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Sometimes transabdominal ultrasound scans are true to the same maternal side.

The debate among pregnant women who discuss the Ramzi Theory is questioning whether transvaginal ultrasounds appear to be on the “same side” as pictured on the scan because abdominal scans are “flipped” (or mirror image)īecause of this, The Gender Experts rule-of-thumb is : Not all scans are created equal for the Ramzi Theory.

Both abdominal and transvaginal scans can be used when predicting with the Ramzi Method. Internal scans are often used early in the pregnancy to assist the doctor or technician in obtaining a high-quality view.īecause of the nature of a transvaginal ultrasound, your technician will be able to determine both the left and right sides of your uterus, and therefore can help you find where (which side) the placenta is located. These photos can capture images of the vagina, cervix, uterus, fallopian tubes, and even the ovaries. Sonogram is also used to see the effects of swelling in any part and detect its causes.īeing non-invasive, sonography always remains highly recommended by the doctors which helps in making diagnosis of certain illnesses easier.Unlike an abdominal ultrasound, a transvaginal-sometimes called an endovaginal-scan is done when the ultrasound wand is inserted 2 or 3 inches inside the vaginal canal in order to take photos from inside. This procedure also helps to look into the blood flow and detect gall stones, kidney stones as well. Enlargement of liver, spleen or other abdominal organs, swelling of testes or problems of other male reproductive organs, female reproductive organs, lump in the breast, etc. Sonogram is also used for examining the abnormal structural growth in the body like in ovaries, thyroid, uterus, spleen and gall bladder. The correct images of the organs are reproduced which helps in making things easier and to the right kind of information regarding an ailment.

Heart issues are also dealt with and this is comparatively a safe technique as compared to other procedures because there are no incisions involved. Initially, it was for prenatal cases that sonograms were used but with time, there are many other conditions as well which are gauged by the medical professionals through the sonograms.īesides that, this procedure also gives several insights into the biopsy procedures and related issues. The waves used in the technique are of high frequency which is meant to produce the images of internal organs. Sonogram or ultrasonography is also called as scanning and imaging which is basically a non-invasive procedure which helps in producing the images of the organs and to check the blood flow and the internal organs. There are many uses of sonogram as perceived by the medical community which basically serves the diagnostic purpose. This helps in generating the sonogram which is used by doctors for medical purpose. When these equipments are pressed against the wall of skin, fluids and tissues inside the abdomen, their images are created. These transducers are moved in a very plausible way which makes it easier for the doctor to see what is going on inside the abdomen or any part that needs to be studied. Transducers used in the procedure are pressed against the body part and rolled on the part. Transducers are used to send sound waves to the objects and when echoing waves are regenerated, images are produced which are known as sonogram. Sonogram is based upon using the sound waves which strikes on object and produces an image afterwards which is used for various medical purposes. To make accurate diagnosis, many kinds of problems need to be gauged which includes infection that does not respond to medicines or long standing swelling. Sonogram is called so because it uses sound waves and it is due to these sound waves that pictures of the organs are reproduced. While 2D ultrasounds are useful for examining an infant’s internal organs, more and more expectant parents are opting for 3D ultrasound because it results in an image that allows. What are the Procedures to Perform Sonogram? A 3D ultrasound emits sound at multiple angles and then uses an algorithmic process called surface rendering to interpret the sound waves and create a 3D image.