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Gait and Body Composition Mechanisms...

Desai, Gauri.

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Gait and Body Composition Mechanisms of Shock Attenuation Among Runners.

紀錄類型:	書目-電子資源 : Monograph/item
正題名/作者:	Gait and Body Composition Mechanisms of Shock Attenuation Among Runners./
作者:	Desai, Gauri.
出版者:	Ann Arbor : ProQuest Dissertations & Theses, : 2023,
面頁冊數:	264 p.
附註:	Source: Dissertations Abstracts International, Volume: 85-02, Section: B.
Contained By:	Dissertations Abstracts International85-02B.
標題:	Biomechanics. -
電子資源:	https://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=30566448
ISBN:	9798380041089

Gait and Body Composition Mechanisms of Shock Attenuation Among Runners.
Desai, Gauri.

Gait and Body Composition Mechanisms of Shock Attenuation Among Runners. - Ann Arbor : ProQuest Dissertations & Theses, 2023 - 264 p.

Source: Dissertations Abstracts International, Volume: 85-02, Section: B.

Thesis (Ph.D.)--Indiana University, 2023.

This item must not be sold to any third party vendors.

This dissertation aimed to examine gait and body composition mechanisms that attenuate vibrations during running, and the influence of age and running experience on shock attenuation. Study 1 examined the association of bone mineral density, bone content, fat mass, and lean mass within the lower extremity and pelvis to shock attenuation of 3-8 Hz (FB1), 9-20 Hz (FB2), 21-35 Hz (FB3), and 36-50 Hz (FB4) signals. Study 2 assessed the contribution of gait mechanics and study 3 assessed the role of age and experience in FB1-FB4 attenuation.Fifty-eight runners ran overground (3.35 m·s-1±5%) as motion capture and force plates recorded their gait mechanics. Inertial measurement units (IMU) at the distal tibia and low-back recorded shock attenuation along the axial and resultant directions. Body composition was assessed in thirty-eight runners using dual x-ray absorptiometry. Runners were classified as middle-aged (52.9±5.8 years-old), young (22.3±4.0 years-old), novice (running 1 year, 9-30 miles·week-1 ). IMU signals were transformed to the frequency domain using power spectral density then a transfer function of the low-back relative to the tibia quantified axial and resultant shock attenuation within FB1-FB4. Associations of gait mechanics, body composition, age, and running experience to axial and resultant shock attenuation in FB1-FB4 were tested using linear regression (p≤0.05).Overall, gait characteristics representative of a more compliant gait (e.g., sagittal ankle and knee flexion, range-of-motion, reduced joint stiffness) were associated with greater axial attenuation within FB1, FB2, and FB4 (p≤0.024), and resultant attenuation within FB1-FB4 (p≤0.045). An increase in lower extremity fat mass decreased axial attenuation within FB2-FB4 (p≤0.033). Being middle-aged or a novice runner was associated with less resultant and axial shock attenuation within FB1-FB4 (p≤0.017). These results indicate that middle-aged and novice runners may attenuate less shock due to their typically greater fat mass and less compliant gait than younger and more experienced runners.

ISBN: 9798380041089Subjects--Topical Terms:

548685
Biomechanics.
Subjects--Index Terms:

Age

Gait and Body Composition Mechanisms of Shock Attenuation Among Runners.
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300 $a 264 p.
500 $a Source: Dissertations Abstracts International, Volume: 85-02, Section: B.
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506 $a This item must not be sold to any third party vendors.
520 $a This dissertation aimed to examine gait and body composition mechanisms that attenuate vibrations during running, and the influence of age and running experience on shock attenuation. Study 1 examined the association of bone mineral density, bone content, fat mass, and lean mass within the lower extremity and pelvis to shock attenuation of 3-8 Hz (FB1), 9-20 Hz (FB2), 21-35 Hz (FB3), and 36-50 Hz (FB4) signals. Study 2 assessed the contribution of gait mechanics and study 3 assessed the role of age and experience in FB1-FB4 attenuation.Fifty-eight runners ran overground (3.35 m·s-1±5%) as motion capture and force plates recorded their gait mechanics. Inertial measurement units (IMU) at the distal tibia and low-back recorded shock attenuation along the axial and resultant directions. Body composition was assessed in thirty-eight runners using dual x-ray absorptiometry. Runners were classified as middle-aged (52.9±5.8 years-old), young (22.3±4.0 years-old), novice (running 1 year, 9-30 miles·week-1 ). IMU signals were transformed to the frequency domain using power spectral density then a transfer function of the low-back relative to the tibia quantified axial and resultant shock attenuation within FB1-FB4. Associations of gait mechanics, body composition, age, and running experience to axial and resultant shock attenuation in FB1-FB4 were tested using linear regression (p≤0.05).Overall, gait characteristics representative of a more compliant gait (e.g., sagittal ankle and knee flexion, range-of-motion, reduced joint stiffness) were associated with greater axial attenuation within FB1, FB2, and FB4 (p≤0.024), and resultant attenuation within FB1-FB4 (p≤0.045). An increase in lower extremity fat mass decreased axial attenuation within FB2-FB4 (p≤0.033). Being middle-aged or a novice runner was associated with less resultant and axial shock attenuation within FB1-FB4 (p≤0.017). These results indicate that middle-aged and novice runners may attenuate less shock due to their typically greater fat mass and less compliant gait than younger and more experienced runners.
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650 4 $a Kinesiology. $3 517627
650 4 $a Public health. $3 534748
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653 $a Body composition
653 $a Gait mechanics
653 $a Running experience
653 $a Shock attenuation
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710 2 $a Indiana University. $b School of Public Health. $3 3169056
773 0 $t Dissertations Abstracts International $g 85-02B.
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793 $a English
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