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1

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Biomechanical and Endplate Effects on Nutrient Transport in the Intervertebral Disc

Giers, Morgan B. ; Munter, Bryce T. ; Eyster, Kyle J. ; [et al.]

Elsevier BV ; 2017

In: World Neurosurgery Vol. 99 ( 2017-03), p. 395-402

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In: World Neurosurgery, Elsevier BV, Vol. 99 ( 2017-03), p. 395-402

Type of Medium: Online Resource

ISSN: 1878-8750

URL: Article

DOI: 10.1016/j.wneu.2016.12.041

Language: English

Publisher: Elsevier BV

Publication Date: 2017

detail.hit.zdb_id: 2530041-6

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2

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Optimizing Cervicothoracic Junction Biomechanics after C7 Pedicle Subtraction Osteotomy: A Cadaveric Study of Stability and Rod Strain

Godzik, Jakub ; Lehrman, Jennifer N. ; Farber, S. Harrison ; [et al.]

Elsevier BV ; 2022

In: World Neurosurgery Vol. 160 ( 2022-04), p. e278-e287

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In: World Neurosurgery, Elsevier BV, Vol. 160 ( 2022-04), p. e278-e287

Type of Medium: Online Resource

ISSN: 1878-8750

URL: Article

DOI: 10.1016/j.wneu.2022.01.002

Language: English

Publisher: Elsevier BV

Publication Date: 2022

detail.hit.zdb_id: 2530041-6

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3

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In Vitro Biomechanical Evaluation of a Novel, Minimally Invasive, Sacroiliac Joint Fixation Device

CROSS, WILLIAM W. ; BERVEN, SIGURD H. ; SLATER, NICK ; [et al.]

International Journal of Spine Surgery ; 2018

In: International Journal of Spine Surgery Vol. 12, No. 5 ( 2018-10), p. 587-594

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In: International Journal of Spine Surgery, International Journal of Spine Surgery, Vol. 12, No. 5 ( 2018-10), p. 587-594

Type of Medium: Online Resource

ISSN: 2211-4599 , 2211-4599

URL: Article

DOI: 10.14444/5072

Language: English

Publisher: International Journal of Spine Surgery

Publication Date: 2018

detail.hit.zdb_id: 2660509-0

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4

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Variations Among Human Lumbar Spine Segments and Their Relationships to In Vitro Biomechanics: A Retrospective Analysis of 281 Motion Segments From 85 Cadaveric Spines

SAWA, ANNA G.U. ; LEHRMAN, JENNIFER N. ; CRAWFORD, NEIL R. ; [et al.]

International Journal of Spine Surgery ; 2020

In: International Journal of Spine Surgery Vol. 14, No. 2 ( 2020-04), p. 140-150

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In: International Journal of Spine Surgery, International Journal of Spine Surgery, Vol. 14, No. 2 ( 2020-04), p. 140-150

Type of Medium: Online Resource

ISSN: 2211-4599 , 2211-4599

URL: Article

DOI: 10.14444/7021

Language: English

Publisher: International Journal of Spine Surgery

Publication Date: 2020

detail.hit.zdb_id: 2660509-0

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5

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Pedicle Subtraction Osteotomy Construct Optimization : A Cadaveric Study of Various Multirod and Interbody Configurations

Pereira, Bernardo de Andrada ; Godzik, Jakub ; Lehrman, Jennifer N. ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2022

In: Spine Vol. 47, No. 8 ( 2022-04-15), p. 640-647

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In: Spine, Ovid Technologies (Wolters Kluwer Health), Vol. 47, No. 8 ( 2022-04-15), p. 640-647

Type of Medium: Online Resource

ISSN: 0362-2436 , 1528-1159

URL: Article

DOI: 10.1097/BRS.0000000000004328

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2022

detail.hit.zdb_id: 2002195-1

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6

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Biomechanics of open versus minimally invasive deformity correction: comparison of stability and rod strain between pedicle subtraction osteotomy and anterior column realignment

Godzik, Jakub ; de Andrada Pereira, Bernardo ; Sawa, Anna G. U. ; [et al.]

Journal of Neurosurgery Publishing Group (JNSPG) ; 2021

In: Journal of Neurosurgery: Spine Vol. 35, No. 3 ( 2021-09), p. 347-355

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In: Journal of Neurosurgery: Spine, Journal of Neurosurgery Publishing Group (JNSPG), Vol. 35, No. 3 ( 2021-09), p. 347-355

Abstract: Anterior column realignment (ACR) is a new minimally invasive approach for deformity correction that achieves a degree of lordosis similar to that obtained with pedicle subtraction osteotomy (PSO). This study compared the biomechanical profiles of ACR with PSO using range of motion (ROM) and posterior rod strain (RS) to gain insight into the ACR technique and the necessary surgical strategies to optimize longevity and stability. METHODS An in vitro biomechanical study using standard flexibility testing (7.5 Nm) was performed on 14 human cadaveric specimens, separated into 2 groups similar in age, sex, bone mineral density, and intact ROM. For group 1 (n = 7, instrumented L1–S1), a 30° ACR was performed at L3–4. For group 2 (n = 7, instrumented T12–S1), a 30° L3 PSO was performed. Specimens were subjected to nondestructive loads in flexion, extension, axial rotation, lateral bending, and compression. Conditions tested were 1) intact, 2) pedicle screw with 2 rods (PSR), 3) ACR or PSO with 2 rods (+2R), and 4) ACR or PSO with 4 rods (+4R). Primary outcome measures of interest were ROM stability and posterior RS at L3–4. RESULTS No difference was observed between groups in lumbar lordosis (p = 0.83) or focal angular lordosis at L3–4 (p = 0.75). No differences in stability were observed between ACR+2R and PSO+2R (p ≥ 0.06); however, ACR+2R was significantly less stable than PSR in flexion and extension (p ≤ 0.02), whereas PSO+2R was less stable than PSR only in extension (p = 0.04). ACR+4R was more stable than ACR+2R in flexion, extension, left axial rotation, and compression (p ≤ 0.02). PSO+4R was more stable than PSO+2R only in extension (p = 0.04). Both ACR+2R and PSO+2R resulted in significant increases in RS in flexion and extension compared with PSR (p ≤ 0.032). RS in flexion and extension decreased significantly for ACR+4R versus ACR+2R and for PSO+4R versus PSO+2R (p ≤ 0.047). PSO+2R yielded lower RS than ACR+2R in compression (p = 0.03). No differences existed in RS between ACR+4R and PSO+4R (p ≥ 0.05). CONCLUSIONS Although ACR appeared to be slightly more destabilizing than PSO using traditional 2R fixation, both techniques resulted in significant increases in posterior RS. The 4R technique increased stability in ACR and decreased RS in both ACR and PSO but may be more beneficial in ACR. Longer-term clinical studies are needed to appropriately identify the durability of the ACR technique in deformity correction.

Type of Medium: Online Resource

ISSN: 1547-5654

URL: Article

DOI: 10.3171/2020.12.SPINE201306

RVK:

XA 55270.1

Language: Unknown

Publisher: Journal of Neurosurgery Publishing Group (JNSPG)

Publication Date: 2021

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7

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Biomechanical implications of unilateral facetectomy, unilateral facetectomy plus partial contralateral facetectomy, and complete bilateral facetectomy in minimally invasive transforaminal interbody fusion

Snyder, Laura A. ; Lehrman, Jennifer N. ; Menon, Ram Kumar ; [et al.]

Journal of Neurosurgery Publishing Group (JNSPG) ; 2019

In: Journal of Neurosurgery: Spine Vol. 31, No. 3 ( 2019-09), p. 447-452

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In: Journal of Neurosurgery: Spine, Journal of Neurosurgery Publishing Group (JNSPG), Vol. 31, No. 3 ( 2019-09), p. 447-452

Abstract: Minimally invasive transforaminal interbody fusion techniques vary among surgeons. One decision point is whether to perform a unilateral facetectomy (UF), a unilateral facetectomy plus partial contralateral facetectomy (UF/PF), or a complete bilateral facetectomy (CBF). The authors therefore compared the biomechanical benefits of all 3 types of facetectomies to determine which approach produces improved biomechanical outcomes. METHODS Seven human cadaveric specimens (L3–S1) were potted and prepped for UF, with full facet removal, hemilaminectomy, discectomy, and pedicle screw placement. After distraction, a fixed interbody spacer was placed, and compression was performed. A final fixation configuration was performed by locking the rods across the screws posteriorly with bilateral compression. Final lordosis angle and change and foraminal height were measured, and standard nondestructive flexibility tests were performed to assess intervertebral range of motion (ROM) and compressive stiffness. The same procedure was followed for UF/PF and CBF in all 7 specimens. RESULTS All 3 conditions demonstrated similar ROM and compressive stiffness. No statistically significant differences occurred with distraction, but CBF demonstrated significantly greater change than UF in mean foraminal height after bilateral posterior compression (1.90 ± 0.62 vs 1.00 ± 0.45 mm, respectively, p = 0.04). With compression, the CBF demonstrated significantly greater mean ROM than the UF (2.82° ± 0.83° vs 2.170° ± 1.10°, p = 0.007). The final lordosis angle was greatest with CBF (3.74° ± 0.70°) and lowest with UF (2.68° ± 1.28°). This finding was statistically significant across all 3 conditions (p ≤ 0.04). CONCLUSIONS Although UF/PF and CBF may require slightly more time and effort and incur more risk than UF, the potential improvement in sagittal balance may be worthwhile for select patients.

Type of Medium: Online Resource

ISSN: 1547-5654

URL: Article

DOI: 10.3171/2019.2.SPINE18942

RVK:

XA 55270.1

Language: Unknown

Publisher: Journal of Neurosurgery Publishing Group (JNSPG)

Publication Date: 2019

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8

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Impact of dual-headed pedicle screws on the biomechanics of lumbosacral junction multirod constructs

Godzik, Jakub ; de Andrada Pereira, Bernardo ; Sawa, Anna G. U. ; [et al.]

Journal of Neurosurgery Publishing Group (JNSPG) ; 2021

In: Journal of Neurosurgery: Spine Vol. 34, No. 5 ( 2021-05), p. 691-699

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In: Journal of Neurosurgery: Spine, Journal of Neurosurgery Publishing Group (JNSPG), Vol. 34, No. 5 ( 2021-05), p. 691-699

Abstract: The objective of this study was to evaluate a novel connector design and compare it with traditional side connectors, such as a fixed-angle connector (FAC) and a variable-angle connector (VAC), with respect to lumbosacral stability and instrumentation strain. METHODS Standard nondestructive flexibility tests (7.5 Nm) and compression tests (400 N) were performed using 7 human cadaveric specimens (L1–ilium) to compare range of motion (ROM) stability, posterior rod strain (RS), and sacral screw bending moment (SM). Directions of motion included flexion, extension, left and right lateral bending, left and right axial rotation, and compression. Conditions included 1) the standard 2-rod construct (2R); 2) the dual-tulip head (DTH) with 4-rod construct (4R); 3) FACs with 4R; and 4) VACs with 4R. Data were analyzed using repeated-measures ANOVA. RESULTS Overall, there were no statistically significant differences in ROM across the lumbosacral junction among conditions (p 〉 0.07). Compared with 2R, DTH and FAC significantly reduced RS in extension, left axial rotation, and compression (p ≤ 0.03). VAC significantly decreased RS compared with 2R in flexion, extension, left axial rotation, right axial rotation, and compression (p ≤ 0.03), and significantly decreased RS compared with DTH in extension (p = 0.02). DTH was associated with increased SM in left and right axial rotation compared with 2R (p ≤ 0.003) and in left and right lateral bending and left and right axial rotation compared with FAC and VAC (p ≤ 0.02). FAC and VAC were associated with decreased SM compared with 2R in right and left lateral bending (p ≤ 0.03). CONCLUSIONS RS across the lumbosacral junction can be high. Supplemental rod fixation with DTH is an effective strategy for reducing RS across the lumbosacral junction. However, the greatest reduction in RS and SM was achieved with a VAC that allowed for straight (uncontoured) accessory rod placement.

Type of Medium: Online Resource

ISSN: 1547-5654

URL: Article

DOI: 10.3171/2020.8.SPINE191545

RVK:

XA 55270.1

Language: Unknown

Publisher: Journal of Neurosurgery Publishing Group (JNSPG)

Publication Date: 2021

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9

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Rod Attachment Induces Significant Strain in Lumbosacral Fixation

Sawa, Anna G.U. ; Wangsawatwong, Piyanat ; Lehrman, Jennifer N. ; [et al.]

Ovid Technologies (Wolters Kluwer Health) ; 2023

In: Clinical Spine Surgery: A Spine Publication Vol. 36, No. 6 ( 2023-07), p. E247-E251

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In: Clinical Spine Surgery: A Spine Publication, Ovid Technologies (Wolters Kluwer Health), Vol. 36, No. 6 ( 2023-07), p. E247-E251

Abstract: This was a laboratory investigation. Objective: Rod attachment can induce significant pedicle screw-and-rod pre- strain that may predispose the instrumentation to failure. This study investigated how in vitro L5–S1 rod strain and S1 screw strain during rod-screw attachment (pre-strain) compared with strains recorded during pure-moment bending ( test- strain). Summary of Background Data: The lumbosacral junction is highly vulnerable to construct failure due to rod fatigue fracture, sacral screw pull-out, and screw fatigue fracture. Materials and Methods: Twelve cadaveric specimens were instrumented with L2–ilium pedicle screws and rod. Strain gauges on contoured rods and sacral screws recorded strains during sequential rod-to-screw tightening (pre-strains). The same instrumented constructs were immediately tested in a 6-degree-of-freedom apparatus under continuous loading to 7.5 Nm in multidirectional bending while recording instrumentation test-strains. Rod and screw pre-strains and test-strains were compared using 1-way repeated-measures analysis of variance followed by Holm-Šidák paired analysis (significant at P 〈 0.05). Results: The mean first (171±192 µE) and second (322±269 µE) rod attachment pre-strains were comparable to mean test-strains during flexion (265±109 µE) and extension (315±125 µE, P ≥0.13). The mean rod attachment pre-strain was significantly greater than mean test-strains during bidirectional lateral bending (40±32 µE ipsilateral and 39±32 µE contralateral, P 〈 0.001) and axial rotation (72±60 µE ipsilateral and 60±57 µE contralateral, P 〈 0.001). The mean first and second sacral screw pre-strains during rod attachment (1.03±0.66 and 1.39±1.00 Nm, respectively) did not differ significantly ( P =0.41); however, the mean sacral screw pre-strain during final (second) rod attachment was significantly greater than screw test-strains during all directions of movement (≤0.81 Nm, P ≤0.03). Conclusions: Instrumentation pre-strains imposed during in vitro rod-screw attachment of seemingly well-contoured rods in L2–ilium fixation are comparable to, and at times greater than, strains experienced during in vitro bending. Spine surgeons should be aware of the biomechanical consequences of rod contouring and attachment on construct vulnerability.

Type of Medium: Online Resource

ISSN: 2380-0186

URL: Article

DOI: 10.1097/BSD.0000000000001438

Language: English

Publisher: Ovid Technologies (Wolters Kluwer Health)

Publication Date: 2023

detail.hit.zdb_id: 2849652-8

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10

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Subtle segmental angle changes of single-level lumbar fusions and adjacent-level biomechanics: cadaveric study of optically measured disc strain

de Andrada Pereira, Bernardo ; Wangsawatwong, Piyanat ; Lehrman, Jennifer N. ; [et al.]

Journal of Neurosurgery Publishing Group (JNSPG) ; 2022

In: Journal of Neurosurgery: Spine Vol. 37, No. 4 ( 2022-10-01), p. 525-534

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In: Journal of Neurosurgery: Spine, Journal of Neurosurgery Publishing Group (JNSPG), Vol. 37, No. 4 ( 2022-10-01), p. 525-534

Abstract: Changes to segmental lordosis at a single level may affect adjacent-level biomechanics and overall spinal alignment with an iatrogenic domino effect commonly seen in adult spinal deformity. This study investigated the effects of different segmental angles of single-level lumbar fixation on stability and principal strain across the surface of the adjacent-level disc. METHODS Seven human cadaveric L3–S1 specimens were instrumented at L4–5 and tested in 3 conditions: 1) neutral native angle ("neutral"), 2) increasing angle by 5° of lordosis ("lordosis"), and 3) decreasing angle by 5° of kyphosis ("kyphosis"). Pure moment loads (7.5 Nm) were applied in flexion, extension, lateral bending, and axial rotation, followed by 400 N of axial compression alone and together with pure moments. Range of motion (ROM), principal maximum strain (E1), and principal minimum strain (E2) across different surface subregions of the upper adjacent-level disc (L3–4) were optically assessed. Larger magnitudes of either E1 or E2 indicate larger tissue deformations and represent indirect measures of increased stress. RESULTS At the superior adjacent level, a significant increase in ROM was observed in kyphosis and lordosis versus neutral in flexion (p ≤ 0.001) and extension (p ≤ 0.02). ROM was increased in lordosis versus neutral (p = 0.03) and kyphosis (p = 0.004) during compression. ROM increased in kyphosis versus neutral and lordosis (both p = 0.03) in compression plus extension. Lordosis resulted in increased E1 across the midposterior subregion of the disc (Q3) versus neutral during right lateral bending (p = 0.04); lordosis and kyphosis resulted in decreased E1 in Q3 versus neutral with compression (p ≤ 0.03). Lordosis decreased E1 in Q3 versus neutral during compression plus flexion (p = 0.01), whereas kyphosis increased E1 in all quartiles and increased E2 in the midanterior subregion versus lordosis in compression plus flexion (p ≤ 0.047). Kyphosis decreased E1 in Q3 (p = 0.02) and E2 in the anterior-most subregion of the disc (Q1) (p = 0.006) versus neutral, whereas lordosis decreased E1 in Q3 (p = 0.008) versus neutral in compression plus extension. CONCLUSIONS Lumbar spine monosegmental fixation with 5° offset from the neutral individual segmental angle altered the motion and principal strain magnitudes at the upper adjacent disc, with induced kyphosis resulting in larger principal strains compared with lordosis. Segmental alignment of single-level fusion influences adjacent-segment biomechanics, and suboptimal alignment may play a role in the clinical development of adjacent-segment disease.

Type of Medium: Online Resource

ISSN: 1547-5654

URL: Article

DOI: 10.3171/2022.3.SPINE211221

RVK:

XA 55270.1

Language: Unknown

Publisher: Journal of Neurosurgery Publishing Group (JNSPG)

Publication Date: 2022

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