Today, a lot of development has occurred in ultrasound technology, leading to varieties like 3D ultrasounds, which is applied to generate three-dimensional images of fetuses. Obstetric ultrasonography use this technique widely. Its other name is phased array ultrasonics. For the best 3D ultrasound Niceville FL is a recommendable location to visit. One can find high-end medical facilities and experts in the area to have the procedure performed in a safe way.
This method finds extensive use in non-destructive evaluation of materials for failure and purity assessment. In the normal 2D scanning, sound waves are sent straight down and they get reflected back. The same thing is not true in 3-D scanning because sound waves are sent at different angles. When the echoes return, they are processed by a sophisticated software program to produce a three-dimensional reconstruction of the image.
The invention and patenting of this technique was done by two individuals named Stephen Smith and Olaf von Ramm in the year 1987. The invention occurred at Duke University. A lot of ongoing research is happening in the clinical application of this technique, particularly in fetal anomaly scanning. Also, fetal-maternal bonding has been known to be improved by certain application of the method. There is a lot of similarity between 3-D and 4-D versions of ultrasounds only that 4-D generates images in real-time.
The use of 3-D ultrasound is not limited by the part of the body. The term elective 3D ultrasound is used to refer to 3-D ultrasounds carried on pregnant women to allow women to see their children. The scans show the appearance of the child and its gender. The term keepsake ultrasounds is also used to refer to elective 3-D ultrasounds. The term keepsake ultrasounds is less commonly used.
There are several problems associated with keepsake ultrasounds. First, there is some level of heating as ultrasounds are introduced into the body. Small gas pockets are sometimes known to form in body fluids and tissues. According to the FDA, the baby and mother are endangered by the heating and gas pockets that form. In addition, it is not yet known the effects long term exposure can cause.
There is no control over how long the mother is exposed to radiation, which adds to the level of danger of the process. Sometimes, for an image to be generated, a mother needs more than an hour of exposure. It is also extremely difficult to keep transducers focused on a specific location of the baby. This is caused by constant movement of the baby as they warm up and get exposed to constant vibration.
One should ensure that their bladder is not full and that they are not holding urine when they go for the process. Drinking plenty of water for one or two weeks in advance before undergoing the process helps to achieve better images. Plenty of water assists to ensure that there is a lot of amniotic fluid surrounding the fetus. It also ensures that the fluid is clear.
Clear amniotic fluid leads to better visualization of the image. Some people believe that drinking a lot of water just before undergoing scanning improves image visualization. That claim has been found to be wrong.
This method finds extensive use in non-destructive evaluation of materials for failure and purity assessment. In the normal 2D scanning, sound waves are sent straight down and they get reflected back. The same thing is not true in 3-D scanning because sound waves are sent at different angles. When the echoes return, they are processed by a sophisticated software program to produce a three-dimensional reconstruction of the image.
The invention and patenting of this technique was done by two individuals named Stephen Smith and Olaf von Ramm in the year 1987. The invention occurred at Duke University. A lot of ongoing research is happening in the clinical application of this technique, particularly in fetal anomaly scanning. Also, fetal-maternal bonding has been known to be improved by certain application of the method. There is a lot of similarity between 3-D and 4-D versions of ultrasounds only that 4-D generates images in real-time.
The use of 3-D ultrasound is not limited by the part of the body. The term elective 3D ultrasound is used to refer to 3-D ultrasounds carried on pregnant women to allow women to see their children. The scans show the appearance of the child and its gender. The term keepsake ultrasounds is also used to refer to elective 3-D ultrasounds. The term keepsake ultrasounds is less commonly used.
There are several problems associated with keepsake ultrasounds. First, there is some level of heating as ultrasounds are introduced into the body. Small gas pockets are sometimes known to form in body fluids and tissues. According to the FDA, the baby and mother are endangered by the heating and gas pockets that form. In addition, it is not yet known the effects long term exposure can cause.
There is no control over how long the mother is exposed to radiation, which adds to the level of danger of the process. Sometimes, for an image to be generated, a mother needs more than an hour of exposure. It is also extremely difficult to keep transducers focused on a specific location of the baby. This is caused by constant movement of the baby as they warm up and get exposed to constant vibration.
One should ensure that their bladder is not full and that they are not holding urine when they go for the process. Drinking plenty of water for one or two weeks in advance before undergoing the process helps to achieve better images. Plenty of water assists to ensure that there is a lot of amniotic fluid surrounding the fetus. It also ensures that the fluid is clear.
Clear amniotic fluid leads to better visualization of the image. Some people believe that drinking a lot of water just before undergoing scanning improves image visualization. That claim has been found to be wrong.
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