Russo Aurelio Pio, Pastorello Ylenia, Dénes Lóránd
Faculty of Medicine, George Emil Palade University of Medicine, Pharmacy, Science and Technology of Târgu Mureș, Târgu Mureș, ROU.
Department of Anatomy and Embryology, George Emil Palade University of Medicine, Pharmacy, Science and Technology of Târgu Mureș, Târgu Mureș, ROU.
Cureus. 2024 Aug 12;16(8):e66736. doi: 10.7759/cureus.66736. eCollection 2024 Aug.
Introduction Scoliosis is characterized by an abnormal curvature of the spine in the coronal plane. Idiopathic scoliosis is the most prevalent type, though specific causes are sometimes identifiable. Genetic factors significantly influence adolescent idiopathic scoliosis (AIS), which is diagnosed through clinical and radiographic evaluations, primarily using the Cobb angle to measure curvature severity. The classification of scoliosis severity ranges from mild scoliosis, where sometimes the absence of pain is encountered, to moderate and severe, which is usually associated with lancinating pain. Early onset and high progression rates in idiopathic scoliosis are indicative of poorer prognoses. Methods The study analyzed 197 radiographic images from a private clinic database between December 2023 and April 2024. Inclusion criteria focused on anteroposterior images of the thorax and abdomen, excluding unclear and non-spinal images. Manual Cobb angle measurements were performed using RadiAnt DICOM Viewer 2020.2, followed by automated measurements using the Cobb Angle Calculator software. Discrepancies led to further image processing with enhanced color contrast for improved visualization. Data were analyzed using GraphPad InStat to assess error margins between manual and automated measurements. Results Initial results indicated discrepancies between manual and automated Cobb angle measurements. Enhanced image processing improved accuracy, demonstrating the efficacy of both manual and automated techniques in evaluating spinal deformities. Statistical analysis revealed significant error margins, prompting a refined approach for minimizing measurement errors. Discussion The study highlights the importance of accurate Cobb angle measurement in diagnosing and classifying scoliosis. Manual measurements, while reliable, are time-consuming and prone to human error. Automated methods, particularly those enhanced by machine learning algorithms, offer promising accuracy and efficiency. The integration of image processing techniques further enhances the reliability of scoliosis evaluation. Conclusion Accurate assessment of scoliosis through Cobb angle measurement is crucial for effective diagnosis and treatment planning. The study demonstrates that combining manual techniques with advanced automated methods and image processing significantly improves measurement accuracy. Such an approach is intended to support better clinical outcomes. Future research should focus on refining these technologies for broader clinical applications.
引言
脊柱侧弯的特征是脊柱在冠状面上出现异常弯曲。特发性脊柱侧弯是最常见的类型,不过有时可以确定具体病因。遗传因素对青少年特发性脊柱侧弯(AIS)有显著影响,AIS通过临床和影像学评估进行诊断,主要使用Cobb角来测量弯曲严重程度。脊柱侧弯严重程度的分类范围从轻度(有时无疼痛)到中度和重度(通常伴有刺痛)。特发性脊柱侧弯的早发和高进展率预示着预后较差。
方法
该研究分析了2023年12月至2024年4月一家私人诊所数据库中的197张影像学图像。纳入标准侧重于胸部和腹部的前后位图像,排除不清楚和非脊柱的图像。使用RadiAnt DICOM Viewer 2020.2进行手动Cobb角测量,随后使用Cobb Angle Calculator软件进行自动测量。差异导致进一步的图像处理,通过增强颜色对比度以改善可视化。使用GraphPad InStat分析数据,以评估手动和自动测量之间的误差范围。
结果
初步结果表明手动和自动Cobb角测量之间存在差异。增强的图像处理提高了准确性,证明了手动和自动技术在评估脊柱畸形方面的有效性。统计分析显示存在显著的误差范围,促使采用改进方法以尽量减少测量误差。
讨论
该研究强调了准确测量Cobb角在脊柱侧弯诊断和分类中的重要性。手动测量虽然可靠,但耗时且容易出现人为误差。自动方法,特别是那些由机器学习算法增强的方法,具有可观的准确性和效率。图像处理技术的整合进一步提高了脊柱侧弯评估的可靠性。
结论
通过Cobb角测量准确评估脊柱侧弯对于有效的诊断和治疗计划至关重要。该研究表明,将手动技术与先进的自动方法和图像处理相结合可显著提高测量准确性。这种方法旨在支持更好的临床结果。未来的研究应专注于改进这些技术以实现更广泛的临床应用。
