The design and synthesis of novel 14- to 16-membered 11-azalides starting from 16-membered macrolides are reported. A linear 9-formylcarboxylic acid was isolated via a mobile dialdehyde previously reported. Sequential macrocyclization of the formylcarboxylic acid with amino alcohol followed by deprotection afforded corresponding 14- to 16-membered azalides. On the other hand, reductive amination of the formylcarboxylic acid with an azidoamine followed by macrolactam formation with an amine generated from the azide gave 14- to 16-membered azalactams. Among these derivatives, 15-membered azalactams and 16-membered azalides exhibited characteristic in vitro antibacterial activities. Although optimization of 15-membered azalactams including demycarosyl analogues did not provide remarkably promising molecules, SAR studies of 16-membered azalides disclosed that substitution at the 15 position was very important for identification of a clinical candidate.