Svenja Illien-Junger

Affiliations: 
Orthopaedics Icahn School of Medicine at Mount Sinai, New York, NY, United States 
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"Svenja Illien-Junger"
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Basatvat S, Bach FC, Barcellona MN, et al. (2023) Harmonization and standardization of nucleus pulposus cell extraction and culture methods. Jor Spine. 6: e1238
Zehra U, Tryfonidou M, Iatridis JC, et al. (2022) Mechanisms and clinical implications of intervertebral disc calcification. Nature Reviews. Rheumatology. 18: 352-362
D'Erminio DN, Krishnamoorthy D, Lai A, et al. (2021) High fat diet causes inferior vertebral structure and function without disc degeneration in RAGE-KO mice. Journal of Orthopaedic Research : Official Publication of the Orthopaedic Research Society
Hoy RC, D'Erminio DN, Krishnamoorthy D, et al. (2020) Advanced glycation end products cause RAGE-dependent annulus fibrosus collagen disruption and loss identified using in situ second harmonic generation imaging in mice intervertebral disk in vivo and in organ culture models. Jor Spine. 3: e1126
Natelson DM, Lai A, Krishnamoorthy D, et al. (2020) Leptin signaling and the intervertebral disc: Sex dependent effects of leptin receptor deficiency and Western diet on the spine in a type 2 diabetes mouse model. Plos One. 15: e0227527
DiStefano TJ, Illien-Jünger S, Iatridis JC. (2019) Homeostasis disrupted by strain mechanosensing. Nature Biomedical Engineering. 3: 951-952
Zhang C, Smith MP, Zhou GK, et al. (2019) Phlpp1 is associated with human intervertebral disc degeneration and its deficiency promotes healing after needle puncture injury in mice. Cell Death & Disease. 10: 754
Krishnamoorthy D, Hoy RC, Natelson DM, et al. (2018) Dietary advanced glycation end-product consumption leads to mechanical stiffening of murine intervertebral discs. Disease Models & Mechanisms
Cruz MA, Hom WW, Tyler D, et al. (2017) Cell-Seeded Adhesive Biomaterial for Repair of Annulus Fibrosus Defects in Intervertebral Discs. Tissue Engineering. Part A
Illien-Jünger S, Palacio-Mancheno P, Kindschuh WF, et al. (2017) Dietary Advanced Glycation End Products have Sex-and Age Dependent Effects on Vertebral Bone Microstructure and Mechanical Function in Mice. Journal of Bone and Mineral Research : the Official Journal of the American Society For Bone and Mineral Research
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