ABSTRACT
BACKGROUND: Little is known about the differences between the corrected thrombolysis in myocardial infarction (TIMI) frame count (CTFC) and the 'frame count velocity' (FCV), an estimate of blood flow velocity derived from the TFC and the length of the related vessel, in each of the three epicardial coronary arteries. METHODS: After angioplasty of 119 coronary vessels, 50 left anterior descending (LAD), 27 left circumflex (LCX) and 42 right coronary arteries (RCA), the CTFC was compared with the FCV assessed by measuring the length of the coronary arteries with an intracoronary guidewire. RESULTS: The three vessels show a significant difference in mean length (the LAD was 14.5±1.6 cm, LCX 12.8±1.9 cm and RCA 11.3±1.4 cm, p<0.001 for all comparisons), making it possible to convert the TFC to the FCV with reasonable accuracy without having to use a guidewire. The mean length of the LCX and the RCA was found to be considerably longer than in previous reports on which the CTFC is based. In addition, with this method the estimation of the coronary blood flow velocity in the RCA is significantly higher compared with the LAD and LCX (23.0±7.9 cm/sec versus 17.6±7.4 cm/sec and 16.4±6.3 cm/sec, respectively, p<0.001). CONCLUSION: With the TFC and the average length of the related coronary artery presented in this study, the FCV can be calculated for each of the three vessels resulting in a simple and, compared with the CTFC, more accurate angiographic estimation of the coronary blood flow velocity.
ABSTRACT
BACKGROUND: With the increasing use of cineless diagnostic angiography laboratories, modern telecommunication networks provide an excellent opportunity to transfer dynamic cardiac catheterisation images from a referring centre to a cardiac intervention centre. This electronic data transfer may lead to improved patient care and reduced waiting times. METHODS: Two departments of cardiology started a pilot project using a digital ISDN-30 point-to-point data-line connection between Alkmaar and Amsterdam over which MPEG compressed angiograms are sent. The network consists of a PC based client/server structure and two ISDN modular routers. RESULTS: From June 1998 to January 2001, 127 patients were referred for urgent PTCA or CABG using this network. All patients were admitted to the CCU for unstable angina and had a suitable anatomy for coronary angioplasty or coronary artery bypass surgery. In all cases the MPEG compressed images were successfully stored on the server and could be accessed in Amsterdam. During the pilot phase all X-ray runs (11 + 3) were sent. Following transmission, all patients were accepted for intervention. Review of the DICOM images from the CD-Medical immediately before the PTCA or CABG did not change the planned strategy. The patients were successfully treated 1 to 2 days after data transmission. During this phase, the average variable costs of this network was 5.90 per patient as opposed to 69.00 when using a courier service. CONCLUSION: This study shows that personal computer-based telecommunication network systems are feasible for clinical use in daily practise. Access to a remotely located cardiac intervention centre can be achieved promptly at low costs and improves patient care by reducing waiting times.
ABSTRACT
Electromagnetic interference of pacemaker systems has been well established and can lead to an inappropriate function of these devices. Recently, an implantable loop recorder (ILR) (REVEAL, Medtronic Inc.) has been introduced to evaluate the possible arrhythmic etiology of patients with recurrent syncope. We evaluated the interference of this device in two patients with implantable ILR and in three nonimplanted ILRs with four electromagnetic sources: cellular phones (GSMs), electronic article surveillance systems (EASs), metal detector gates (MDGs), and magnetic resonance imaging (MRI). The GSM did not affect appropriate function of the ILR whereas radiofrequency (RF) EAS could interfere with normal function in implanted and nonimplanted systems. The MDG had no influence on ILR function. The magnetic field induced by the MRI resulted in an irreversible error in one nonimplanted ILR. Therefore, although interference between electromagnetic sources and ILRs appears to be rare in our study, physicians should be aware of possible malfunctioning of these devices.
