Tatsuya Togashi scite author profile

The numerical dosimetry of pregnant women is an important issue in electromagnetic-field safety. However, an anatomically realistic whole-body pregnant-woman model for electromagnetic dosimetry has not been developed. Therefore, we have developed a high-resolution whole-body model of pregnant women. A new fetus model including inherent tissues of pregnant women was constructed on the basis of abdominal magnetic resonance imaging data of a 26-week-pregnant woman. The whole-body pregnant-woman model was developed by combining the fetus model and a nonpregnant-woman model that was developed previously. The developed model consists of about 7 million cubical voxels of 2 mm size and is segmented into 56 tissues and organs. This pregnant-woman model is the first completely anatomically realistic voxel model that includes a realistic fetus model and enables a numerical simulation of electromagnetic dosimetry up to the gigahertz band. In this paper, we also present the basic specific absorption rate characteristics of the pregnant-woman model exposed to vertically and horizontally polarized electromagnetic waves from 10 MHz to 2 GHz.

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Metal–Insulator Transition of Filled Skutterudite Compound SmRu₄P₁₂

Matsuhira

Hinatsu

Sekine

et al. 2002

J. Phys. Soc. Jpn.

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Production of anisogametes and gamete motility dimorphism in Monostroma angicava

Togashi¹,

Motomura²,

Ichimura³

1997

Sexual Plant Reproduction

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The reproductive strategy of a marine alga with a heteromorphic biphasic life cycle was studied by analyzing various sexual reproductive characters in light of the evolution of anisogamy. Gametophytes of Monostroma angicava were dioecious and their gametes were slightly anisogamous. Volume of gametangium, density of gametangia and area of mature gametangial parts on each gametophyte did not differ from male to female. Therefore, the reproductive biomass investment for gamete production was considered to be the same for each sex. Anisogamy in this alga appeared to be derived from the difference in the number of cell divisions during gametogenesis, because the majority of male gametangia each produced 64 (2 6 ) gametes and the female produced 32 (2 5 ) gametes. This corresponded with measurements of cell size in male and female gametes. Further, the sex ratio was 1:1 for sexually mature plants sampled at Charatsunai. Therefore, it was suggested that in the field twice as many male gametes are released as female gametes. Liberated gametes of both sexes showed positive phototaxis. The swimming velocity of freshly liberated male gametes was a little higher than that of female gametes. Male gametes had the potential to swim for ca. 72 h and female gametes for ca. 84 h. The difference in gamete motility between the two sexes seemed to be related to cell size. Planozygotes were negatively phototactic and swam more rapidly than gametes of either sex.& k w d : Key words Evolution of anisogamy · Gamete motility dimorphism · Monostroma angicava · Reproductive investment& b d y :T. Togashi ( u ) · T. Motomura · T. Ichimura

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Evolutionary trajectories explain the diversified evolution of isogamy and anisogamy in marine green algae

Togashi

Bartelt

Yoshimura

et al. 2012

Proc. Natl. Acad. Sci. U.S.A.

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The evolution of anisogamy (the production of gametes of different size) is the first step in the establishment of sexual dimorphism, and it is a fundamental phenomenon underlying sexual selection. It is believed that anisogamy originated from isogamy (production of gametes of equal size), which is considered by most theorists to be the ancestral condition. Although nearly all plant and animal species are anisogamous, extant species of marine green algae exhibit a diversity of mating systems including both isogamy and anisogamy. Isogamy in marine green algae is of two forms: isogamy with extremely small gametes and isogamy with larger gametes. Based on disruptive selection for fertilization success and zygote survival (theory of Parker, Baker, and Smith), we explored how environmental changes can contribute to the evolution of such complex mating systems by analyzing the stochastic process in the invasion simulations of populations of differing gamete sizes. We find that both forms of isogamy can evolve from other isogamous ancestors through anisogamy. The resulting dimensionless analysis accounts for the evolutionary stability of all types of mating systems in marine green algae, even in the same environment. These results imply that evolutionary trajectories as well as the optimality of gametes/zygotes played an important role in the evolution of gamete size. convergent evolution | evolutionarily stable strategy | fertilization kinetics

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Tatsuya Togashi

An anatomically realistic whole-body pregnant-woman model and specific absorption rates for pregnant-woman exposure to electromagnetic plane waves from 10 MHz to 2 GHz

Metal–Insulator Transition of Filled Skutterudite Compound SmRu₄P₁₂

Production of anisogametes and gamete motility dimorphism in Monostroma angicava

Evolutionary trajectories explain the diversified evolution of isogamy and anisogamy in marine green algae

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Tatsuya Togashi

An anatomically realistic whole-body pregnant-woman model and specific absorption rates for pregnant-woman exposure to electromagnetic plane waves from 10 MHz to 2 GHz

Metal–Insulator Transition of Filled Skutterudite Compound SmRu4P12

Production of anisogametes and gamete motility dimorphism in Monostroma angicava

Evolutionary trajectories explain the diversified evolution of isogamy and anisogamy in marine green algae

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Metal–Insulator Transition of Filled Skutterudite Compound SmRu₄P₁₂