Classification and comparison of the physical characteristics and functions of various age groups of community-dwelling elderly individuals participating in the Kayoi-no-ba program.

[Purpose] To classify and compare the physical characteristics and functions of community-dwelling elderly individuals of various age groups participating in the Kayoi-no-ba program. [Participants and Methods] A total of 176 community-dwelling elderly individuals living in six cities and towns in the Niigata Prefecture who participated in the Kayoi-no-ba program between 2018 and 2020 were recruited in this study. Physical characteristics, such as strength, balance, and mobility, were assessed. [Results] Among elderly females and males who participated in the Kayoi-no-ba program, those >80 years of age showed shorter height, lighter weight, and lower body muscle mass than the other age groups. Strength, balance, and mobility functions, including grip strength, sit-to-stand test, single-leg-stand test, and timed up-and-go test, were significantly decreased, especially in patients aged >80 years. [Conclusion] Among community-dwelling elderly individuals participating in the Kayoi-no-ba program, physical characteristics and functions were affected by aging, with significant decline particularly in those aged >80 years old. These findings suggest that early intervention is necessary to maintain muscle mass, strength, balance, and mobility in the elderly.

Preparation for highly sensitive MRI contrast agents using core/shell type nanoparticles consisting of multiple SPIO cores with thin silica coating.

We describe here the facile and robust preparation methods for the multiple-SPIO-containing silica-coated core/shell type nanoparticles which can serve as a highly sensitive MRI contrast agent. The imidazolium-tethered core/shell type particles were synthesized, and the centrifugal selection for the multiple-SPIO-containing particles and the etching process to fabricate thin silica layers were carried out to improve the proton relaxivity of water tissue. We found that the synthetic particles can provide approximately 7-fold clearer contrasts than that of the particles before treatments. In addition, the particles can show good dispersibility at least for 1 week in aqueous media.