About MedWOW

MedWOW is THE multilingual online marketplace for trading medical equipment and connecting buyers and sellers globally.

Hundreds of thousands of complete systems, parts, accessories, and medical supplies are posted for sale and auction!

The user-friendly, international website connects buyers, sellers and service providers of medical equipment from all over the world by offering: comprehensive professional services, unprecedented reliability, multilingual customer support and top value.

Avoiding Electromagnetic Interference in Hospitals


Over the past 2 decades, there has been remarkable growth in the sources of RF energy. Twenty years ago, people did not have cell phones, pagers, or laptop computers with wireless modems installed.

Over the years, many incidents of suspected electromagnetic interference (EMI) with medical devices have been documented. Defibrillators are one type of medical implant that has had problems due to electromagnetic interference that has been well-documented in medical journals. There is increased concern for the safe and effective use of devices in an environment that has become crowded with potential sources of electromagnetic interference (EMI).

Because of its concern for public health and safety, the Center for Devices and Radiological Health (CDRH), which is part of the Food and Drug Administration (FDA), in the US, has been at the forefront of examining medical device electromagnetic interference and providing solutions. Extensive laboratory testing by CDRH and others has revealed that many medical devices can be susceptible to problems caused by EMI.

According to the CDRH, the key to addressing electromagnetic interference (EMI) is the recognition that it involves not only the device itself, but also the environment in which it is used, and anything that may come into that environment. More than anything else, the concern with EMI must be viewed as a systems problem requiring a systems approach. In this case, the solution requires the involvement of the medical device industry, the EM source industry (e.g., power industry, telecommunications industry), and the clinical user and patient.

The public must also play a part in the overall approach to recognizing and dealing with EMI. Electromagnetic compatibility, or EMC, is essentially the opposite of EMI. EMC means that the device is compatible with (i.e., no interference caused by) its EM environment, and it does not emit levels of EM energy that cause EMI in other devices in the vicinity. The wide variation of medical devices and use environments makes them vulnerable to different forms of EM energy which can cause EMI: conducted, radiated, and electrostatic discharge (ESD). Further, EMI problems with medical devices can be very complex, not only from the technical standpoint but also from the view of public health issues and solutions.

It is important to make sure you have the right kind of EMI/RFI filtering for your medical devices and hospital equipment. RFI filters play an especially important role in high-frequency and medical equipment applications. The typical frequency filtered is 10,000Hz to 30,000,000Hz for noise picked up and conducted through external wires or power cords. 30,000,000Hz to 1GHz is the frequency filtered for noise that is radiating and being picked up through the air. Low-leakage filters are used for medical equipment and devices, as they provide low levels of leakage current to meet patient safety requirements.

Electromagnetic interference (EMI) and Radio Frequency interference (RFI) are disturbances that can affect the electrical circuit because of electromagnetic induction or electromagnetic radiation from external sources. These disturbances can interrupt, degrade and/or limit the performance of the circuit itself. Many countries have requirements for products to meet Electromagnetic Compatibility (EMC) standards.

MedWOW, the multilingual global medical equipment platform, offers medical equipment professionals a selection of RFI filters for a variety of different devices. If there is a particular RFI filter or part that you can’t find in MedWOW’s international inventories, you can post an RFI filter request or take advantage of MedWOW’s efficient part finder service. Currently filters are available from Siemens, GE Healthcare, Philips and more.

Remote High Dose Rate (HDR) Afterload Brachytherapy for Precision


Remote high dose rate (HDR) afterload brachytherapy is a highly-effective outpatient option that minimizes harmful side effects of oncology treatment, significantly reduces treatment and recovery times and most importantly, minimizes recurrence of many types of cancer. Brachytherapy is the standard term used for a radioactive source applied in or near a tumor. Brachy means near and therapy means treatment.

Brachytherapy is delivered by placing the radiation sources (Ir192) near the tumor. A multichannel Microselectron HDR with TCS remote afterload system is a dedicated machine which delivers radiation in and around the tumor. Brachytherapy can be used in the following:
  • Intracavitary for cancer of the cervix and uterus
  • Intraluminal for esophagus and bronchus cancer
  • Interstitial for breast cancer, soft tissue sarcoma (after initial surgery), prostate and pancreatic tumors
  • Surface mold for superficial cancers, especially skin cancer
These procedures may require anesthesia, a surgical procedure and a brief stay in the hospital. Patients with permanent implants may have a few restrictions at first and then can quickly return to their normal activities. Temporary implants are left inside the patient's body for minutes, hours or days, as indicated.

Remote high dose rate (HDR) afterload brachytherapy involves the remote placement of the powerful radiation source, accurately directed by the radiation oncologist and team, into the tumor for several minutes through a catheter. It is usually given in multiple doses once or twice daily or once or twice weekly. The doctor and team control the remote high dose rate (HDR) afterload brachytherapy treatment from outside the treatment room, monitoring the patient as the therapy is being given. The high-dose-rate remote afterloading machines allow radiation oncologists to deliver a brachytherapy treatment quickly, in about 10 to 20 minutes. The patient can usually go home shortly after the procedure.

Most patients feel little discomfort during remote high dose rate (HDR) afterload brachytherapy. If the radioactive source is held in place with an applicator, the only discomfort during the procedure may come from the  applicator.

Depending on the type of remote high dose rate (HDR) afterload brachytherapy given, the patient may need to take some precautions following treatment.

Remote high dose rate (HDR) afterload brachytherapy may be used alone or in conjunction with external radiation treatments.

MedWOW, the multilingual global medical equipment platform, offers a buyers a selection of remote high dose rate (HDR) afterload brachytherapy  units for sale from inventories all over the world. Currently featuring remote high dose rate (HDR) afterload brachytherapy units from Varian and Nucletron Oldelft, with more being added all the time,   locating even difficult-to-find items is easier than ever.

If there is a particular Remote high dose rate (HDR) afterload brachytherapy system or part that you can’t find in MedWOW’s representative inventories, you can post a request or take advantage of any of MedWOW’s location services.