PageWriter 300pi electrocardiograph: interpretive ECG technology for clinical diagnosis
The PageWriter 300pi electrocardiograph from Agilent (ref. M1770A) is designed to provide high-quality ECG recordings with enhanced clinical efficiency. This innovative device simultaneously records 12 leads while automatically analysing and interpreting the results according to adult and paediatric criteria. It incorporates TPI and ACI-TIPI analysis modules, capable of early detection of signs of acute myocardial infarction or cardiac ischaemia.
With its intuitive keyboard and clear display, users can preview signals and adjust leads and formats before printing. Thanks to active pre-acquisition, the device continuously monitors signal quality as soon as the electrodes are connected, ensuring artefact-free printing and reliable interpretations. In addition, its "Extended Measurements Report" function allows detailed morphological and rhythmic analyses to be displayed.
The PageWriter 300pi can be used with mains or battery power and is designed for up to 40 ECGs. Its energy-saving feature automatically puts the device into standby mode after 30 minutes of inactivity. The 200-sheet Z-Fold paper system ensures continuous, fast and legible printing, even at 50 mm/s.
The device can also store and transmit ECGs (via options), allowing seamless integration into a centralised management system such as TraceMaster. All patient data is customisable, with dedicated fields for ID, name, gender, weight, blood pressure, etc. Quick access to reports allows reprinting without losing data.
Reliable, robust and compliant with international medical standards, the PageWriter 300pi also stands out for its compatibility with environments sensitive to electromagnetic interference. It is perfectly suited to high-throughput hospital departments and offers an optimal balance between diagnostic performance, ease of use and clinical safety. It is the partner of choice for cardiologists, emergency physicians and healthcare professionals who want to save time without compromising accuracy.
