1School of Medicine, University of Connecticut Health Center, Farmington, Connecticut.
2Department of Neurosurgery, Children's Healthcare of Atlanta, Georgia.
J Neurosurg Pediatr. 2023 Apr 7;32(1):82-90. doi: 10.3171/2023.2.PEDS22511. Print 2023 Jul 1.
Quantitative measurements of trigonocephaly can be used to characterize and track this phenotype, which is associated with metopic craniosynostosis. Traditionally, trigonocephaly metrics were extracted from CT scans; however, this method exposes patients to ionizing radiation. Three-dimensional optical scans are another option but are not routinely available in most outpatient settings. Recently, the authors developed semiautomated artificial intelligence algorithms that extract craniometric data from orthogonal 2D photographs. Although 2D photographs are safe, inexpensive, and straightforward to obtain, the accuracy of photograph-based craniometrics in comparison to CT and 3D optical scan correlates has not been established. In this study the authors compared the classification power of 2D photograph-based metrics of trigonocephaly with four CT-based metrics and one 3D optical scan-based metric in a heterogeneous series of patients who presented to an outpatient craniofacial clinic.
In this study the authors performed retrospective craniometric analyses of patient 2D photographs, 3D optical scans, and CT scans. Imaging-derived craniometrics include the 2D photograph-based anterior arc angle (AAA2D-photo), anterior-posterior ratio (APR2D-photo), and anterior-middle ratio (AMR2D-photo); the CT-based anterior arc angle (AAACT), metopic index (MICT), endocranial-bifrontal angle (eBFACT), and interfrontal angle (IFACT); and the 3D optical scan-based anterior arc angle (AAA3D-optical). Receiver operating characteristics (ROCs) were used to identify craniometrics strongly descriptive of trigonocephaly. Interrater comparisons were made between paired trigonocephaly measurements obtained from photographs and either CT scans or 3D optical scans.
There were 13 photograph-based and CT-based pairs and 22 paired measurements from 2D photographs and 3D optical scans. AAA displayed the strongest classification capacity across all three imaging modalities. Significant agreement was observed between AAACT and AAA2D-photo (intraclass correlation coefficient [ICC] = 0.68 [95% CI 0.24-0.89], p = 0.0035), and AAA3D-optical and AAA2D-photo (ICC = 0.70 [95% CI 0.41-0.87], p < 0.0001). There was no significant correlation between APR2D-photo or AMR2D-photo and conventional CT-based metrics describing longitudinal width ratios (MICT).
Photograph-based craniometrics are powerful tools that can be used to quantify the severity of trigonocephaly and exhibit high concordance with standard measurements derived from CT scans and 3D optical scans. The authors developed and freely share a research-use application to calculate trigonocephaly metrics from 2D photographs. Given the availability of digital photography, lack of ionizing radiation, and low cost of photograph-based craniometric derivation, this technique may be useful to supplement routine ambulatory care and objectively track outcomes following treatment.
通过对三角头的定量测量,可以对其进行特征描述和跟踪,三角头与额骨缝早闭有关。传统上,三角头的测量指标是从 CT 扫描中提取的;然而,这种方法会使患者暴露在电离辐射下。三维光学扫描是另一种选择,但在大多数门诊环境中并不常规使用。最近,作者开发了一种半自动人工智能算法,该算法可以从正交二维照片中提取颅测量数据。尽管二维照片是安全、廉价且易于获取的,但与 CT 和 3D 光学扫描相比,基于照片的颅测量的准确性尚未得到证实。在这项研究中,作者比较了二维照片中基于三角头的测量指标与 CT 测量的四个指标和一个基于 3D 光学扫描的指标在一组异质的门诊颅面诊所就诊患者中的分类能力。
在这项研究中,作者对患者的二维照片、3D 光学扫描和 CT 扫描进行了回顾性颅测量分析。基于成像的颅测量指标包括基于二维照片的前弧角(AAA2D-Photo)、前后比(APR2D-Photo)和前中比(AMR2D-Photo);基于 CT 的前弧角(AAACT)、额指数(MICT)、颅内腔额角(eBFACT)和额间角(IFACT);以及基于 3D 光学扫描的前弧角(AAA3D-Optical)。接受者操作特征(ROC)用于识别对三角头具有强烈描述能力的颅测量指标。在照片和 CT 扫描或 3D 光学扫描之间,对来自配对的三角头测量值进行了配对测量的比较。AAA 在所有三种成像方式中均具有最强的分类能力。在 AAACT 和 AAA2D-Photo 之间观察到显著的一致性(组内相关系数 [ICC] = 0.68 [95%CI 0.24-0.89],p = 0.0035),AAA3D-Optical 和 AAA2D-Photo 之间也存在显著的一致性(ICC = 0.70 [95%CI 0.41-0.87],p < 0.0001)。APR2D-Photo 或 AMR2D-Photo 与描述纵向宽度比的传统 CT 测量指标(MICT)之间没有相关性。
基于照片的颅测量指标是一种强大的工具,可以用来量化三角头的严重程度,并且与 CT 扫描和 3D 光学扫描得出的标准测量指标具有高度一致性。作者开发了一个研究用的应用程序,可以从二维照片中计算三角头测量指标,并免费共享。鉴于数字摄影的可用性、缺乏电离辐射以及基于照片的颅测量推导的低成本,该技术可能有助于补充常规的门诊护理,并客观地跟踪治疗后的结果。
