Method Article

Cardiac Pressure-Volume Loop Analysis Using Conductance Catheters in Mice

DOI:

10.3791/52942

September 17th, 2015

In This Article

Summary

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Cardiac pressure-volume loop analysis is the most comprehensive way to measure cardiac function in the intact heart. We describe a technique to perform and analyze cardiac pressure volume loops, using conductance catheters.

Abstract

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Cardiac pressure-volume loop analysis is the “gold-standard” in the assessment of load-dependent and load-independent measures of ventricular systolic and diastolic function. Measures of ventricular contractility and compliance are obtained through examination of cardiac response to changes in afterload and preload. These techniques were originally developed nearly three decades ago to measure cardiac function in large mammals and humans. The application of these analyses to small mammals, such as mice, has been accomplished through the optimization of microsurgical techniques and creation of conductance catheters. Conductance catheters allow for estimation of the blood pool by exploiting the relationship between electrical conductance and volume. When properly performed, these techniques allow for testing of cardiac function in genetic mutant mouse models or in drug treatment studies. The accuracy and precision of these studies are dependent on careful attention to the calibration of instruments, systematic conduct of hemodynamic measurements and data analyses. We will review the methods of conducting pressure-volume loop experiments using a conductance catheter in mice.

Introduction

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Cardiac pressure volume loop analysis provides detailed information of cardiac function and are the gold standard for functional assessment 1. While imaging techniques such as echocardiography or cardiac MRI provide functional measures, these measures are highly dependent on loading conditions. Load-independent measures of cardiac contractility and relaxation require dynamic measurements of the ventricular pressure and volume relation over a range of preload and afterload. This understanding of the pressure-volume relation arises from the groundbreaking work of Sagawa and colleagues 2,3. They demonstrated in ex vivo perfused canine heart....

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Protocol

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1. Conductance Catheter Preparations and Pressure Calibration

  1. Connect conductance catheter to the hemodynamic catheter module. Electronically calibrate pressure and volume measurements by recording preset pressure and volume set on the catheter module. Record a tracing of 0 mm Hg and 25 mm Hg (Figure 1A) and assign voltages to both pressure tracings (Figure 1B and 1C). Similarly, record a volume tracing of 5 RVU and 25 RVU (Figure 1D) and assign voltages to both volume tracings (1E and 1F).
  2. Confirm the electronic pressure calibration with a manual pressure calibration, using a mercury column....

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Results

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Pressure-volume loop analysis can be used to measure cardiac function in genetically modified mice 14,15 or mice undergoing drug studies16. Representative pressure volume loops are provided from previously published work 16 investigating the effect of ß-Arrestin biased AT1R ligand, TRV120023. To test whether TRV120023 affects cardiac function in vivo, pressure-volume loop analysis was performed on wild type mice receiving conventional and novel angiotensin receptor blockers. Intr.......

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Discussion

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We describe a method for perfoming pressure-volume loop analysis using a conductance catheter in mice, to derive comprehensive analyses of both cardiac contractility and relaxation. Suga, Sagawa and colleagues utilized pressure-volume loops to define measures of cardiac contractility, specifically the slope of the ESPVR, or the end-systolic elastance (Ees), and Emax. Elastance, defined by the ratio of pressure to volume (P/V), varies over the duration of systole. During each systole, the instantaneo.......

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Disclosures

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The authors have nothing to disclose.

Acknowledgements

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This work is supported by the American Heart Association 14FTF20370058 (DMA) and NIH T32 HL007101-35 (DMA).

....

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Materials

List of materials used in this article
NameCompanyCatalog NumberComments
AnaSed (xylazine) Lloyd LaboratoriesNADA no. 139-236Anesthetic
Ketaset (ketamine)Pfizer440842Anesthetic
VIP3000Matrx Medical Inc.Anesthesia machine
VentilatorHarvard ApparatusModel 683Surgical Equipment
Tubing kitHarvard Apparatus72-1049Surgical Equipment
Homeothermic Blanket Kaz Inc.5628Surgical Equipment
Stereo microscopeCarl Zeiss Optical Inc.Stemi 2000Surgical Equipment
IlluminatorCole–Parmer41720Surgical Equipment
Dumont no. 55 Dumostar Forceps Fine Science Tools Inc11295-51Surgical Instruments
Graefe forceps, curved Fine Science Tools Inc11052-10Surgical Instruments
Moria MC31 forceps Fine Science Tools Inc11370-31Surgical Instruments
Mayo scissors Fine Science Tools Inc14512-15Surgical Instruments
Iris scissors Fine Science Tools Inc14041-10Surgical Instruments
Halsey needle holder Fine Science Tools Inc12501-13Surgical Instruments
Olsen–Hegar needle holder Fine Science Tools Inc12002-12Surgical Instruments
spring scissorsFine Science Tools Inc15610-08Surgical Instruments
disposable underpadsKendall/Tyco Healthcare1038Surgical Supplies
Sterile gauze sponges, sterile Dukal62208Surgical Supplies
Cotton-tipped applicators, sterile Solon368Surgical Supplies
Surgical suture,  silk, 6-0 DemeTECHFT-639-1Surgical Supplies
1 cc Insulin syringes Becton Dickenson329412Surgical Supplies
Access 9 Hemostasis ValveMerit Medical MAP111Hemodynamic equipment
SphygmomanometerBaumanometer320Hemodynamic equipment
Millar PV system MPVS-300/400 or MPVS Ultra (includes calibration cuvette)ADInstruments IncHemodynamic equipment
1.4F conductance catheter ADInstruments IncSPR-839Hemodynamic equipment
PowerLab 4/30 with Chart ProADInstruments Inc.ML866/PHemodynamic software
animal clipperWahl8787-450AMiscellaneous
Intradermic tubing PE-10Becton Dickenson427401Miscellaneous
Intradermic tubing PE-50Becton Dickenson427411Miscellaneous
Needle assortment (18, 25 and 30 gauge; Thomas Scientific)Miscellaneous
0.9% (wt/vol) sodium chloride injection, USP)HospiraNDC no. 0409-4888-50Miscellaneous
Surgical tapeMiscellaneous
Alconox (Alconox Inc.) for catheter cleaningADInstruments Inc.Miscellaneous

References

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  1. Clark, J. E., Marber, M. S. Advancements in pressure-volume catheter technology - stress remodelling after infarction. Exp Physiol. 98 (3), 614-621 (2013).
  2. Sunagawa, K., Maughan, W. L., Burkhoff, D., Sagawa, K. Left ventricular interaction with ....

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Tags

Pressure Volume Loop AnalysisConductance Catheter MiceCardiac Function AssessmentVentricular Systolic DiastolicAortic Occlusion TechniqueInferior Vena CavaHemodynamic Measurements MiceCalibration Conductance CatheterLoad Dependent IndependentGenetic Mutant Models

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