Safety and reliability of Radio Frequency Identification Devices in Magnetic Resonance Imaging and Computed Tomography

BACKGROUND: Radio Frequency Identification (RFID) devices are becoming more and more essential for patient safety in hospitals. The purpose of this study was to determine patient safety, data reliability and signal loss wearing on skin RFID devices during magnetic resonance imaging (MRI) and computed tomography (CT) scanning. METHODS: Sixty RFID tags of the type I-Code SLI, 13.56 MHz, ISO 18000-3.1 were tested: Thirty type 1, an RFID tag with a 76 x 45 mm aluminum-etched antenna and 30 type 2, a tag with a 31 x 14 mm copper-etched antenna. The signal loss, material movement and heat tests were performed in a 1.5 T and a 3 T MR system. For data integrity, the tags were tested additionally during CT scanning. Standardized function tests were performed with all transponders before and after all imaging studies. RESULTS: There was no memory loss or data alteration in the RFID tags after MRI and CT scanning. Concerning heating (a maximum of 3.6 degrees C) and device movement (below 1 N/kg) no relevant influence was found. Concerning signal loss (artifacts 2 - 4 mm), interpretability of MR images was impaired when superficial structures such as skin, subcutaneous tissues or tendons were assessed. CONCLUSIONS: Patients wearing RFID wristbands are safe in 1.5 T and 3 T MR scanners using normal operation mode for RF-field. The findings are specific to the RFID tags that underwent testing

Intravascular Lymphoma Mimicking Cerebral Stroke: Report of Two Cases

Ischemic stroke is a serious disease leading to significant morbidity and mortality. Multifocal and recurrent strokes are usually caused by embolic diseases, i.e. atrial fibrillation, but rare causes like cerebral vasculitis and clotting disorders are also well known. Here we report on two patients suffering from the very rare intravascular large B-cell lymphoma leading to multifocal and recurrent strokes in the brain and spinal cord as the prominent neurological symptom. The difficulties and the need for diagnostic brain biopsy in making an ‘in vivo’ diagnosis in this particular disease are outlined. Furthermore, the prerequisite for an interdisciplinary approach in these patients is strongly emphasized. Delayed diagnosis for several reasons was the most probable cause for cerebral relapse leading to death in one patient a few months after diagnosis. Conversely, early initiation of immunochemotherapy with a classical lymphoma schedule (R-CHOP) led to long-lasting remission of the disease in the other patient. With this report we like to improve alertness to intravascular large B-cell lymphoma as a cause for multifocal and recurrent strokes

Safety and reliability of Radio Frequency Identification Devices in Magnetic Resonance Imaging and Computed Tomography

Abstract Background Radio Frequency Identification (RFID) devices are becoming more and more essential for patient safety in hospitals. The purpose of this study was to determine patient safety, data reliability and signal loss wearing on skin RFID devices during magnetic resonance imaging (MRI) and computed tomography (CT) scanning. Methods Sixty RFID tags of the type I-Code SLI, 13.56 MHz, ISO 18000-3.1 were tested: Thirty type 1, an RFID tag with a 76 × 45 mm aluminum-etched antenna and 30 type 2, a tag with a 31 × 14 mm copper-etched antenna. The signal loss, material movement and heat tests were performed in a 1.5 T and a 3 T MR system. For data integrity, the tags were tested additionally during CT scanning. Standardized function tests were performed with all transponders before and after all imaging studies. Results There was no memory loss or data alteration in the RFID tags after MRI and CT scanning. Concerning heating (a maximum of 3.6°C) and device movement (below 1 N/kg) no relevant influence was found. Concerning signal loss (artifacts 2 - 4 mm), interpretability of MR images was impaired when superficial structures such as skin, subcutaneous tissues or tendons were assessed. Conclusions Patients wearing RFID wristbands are safe in 1.5 T and 3 T MR scanners using normal operation mode for RF-field. The findings are specific to the RFID tags that underwent testing.</p

Transfusion-associated or nosocomial hepatitis G virus infection in patients undergoing surgery

International audienceBACKGROUND: Despite blood donor screening, there are still cases of transfusion-associated hepatitis. From 1988 to 1992, a prospective study was conducted on the incidence of non-A, non-B posttransfusion hepatitis (PTH). STUDY DESIGN: The present investigation was designed to determine if transfusion recipients with PTH who are negative for hepatitis C virus (HCV) were positive for hepatitis G virus (HGV). Patients admitted for surgery who had normal liver tests and no transfusions during the previous 6 months were enrolled. Alanine amino transferase levels were determined monthly for 6 months after surgery and for 1 year in the case of PTH (defined as alanine aminotranferase twice the upper limit of normal in two consecutive assays). HGV RNA and E2 antibodies were tested for in samples from transfusion recipients with or without PTH and from nontransfused patients. RESULTS: Of the 308 blood recipients who were enrolled in the study, 21 (6.8%) had PTH. HGV RNA was detected at the onset of hepatitis in 3 patients with PTH (14%), 2 of whom were also anti-HCV and HCV RNA positive. One patient developed E2 antibodies without detectable HGV RNA. Three (10.7%) of 28 recipients of an allogeneic transfusion without PTH developed HGV infection. HGV RNA was also found in two nontransfused patients, which suggests nosocomial transmission of HGV. CONCLUSION: Some cases of PTH are associated with HGV; most cases of postoperative HGV infection are not associated with liver abnormalities; and most PTH cases are not associated with known hepatotropic viruses