10 Best Ultrasound Machine Companies and Brands in 2025
Various clinical environments of modern times, from busy nursing homes to premiere healthcare institutions, require ultrasound machines. These machines support extensively in routine screening, in assisted reproduction, in gynecological imaging and in many other areas. Today, rapid technological advances have led to the introduction of better and newer models of ultrasound machines. Many Ultrasound Machine Manufacturers and Ultrasound Machine Suppliers have jumped on the bandwagon to offer innovative machines featuring the best of technology. Many of these sellers have even enhanced their market visibility by quoting the best Ultrasound Machine Price in the market.
When Do You Require An Ultrasound?
A variety of diseases and conditions can be detected using an ultrasound. During an ultrasound examination, low power sound waves are used to detect the following:
Abnormalities in the uterus and ovaries
Abnormalities in the breast
Overall condition of a pregnancy and the developing baby's health
Abnormalities in the gallbladder/ gallbladder disease
Guiding a needle during biopsy
Abnormalities in the thyroid gland
Abnormalities in genital and prostate glands
Assess joint inflammation (synovitis)
Evaluate metabolic bone disease
The Procedure
A trained technician or sonographer presses a small, hand-held device known as the transducer on the area that needs an examination. Gel is applied on the area and the device is moved as needed on the area to capture various images. The transducer that transmits sound waves into the body captures the ones that bounce back. These waves are sent to the computer where various images are generated as a part of the procedure. Sometimes, ultrasounds are also done inside the body. In such cases, the transducer is attached to a probe that is inserted into a natural opening in the body.
Market Competition & The Leaders
Market competition is intense among sellers in developing countries like India where there are almost 5000 clinics, whose core business is providing ultrasound sonography. In India, many training centres have been set up in both the governmental and private sector to disseminate proper knowledge on how to use ultrasound machines for facilitating accurate diagnosis. Amid never ending competition in the Indian and global medical diagnostic industry, there have been a few names that have been making a mark by offering the best machines for ultrasound to meet the evolving needs of healthcare professionals and patients. Find the top 10 names below:
GE Healthcare: As a global leader in the field of medical imaging, GE Healthcare brings forth high performance ultrasound systems and equipment with an aim to deliver the best patient care. The brand has many models on offer, from portable ultrasound machines, cart-based to highly specialized, powerful systems for a range of applications.
Philips Healthcare:Ultrasound and sonography machines of Philips are demanded for their exceptional image quality. Keeping a tab on the latest advances in the field of ultrasound systems, Philips Healthcare markets products that feature user-friendly interfaces, and always deliver accurate results.
Siemens Healthineers:Siemens provides a range of ultrasound equipment and machines that meets various clinical needs with excellence. Its Acuson series of ultrasound equipment are intelligently designed to facilitate accurate diagnostics through excellent image quality. Systems of Siemens Healthineers are also easy to operate and use.
Canon Medical Systems (formerly Toshiba Medical): Canon's ultrasound systems are ergonomically designed and assure premium image quality even after years of use. Its Aplio series is quite popular and is known for exceptional imaging capabilities, and seamless workflow integration.
Samsung Medison: Samsung takes a new leap towards advanced technology and designs a variety of high quality, sophisticated ultrasound machines. The WS80A and the HS60 models of Samsung ultrasound machines are popular for intuitive user interfaces and brilliant image capture technology.
Hitachi Healthcare: Experience the best of performance and value with Hitachi that presents innovative ultrasound scanner systems in the form of its products sold under the Arietta series. Its performance based, versatile systems are favored by many professionals in the medical and healthcare industry, worldwide.
Mindray: High quality, real time images can be easily captured using an ultrasound machine from Mindray. The world renowned Chinese manufacturer pushes the boundaries of technology to design a variety of high quality, sophisticated ultrasound machines under its popular M-series. Its equipment are known for excellent imaging capabilities and easy affordability.
Sonosite (a Fujifilm company): Explore the Edge II and the iViz models of ultrasound systems from Sonosite, which are designed for hassle free diagnostics across various clinical settings.
Esaote: Esaote is an Italy based company whose ultrasound systems have been making new waves, internationally. It offers a range of compactly-designed, high-tech ultrasound systems under the MyLab series that come with many innovative features for different medical specialties.
Supersonic Imagine (a Hologic company): The Aixplorer series of ultrasound machines offered by Supersonic Imagine are popular because each of its machines is based on cutting-edge ultrasound technologies like ShearWave Elastography and UltraFast Doppler.
FAQs: Ultrasound machine
Q. What are ultrasound machines used for?
Ans. Ultrasound machines are sophisticated equipment that are used for a variety of diagnostic and therapeutic purposes. Across a range of medical settings in healthcare fields like obstetrics and gynecology, gastroenterology, cardiology, urology, etc., these machines are used as a part of non-invasive imaging technique for generating quality images that help detect diseases, monitor disease progression with time and chalk out various treatment plans for the patient. The images of various internal organs, blood vessels, tissues, etc., are generated using high-frequency sound waves. In the field of obstetrics and gynecology, these machines can be used for keeping a track of the development of the fetus, assess the health of the placenta, and also find out if there is any abnormality in the fetus. Apart from this, physicians can also use the machines to detect ovarian cysts, fibroids, and endometriosis (where abnormal tissue growth is seen outside the uterus after the onset of the first period) in their female patients. Likewise, the medical branch of cardiology makes use of ultrasound machines to examine a patient’s heart and assess the overall functioning of the heart chambers and valves, including the rate of blood flow through the organ. Vascular imaging can help the healthcare professional determine the rate of blood flow within the arteries and veins. Even heart blockages that are often life threatening can be identified through vascular imaging.
Another area where ultrasound machines find huge application is musculoskeletal imaging where the generated images are used to detect health conditions like tendonitis, bursitis, etc. Real-time imaging capabilities of the machines can also be used for diagnosing kidney and bladder diseases, reproductive diseases, including kidney stones, prostate conditions, etc. Physiotherapists make use of the machines to promote tissue healing, and relieve inflammation and pain in the body of the patient.
Q. How do ultrasound machines work?
Ans. Many situations demand the use of ultrasound machines, and the medical imaging technique of the machines have been utilized in the healthcare industry for many years. But how do these machines work? They make use of high frequency sound waves and their echoes to create and transmit images. Images of the internal structures of the entire body can be created using these machines. First of all, a handheld device called a transducer that is a part of the machine is used for transmitting high-frequency sound waves (1 to 5 megahertz). How? Once the transducer is placed on the skin of the patient, sound waves are created that travel through the body. The echoes created after sound transmission bounce off the internal tissues, organs and fluids. Some of the waves move back to the transducer and some go deeper. The waves captured by the transducer get converted into electrical signals which travel to the ultrasound machine's computer. Waves received by the machine are decoded and analyzed, and this is how the person reading the images determines the exact distance, size, and shape of the structures that produced the waves. Based on the readings, 2D and 3D images of the internal structures, be it the heart, the uterus, the kidney or the urinary bladder are created. These processed images can be checked in a monitor in real-time without exposing the patient to any form of ionizing radiation.
Q. What is the price of an ultrasound machine?
Ans. Depending on the specific brand, features, capabilities, etc., the price of one ultrasound machine may vary from the other. Pricing would also depend on whether the machine is new or refurbished. Mostly, such machines when embedded with high-tech features are sold from anywhere between INR 10 lakhs to over INR 1 crore. Branded models of machines are easily available from leading brands like Siemens, GE, Toshiba, Philips, Mindray, and Sonosite. If you wish to buy budget friendly ones, you can also choose a machine from brands like Edan and Chison. There are many medical equipment suppliers that sell machines of these brands at a price range of INR 1 lakh to INR 10 lakh.
Q. Are ultrasound machines safe?
Ans. Many people have inhibitions getting an ultrasound and subjecting themselves to any unwanted exposure. They believe that such exposure poses many health hazards. However, getting an ultrasound is a safe practice. In fact, it is much safer than getting an X-Ray or a CT scan done. When an ultrasound is done for diagnostic and therapeutic purposes using an ultrasound machine by a trained healthcare practitioner, there is no risk involved. Such machines do not use ionizing radiation like X-rays or CT scans and are comparatively much safer and risk free. Ultrasounds are usually carried out following established guidelines and protocols where non-ionizing radiation is used in the form of the sound waves and where patients are exposed to ultrasound energy within the safe limits only. Diagnostic information of any kind is always obtained safely as well as quickly using these machines that minimize unnecessary exposure.
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