Abstract
ObjectiveTo generate physical models of fetuses from images obtained with three-dimensional ultrasound (3D-US), magnetic resonance imaging (MRI), and, occasionally, computed tomography (CT), in order to guide additive manufacturing technology.Materials and MethodsWe used 3D-US images of 31 pregnant women, including 5 who were carrying twins. If abnormalities were detected by 3D-US, both MRI and in some cases CT scans were then immediately performed. The images were then exported to a workstation in DICOM format. A single observer performed slice-by-slice manual segmentation using a digital high resolution screen. Virtual 3D models were obtained from software that converts medical images into numerical models. Those models were then generated in physical form through the use of additive manufacturing techniques.ResultsPhysical models based upon 3D-US, MRI, and CT images were successfully generated. The postnatal appearance of either the aborted fetus or the neonate closely resembled the physical models, particularly in cases of malformations.ConclusionThe combined use of 3D-US, MRI, and CT could help improve our understanding of fetal anatomy. These three screening modalities can be used for educational purposes and as tools to enable parents to visualize their unborn baby. The images can be segmented and then applied, separately or jointly, in order to construct virtual and physical 3D models.
Highlights
IntroductionWerner Jr H et al / Applicability of 3D imaging techniques in fetal medicine its utility is restricted because it involves the use of ionizing radiation[4]
Additive manufacturing technology allows the conversion of a virtual 3D model to a physical model, with precise dimensions, in a process that is fast and easy
The results suggest a new possibility in the interaction between the parents and the fetus during prenatal monitoring, physically recreating the interior of the uterus during pregnancy, demonstrating the actual size of the fetus, as well as its anatomy
Summary
Werner Jr H et al / Applicability of 3D imaging techniques in fetal medicine its utility is restricted because it involves the use of ionizing radiation[4]. Three-dimensional (3D) virtual modeling has gained great momentum in recent years, due to the high performance of software applied in the fields of engineering, architecture, and design. It has been taking an increasingly userfriendly form, facilitating the visualization of 3D images[5–7]. The objective of this study was to develop virtual 3D models of fetuses during pregnancy from images obtained by ultrasound, MRI, and CT, alone or in combination
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