensitive side-groups along the polymer chain results in an increased degradability of the poly[(amino acid ester)phosphazenes]. A plausible mechanism for the hydrolysis of these materials is proposed. The main hydrolysis pathway of poly[(amino acid ester)phosphazene] devices in vitro involves release of the amino acid ester side-group followed by hydrolysis of the ester with formation of the amino acid and ethanol. Initial hydrolysis of the ester bond with subsequent release of glycine cannot be excluded but is probably predominant.