Using human permanent teeth, structural and distribution patterns of the surface ‘prismless’ enamel with the occasional presence of indistinct and/or stunted prism structures were investigated by scanning electron microscopy. The ‘prismless’ enamel was classified into three shapes: step-like, occurring in mid-coronal enamel; band-like, frequently seen in occlusal and fissure enamel, and island-like, found in occlusal and cuspal-coronal enamel. These three ‘prismless’ shapes were formed by two structural patterns. One was determined by prisms which gradually changed into ‘prismless’ structures via indistinct and stunted prisms (prism-dependent; P type), and another, probably a variance of the P type, was characterized by prisms which abruptly changed into ‘prismless’ structures on the incremental lines of Retzius or the fine laminated striations (Retzius-dependent; R type). The P type pattern clearly forming the band and island-like shapes was found in occlusal and cuspal-coronal enamel, whereas the R type pattern forming some of the band-like shapes as well as the step-like shapes might be observed in almost all surface enamel.