INTRODUCTION: The objective of this study was to evaluate the ability of a non-invasive telemetry monitoring system to detect and quantify changes in blood pressure and electrocardiogram (ECG) parameters in response to vehicle, L-NAME or minoxidil administration to freely moving beagle dogs. Data from a non-invasive telemetry monitoring system were compared to data captured from an invasive telemetry implant in the same animals. METHODS: Blood pressure and ECG data were simultaneously acquired from male dogs using a non-invasive and an invasive implanted telemetry system for 2 hours predose and 24 hours post dosing with vehicle (n=5), minoxidil at 1 mg/kg (n=4) and L-NAME at 10 mg/kg (n=5) on separate test days. Values for mean blood pressure, systolic blood pressure, diastolic blood pressure, pulse pressure, heart rate, RR, PR, QRS, QT and QTcL (heart rate corrected QT interval) interval were reported for both methods. RESULTS: Statistically significant reductions in blood pressure and pulse pressure and increases in heart rate, with associated ECG interval changes were apparent following dosing with minoxidil using both methods. Statistically significant increases in blood pressure and pulse pressure were apparent following dosing with L-NAME when using the invasive telemetry system, changes were apparent when using the non-invasive telemetry system, however, no change was apparent for pulse pressure, they were of shorter duration and not statistically significant. Statistically significant decreases in heart rate, with associated changes in ECG intervals, were apparent following treatment with L-NAME for both invasive and non-invasive methods. DISCUSSION: This study shows that the non-invasive system can be successfully used to acquire both ECG and blood pressure data in freely moving jacketed dogs for at least 26 hours, yet requires further technique refinement to improve system sensitivity to detect smaller changes in blood pressure.
INTRODUCTION: The objective of this study was to evaluate the ability of a non-invasive telemetry monitoring system to detect and quantify changes in blood pressure and electrocardiogram (ECG) parameters in response to vehicle, L-NAME or minoxidil administration to freely moving beagle dogs. Data from a non-invasive telemetry monitoring system were compared to data captured from an invasive telemetry implant in the same animals. METHODS: Blood pressure and ECG data were simultaneously acquired from male dogs using a non-invasive and an invasive implanted telemetry system for 2 hours predose and 24 hours post dosing with vehicle (n=5), minoxidil at 1 mg/kg (n=4) and L-NAME at 10 mg/kg (n=5) on separate test days. Values for mean blood pressure, systolic blood pressure, diastolic blood pressure, pulse pressure, heart rate, RR, PR, QRS, QT and QTcL (heart rate corrected QT interval) interval were reported for both methods. RESULTS: Statistically significant reductions in blood pressure and pulse pressure and increases in heart rate, with associated ECG interval changes were apparent following dosing with minoxidil using both methods. Statistically significant increases in blood pressure and pulse pressure were apparent following dosing with L-NAME when using the invasive telemetry system, changes were apparent when using the non-invasive telemetry system, however, no change was apparent for pulse pressure, they were of shorter duration and not statistically significant. Statistically significant decreases in heart rate, with associated changes in ECG intervals, were apparent following treatment with L-NAME for both invasive and non-invasive methods. DISCUSSION: This study shows that the non-invasive system can be successfully used to acquire both ECG and blood pressure data in freely moving jacketed dogs for at least 26 hours, yet requires further technique refinement to improve system sensitivity to detect smaller changes in blood pressure.
Authors: Richard E Fish; Melanie L Foster; Margaret E Gruen; Barbara L Sherman; Davidc C Dorman Journal: J Am Assoc Lab Anim Sci Date: 2017-07-01 Impact factor: 1.232
Authors: Helen Prior; Anna Bottomley; Pascal Champéroux; Jason Cordes; Eric Delpy; Noel Dybdal; Nick Edmunds; Mike Engwall; Mike Foley; Michael Hoffmann; Robert Kaiser; Ken Meecham; Stéphane Milano; Aileen Milne; Rick Nelson; Brian Roche; Jean-Pierre Valentin; Gemma Ward; Kathryn Chapman Journal: J Pharmacol Toxicol Methods Date: 2016-03-31 Impact factor: 1.950