Biomechanics following skip-level cervical disc arthroplasty versus skip-level cervical discectomy and fusion: a finite element-based study

Abstract: BackgroundModerately increased motion at the intermediate segment (IS) after skip-level fusion may accelerate disc degeneration. However, limited biomechanical data are available that examine the effects on the IS following cervical disc arthroplasty (CDA). The purpose of this study is to investigate the biomechanical changes in the IS of the cervical spine after skip-level fusion or skip-level arthroplasty.MethodsA finite element model of a healthy cervical spine (C2-C7) was constructed. Two surgical models w… Show more

“…The implants and the cervical vertebra models were assembled in the software mentioned above. Considering the C3/4 and C5/6 were the most frequently discussed levels in previous studies, these two levels were chosen as the implanted levels in our study [1,8,12]. In the arthroplasty group, we inserted Prodisc-C at C3/4 and C5/6 after removing the anterior longitudinal ligament (ALL), the posterior longitudinal ligament (PLL), and intervertebral discs at the corresponding locations.…”

“…ROMs of our FEMs in flexion-extension, lateral bending, and axial rotation were compared with the data from previous studies [8,[18][19][20]. The ROMs of the intact FEMs at C2/3, C3/4, C4/5, C5/6, and C6/7 were 4.11°± 0.75°, 5.22°± 1.10°, 5.74°± 1.08°, 5.70°± 1.11°, and 4.39°± 0.94°, respectively, in flexion; 3.24°± 0.79°, 4.23°± 1.03°, 4.65°± 1.01°, and 4.04°± 1.03°, respectively, in extension; 5.15°± 0.85°, 4.84°± 1.15°, 4.73°± 1.29°, 3.42°± 0.77°, and 2.63°± 0.58°, respectively, in lateral bending; and 2.04°± 0.83°, 2.97°± 0.79°, 3.73°± 0.67°, 3.14°± 0.62°, and 2.20°± 0.93°, respectively, axial rotation (Fig.…”

“…It has been reported that the preservation of IS could ameliorate postoperative outcomes [7]. However, most of the studies preserved the IS with noncontinuous ACDF, which would bring more additive stress from the fused levels and then cause hypermobility on IS; all of these would cause the acceleration of ASD [8].…”

“…Previous studies reported that multilevel CDA could achieve better clinical outcomes compared with one-level CDA, even though the surgical techniques of multilevel CDA were more difficult and the inclusion criteria were stricter [10,11]. Furthermore, Wu et al [8] reported that noncontinuous CDA could reduce the biomechanical impact on the IS compared with noncontinuous fusion. However, they only built a standard set of models for analysis, lacking a statistical comparison of multiple patient models.…”

“…However, they only built a standard set of models for analysis, lacking a statistical comparison of multiple patient models. In addition, most studies have discussed the effectiveness of Prestige LP in noncontinuous CDA, but the use of Prodisc-C in this kind of operation has not been fully discussed [1,8,12,13]. Therefore, the aim of this research is to analyze the biomechanical characteristics of noncontinuous ACDF and noncontinuous CDA based on multiple patient models, comparing the differences between these two kinds of treatment methods, and to verify the effectiveness of Prodisc-C in noncontinuous CDA.…”

Biomechanical comparison of noncontiguous cervical disc arthroplasty and noncontiguous cervical discectomy and fusion in the treatment of noncontinuous cervical degenerative disc disease: a finite element analysis

“…The implants and the cervical vertebra models were assembled in the software mentioned above. Considering the C3/4 and C5/6 were the most frequently discussed levels in previous studies, these two levels were chosen as the implanted levels in our study [1,8,12]. In the arthroplasty group, we inserted Prodisc-C at C3/4 and C5/6 after removing the anterior longitudinal ligament (ALL), the posterior longitudinal ligament (PLL), and intervertebral discs at the corresponding locations.…”

“…ROMs of our FEMs in flexion-extension, lateral bending, and axial rotation were compared with the data from previous studies [8,[18][19][20]. The ROMs of the intact FEMs at C2/3, C3/4, C4/5, C5/6, and C6/7 were 4.11°± 0.75°, 5.22°± 1.10°, 5.74°± 1.08°, 5.70°± 1.11°, and 4.39°± 0.94°, respectively, in flexion; 3.24°± 0.79°, 4.23°± 1.03°, 4.65°± 1.01°, and 4.04°± 1.03°, respectively, in extension; 5.15°± 0.85°, 4.84°± 1.15°, 4.73°± 1.29°, 3.42°± 0.77°, and 2.63°± 0.58°, respectively, in lateral bending; and 2.04°± 0.83°, 2.97°± 0.79°, 3.73°± 0.67°, 3.14°± 0.62°, and 2.20°± 0.93°, respectively, axial rotation (Fig.…”

“…It has been reported that the preservation of IS could ameliorate postoperative outcomes [7]. However, most of the studies preserved the IS with noncontinuous ACDF, which would bring more additive stress from the fused levels and then cause hypermobility on IS; all of these would cause the acceleration of ASD [8].…”

“…Previous studies reported that multilevel CDA could achieve better clinical outcomes compared with one-level CDA, even though the surgical techniques of multilevel CDA were more difficult and the inclusion criteria were stricter [10,11]. Furthermore, Wu et al [8] reported that noncontinuous CDA could reduce the biomechanical impact on the IS compared with noncontinuous fusion. However, they only built a standard set of models for analysis, lacking a statistical comparison of multiple patient models.…”

“…However, they only built a standard set of models for analysis, lacking a statistical comparison of multiple patient models. In addition, most studies have discussed the effectiveness of Prestige LP in noncontinuous CDA, but the use of Prodisc-C in this kind of operation has not been fully discussed [1,8,12,13]. Therefore, the aim of this research is to analyze the biomechanical characteristics of noncontinuous ACDF and noncontinuous CDA based on multiple patient models, comparing the differences between these two kinds of treatment methods, and to verify the effectiveness of Prodisc-C in noncontinuous CDA.…”

Biomechanical comparison of noncontiguous cervical disc arthroplasty and noncontiguous cervical discectomy and fusion in the treatment of noncontinuous cervical degenerative disc disease: a finite element analysis

The effect of follower load on the range of motion, facet joint force, and intradiscal pressure of the cervical spine: a finite element study

Destruction mechanism of anterior cervical discectomy and fusion in frontal impact