Three-Dimensional Imaging of Aortic Tissues in Atherosclerosis

Ting Sun; Mohammad R. Monjezi; Xu Xu; Changjun Yin; Andreas J.R. Habenicht; Sarajo K. Mohanta

doi:10.3791/67400

Трехмерная визуализация тканей аорты при атеросклерозе

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Biology

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JoVE Journal Biology

Three-Dimensional Imaging of Aortic Tissues in Atherosclerosis

Трехмерная визуализация тканей аорты при атеросклерозе

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09:55 min

October 25, 2024

DOI: 10.3791/67400-v

Ting Sun^1,2,3, Mohammad R. Monjezi², Xu Xu², Changjun Yin^1,2,3,4, Andreas J.R. Habenicht^2,4, Sarajo K. Mohanta^2,4

¹Division of Vascular Surgery,The First Affiliated Hospital of Sun Yat-sen University, ²Institute for Cardiovascular Prevention (IPEK),Ludwig-Maximilians-University, ³Institute of Precision Medicine,The First Affiliated Hospital of Sun Yat-sen University, ⁴German Center for Cardiovascular Research (DZHK), Partner Site Munich Heart Alliance

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Overview

This study investigates the role of the peripheral nervous system in the progression of atherosclerosis, utilizing optimized tissue-clearing protocols for 3D imaging of the murine aorta. The research aims to enhance the understanding of cellular and structural changes associated with atherosclerosis using advanced imaging techniques.

Key Study Components

Research Area

Atherosclerosis
Peripheral nervous system interactions
3D imaging techniques

Background

Understanding of nervous system role in cardiovascular diseases
Challenges in visualizing 3D structures during disease progression
Advancements in imaging technology for improved research outcomes

Methods Used

Immunostaining and optical clearing techniques
Use of murine models (mice)
Multi-photon microscopy and confocal laser scanning microscopy

Main Results

Identification of anatomical relationships between nerves and atherosclerotic plaques
Visualization of cellular and structural changes in intact tissues
Improved understanding of cell-cell and cell-tissue interactions during disease progression

Conclusions

The study demonstrates effective methods for imaging the murine aorta and exploring disease mechanisms in atherosclerosis.
This work has implications for future cardiovascular research and potential therapeutic approaches.

Frequently Asked Questions

What are tissue-clearing protocols?

These are techniques designed to render biological tissues transparent, facilitating imaging of their 3D structures.

How does the peripheral nervous system relate to atherosclerosis?

The study investigates how nerves interact with atherosclerotic plaques, potentially influencing disease progression.

What imaging technologies are utilized in this research?

Advanced microscopic techniques, including confocal and multi-photon microscopy, are used to acquire high-resolution images.

Why is 3D imaging important in cardiovascular research?

3D imaging allows for a comprehensive view of the anatomical and structural changes occurring in tissues, aiding in the understanding of disease mechanisms.

What are the benefits of using murine models for this research?

Murine models provide a controllable environment to study human-like cardiovascular diseases and test potential treatments.

What insights can be gained from this research?

The findings may lead to better insights into disease pathology and potential therapeutic targets in atherosclerosis.

Is the study's method applicable to other diseases?

While focused on atherosclerosis, the tissue-clearing and imaging protocols could be adapted for research on other diseases involving tissue restructuring.

В этой статье мы представляем оптимизированные протоколы очистки тканей для получения изображений аорты мыши в трех измерениях (3D). Мы описываем современные методы иммуноокрашивания, оптического клиринга и визуализации с целью определения анатомической близости периферической нервной системы с атеросклеротическими бляшками и адвентицией при атеросклерозе.

Наше исследование направлено на понимание роли нервной системы в прогрессировании атеросклероза. В частности, при каждом взаимодействии с гребнем мы стремимся ответить, как изменяется нерв во время атеросклероза и как его взаимодействие влияет на прогрессирование заболевания. В настоящее время используется несколько передовых технологий для продвижения исследований атеросклероза с целью улучшения понимания механизмов заболевания.

К ним относятся очистка тканей и 3D-визуализация, передовые микроскопические методы, искусственный интеллект, секвенирование отдельных клеток и машинное обучение. Во время прогрессирования атеросклероза компоненты артериальной стенки претерпевают мощную реструктуризацию. Определение изменений в 3D и визуализация интактных тканей с высоким разрешением являются ключевыми экспериментальными задачами.

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