Radioactive medicines and dyes, which enable PET scanning and other modern diagnostic methods, are created by placing an organic substance in front of a particle accelerator and irradiating the substance. Then, this allows the person analyzing the data provided during this process to be able to properly view and identify what should or should not be brought to the attention of a medical professional or patient.
A local inventor and entrepreneur came to Porticos, a product design and product development engineering consulting firm in Morrisville, NC with the prototype of an “Accelerator Target” which would allow fast and economical production of a radioactive medical dye. The client asked us to optimize the size and function of the prototype while simplifying the manufacture and assembly processes.
In addition to accomplishing these tasks, Porticos’s hardware design engineers were able to create a separate “fill station” to support the device. Our engineers also helped the client establish a supply chain appropriate to the scale and schedule of the project. The production of this accelerator target allows for a much quicker process altogether, and the efficiency of having a fill station nearby to support the device makes it available for use for longer periods of time. Additionally, this technology supports PET scanning and modern diagnostic methods alike, so this also opens a window for technology to evolve in such a way that makes the use of the accelerator target more of a necessity and less of an option or alternative to what is already being used.
The product is now used in the United States and Europe, and Porticos hopes this product will continue to reach those who need it most in the medical field, as it saves time, money, resources, and is a fast, safe, and efficient way to render more timely results. Our hardware engineers remain committed to bring new, innovative products to the market, making the lives of businesses and customers simpler and better in quality.
Porticos and Device Solutions worked closely to optimize placement efficiency to create the smallest BioMedical system package possible. This was especially important for both units because power consumption needs to support a 30-day transmission period, which is provided by a large battery cell.
Ambulatory ECG Monitoring System Product Development
BioMedical Systems (now part of ERT), has been providing medical data analysis and support for physicians and their patients for nearly 40 years. They saw a need for a mobile cardiac telemetry system that could take advantage of their sophisticated arrhythmia analysis software, record the data and transmit that information in real time to a group of certified cardiac technicians. To make their vision a reality, they came to Porticos and Device Solutions—one of Porticos’ partners—who experienced in hardware and software development for wireless devices. Herein, the TruVue™ product was born.
The TruVue™ system consists of a patient-worn ECG recording device, a hand-held device that receives and analyzes the information from the recording device. The device then transmits the real-time data to the BioMedical Systems headquarters in St. Louis, where the data is analyzed further and formatted for easy access by the physician.
Porticos’ hardware engineers created the 3D CAD data using Unigraphics software. Bluetooth was chosen as the wireless communication protocol between the patient-worn device and the hand-held device, while GSM-based-cellular was used to transmit between the hand-held and the cardiac center.
In order to minimize detuning of the chip antenna in the patient-worn device, snap features were incorporated into the PC/ABS housings to limit the need for metal assembly hardware. FEA was conducted in Ansys to ensure snap features would remain secure during normal use and drop scenarios.
One of the unique features for the hand-held was the keypad. In order to support the user interface and reduce confusion to the patient, the keys had to be individually backlit and, at the same time, isolated from the surrounding keys. This way, as the menu options changes on the display, only the keys applicable for those options would be lit. The result is deceptively simple-looking keypad, that integrates mechanical and software user interface to create an intuitive and positive experience for the patient.
Hardware Production Results
Thanks to the hard work of Porticos and Device Solutions, the US Food and Drug Administration (FDA) granted Biomedical Systems 510(k) clearance to market TruVue™, a truly wireless ambulatory ECG monitoring system. Additionally, TruVue™ has made its mark as the industry’s first cardiac Mobile Telemetry system that analyzes, records and transmits every heartbeat for up to 30 days.
Porticos, a product design and product development engineering consulting firm in Morrisville, NC, has developed many products for the Sirit—currently owned by 3M—portfolio. The RFID reader unit displayed is a good example of the type of products Porticos’ hardware engineers are not only capable of conceptualizing, but producing.
Product Design Concept
The harsh industrial environment in which items such as RFID readers can be developed require IP protection. To ensure IP protection, effectively securing the safety of consumers in the future, Porticos’ hardware engineers prioritized the ability to test the RFID reader in a safe environment. They worked hard allow space in their process for trial and error, while not sacrificing the security of the project overall.
The electronic functionality requires complete RF isolation from the outside world, as well as between the digital and RF sections inside of the unit. The high-power output for the transmitter required creative thermal management solutions. During the design concept process, Porticos kept in mind the need to execute all requirements while not jeopardizing the cost, time spent in production, or build quality.
Their solution was to integrate 3 separate sections—RF, Digital and Power Supply—within the enclosure design. Porticos’s hardware engineer team conducted a thermal analysis to determine the most efficient means of handling the heat dissipation without requiring force cooling, otherwise known as fans. The resulting housings were die cast aluminum, with secondary operations for the cosmetics and critical sealing surfaces. These housings were manufactured by Porticos’ partner Funfiek.
The final product passed all radiated emissions and thermal tests with no issues. This resulted in the implementation of the reader into products on the market today. RFID readers are quickly becoming the most necessary piece of technology that many companies are looking to integrate into their products.
Porticos is proud to have worked diligently on such an essential, innovative piece of technology that is essential for the future.