Surgically Induced Cardiac Volume Overload by Aortic Regurgitation in Mouse

Jian Wu; Shijun Wang; Le Kang; Chunjie Yang; Jianguo Jia; Xingxu Wang; Ge Wei; Xuan Li; Jieyun You; Yunzeng Zou

doi:10.3791/63579

Sobrecarga de volumen cardíaco inducida quirúrgicamente por regurgitación aórtica en ratón

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Biology

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Surgically Induced Cardiac Volume Overload by Aortic Regurgitation in Mouse

Sobrecarga de volumen cardíaco inducida quirúrgicamente por regurgitación aórtica en ratón

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08:12 min

August 30, 2022

DOI: 10.3791/63579-v

Jian Wu*¹, Shijun Wang*¹, Le Kang*¹, Chunjie Yang*¹, Jianguo Jia¹, Xingxu Wang², Ge Wei¹, Xuan Li¹, Jieyun You², Yunzeng Zou¹

¹Shanghai Institute of Cardiovascular Diseases, Zhongshan Hospital and Institutes of Biomedical Sciences,Fudan University, ²Department of Cardiovascular Medicine, Shanghai East Hospital, School of Medicine,Tongji University

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Overview

This protocol outlines a surgical method for creating aortic regurgitation in mice, which serves as a reliable model for studying volume overload-induced cardiac hypertrophy. Through echocardiographic assessments and invasive hemodynamic measurements, the study reveals significant changes in heart structure and function, offering insights into the mechanisms of volume overload cardiomyopathy.

Key Study Components

Research Area

Cardiac hypertrophy
Aortic regurgitation models
Surgical techniques in animal studies

Background

Importance of understanding volume overload in cardiac health
Current limitations of existing methodologies
Need for reliable experimental models

Methods Used

Surgical creation of aortic regurgitation in mice
Echocardiography for functional assessment
Invasive hemodynamic measurements

Main Results

Successful creation of aortic regurgitation leading to volume overload
Identified cardiac structure changes such as left ventricular dilation
Demonstrated reduced left ventricular ejection fraction and altered hemodynamic parameters

Conclusions

This study establishes a robust model for exploring the pathological features of volume overload cardiomyopathy.
Findings contribute to the understanding of hypertrophy mechanisms and potential therapeutic targets.

Frequently Asked Questions

What is aortic regurgitation?

Aortic regurgitation is a condition where the aortic valve does not close properly, causing blood to flow backward into the heart.

Why use mice in this study?

Mice are a common model organism in research due to their physiological similarities to humans and the ability to control genetic variables.

What are the signs of cardiac hypertrophy?

Signs include increased left ventricular mass and changes in heart chamber size and function.

What are the benefits of this surgical technique?

This technique allows for accurate modeling of aortic regurgitation, making it easier to study the effects of volume overload on heart function.

How does echocardiography help in this study?

Echocardiography provides non-invasive imaging of heart structure and function, allowing researchers to assess the impact of the surgical intervention.

What does the term 'invasive hemodynamic measurement' refer to?

It refers to techniques that directly measure blood pressure and flow in the cardiovascular system to assess heart function post-surgery.

What implications does this research have?

Understanding the mechanisms of cardiac hypertrophy could lead to improved treatments for heart-related diseases.

Este protocolo presenta una guía práctica sobre la cirugía para la creación de regurgitación aórtica (RA) en el ratón. La evaluación del ratón RA mediante ecocardiografía y medición hemodinámica invasiva recapitula sus características clínicamente relevantes de hipertrofia excéntrica inducida por sobrecarga de volumen, lo que sugiere su prometedora aplicación en el estudio de la hipertrofia cardíaca.

Nuestro protocolo presenta una guía práctica sobre cirugía para crear insuficiencia aórtica en el ratón y proporciona características clínicamente relevantes de la hipertrofia inducida por sobrecarga de volumen. Esta técnica basada en cirugía proporciona un modelo de sobrecarga de volumen clínicamente relevante más confiable y reproducible en el ratón que cualquier otra técnica conocida. Las indicaciones de esta técnica pueden orientarse hacia el estudio de mecanismos moleculares y dianas terapéuticas de la miocardiopatía por sobrecarga de volumen.

Este método podría proporcionar información sobre estudios comparativos, diferenciando las características estructurales, funcionales y de señal de la sobrecarga de volumen de la sobrecarga de presión. Cualquiera que pruebe esta técnica por primera vez debe ser hábil en ecocardiografía o puede colaborar estrechamente con técnicos que puedan operar bien una máquina de ultrasonido. Comience por encender la máquina de ultrasonido, conectada a una sonda de 30 megahercios.

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