Niloufar Shekouhi

Overview

Explore the profile of Niloufar Shekouhi including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 13

Followers 0

Related Specialty

Orthopedics

Top 10 Co-Authors

Vijay K Goel

Alekos A Theologis

Joseph M Zavatsky

Sudharshan Tripathi

Ardalan S Vosoughi

David Dick

Derek Shaw

Muzammil Mumtaz

Andrew P Collins

Hassan Serhan

Published In

Spine Deform

Eur Spine J

JOR Spine

Spine J

Global Spine J

Affiliations

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Recent Articles

Effects of pelvic fixation strategies and multi-rod constructs on biomechanics of the proximal junction in long thoracolumbar posterior instrumented fusions: a finite-element analysis

Mumtaz M, Collins A, Shekouhi N, Varier K, Tripathi S, Ames C, et al.

Spine Deform . 2024 Aug; 12(6):1571-1582. PMID: 39162957

Purpose: To assess the effect of various pelvic fixation techniques and number of rods on biomechanics of the proximal junction of long thoracolumbar posterior instrumented fusions. Methods: A validated spinopelvic...

Evaluating the biomechanical effects of pedicle subtraction osteotomy at different lumbar levels: a finite element investigation

Shekouhi N, Tripathi S, Theologis A, Mumtaz M, Serhan H, McGuire R, et al.

Spine J . 2024 Aug; 24(11):2191-2203. PMID: 39097103

Background: Pedicle subtraction osteotomy (PSO) is effective for correcting spinal malalignment but is associated with high complication rates. The biomechanical effect of different PSO levels remains unclear, and no finite...

Biomechanical analysis of a trans-discal, multi-level stabilization screw (MLSS) at the upper instrumented vertebra (UIV) of long posterior thoracolumbar instrumentations

Collins A, Shah A, Shekouhi N, Goel V, Theologis A

Spine Deform . 2024 Apr; 12(4):953-959. PMID: 38578598

Purpose: To evaluate proximal junctional biomechanics of a MLSS relative to traditional pedicle screw fixation at the proximal extent of T10-pelvis posterior instrumentation constructs (T10-p PSF). Methods: A previously validated...

Biomechanical evaluation of multi-rod constructs to stabilize an S1 pedicle subtraction osteotomy (PSO): a finite element analysis

Shekouhi N, Tripathi S, Goel V, Theologis A

Spine Deform . 2023 Nov; 12(2):313-322. PMID: 38032447

Purpose: To develop and validate a finite element (FE) model of a sacral pedicle subtraction osteotomy (S1-PSO) and to compare biomechanical properties of various multi-rod configurations to stabilize S1-PSOs. Methods:...

Does number of rods matter? 4-, 5-, and 6-rods across a lumbar pedicle subtraction osteotomy: a finite element analysis

Shekouhi N, Vosoughi A, Goel V, Theologis A

Spine Deform . 2022 Dec; 11(3):535-543. PMID: 36484928

Purpose: To assess biomechanics of a lumbar PSO stabilized with different multi-rod constructs (4-, 5-, 6-rods) using satellite and accessory rods. Methods: A validated spinopelvic finite element model with a...

Biomechanical comparison of multi-rod constructs by satellite rod configurations (in-line vs. lateral) and screw types (monoaxial vs. polyaxial) spanning a lumbar pedicle subtraction osteotomy (PSO): is there an optimal configuration?

Shekouhi N, Vosoughi A, Zavatsky J, Goel V, Theologis A

Eur Spine J . 2022 Aug; 31(11):3050-3059. PMID: 35932334

Purpose: Multi-rod constructs are used commonly to stabilize pedicle subtraction osteotomies (PSO). This study aimed to evaluate biomechanical properties of different satellite rod configurations and effects of screw-type spanning a...

Lumbar Disc Degeneration Affects the Risk of Rod Fracture Following PSO; A Finite Element Study

Vosoughi A, Shekouhi N, Joukar A, Zavatsky M, Goel V, Zavatsky J

Global Spine J . 2022 Feb; 13(8):2336-2344. PMID: 35225035

Study Design: Finite element (FE) study. Objective: Pedicle subtraction osteotomy (PSO) is a surgical method to correct sagittal plane deformities. In this study, we aimed to investigate the biomechanical effects...

Current benchtop protocols are not appropriate for the evaluation of distraction-based growing rods: a literature review to justify a new protocol and its development

Shekouhi N, Kelkar A, Dick D, Goel V, Shaw D

Eur Spine J . 2022 Jan; 31(4):963-979. PMID: 35092449

Purpose: Although distraction-based growing rods (GR) are the gold standard for the treatment of early onset scoliosis, they suffer from high failure rates. We have (1) performed a literature search...

Clinically relevant finite element technique based protocol to evaluate growing rods for early onset scoliosis correction

Shekouhi N, Dick D, Baechle M, Kaeley D, Goel V, Serhan H, et al.

JOR Spine . 2020 Oct; 3(3):e1119. PMID: 33015580

Objective: The emergence of distraction-based growing rods has provided the means to reduce the progression of spinal deformity in early onset scoliosis (EOS). The current protocols for evaluating spinal implants...