Уважаемые коллеги, доброго времнни суток! Представляем вам польское научное издание Acta of Bioengineering and Biomechanics. Журнал имеет третий квартиль, издается в Institute of Machine Design and Operation, находится в открытом доступе, его SJR за 2019 г. равен 0,386, пятилетний импакт-фактор - 1,194, печатный ISSN - 1509-409X, электронный - 2450-6303, предметные области - Биоинжиниринг, Биоматериалы, Биомедицинский инжиниринг, Биофизика. Вот так выглядит обложка:
Редактором является Селина Перович, контактные данные - celina.pezowicz@pwr.edu.pl, actabio@pwr.wroc.pl.
Это платформа, позволяющая представлять результаты исследований, обмениваться идеями и опытом между исследователями с техническим и медицинским образованием. Статьи, опубликованные в журнале по биоинженерии и биомеханике, могут охватывать широкий спектр тем в области биомеханики, включая, но не ограничиваясь: Биомеханику тканей, Ортопедическую биомеханику, Биоматериалы, Спортивную биомеханику.
Адрес издания - http://www.actabio.pwr.wroc.pl/
Пример статьи, название - Joint loads and muscle force distribution during classical and jazz pirouettes. Заголовок (Purpose) - The objective of this study was to analyze the muscle force distribution and lower limb joint loading during two types of pirouettes and check which muscle in which pirouette generates the highest force and which joint is the most loaded. Methods: Skilled dancers (n = 16) performed single-turn pirouettes in jazz and classic styles. Kinematic and kinetic data were collected using the Vicon system and Kistler plates. The joint reaction forces and muscle forces were calculated using a musculoskeletal model in the AnyBody Modeling System. Results: No statistically significant differences were found for the duration of the turn in both pirouettes. The range of motion in all joints of supporting leg in sagittal plane and in hip joint in frontal plane for non-supporting leg were significantly higher in classic pirouette. The ankle joint was the most loaded joint in both pirouettes and its maximal value was significantly higher in classic pirouette. The force generated by ankle plantar flexors muscles was significantly greater in the jazz pirouette in turn phase. For the nonsupport limb, external hip rotators generated significantly greater force when performing the classic pirouette. Conclusions: It seems that early stage dancers may start their lessons with jazz pirouettes, where necessary joint mobility is lesser. They also are supposed to increase muscle strength and body awareness with such proceedings. A better awareness of the mechanical loads on the musculoskeletal system which a dancer performing pirouettes faces should have an impact on the way dance classes are conducted and choreographic elements are sequenced. Keywords: kinetics, muscle force, dance, joint loading, pirouettes