Douglas C Moore
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Explore the profile of Douglas C Moore including associated specialties, affiliations and a list of published articles.
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68
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913
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Recent Articles
11.
Akhbari B, Morton A, Shah K, Molino J, Moore D, Weiss A, et al.
J Biomech
. 2021 Apr;
121:110420.
PMID: 33895657
Total wrist arthroplasty (TWA) designs suffer from relatively high complication rates when compared to other arthroplasties. Understanding the contact pattern of hip and knee replacement has improved their design and...
12.
McHugh B, Akhbari B, Morton A, Moore D, Crisco J
J Biomech
. 2021 Mar;
120:110362.
PMID: 33752132
Optical motion capture (OMC) systems are commonly used to capture in-vivo three-dimensional joint kinematics. However, the skin-based markers may not reflect the underlying bone movement, a source of error known...
13.
Akhbari B, Morton A, Moore D, Crisco J
J Vis Exp
. 2021 Feb;
(168).
PMID: 33616093
Accurate measurement of skeletal kinematics in vivo is essential for understanding normal joint function, the influence of pathology, disease progression, and the effects of treatments. Measurement systems that use skin...
14.
Wang L, Yang H, Huang J, Pei S, Wang L, Feng J, et al.
Bone Res
. 2021 Jan;
9(1):6.
PMID: 33500396
The maturation and function of osteoblasts (OBs) rely heavily on the reversible phosphorylation of signaling proteins. To date, most of the work in OBs has focused on phosphorylation by tyrosyl...
15.
Wang L, Moore D, Huang J, Wang Y, Zhao H, D-H Yue J, et al.
FASEB J
. 2020 Nov;
35(1):e21106.
PMID: 33165997
The protein tyrosine phosphatase SHP2, encoded by PTPN11, is ubiquitously expressed and essential for the development and/or maintenance of multiple tissues and organs. SHP2 is involved in gastrointestinal (GI) epithelium...
16.
Akhbari B, Morton A, Shah K, Molino J, Moore D, Weiss A, et al.
J Orthop Res
. 2020 May;
38(7):1575-1586.
PMID: 32401391
Reproduction of healthy wrist biomechanics should minimize the abnormal joint forces that could potentially result in the failure of a total wrist arthroplasty (TWA). To date, the in vivo kinematics...
17.
Badida R, Garcia-Lopez E, Sise C, Moore D, Crisco J
J Biomech Eng
. 2020 Jan;
142(6).
PMID: 31960897
Robotic technology is increasingly used for sophisticated in vitro testing designed to understand the subtleties of joint biomechanics. Typically, the joint coordinate systems in these studies are established via palpation...
18.
Morton A, Akhbari B, Moore D, Crisco J
J Orthop Res
. 2019 Dec;
38(6):1307-1315.
PMID: 31840852
Osteophytes are associated with later stage osteoarthritis and are most commonly described using semiquantitative radiographic grading systems. A detailed understanding of osteophyte formation is, in part, limited by the ability...
19.
Akhbari B, Moore D, Laidlaw D, Weiss A, Akelman E, Wolfe S, et al.
J Orthop Res
. 2019 Aug;
37(12):2661-2670.
PMID: 31378991
The wrist can be considered a 2 degrees-of-freedom joint with all movements reflecting the combination of flexion-extension and radial-ulnar deviation. Wrist motions are accomplished by the kinematic reduction of the...
20.
Akhbari B, Morton A, Moore D, Weiss A, Wolfe S, Crisco J
J Biomech
. 2019 Jun;
92:120-125.
PMID: 31174845
Accurately assessing the dynamic kinematics of the skeletal wrist could advance our understanding of the normal and pathological wrist. Biplane videoradiography (BVR) has allowed investigators to study dynamic activities in...