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1.
Spine Deform ; 12(6): 1631-1637, 2024 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-38849690

RESUMEN

PURPOSE: The ring apophysis is a secondary ossification center on both sides of each vertebral body, to which the annulus of the intervertebral disc inserts. Recently, its pattern of ossification and fusion to the vertebral body was described for the normal growing spine. The aim of the present study was to investigate the ossification and fusion of the ring apophysis in patients with adolescent idiopathic scoliosis (AIS) and compare it to the normal growing population. METHODS: Ring apophysis maturation along the entire thoracic and lumbar spine was analyzed on CT scans of 99 female, pre-operative AIS patients and compared to 134 CT scans of non-scoliotic girls, aged 12 to 20. RESULTS: The ring apophysis maturation in AIS patients was delayed at all spinal levels in AIS patients compared to non-scoliotic controls. Ossification starts at T4-T11 at age 12, followed by T1-T5 and L3-S1 at age 15. The fusion process in AIS patients continues longer in the midthoracic region as compared to the other regions and as compared to non-scoliotic controls, with many incomplete fusions still at age 20. CONCLUSION: The ring apophysis maturation in AIS is delayed compared to that in the normal population and lasts longer in the mid/low thoracic spine. Delayed maturation of the spine's most important stabilizer, while the body's dimensions continue to increase, could be part of the patho-mechanism of AIS.


Asunto(s)
Vértebras Lumbares , Osteogénesis , Escoliosis , Vértebras Torácicas , Tomografía Computarizada por Rayos X , Humanos , Escoliosis/diagnóstico por imagen , Femenino , Adolescente , Vértebras Torácicas/diagnóstico por imagen , Niño , Osteogénesis/fisiología , Vértebras Lumbares/diagnóstico por imagen , Adulto Joven , Disco Intervertebral/diagnóstico por imagen
2.
J Bone Joint Surg Am ; 103(21): 2014-2023, 2021 11 03.
Artículo en Inglés | MEDLINE | ID: mdl-34424867

RESUMEN

BACKGROUND: In adolescent idiopathic scoliosis (AIS), lung function impairment is not necessarily related to the coronal spinal deformity. Recently, right-sided bronchial narrowing has been reported in thoracic AIS. The aim of this study was to describe the relation of chest and spinal deformity parameters, bronchial narrowing, and lung volumes with pulmonary function in preoperative AIS. METHODS: Spinal radiographs, low-dose computed tomographic (CT) scans of the spine including the chest, and pulmonary function tests were retrospectively collected for 85 preoperative patients with thoracic AIS in 2 centers and were compared with 14 matched controls. Three-dimensional lung and airway reconstructions were acquired. Correlation analysis was performed in which radiographic spinal parameters, CT-based thoracic deformity parameters (rib-hump index [RHi], spinal penetration index, endothoracic hump ratio, hemithoracic-width ratio), lung volume asymmetry, and bronchial cross-sectional area were compared with percent-of-predicted spirometry results. RESULTS: Forty-one patients (48%) had a percent-of-predicted forced expiratory volume in 1 second (FEV1%) or percent-of-predicted forced vital capacity (FVC%) of <65%, and 17 patients (20%) had obstructive lung disease. All thoracic deformity parameters correlated significantly with FEV1% and FVC%; RHi was found to be the best correlate (rs = -0.52 for FEV1% and -0.54 for FVC%). Patients with AIS with impaired pulmonary function had hypokyphosis, a larger rib hump, increased spinal and thoracic rotation, a narrower right hemithorax, and increased intrusion of the spine into the chest. Spinal intrusion correlated with right-sided bronchial narrowing, relative right lung volume loss, and decreased FEV1% and FVC%. Multivariate regression including spinal and thoracic deformity parameters, lung volume asymmetry, and airway parameters could explain 57% of the variance in FEV1% and 54% of the variance in FVC%. CONCLUSIONS: Chest intrusion by the endothoracic hump is related to right-sided bronchial narrowing and lung function loss in preoperative AIS. The findings support the theory that ventilatory dysfunction in thoracic AIS is not only restrictive but frequently has an obstructive component, especially in patients with hypokyphosis. RHi is the most predictive chest parameter for lung function loss. LEVEL OF EVIDENCE: Prognostic Level III. See Instructions for Authors for a complete description of levels of evidence.


Asunto(s)
Bronquios/fisiopatología , Enfermedades Bronquiales/diagnóstico , Escoliosis/complicaciones , Tórax/fisiopatología , Adolescente , Adulto , Bronquios/diagnóstico por imagen , Enfermedades Bronquiales/etiología , Enfermedades Bronquiales/fisiopatología , Estudios de Casos y Controles , Niño , Constricción Patológica/diagnóstico , Constricción Patológica/etiología , Constricción Patológica/fisiopatología , Femenino , Humanos , Masculino , Pruebas de Función Respiratoria , Estudios Retrospectivos , Vértebras Torácicas , Tórax/diagnóstico por imagen , Tomografía Computarizada por Rayos X , Capacidad Vital , Adulto Joven
3.
Spine J ; 20(10): 1653-1658, 2020 10.
Artículo en Inglés | MEDLINE | ID: mdl-32184127

RESUMEN

BACKGROUND CONTEXT: Relative anterior spinal overgrowth was proposed as a generalized growth disturbance and a potential initiator of adolescent idiopathic scoliosis (AIS). However, anterior lengthening has also been observed in neuromuscular (NM) scoliosis and was shown to be restricted to the apical areas and located in the intervertebral discs, not in the bone. This suggests that relative anterior spinal overgrowth does not rightfully describe anterior lengthening in scoliosis, as it seems not a generalized active growth phenomenon, nor specific to AIS. PURPOSE: To determine if compensatory curves in congenital scoliosis exhibit a mechanism of anterior lengthening without changes in the vertebral body, similar to curves in AIS and NM scoliosis. STUDY DESIGN/SETTING: Cross-sectional. PATIENT SAMPLE: CT-scans were included of patients in whom a short segment congenital malformation had led to a long thoracic compensatory curve without bony abnormality. Based on data of other scoliosis types, the calculated required sample size was n=12 to detect equivalence of vertebral bodies as compared with nonscoliotic controls. Out of 143 congenital scoliosis patients, 18 fit the criteria and compared with 30 nonscoliotic controls, 30 AIS and 30 NM scoliosis patients. OUTCOME MEASURES: The anterior-posterior length discrepancy (AP%) of the total curve and for vertebral bodies and intervertebral discs separately. METHODS: Of each vertebral body and intervertebral disc in the compensatory curve, the anterior and posterior length was measured on CT-scans in the exact mid-sagittal plane, corrected for deformity in all three planes. The AP% was calculated for the total compensatory curve (Cobb-to-Cobb) and for the vertebral bodies and the intervertebral discs separately. Positive AP% indicated that the anterior side was longer than the posterior side. RESULTS: The total AP% of the compensatory curve in congenital scoliosis showed lordosis (+1.8%) that differed from the kyphosis in nonscoliotic controls (-3.0%; p<.001) and was comparable to the major curve in AIS (+1.2%) and NM scoliosis (+0.5%). This anterior lengthening was not located in the bone; the vertebral body AP% showed kyphosis (-3.2%), similar to nonscoliotic controls (-3.4%) as well as AIS (-2.5%) and NM scoliosis (-4.5%; p=1.000). However, the disc AP% showed lordosis (+24.3%), which sharply contrasts to the kyphotic discs of controls (-1.5%; p<.001), but was similar to AIS (+17.5%) and NM scoliosis (+20.5%). CONCLUSIONS: The current study on compensatory curves in congenital scoliosis confirms that anterior lengthening is part of the three-dimensional deformity in different types of scoliosis and is exclusively located in the intervertebral discs. The bony vertebral bodies maintain their kyphotic shape, which indicates that there is no active anterior bony overgrowth. Anterior lengthening appears to be a passive result of any scoliotic deformity, rather than being related to the specific cause of AIS.


Asunto(s)
Disco Intervertebral , Escoliosis , Estudios Transversales , Humanos , Cifosis , Lordosis , Escoliosis/diagnóstico por imagen , Escoliosis/cirugía , Vértebras Torácicas/diagnóstico por imagen , Vértebras Torácicas/cirugía
4.
Spine (Phila Pa 1976) ; 44(14): E823-E832, 2019 Jul 15.
Artículo en Inglés | MEDLINE | ID: mdl-30664096

RESUMEN

STUDY DESIGN: Retrospective study. OBJECTIVE: To describe surgical results in two and three dimensions and patient-reported outcomes of scoliosis treatment for Lenke type 1 idiopathic curves with an open anterior or posterior approach. SUMMARY OF BACKGROUND DATA: Different surgical techniques have been described to prevent curve progression and to restore spinal alignment in idiopathic scoliosis. The spine can be accessed via an anterior or a posterior approach. However, the surgical outcomes, especially in three dimensions, for different surgical approaches remain unclear. METHODS: Cohorts of Lenke curve type 1 idiopathic scoliosis patients, after anterior or posterior spinal fusion were recruited, to measure curve characteristics on conventional radiographs, before and after surgery and after 2 years follow-up, whereas the vertebral axial rotation, true mid-sagittal anterior-posterior height ratio of individual structures, and spinal height differences were measured on 3D reconstructions of the pre- and postoperative supine low-dose computed tomography (CT) scans. Additionally, the intraoperative parameters were described and the patients completed the Scoliosis Research Society outcomes and the 3-level version of EuroQol Group questionnaires postoperatively. RESULTS: Fifty-three patients with Lenke curve type 1 idiopathic scoliosis (26 in the anterior cohort and 27 in the posterior cohort) were analyzed. Fewer vertebrae were instrumented in the anterior cohort compared with the posterior cohort (P < 0.001), with less surgery time and lower intraoperative blood loss (P < 0.001). The Cobb angle correction of the primary thoracic curve directly after surgery was 57 ±â€Š12% in the anterior cohort and 73 ±â€Š12% in the posterior cohort (P < 0.001) and 55 ±â€Š13% and 66 ±â€Š12% (P = 0.001) at 2 years follow-up. Postoperative 3D alignment restoration and questionnaires showed no significant differences between the cohorts. CONCLUSION: This study suggests that Lenke type 1 curves can be effectively managed surgically with either an open anterior or posterior approach. Each approach, however, has specific advantages and challenges, as described in this study, which must be considered before treating each patient. LEVEL OF EVIDENCE: 3.


Asunto(s)
Medición de Resultados Informados por el Paciente , Escoliosis/cirugía , Fusión Vertebral/métodos , Resultado del Tratamiento , Adolescente , Pérdida de Sangre Quirúrgica , Estudios de Cohortes , Femenino , Humanos , Cifosis/cirugía , Masculino , Tempo Operativo , Periodo Posoperatorio , Radiografía , Estudios Retrospectivos , Rotación , Encuestas y Cuestionarios , Vértebras Torácicas/cirugía , Tomografía Computarizada por Rayos X , Adulto Joven
5.
Eur Spine J ; 28(3): 544-550, 2019 03.
Artículo en Inglés | MEDLINE | ID: mdl-30128762

RESUMEN

PURPOSE: The pelvic incidence (PI) is used to describe the sagittal spino-pelvic alignment. In previous studies, radiographs were used, leading to less accuracy in establishing the three-dimensional (3D) spino-pelvic parameters. The purpose of this study is to analyze the differences in the 3D sagittal spino-pelvic alignment in adolescent idiopathic scoliosis (AIS) subjects and non-scoliotic controls. METHODS: Thirty-seven female AIS patients that underwent preoperative supine low-dose computed tomography imaging of the spine, hips and pelvis as part of their general workup were included and compared to 44 non-scoliotic age-matched female controls. A previously validated computerized method was used to measure the PI in 3D, as the angle between the line orthogonal to the inclination of the sacral endplate and the line connecting the center of the sacral endplate with the hip axis. RESULTS: The PI was on average 46.8° ± 12.4° in AIS patients and 41.3° ± 11.4° in controls (p = 0.025), with a higher PI in Lenke type 5 curves (50.6° ± 16.2°) as compared to controls (p = 0.042), whereas the Lenke type 1 curves (45.9° ± 12.2°) did not differ from controls (p = 0.141). CONCLUSION: Lenke type 5 curves show a significantly higher PI than controls, whereas the Lenke type 1 curves did not differ from controls. This suggests a role of pelvic morphology and spino-pelvic alignment in the pathogenesis of idiopathic scoliosis. Further longitudinal studies should explore the exact role of the PI in the initiation and progression of different AIS types. These slides can be retrieved under Electronic Supplementary Material.


Asunto(s)
Vértebras Lumbares/diagnóstico por imagen , Pelvis , Escoliosis , Vértebras Torácicas/diagnóstico por imagen , Adolescente , Femenino , Humanos , Pelvis/anatomía & histología , Pelvis/diagnóstico por imagen , Escoliosis/diagnóstico por imagen , Escoliosis/patología , Tomografía Computarizada por Rayos X
6.
Spine Deform ; 6(2): 112-120.e1, 2018.
Artículo en Inglés | MEDLINE | ID: mdl-29413732

RESUMEN

STUDY DESIGN: Retrospective study. OBJECTIVES: To investigate parameters of axial vertebral deformation in patients with scoliosis compared to a control group, and to determine whether these parameters correlated with the severity of spine curvature, measured as the Cobb angle. SUMMARY OF BACKGROUND DATA: Adolescent idiopathic scoliosis (AIS) is the most common type of spinal deformity. Many studies have investigated vertebral deformation, in terms of wedging and pedicle deformations, but few studies have investigated actual structural changes within vertebrae. METHODS: This study included 20 patients with AIS (Lenke 1-3, mean age: 15.6 years, range: 11-20). We compared preoperative low-dose computed tomography (CT) examinations of patients with AIS to those of a control group matched for age and sex. The control individuals had no spinal deformity, but they were admitted to the emergency department for trauma CTs. We measured the Cobb angles and the axial vertebral rotation (AVR), axial vertebral body asymmetry (AVBA), and frontal vertebral body rotation (FVBR) for the superior end, inferior end, and apical vertebrae, with in-house-developed software. Correlations between entities were investigated with the Pearson correlation test. RESULTS: The average Cobb angles were 49.3° and 1.3° for the scoliotic and control groups, respectively. The patient and control groups showed significant differences in the AVRs of all three vertebra levels (p < .01), the AVBAs of the superior end and apical vertebrae (p < .008), and the FVBR of the apical vertebra (p = .011). Correlations were only found between the AVBA and FVBR in the superior end vertebra (r = 0.728, p < .001) and in the apical vertebra (r = 0.713, p < .001). CONCLUSIONS: Compared with controls, patients with scoliosis showed clear morphologic differences in the midaxial plane vertebrae. Differences in AVR, AVBA, and FVBR were most pronounced at the apical vertebra. The FVBR provided valuable additional information about the internal rotation and deformation of vertebrae. LEVEL OF EVIDENCE: Level III.


Asunto(s)
Escoliosis/diagnóstico por imagen , Curvaturas de la Columna Vertebral/diagnóstico por imagen , Columna Vertebral/diagnóstico por imagen , Adolescente , Niño , Femenino , Humanos , Cifosis/diagnóstico por imagen , Cifosis/cirugía , Masculino , Variaciones Dependientes del Observador , Rango del Movimiento Articular/fisiología , Estudios Retrospectivos , Escoliosis/fisiopatología , Escoliosis/cirugía , Curvaturas de la Columna Vertebral/fisiopatología , Columna Vertebral/anatomía & histología , Columna Vertebral/fisiopatología , Tomografía Computarizada por Rayos X/métodos , Adulto Joven
7.
Spine (Phila Pa 1976) ; 42(11): 818-822, 2017 Jun 01.
Artículo en Inglés | MEDLINE | ID: mdl-27683977

RESUMEN

STUDY DESIGN: Cross-sectional study. OBJECTIVE: To investigate the presence and magnitude of anterior spinal overgrowth in neuromuscular scoliosis and compare this with the same measurements in idiopathic scoliosis and healthy spines. SUMMARY OF BACKGROUND DATA: Anterior spinal overgrowth has been described as a potential driver for the onset and progression of adolescent idiopathic scoliosis (AIS). Whether this anterior overgrowth is specific for AIS or also present in nonidiopathic scoliosis has not been reported. METHODS: Supine computed tomography (CT) scans of thirty AIS patients (thoracic Cobb 21-81°), thirty neuromuscular (NM) scoliotic patients (thoracic Cobb 19-101°) and 30 nonscoliotic controls were used. The difference in length in per cents between the anterior and posterior side {[(ΔA-P)/P]*100%, abbreviated to A-P%} of each vertebral body and intervertebral disc, and between the anterior side of the spine and the spinal canal (A-C%) were determined. RESULTS: The A-P% of the thoracic curves did not differ between the AIS (+1.2 ±â€Š2.2%) and NM patients (+0.9 ±â€Š4.1%, P = 0.663), both did differ, however, from the same measurements in controls (-3.0 ±â€Š1.6%; P < 0.001) and correlated linearly with the Cobb angle (AIS r = 0.678, NM r = 0.687). Additional anterior length was caused by anterior elongation of the discs (AIS: A-P% disc +17.5 ±â€Š12.7% vs. A-P% body -2.5 ±â€Š2.6%; P < 0.001, NM: A-P% disc +19.1 ±â€Š18.0% vs. A-P% body -3.5 ±â€Š5.1%; P < 0.001). The A-C% T1-S1 in AIS and NM patients were similar (+7.9 ±â€Š1.8% and +8.7 ±â€Š4.0%, P = 0.273), but differed from the controls (+4.2 ±â€Š3.3%; P < 0.001). CONCLUSION: So called anterior overgrowth has been postulated as a possible cause for idiopathic scoliosis, but apparently it occurs in scoliosis with a known origin as well. This suggests that it is part of a more generalized scoliotic mechanism, rather than its cause. The fact that the intervertebral discs contribute more to this increased anterior length than the vertebral bodies suggests an adaptation to altered loading, rather than a primary growth disturbance. LEVEL OF EVIDENCE: 4.


Asunto(s)
Disco Intervertebral/diagnóstico por imagen , Escoliosis/diagnóstico por imagen , Vértebras Torácicas/diagnóstico por imagen , Adolescente , Niño , Estudios Transversales , Progresión de la Enfermedad , Femenino , Humanos , Masculino , Escoliosis/etiología , Posición Supina , Tomografía Computarizada por Rayos X , Adulto Joven
8.
Pol J Radiol ; 81: 270-6, 2016.
Artículo en Inglés | MEDLINE | ID: mdl-27354881

RESUMEN

BACKGROUND: Scoliosis is traditionally evaluated by measuring the Cobb angle in radiograph images taken while the patient is standing. However, low-dose computed tomography (CT) images, which are taken while the patient is in a supine position, provide new opportunities to evaluate scoliosis. Few studies have investigated how the patient's position, standing or supine, affects measurements. The purpose of this study was to compare the Cobb angle in images from patients while standing versus supine. MATERIAL/METHODS: A total of 128 consecutive patients (97 females and 21 males; mean age 15.5 [11-26] years) with late-onset scoliosis requiring corrective surgery were enrolled. One observer evaluated the type of curve (Lenke classification) and measured the Cobb angle in whole-spine radiography (standing) and scout images from low-dose CT (supine) were taken on the same day. RESULTS: For all primary curves, the mean Cobb angle was 59° (SD 12°) while standing and 48° (SD 12°) while in the supine position, with a mean difference of 11° (SD 5°). The correlation between primary standing and supine images had an r value of 0.899 (95% CI 0.860-0.928) and an intra-class correlation coefficient value of 0.969. The correlation between the difference in standing and supine images from primary and secondary curves had an r value of 0.340 (95% CI 0.177-0.484). CONCLUSIONS: We found a strong correlation between the Cobb angle in images obtained while the patient was standing versus supine for primary and secondary curves. This study is only applicable for patients with severe curves requiring surgical treatment. It enables additional studies based on low-dose CT.

9.
Phys Med Biol ; 58(6): 1775-87, 2013 Mar 21.
Artículo en Inglés | MEDLINE | ID: mdl-23442302

RESUMEN

Reliable measurements of spinal deformities in idiopathic scoliosis are vital, since they are used for assessing the degree of scoliosis, deciding upon treatment and monitoring the progression of the disease. However, commonly used two dimensional methods (e.g. the Cobb angle) do not fully capture the three dimensional deformity at hand in scoliosis, of which axial vertebral rotation (AVR) is considered to be of great importance. There are manual methods for measuring the AVR, but they are often time-consuming and related with a high intra- and inter-observer variability. In this paper, we present a fully automatic method for estimating the AVR in images from computed tomography. The proposed method is evaluated on four scoliotic patients with 17 vertebrae each and compared with manual measurements performed by three observers using the standard method by Aaro-Dahlborn. The comparison shows that the difference in measured AVR between automatic and manual measurements are on the same level as the inter-observer difference. This is further supported by a high intraclass correlation coefficient (0.971-0.979), obtained when comparing the automatic measurements with the manual measurements of each observer. Hence, the provided results and the computational performance, only requiring approximately 10 to 15 s for processing an entire volume, demonstrate the potential clinical value of the proposed method.


Asunto(s)
Vértebras Lumbares/diagnóstico por imagen , Vértebras Lumbares/patología , Rotación , Escoliosis/diagnóstico por imagen , Escoliosis/patología , Tomografía Computarizada por Rayos X/métodos , Adolescente , Automatización , Humanos , Imagenología Tridimensional , Variaciones Dependientes del Observador
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