3D ultrasound images attract much more attention in the medical technology following its ability to produce real-time images. 3-dimensional ultrasound images present a three-dimensional external image that presents the reality of the image through various stages of pregnancy. Through different stages of pregnancy, a 3D image presents the image of how the baby looks like in real life appearance. The appearance of a 3D image is effective since it gives a clear image of a baby’s development in the womb. It is easier to trace any problem in the uterus or even in the baby’s formation (Seip & Chen, 2008).
The existing difference between 2D and 3D ultrasounds is based on the appearance of the image (Kawamura et. al, 1994). A two-dimensional image presents flat looking images that are only used to view the internal organs of a baby. 2D appearance is significant in identification and diagnosis of kidney issues, heart defects among other internal issues. On the other hand, 3D appearance presents a three-dimensional image that gives the real appearance of the image with its external features. Parents opting for a three-dimensional test can see their baby’s face among other features. 3D appearance is effective since a parent can observe birth defects such as cleft palate (Hata, et. al, 1997).
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Two-dimensional appearance shows a grey, blurred outline of the baby (Kremkau, 2015). In most cases, the outline reveals the internal organs. The 3D appearance of the baby includes his or her skin and it’s easier to identify the shape of the baby’s external features. 3D gives a better diagnosis of fetal skeletal defects such as neural tube defects and cleft lip (Seip & Chen, 2008). Therefore, the existing difference between the two appearances is the reality drawn upon by the images presented after the ultrasound. However, as identified in the context, each appearance plays a key role in the diagnosis of possible defects in the baby (Kawamura et. al, 1994).
References
Hata, T., Aoki, S., Manabe, A., Hata, K., & Miyazaki, K. (1997). Three-dimensional ultrasonography in the first trimester of human pregnancy. Human reproduction (Oxford, England) , 12 (8), 1800-1804.
Kawamura, T., Sano, H., Furuta, M., Yoshioka, T., & Miyata, Y. (1994). U.S. Patent No. 5,365,034 . Washington, DC: U.S. Patent and Trademark Office.
Kremkau, F. W. (2015). Sonography principles and instruments . Elsevier Health Sciences.
Seip, R., Sanghvi, N. T., & Chen, W. H. (2008). U.S. Patent Application No. 11/463,692 .
