Tyson A C Beach
Overview
Explore the profile of Tyson A C Beach including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
44
Citations
245
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Carnegie D, Hirsch S, A C Beach T, Howarth S
J Biomech
. 2024 May;
168:112132.
PMID: 38718594
Minimizing lumbar spine flexion during lifting requires greater lower extremity joint motion. However, the effects of these kinematic changes on lumbar and lower extremity joint kinetics are unknown. Further, it...
2.
Armstrong D, A C Beach T, Fischer S
Hum Factors
. 2024 Feb;
66(12):2590-2605.
PMID: 38299447
Objective: To determine whether (i) low back loads and/or (ii) kinematic coordination patterns differed across theoretical expert, contextual expert and novice groups when completing both generic and occupation-specific lifts. Background:...
3.
Carnegie D, Hirsch S, Howarth S, A C Beach T
Ergonomics
. 2023 Nov;
67(8):1097-1107.
PMID: 37955653
There is disagreement regarding the efficacy of 'safe' lifting recommendations for reducing low back disorder risk. These recommendations commonly focus on minimising lumbar spine flexion, which limits the range of...
4.
Armstrong D, A C Beach T, Fischer S
Ergonomics
. 2023 Oct;
67(7):925-940.
PMID: 37830870
It is unknown how structural (sex, stature, body mass) and functional (strength, flexibility) personal factors influence lifting strategy in paramedic work. We explored whether variance in peak low back forces...
5.
Carnegie D, Zehr J, Howarth S, A C Beach T
J Electromyogr Kinesiol
. 2022 Oct;
67:102716.
PMID: 36274440
When lifting an object from the ground a person has many possible whole-body movement solutions to accomplish the task. It is unclear why lifters use most of their available lumbar...
6.
Pinto B, Stankovic T, Frost D, A C Beach T
Int J Sports Phys Ther
. 2022 Feb;
17(2):276-285.
PMID: 35136697
Background: Reliability and agreement of goniometric measurements can be altered by variations in measurement technique such as restricting adjacent joints to influence bi-articular muscles. It is unknown if the influence...
7.
Hirsch S, Chapman C, Frost D, A C Beach T
J Appl Biomech
. 2022 Jan;
38(1):29-38.
PMID: 35042188
Ratio scaling is the most common magnitude normalization approach for net joint moment (NJM) data. Generally, researchers compute a ratio between NJM and (some combination of) physical body characteristics (eg, ...
8.
Abdelkader N, Brown S, A C Beach T, Howarth S
Int J Sports Phys Ther
. 2021 Dec;
16(6):1426-1433.
PMID: 34909249
Background: Few studies have quantified dynamic balance in fencers despite previous suggestions that balance training may be beneficial for these athletes. Generally, asymmetry in dynamic balance performance between the left...
9.
Hincapie C, Tomlinson G, Hapuarachchi M, Stankovic T, Hirsch S, Carnegie D, et al.
Int J Sports Med
. 2021 Nov;
43(7):648-656.
PMID: 34844265
Little is known about the construct validity of the Functional Movement Screen (FMS). We aimed to assess associations between FMS task scores and measures of maximum joint range-of-motion (ROM) among...
10.
Zehr J, Buchman-Pearle J, A C Beach T, Gooyers C, Callaghan J
J Appl Biomech
. 2021 Nov;
37(6):538-546.
PMID: 34768237
The relationship between internal loading dose and low-back injury risk during lifting is well known. However, the implications of movement parameters that influence joint loading rates-movement frequency and speed-on time-dependent...