Belly Shelly - 3D Ultrasound Company is the most recommended 3D Ultrasound center in North York, Ontario serving in Toronto, and GTA. We are recruiting ARDMS to Register trained 3d/4d/HD sonographers. Our medical manager is a specialist over 35 years of age. We are proud to say that our customers' references reflect 35 to 40% of our demand and more than 100 doctors and siblings record Baby Shelly patients.
Baby Shelly 3D Ultrasound since 2005 has photographed over 80,000 beautiful infants, and the number is increasing gradually. We would like you to attend the Baby Shelly Ultrasound family. GE, a top ultrasound manufacturer with cutting-edge technologies, is the Baby Shelly.
3D ultrasound describes a three-dimensional ultrasound imaging system for a foetus or its structures. The "3D" shortcut is the "three-dimensional" picture. The 3D image results in an image of a foetal system which is dimensional yet stationary. 4D ultrasound is a 3-dimensional representation in real-time, as opposed to 3D ultrasound. 'Fourth D' is 'time,' in the shortcut '4D.' That is why the 4D ultrasound helps you to see actual or three-dimensional foetal motions. 3D/4D ultrasound can be done during breastfeeding at any time and can be a useful complement to traditional 2D (2D) ultrasound.
3D/4D imaging limiting factors (and yes this still fits well with 2D ultrasound) are many factors such as the patient's thickness of his abdomen wall, scan area scars, the placenta location, foetus position, absence of amniotic fluid, etc. Consequently, the quality of the final imagery varies in different patients and 3D or 4D-ultrasound cannot even be done satisfactorily in some cases. 3D/4D ultrasound is also used to show the foetal impact of parents successfully, and is beyond question an incredible emotional experience. Yet they are first and foremost a method for medical diagnosis.
In 3D ultrasounds the volumes of different organs or abnormal systems can be determined more precisely. Fetal skeleton can also be visualised best to determine such superficial foetal abnormalities, such as foetal split lip, cancers, neural tube defects etc (of course, these anomalies can also be seen in classical 2D imaging). Some special 3D/4D imaging techniques, such as 'STIC,' allow precise visualisation of heart abnormalities, and so on. It should be emphasised that the foetal abnormality which requires 3D or 4D ultrasound to be identified exclusively does not exist and the classic 2D ultrasound remains the key tool for diagnose.
