David R Mullineaux
Overview
Explore the profile of David R Mullineaux including associated specialties, affiliations and a list of published articles.
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Articles
39
Citations
393
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Recent Articles
1.
Johnson C, Sara L, Bradach M, Zeppetelli D, Daehlin T, Mullineaux D, et al.
Eur J Sport Sci
. 2024 Jun;
24(6):740-749.
PMID: 38874992
Lower extremity injuries are prevalent in military trainees, especially in female and older trainees. Modifiable factors that lead to higher injury risk in these subgroups are not clear. The purpose...
2.
Geangu E, Smith W, Mason H, Martinez-Cedillo A, Hunter D, Knight M, et al.
Sensors (Basel)
. 2023 Sep;
23(18).
PMID: 37765987
There have been sustained efforts toward using naturalistic methods in developmental science to measure infant behaviors in the real world from an egocentric perspective because statistical regularities in the environment...
3.
Johnson C, Sara L, Bradach M, Mullineaux D, Foulis S, Hughes J, et al.
J Biomech
. 2023 Jul;
156:111693.
PMID: 37406568
Peak tibial accelerations (TAs) during running are strongly related to early stance vertical ground reaction forces (GRFs), which are associated with musculoskeletal injury. However, few studies have examined these correlations...
4.
Gorman A, Willmott A, Mullineaux D
J Sports Sci
. 2021 Jul;
39(23):2716-2726.
PMID: 34278942
The aims of this study were to assess the effects of stroke rate (SR) on the ability of trained rowers to: a) comply with concurrent biomechanical biofeedback on knee-back-elbow joint...
5.
Mulloy F, Irwin G, Mullineaux D
J Sports Sci
. 2021 May;
39(19):2172-2179.
PMID: 34000964
Biofeedback (BFb) is a useful tool to accelerate the skill development process. Limited research has applied BFb to the whole lower-limb in a complex skill therefore the aim of this...
6.
Futrell E, Gross K, Mullineaux D, Davis I
J Sports Sci
. 2021 Feb;
39(11):1302-1311.
PMID: 33596771
Objectives: To determine how exertion effects load rates, footstrike, and cadence in runners following a transition to forefoot strike (FFS) or increased cadence (CAD) gait-retraining. Methods: 33 (9 M, 24 ...
7.
Moore J, Cessford K, Willmott A, Raj D, Exell T, Burbage J, et al.
J Biomech
. 2020 Jun;
106:109828.
PMID: 32517975
This review aimed to synthesise the findings of literature that have assessed the changes in lower limb biomechanics following anterior cruciate ligament (ACL) reconstructive surgery. Systematic searches of CINHAL, MEDLINE,...
8.
Futrell E, Gross K, Reisman D, Mullineaux D, Davis I
J Sport Health Sci
. 2020 May;
9(3):248-257.
PMID: 32444149
Background: Excessive vertical impacts at landing are associated with common running injuries. Two primary gait-retraining interventions aimed at reducing impact forces are transition to forefoot strike and increasing cadence. The...
9.
Gorman A, Willmott A, Mullineaux D
Sports Biomech
. 2019 Aug;
21(3):297-311.
PMID: 31449463
The aim of this study was to assess the effects of concurrent biomechanical biofeedback on the ability of novices to modify relative knee, spine, and elbow motions during a rowing-type...
10.
Kim K, Mullineaux D, Jeon K
Iran J Public Health
. 2019 Jun;
48(2):345-346.
PMID: 31205890
No abstract available.