Mikiko Abe

Patterns of morphological variation in enamel-dentin junction and outer enamel surface of human molars.

Tooth crown patterning is governed by the growth and folding of the inner enamel epithelium (IEE) and the following enamel deposition forms outer enamel surface (OES). We hypothesized that overall dental crown shape and covariation structure are determined by processes that configurate shape at the enamel–dentine junction (EDJ), the developmental vestige of IEE. This this hypothesis was tested by comparing patterns of morphological variation between EDJ and OES in human permanent maxillary first molar (UM1) and deciduous second molar (um2). Using geometric morphometric methods, we described morphological variation and covariation between EDJ and OES, and evaluated the strength of two components of phenotypic variability, canalization and morphological integration, in addition to the relevant evolutionary flexibility, i.e. the ability to respond to selective pressure. The strength of covariation between EDJ and OES was greater in um2 than in UM1, and the way that multiple traits covary between EDJ and OES was different between these teeth. The variability analyses showed that EDJ had less shape variation and a higher level of morphological integration than OES, which indicated that canalization and morphological integration acted as developmental constraints. These tendencies were greater in UM1 than in um2. On the other hand, EDJ and OES had a comparable level of evolvability in these teeth. Amelogenesis could play a significant role in tooth shape and covariation structure, and its influence was not constant among teeth, which may be responsible for the differences in the rate and/or period of enamel formation.

Allometric Comparison of Skulls from Two Closely Related Weasels, Mustela itatsi and M. sibirica

We conducted an interspecific comparison of skulls from two closely related but differently sized mustelid species, Mustela itatsi and M. sibirica (Mammalia, Carnivora, Mustelidae); a sexual comparison within the latter species showed remarkable size dimorphism. We clarified several differences in skull proportion related to size using allometric analyses and qualitative comparisons. Allometric analysis revealed that the skulls of male M. itatsi (the smaller species) have a relatively long palate; a slender viscerocranium and postorbital constriction; a broad, short, and low neurocranium; small carnassials; and a short mandible with a thin body and small ramus compared to the skulls of male M. sibirica (the larger species). Similar results were obtained when male M. itatsi were compared to female M. sibirica, although the male M. itatsi had a broader viscerocranium than female M. sibirica. A sexual comparison in M. sibirica revealed a larger skull size among the males with a relatively wide viscerocranium; wide postorbital constriction; a slender, long, and high neurocranium; short and wide auditory bullae; short carnassials; and a long and high mandible compared to females. Qualitative comparisons revealed changes in a few characters depending on skull size or with respect to some cranial components in each species. The interspecific differences observed were clearly larger than the intraspecific differences for three qualitative characters. The allometric and qualitative differences detected between these species suggest that each species is not simply the dwarf and/or giant morph of the other, and complicated differences were clarified.

Size and Shape Variability in Human Molars during Odontogenesis

Under the patterning cascade model (PCM) of cusp development inspired by developmental genetic studies, it is predicted that the location and the size of later-forming cusps are more variable than those of earlier-forming ones. Here we assessed whether differences in the variability among cusps in total and each particular crown component (enamel-dentin junction [EDJ], outer enamel surface [OES], and cement-enamel junction [CEJ]) could be explained by the PCM, using human maxillary permanent first molars (UM1) and second deciduous molars (um2). Specimens were µCT-scanned, and 3D models of EDJ and OES were reconstructed. Based on these models, landmark-based 3D geometric morphometric analyses were conducted. Size variability in both tooth types was generally consistent with the above prediction, and the differences in size variation among cusps were smaller for the crown components completed in later stages of odontogenesis. With a few exceptions, however, the prediction was unsupported regarding shape variability, and UM1 and um2 showed different patterns. Our findings suggested that the pattern of size variability would be caused by temporal factors such as the order of cusp initiation and the duration from the beginning of mineralization to the completion of crown formation, whereas shape variability may be affected by both topographic and temporal factors.

Local ventilation system successfully reduced formaldehyde exposure during gross anatomy dissection classes.

Dear Editor, In the recent Acta Anatomica Nipponica (Kaibogaku Zasshi Vol. 85, No. 1, 2010)—a special issue concerning the improvement of the formaldehyde (FA) environment in gross-anatomy laboratories—four papers were published, two of which described originally developed dissection tables equipped with local ventilation systems (Shinoda and Oba 2010; Kikuta et al. 2010) and two of which outlined the environmental health hazards caused by FA (Uchiyama 2010; Sakamoto and Miyake 2010). Due to its effectiveness and low cost, the FA solution is widely used in Japanese medical and dental schools to embalm human bodies donated for use in gross anatomy dissection classes. However, the gaseous FA that evaporates from embalmed bodies causes not only acute irritation to the eyes and respiratory tract but also chronic non-threshold carcinogenicity. According to a risk-based evaluation of FA, the Ministry of Health, Labor, and Welfare in Japan has set the administrative level of FA to 0.1 ppm in working environments in which FA is handled. In our medical school, the dissection laboratory for students (L23 9 W12 9 H3.3 m, in which 20–23 bodies prepared with 10 l of 5.5% FA/30% ethanol solution are used) had a high-performance general (whole-room) ventilation system with a competence of 25000 m/h; however, the mean FA concentration of the room (‘‘A’’ measurement) and the estimated maximum exposure to FA (‘‘B’’ measurement) during dissection classes were 0.520 and 0.480 ppm, respectively (HPLC analysis performed by Panasonic Health Organization Science Center of Industrial Hygiene, Osaka, Japan). To reduce FA exposure during dissection classes, we introduced 23 dissection tables with local ventilation apparatus (Meiko Medical, Fukuoka, Japan). The details of this system have already been described elsewhere (Shinoda and Oba 2010). Briefly, the system consists of a simple plenum-chambered dissection table and a transparent vinyl duct which connects the table to the pre-existing general ventilation duct via a flow control valve in the ceiling. The 40 pre-existing, randomly oriented air-supply openings in the ceiling were not replaced (no downward flow of air for each dissecting table). The total ventilation flow rate was 18 m/min/table. The local ventilation system we introduced successfully reduced the FA concentration of the room during dissection classes. The A and B FA measurements were 0.035 and 0.054 ppm, respectively. Using a photoelectronic method (FP-30, Rikenkeiki, Tokyo, Japan), we also measured the 30-min mean FA concentration at the center of the dissection room (1.2 m above the floor) and at the corner of a dissection table (0.5 m above the table) in every class 30–60 min after the start of the dissection (Fig. 1). The mean FA concentrations at the center of the room and the corner of the table were 0.056 (n = 41) and 0.057 ppm (n = 41), respectively. FA concentrations higher than 0.1 ppm were recorded for dissection schedules #8 and 9, during which the upper extremities were placed in the abducent position; thus, the source of the FA was out of the effective range of the local ventilation system. Thirty-nine of the 41 measurements of FA concentration at the center of the room and 40 of the 41 measurements at the corner of M. Takahashi M. Abe T. Yamagishi K. Nakatani Y. Nakajima (&) Anatomy and Cell Biology, Graduate School of Medicine, Osaka City University, 1-4-3 Asahimachi, Abeno-ku, Osaka 545-8585, Japan e-mail: yuji@med.osaka-cu.ac.jp

Factors Affecting the Distribution of the Japanese Weasel Mustela itatsi and the Siberian Weasel M. sibirica in Japan

Abstract. The vertical distribution of introduced Siberian weasels Mustela sibirica and endemic Japanese weasels M. itatsi in the Seburi Mountains in Kyushu, Japan, was examined from October 1996 to February 1998. Siberian weasels occurred near villages with paddy and cultivated fields, whereas Japanese weasels occurred in grasslands and plantations. The dispersion of yearlings destabilized the distributions of both weasel species. The horizontal distribution of both species throughout Japan was examined by means of collection of dead specimens and by trapping from March 1998 to March 2002. The eastern boundary of the distribution of the Siberian weasel was Fukui, Nagano, and Aichi prefectures; however, the distribution is expanding slowly eastward. The Siberian weasel cannot invade new habitats that lack nearby villages in Seburi, and cannot expand its range in the eastern area of Aichi, where Japanese weasels are dominant. The presence of the Japanese weasel likely prevents expansion of the distribution of the Siberian weasel.