Association between sagittal alignment and loads at the adjacent segment in the fused spine: a combined clinical and musculoskeletal modeling study of 205 patients with adult spinal deformity

[21] Scott MA(2019)Predictors of poor global alignment and proportion score after surgery for adult spinal deformity Spine (Phila Pa 1976) 20 776-784

[22] Price HL(2020)Modified global alignment and proportion scoring with body mass index and bone mineral density (GAPB) for improving predictions of mechanical complications after adult spinal deformity surgery Spine J 46 E257-E266

[23] Hamlin LF(2021)Optimal reconstruction of sagittal alignment according to global alignment and proportion score can reduce adjacent segment degeneration after lumbar fusion Spine (Phila Pa 1976) 5 297-309

[24] Williams TL(2005)Influence of spine morphology on intervertebral disc loads and stresses in asymptomatic adults: implications for the ideal spine Spine J 14 381-392

[25] Uribe JS(2005)Spinal muscle forces, internal loads and stability in standing under various postures and loads–application of kinematics-based algorithm Eur Spine J 15 1785-1795

[26] Deviren V(2006)The effect of osteoporotic vertebral fracture on predicted spinal loads in vivo Eur Spine J 87 595-607

[27] Bridwell KH(2007)Thoracic kyphosis affects spinal loads and trunk muscle force Phys Ther 27 2144-2151

[28] Glassman S(2012)The effect of thoracic kyphosis and sagittal plane alignment on vertebral compressive loading J Bone Miner Res 32 1282-1290

[29] Horton W(2017)Spinal loading patterns from biomechanical modeling explain the high incidence of vertebral fractures in the thoracolumbar region J Bone Miner Res 30 346-353

[30] Shaffrey C(2005)Classification of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position Spine (Phila Pa 1976) 14 e0207997-1393

[21] Scott MA(2019)Predictors of poor global alignment and proportion score after surgery for adult spinal deformity Spine (Phila Pa 1976) 20 776-784

[22] Price HL(2020)Modified global alignment and proportion scoring with body mass index and bone mineral density (GAPB) for improving predictions of mechanical complications after adult spinal deformity surgery Spine J 46 E257-E266

[23] Hamlin LF(2021)Optimal reconstruction of sagittal alignment according to global alignment and proportion score can reduce adjacent segment degeneration after lumbar fusion Spine (Phila Pa 1976) 5 297-309

[24] Williams TL(2005)Influence of spine morphology on intervertebral disc loads and stresses in asymptomatic adults: implications for the ideal spine Spine J 14 381-392

[25] Uribe JS(2005)Spinal muscle forces, internal loads and stability in standing under various postures and loads–application of kinematics-based algorithm Eur Spine J 15 1785-1795

[26] Deviren V(2006)The effect of osteoporotic vertebral fracture on predicted spinal loads in vivo Eur Spine J 87 595-607

[27] Bridwell KH(2007)Thoracic kyphosis affects spinal loads and trunk muscle force Phys Ther 27 2144-2151

[28] Glassman S(2012)The effect of thoracic kyphosis and sagittal plane alignment on vertebral compressive loading J Bone Miner Res 32 1282-1290

[29] Horton W(2017)Spinal loading patterns from biomechanical modeling explain the high incidence of vertebral fractures in the thoracolumbar region J Bone Miner Res 30 346-353

[30] Shaffrey C(2005)Classification of the normal variation in the sagittal alignment of the human lumbar spine and pelvis in the standing position Spine (Phila Pa 1976) 14 e0207997-1393