Medzer Mobile Aneroid BP Apparatus offers a 20-300 mmHg range with ±3 mmHg accuracy and 2 mmHg sub-division. Features a latex bladder, metal valve, nylon cuff, mercury-free design, high-resolution... Read More
Author: cherylross
Medzer Holter BP Monitor is an ambulatory device with 24 hr recording, motion tolerance, and compensation. Unit measures NIBP SYS 40-260 mmHg, DIA 20 mmHg-210 mmHg, and PR 40-200... Read More
Medzer Holter BP Monitor is a fully automatic, arm-type ambulatory device with 24-hr recording, motion tolerance, and one-touch operation. Features an LCD display, measures NIBP (20-260 mmHg) and PR (30-220... Read More
Medzer Holter BP Monitor is an ambulatory device offering precise readings with motion tolerance, 24-hour recording, and consistent intervals. Featuring an LCD display, it measures NIBP (SYS: 40-260 mmHg,... Read More
Medzer Digital BP Monitor offers accurate 0-280 mmHg BP readings, featuring one-touch operation, an LCD display, and a high-res screen. It measures SYS, DIA, and PR (40-199 BPM), with auto... Read More
Medzer Digital BP Monitor uses the oscillometric method with an 80 × 72 mm backlit LED display. It has a one-press START/STOP button, stores 90 records for 2 users, detects... Read More
Medzer Digital BP Monitor with SpO2 features a 2.4-inch TFT color display, large fonts for easy viewing, and uses the oscillometric method for NIBP (0-38.67 kPa, ±0.4 kPa) and... Read More
Medzer Digital BP Monitor uses oscillometric technology and offers a 2.8-inch LCD, one-touch operation, and low battery alert. It measures NIBP (0-280 mmHg) with ±3 mmHg accuracy, stores 99 records... Read More
Medzer Digital BP Monitor offers a Bluetooth rechargeable design, an LCD display with backlit digits, and a universal fit cuff. It measures systolic 60-280 mmHg, diastolic 30-200 mmHg, and pulse... Read More
Medzer Digital BP monitor, using the oscillometric method, features a large LED screen, automatic deflation, and average value calculation. It offers 90 double patient records, an 80 × 27 mm... Read More