Unraveling the Effect of Nondrug Spacers on a True Drug-Polymer and a Comparative Study of Their Antimicrobial Activity

Several studies have been conducted on the polymerization of drug units using spacers or other polymeric units. In order to study the importance of spacers in drugpolymers, we designed polymers with and without spacers. As a proof of concept, herein, we present a comparative study on the efficacy of antibacterial activity using a polymeric biocide (PB) C0P1 having no spacer (0%) and two other PBs with varied spacer content (C2P2:29%, C10P3:53%). We considered C0P1 as a potential new type of PB generated from a widely used fluoroquinolone antibiotic, ciprofloxacin 1, by a simple selfcondensation activation with thionyl chloride. Monomer 2 (formylated methyl ester of 1) was polymerized with ethylenediamine (C-2) and 1,10-diaminodecane (C-10) to provide C2P2 and C ioPai respectively. The trend for minimum inhibitory concentration study against Escherichia coli (E. coli) and Staphylococcus aureus S. aureus) was observed as 1 > C0P1 > C2P2 = C10P3 >> 2. Furthermore, after coating on nylon threads, the nonspacer polymer C0P1 showed an enhanced zone of inhibition (ZOI) than monomer 1 as well as the spacer polymers owing to its superior coating ability and sustained drug release capabilities. Thus, this study clearly states that the bioefficacy of a drug-polymer could be retained and enhanced in the absence of nonbioactive spacer units.