Pelvic Ultrasound

Pelvic ultrasound is used to detect and pain in the lower belly (pelvis) organs and examine the ovaries, uterus, cervix and the fallopian tubes. In men, it is used for bladder, prostrate gland and seminal vesicles study. A pelvic ultrasound reads clearly both the organs and structures that are solid and uniform like the uterus, prostrate gland or fluid-filled like bladder. It is usually used to find the cause of pelvic pain, such as ectopic pregnancy in women and tumors or masses. Transvaginal ultrasound helps in studying the uterus and other organs better.

Scrotal ultrasound is primarily used to evaluate the disorders of the testicles and surrounding areas. Pain and swelling in the scrotum and mass in the scrotum area or any other trauma can be detected and evaluated by a scrotal ultrasound. The scrotal ultrasound is a valuable tool in determining the cause of testicular pain and swelling. Ultrasound imaging helps to identity inflammation of the scrotum and an absent or undescended testicle, testicle torsion, abnormal blood vessel or a lump or tumor. Normally it is used to detect if the prostrate is enlarged.

A transvaginal pelvic ultrasound is used to study the uterus, ovaries, cervix and fallopian tubes. A small ultrasound device is inserted into the vagina and high pitched sound waves are emitted and reflected back to the transducer. These waves are analysed and the image is displayed on a video monitor. The picture produced by ultrasound is called a sonogram, echogram or scan. A transvaginal ultrasound helps to evaluate dysfunctional bleeding and whether any uterine fibroid or polyp is present. In post menopausal women, it is used to check the thickness of the uterine lining for any cancerous growth.

Ultrasound

Ultrasound is a medical imaging technique that is also called ultrasound scanning or sonography. High frequency sound waves and their echoes and used in this technique for obtaining images from inside the human body. The echoes of sound waves reflected from the human body are recorded and displayed as a real-time visual image. This technique is similar to the echolocation used by bats, whales and dolphins. The sonar used by submarines also operates the same technique. Ultrasound is useful method to examine many of the body's internal organs like heart, liver, gallbladder, spleen, pancreas, kidneys and bladder. Movement of the internal tissues and organs are captured in ultrasound. This enables the physicians to diagnose a variety of disease conditions and also assess the damage caused to the systems.

The ultrasound machine transmits high frequency sound pulses into the human body by using probes. These sound waves that travel into the body hit a boundary between the tissues inside the body and reflect the sound waves to the probe. Some waves travel even further and they reach another boundary and then get reflected back. The waves that are reflected are picked up by the probe and relayed back into the ultrasound machine.

The ultrasound machine in turn calculates the distance from the probe to the tissue or organ by using the speed of sound tissue and the time of each echo's return. The machine displays these distances and intensities of the echoes on the screen. Through the echoes that are produced the sonologist can identify how far away an object is, how large it is, its shape and consistency (fluid, solid or mixed). Two dimensional images are formed and reflected on the screen. Different types of ultrasound are used for different disease conditions. Ultrasound is used in a variety of clinical settings including obstetrics and gynecology, cardiology and cancer detection. The abdominal ultrasound, pelvic ultrasound and transvaginal ultrasound are commonly used.