Research into the use of ultrasonics for medical diagnosis began after WWII. Ultrasonic scanning, or ultrasonography, uses high frequency sound waves to produce images on a screen, of internal organs, vessels and tissues. It is arguably the best of all ultrasonic medical applications, particularly for prenatal ultrasound scans or echographs.
Quicker, easier (and less costly) to use than CT (computerised tomography) scans and MRI (magnetic resonance imaging), ultrasonic scans are therefore frequently used to monitor and diagnose the condition of organs, such as the liver, kidneys or gallbladder. Echocardiograms, or ultrasonic scans of the heart, are also used to diagnose and follow up heart conditions.
Silence is golden
Ultrasound technology is increasingly being used in surgery. USIs (ultrasonic surgical instruments) convert an ultrasonic signal into a mechanical vibration using a transducer; a waveguide then amplifies and propagates the vibration. Highly useful in diverse medical procedures, USIs can cut bone and other tissue while simultaneously reducing bleeding by coagulating tissue. This generally reduces the average length of surgery and damage to tissue, resulting in fewer complications overall.
Non-invasive therapeutic applications
Scientific advances mean that ultrasound energy can be used as non- or minimally-invasive HIFU (high-intensity focused ultrasound), or HITU (high-intensity therapeutic ultrasound). These methods can be used to remove body tissue in the treatment of cancers and other conditions, by applying ultrasound energy to heat and destroy diseased tissues.
This technology has greatly benefited other treatments, in particular ESWL (extracorporeal shock wave lithotripsy). Ultrasound (or other) imaging systems locate and target kidney, gallbladder or liver stones, which are smashed into pieces by ultrasound pulses and evacuated naturally through urination. Introduced in the early 1980s, it quickly replaced surgery to become the most widespread treatment for stones.
Some other treatments now using HIFU/HITU include:
- Bone healing and physiotherapy for inflammation caused by rheumatism, tendinitis or joint injuries.
- Drug distribution to treat tumours, especially in the brain, where it may be difficult to achieve.
- Cosmetic applications, such as non-invasive liposuction and for a number of therapies to improve skin tone, scars and sun-based damage.
One public health application of ultrasonics is in dental care as descalers to remove plaque before it hardens into tartar. Ultrasonic descalers have a tip that vibrates at high frequency to break down the bacterial matter to which plaque and calculus stick. This technology enables a smoother and less painful experience.
All medical and dental equipment must be absolutely clean before use, particularly in case of contact with a patient's tissue (surgical instruments) or mucous membranes (endoscope), otherwise the introduction of pathogenic microbes can lead to infection. It is imperative to clean, disinfect and sterilize all multiple-use instruments and devices after use on a patient or surgery. Ultrasonic cleaning uses a special wash solution to reach and effectively remove organic waste from difficult-to-clean areas, such as equipment or devices with joints and crevices.
Why International Standards for ultrasonics?
Medical diagnostic ultrasonic equipment is expanding rapidly, and surgical and therapeutic ultrasound applications are expected to continue growing significantly. This medical field ranges from diagnosis to surgical and non-invasive treatments and also comprises ultrasonic cleaners.
As a recognized requirement for meeting regulations worldwide, the need to characterise the ultrasonic fields and establish a means for determining exposure levels to them is fulfilled by International Standards. Such Standards ensure that these ultrasonic equipment and systems meet all the requirements for safe use for patients and medical staff.
Created in 1985, IEC TC (Technical Committee) 87: Ultrasonics, prepares International Standards related to the characteristics, methods of measurement, safety and specifications of fields, equipment and systems in the area of ultrasonics, covering medical equipment and industrial applications.
As of September 2014, TC 87 had published 45 International Standards, Technical Reports and Specifications, and continues to develop more, mostly for medical applications.