Ultrasound is a common imaging technique that employs high frequency sound waves to create images of organs and other internal structures of the body. These images provide valuable information of underlying pathology of the tissues and assists with diagnosis and planning the treatment of a condition. Ultrasound provides a clear view of the organs, tendons, muscles or joints and any associated disorders.
Ultrasound guided injection is a minimally invasive procedure used for treating various musculoskeletal painful conditions such as tendonitis, bursitis and neuritis or to perform cyst aspiration.
It is also an excellent tool for guiding the placement of needles for both diagnostic as well as therapeutic purposes.
Injection of a pain medication in combination with a local anesthetic directly to the site of injury helps to relieve pain. The advanced imaging of ultrasound provides high resolution images that enable the physician to precisely locate the injections deep into the target tissue without harming surrounding tissues.
The advantages of ultrasound imaging compared to other imaging techniques include the following:
The indications for diagnostic ultrasound imaging technique include the following:
The procedure is used for diagnostic as well as therapeutic purposes. Anti-inflammatory medications such as corticosteroids and hyaluronans are the most commonly used medications to relieve pain, inflammation and swelling or to stimulate synovial fluid production to improve lubrication.
Shoulder joint injections are commonly used for certain conditions such as osteoarthritis, frozen shoulder, or tendonitis. The administration of the injection to the shoulder joint depends upon the condition to be treated. The approach for application of the injection may be anterior, posterior, superior or inferior aspect of the joint.
During an ultrasound guided injection, the patient will be asked to lie or sit down on a table depending on the site of the injection. A clear water based conducting gel is applied over the skin to assist with transmission of the sound waves. The doctor moves a hand-held probe, called a transducer, over the targeted area. The transducer emits sound waves and detects the rebound echoes from the tissue. Images are created from these sound waves and can be viewed on the video display screen attached to the scanner. The waves provide a clear view of the targeted area and helps the doctor locate the correct site for injection.
We’re excited to announce our new Fondren Orthopedic Group location in Katy! Dr. Anay Patel, now accepting new patients at this location.