Stephen M Cain
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Explore the profile of Stephen M Cain including associated specialties, affiliations and a list of published articles.
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Articles
36
Citations
205
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Recent Articles
1.
Cain S, Morrow M
J Biomech
. 2025 Feb;
182:112589.
PMID: 39987887
Understanding function and dysfunction of the shoulder may be best addressed by capturing the motion of the shoulder in the unstructured, free-living environment where the magnitudes and frequencies of required...
2.
Pla G, Martini D, Potter M, Hoogkamer W, Cain S
PLoS One
. 2024 Dec;
19(12):e0303920.
PMID: 39705282
Negative foot speed (i.e., the speed of the backward and downward motion of the foot relative to the body at ground contact) is a strong predictor of sprinting performance. Inertial...
3.
Wagatsuma M, Mihy J, Cain S, Hafer J
Gait Posture
. 2024 Jul;
113:232-237.
PMID: 38959554
Background: Gait kinematics differ between settings and among young and older adults with and without knee osteoarthritis. Out-of-lab data has a variety of walking bout characteristics compared to controlled in-lab...
4.
Baroudi L, Barton K, Cain S, Shorter K
J Exp Biol
. 2024 Jun;
227(13).
PMID: 38853583
Speeds that minimize energetic cost during steady-state walking have been observed during lab-based investigations of walking biomechanics and energetics. However, in real-world scenarios, humans walk in a variety of contexts...
5.
Jahanian O, Van Straaten M, Pinnock Branford K, Fortune E, Cain S, Morrow M
PLoS One
. 2024 Apr;
19(4):e0300318.
PMID: 38564576
This study aimed to develop and evaluate the ARM (arm repetitive movement) algorithm using inertial measurement unit (IMU) data to assess repetitive arm motion in manual wheelchair (MWC) users in...
6.
Baroudi L, Barton K, Cain S, Shorter K
Sci Rep
. 2024 Feb;
14(1):3039.
PMID: 38321039
Real-world walking data offers rich insights into a person's mobility. Yet, daily life variations can alter these patterns, making the data challenging to interpret. As such, it is essential to...
7.
Hafer J, Vitali R, Gurchiek R, Curtze C, Shull P, Cain S
J Biomech
. 2023 Jul;
157:111714.
PMID: 37423120
The use of wearable sensors for the collection of lower extremity biomechanical data is increasing in popularity, in part due to the ease of collecting data and the ability to...
8.
Freehill M, Rose M, McCollum K, Agresta C, Cain S
Orthop J Sports Med
. 2023 Mar;
11(3):23259671231151450.
PMID: 36970319
Background: Pitch count recommendations are used to reduce injury risk in youth baseball pitchers and are based chiefly on expert opinion, with limited scientific support. Furthermore, they only account for...
9.
Agresta C, Freehill M, Nakamura B, Guadagnino S, Cain S
Sensors (Basel)
. 2022 Nov;
22(21).
PMID: 36366188
Pitching biomechanical research is highly focused on injury prevention with little attention to how biomechanical data can facilitate skill development. The overall purpose of this study was to explore how...
10.
Potter M, Cain S, Ojeda L, Gurchiek R, McGinnis R, Perkins N
Sensors (Basel)
. 2022 Nov;
22(21).
PMID: 36366096
Inertial measurement units (IMUs) offer an attractive way to study human lower-limb kinematics without traditional laboratory constraints. We present an error-state Kalman filter method to estimate 3D joint angles, joint...