Atlantis Worldwide is a provider of the Cloud-Based CT Dose Monitoring Solution “Scannerside” and would like to share this with you..
Some highlights from the article:
Dose tracking for radiology exams is considered a good idea but not a lot of facilities are doing it, mainly because it can be a cumbersome process. But with increased attention from the public and the government, it’s shifting from a goal to a necessity. The continuing emphasis on patient-centered care is one reason. Upcoming physician quality reporting system requirements is another; starting in 2014, radiologists can report on optimizing patient exposure to ionizing radiation, primarily from CT.
A study in the September issue of the Journal of the American College of Radiology surveyed the essential components of a comprehensive dose-reporting strategy for CT and introduced a cloud-based hybrid model dose-tracking system. Lead author Ronak K. Talati, MD, a radiologist at Stony Brook University Medical Center in New York, says there are business and technical challenges involved with implementing a dose-tracking system. The key to overcoming them, he says, is to start thinking about dose tracking in a systematic way.
On the technical side, the article outlines several crucial aspects of dose tracking. The first is dose capture. Although DICOM structured reporting (SR) stores dose data in numerical form, CT scanners that aren’t DICOM-SR enabled store dose information on dose sheets, which store the data as images—pixels, not numbers—in PACS. Capturing data from those dose sheets requires an optical character recognition algorithm.
Once the data are captured, they must be converted to a form that can be compared with baseline data and indexed against similar CT scans to help the institution optimize radiation dose. The data need to be associated with the patient and communicated to referring physicians. Finally, the information must be exportable to dose registries, such as the ACR’s Dose Index Registry, so it can be used to compile geographic dose data and develop benchmarks for participating institutions.
Talati says one difficulty with the ACR dose registry is that it’s difficult to use. Small differences in naming exams can significantly skew the results. The ACR is using the RadLex Playbook to help smooth out variations in exam names, but adoption has been slow.
On the business side, institutions can choose from a range of commercial dose-tracking systems or develop their own. Systems that are easy to integrate into a department’s workflow tend to be expensive, while inexpensive systems tend to require significant customization. Do-it-yourself systems often need the most manpower and money. Talati says institutions, whether large or small, must figure out what their return on investment is before implementing a dose-tracking system.
To address these challenges, Stony Brook University Medical Center, with a grant from Toshiba, developed a cloud-based hybrid dose-tracking system called Scannerside, which has been running for about one year. It’s a live dose registry and is updated in real time. It’s geared toward technologists’ workflow and provides effective dose, dose-length product, and CT dose index information 30 to 40 seconds after an exam is performed. The technologist receives immediate feedback about how the exam dose compares with similar exams, prints out dose information for the patient, and the dose information is uploaded to the radiology report through the application programming interface of the institution’s choosing.
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