Anton E Dmitriev
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Explore the profile of Anton E Dmitriev including associated specialties, affiliations and a list of published articles.
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52
Citations
727
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Recent Articles
1.
Baumann A, Hsieh M, Dmitriev A, Lotz J
Comput Methods Biomech Biomed Engin
. 2022 Oct;
26(14):1742-1751.
PMID: 36308761
Non-clinical mechanical performance testing is a critical aspect of intervertebral body fusion device (IBFD) development and regulatory evaluation. Recently, stakeholders have begun leveraging computational modeling and simulations such as finite...
2.
Palepu V, Peck J, Cadel E, Parikh A, Wagner S, Fredericks Jr D, et al.
J Biomech
. 2021 Apr;
121:110412.
PMID: 33873110
Intervertebral body fusion devices (IBFDs) are commonly used in the treatment of various spinal pathologies. Intra-operative fractures of polyether-ether-ketone (PEEK) implants have been reported in the literature and to the...
3.
Baumann A, Graf T, Peck J, Dmitriev A, Coughlan D, Lotz J
JOR Spine
. 2021 Mar;
4(1):e1137.
PMID: 33778409
Background: Intervertebral body fusion devices (IBFDs) are a widely used type of spinal implant placed between two vertebral bodies to stabilize the spine for fusion in the treatment of spinal...
4.
Baumann A, ONeill C, Owens M, Weber S, Sivan S, DAmico R, et al.
J Orthop Res
. 2020 Aug;
39(1):22-29.
PMID: 32827329
Traditional orthopaedic devices do not communicate with physicians or patients post-operatively. After implantation, follow-up of traditional orthopaedic devices is generally limited to episodic monitoring. However, the orthopaedic community may be...
5.
Peck J, Kavlock K, Showalter B, Ferrell B, Peck D, Dmitriev A
J Biomech
. 2018 Aug;
78:87-93.
PMID: 30060922
Lumbar intervertebral body fusion devices (L-IBFDs) are intended to provide stability to promote fusion in patients with a variety of lumbar pathologies. Different L-IBFD designs have been developed to accommodate...
6.
Peck J, Sing D, Nagaraja S, Peck D, Lotz J, Dmitriev A
J Biomech
. 2017 Mar;
54:26-32.
PMID: 28256243
Cervical intervertebral body fusion devices (IBFDs) are utilized to provide stability while fusion occurs in patients with cervical pathology. For a manufacturer to market a new cervical IBFD in the...
7.
Mitchell K, Shah J, Dalgard C, Tsytsikova L, Tipton A, Dmitriev A, et al.
BMC Neurosci
. 2016 Dec;
17(1):80.
PMID: 27905881
Background: Bone morphogenetic protein-2 (BMP-2) is a pleiotropic, secreted molecule with diverse effects. The potent ability of BMP-2 to stimulate bone growth prompted its widespread clinical use for arthrodesis (spine...
8.
Lehman Jr R, Kang D, Wagner S, Paik H, Cardoso M, Bernstock J, et al.
Spine J
. 2015 Mar;
15(7):1629-35.
PMID: 25771755
Background Context: Transverse connectors (TCs) are often used to improve the rigidity of posterior spinal instrumentation as previous investigations have suggested that TCs enhance torsional rigidity in long-segment thoracic constructs....
9.
Kang D, Lehman Jr R, Wagner S, Bevevino A, Tracey R, Gaume R, et al.
Spine J
. 2014 Aug;
15(1):146-52.
PMID: 25088957
Background Context: The use of a rod reduction device can have deleterious consequences on pedicle screw pullout strength (POS) in the thoracic spine. However, posterior-only osteotomies in the thoracic spine...
10.
Ambati D, Wright Jr E, Lehman Jr R, Kang D, Wagner S, Dmitriev A
Spine J
. 2014 Jul;
15(8):1812-22.
PMID: 24983669
Background Context: Transforaminal lumbar interbody fusion (TLIF) is increasingly popular for the surgical treatment of degenerative lumbar disease. The optimal construct for segmental stability remains unknown. Purpose: To compare the...