The objective of this study was to determine the prevalence of and factors associated with clinical and perceived oral malodor among dental students. Clinical oral malodor was measured in 163 Malaysian dental students using organoleptic method and Oral ChromaTM and they were asked about their perception of self-oral malodor. Oral examination was performed to assess oral health status. Statistical analyses were performed using SPSS version 19.0. There were 52.7% students who had clinical oral malodor, while 19.0% students perceived they had oral malodor. The sensitivity (0.244) of self-perceived oral malodor was lower than its specificity (0.870). Tongue coating was closely associated with clinical oral malodor whereas high plaque index was closely associated with perceived oral malodor. These results showed that clinical oral malodor was prevalent among dental students, but students' perception of oral malodor did not always reflect actual clinical oral malodor. Furthermore, associating factors of clinical oral malodor differ from perceived oral malodor. The importance of controlling clinical oral malodor with proper tongue cleaning should be emphasized and dental students should be taught on the differences between clinical and perceived oral malodor in order to manage this problem.
The novel antifungal agent ASP2397 (Vical's compound ID VL-2397) is produced by the fungal strain MF-347833 that was isolated from Malaysian leaf litter and is identified here as an Acremonium species based on its morphology, physiological properties and 28S ribosomal DNA sequence. Because of its potential importance for producing novel antifungal agents, we determined the taxonomic and biologic properties of MF-347833. We show here that ASP2397 is a cyclic hexapeptide that chelates aluminum ion and is therefore similar to ferrichrome, a hydroxamate siderophore. However, ASP2397 differs structurally from licensed antifungal agents such as amphotericin B, triazoles and echinocandins. To understand the relationship between chemical structure and biological function, we isolated certain ASP2397 derivatives from the culture broth, and we further chemically converted the metal-free form to other derivatives.