著者
徳山 薫平 奥田 拓道
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.31, no.5, pp.344-345, 1982-10-01
著者
倉田 博
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.56, no.3, pp.i-ii, 2007-06-01
著者
吉澤 裕世 横山 典子 金 正訓 菅 洋子 久野 譜也
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.61, no.4, pp.383-392, 2012-08-01
参考文献数
31
被引用文献数
2 1

In the present research, first we evaluated the association between urban area size and commuting modes with physical activity among working people. Then we investigated the longitudinal effects of urban area size and commuting modes on increased physical activity due to health guidance intervention. The subjects were 401 male employees (aged 46.3±7.8) of A corporation, and were split into two groups, metropolitan area group (N=235) and local area group (N=166), based on the population density of place of work. IPAQ-E was used for evaluation of walking environments, and physical activity was assessed using pedometers. The intervention consisted of an exercise-focused health guidance over the course of one year. The cross-sectional study admitted that in comparison with the local area group the metropolitan area group had more than physical activity (p<0.01). Not only the size of urban area but commuting modes were significantly related to the level of daily physical activity (p<0.001). In longitudinal study, regarding the effects of the intervention for the physical activity, the study showed the possibility that urban area size was not directly effective but traffic safety in residential area (p<0.05) and willingness to take a walk (p<0.01) were effective. The cross-sectional study suggested that the size of the urban area and commuting modes had independently an effect on the physical activity of working people. The longitudinal study, on the other hand, suggested that the size of the urban area and commuting modes may not any direct influence on the effects of physical activity intervention.
著者
円山 槇雄
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.27, no.4, pp.178-179, 1978-12-01
著者
曽我部 晋哉 向井 直樹 下条 仁士 白木 仁 宮川 俊平 目崎 登 宮永 豊
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.52, no.3, pp.275-284, 2003-06-01
参考文献数
32
被引用文献数
1

【Purpose】A leg press generally included in a weight training program to develop the quadriceps. However little is known about the mechanism of the load in lower extremity by the different knee alignment. The purpose of this study is to compare the muscle activity in the different knee alignment during leg press exercise. 【Methods】Four normal knee and Five genu varum performed the leg press using three stance of narrow, medium and wide stance with the load of 75%/1 RM. Surface EMG date were collected (l000Hz) from vastus medialis (VM), vastus lateralis (VL), rectus femoris (RF), adductor longus (AL), biceps femoris (BF), tibialis anterior (TA), gastrocnemius (GAS), soleus (SOL). Integrated EMG (iEMG) values were calculated for each muscle during each rep. A video camera recorded the performing form during leg press from the frontal plane. 【Results and Discussion】As the leg press was to strengthen of the thigh muscle, VM, VL and RF of both groups worked strongly. However SOL of genu varum worked as strong as the level of activity of the thigh, iEMG of the SOL showed low value significantly by using wide stance. When the genu varum group performed maximal knee flexion using the narrow, their ankle was valgus on the video screen. This result may become cause of SOL higher activity during leg press. From this we can derive the argument that it will be necessary to take that stance into consideration when athletes who are genu varum performs leg press. (Jpn. J. Phys. Fitness Sports Med. 2003, 52 : 275-284)
著者
山田 進弘
出版者
日本体力医学会
雑誌
体力科學 (ISSN:0039906X)
巻号頁・発行日
vol.3, no.4, pp.121-126, 1954-02-01

最近.肺機能検査法が新たに注目をひき.肺機能障害を伴う諸疾病における意義が強調されるに至つた。1.著者は.軽.中.重作業に從事する.20〜55才健常男子1074人につき.肺活量および最大換気量.同時に身長と体重を測つた。2.肺活量および分時最大換気量と体型との相関では.体表面積との相関が最大で.年令との関係は.肺活量よりも分時最大換気量との相関の方が大であつた。3.年令別の肺活量および分時最大換気量をうるための回帰方程式は.肺活量(cc):〔2847.6-(13.28×年令)〕×体表面積(m^2)最大換気量(l/min):〔88.01-(0.530×年令)〕×体表面積(m^2)(ただし20〜55才.らち最大換気量の20〜28才は.73.3×体表面積)であつたが.本推定値をうるに便利な計算図表を作成した。4.本回帰方程式を用いた.気流速度指数(Gaensler)の応用価値.臨床的意義および産業衞生への応用さらに肺機能の老人化の問題などを最後に論じた。