This video demonstrates how to use a fast and reliable model to study pathobiological and pathophysiological processes of myocardial ischemia.
Research models of infarction and myocardial ischemia are essential to investigate the acute and chronic pathobiological and pathophysiological processes in myocardial ischemia and to develop and optimize future treatment.
Two different methods of creating myocardial ischemia are performed in laboratory rodents. The first method is to create cryo infarction, a fast but inaccurate technique, where a cryo-pen is applied on the surface of the heart (1-3). Using this method the scientist can not guarantee that the cryo-scar leads to ischemia, also a vast myocardial injury is created that shows pathophysiological side effects that are not related to myocardial infarction. The second method is the permanent ligation of the left anterior descending artery (LAD). Here the LAD is ligated with one single stitch, forming an ischemia that can be seen almost immediately. By closing the LAD, no further blood flow is permitted in that area, while the surrounding myocardial tissue is nearly not affected. This surgical procedure imitates the pathobiological and pathophysiological aspects occurring in infarction-related myocardial ischemia.
The method introduced in this video demonstrates the surgical procedure of a mouse infarction model by ligating the LAD. This model is convenient for pathobiological and pathophysiological as well as immunobiological studies on cardiac infarction. The shown technique provides high accuracy and correlates well with histological sections.
Balb/C mice weighing a minimum of 20g at an age of 8 to 12 weeks are purchased from Charles River (Sandhofer Weg 7, D-97633 Sulzfeld).
Mice are housed under conventional conditions, fed standard mouse pellets and water ad libitum. Anesthetize mouse with isoflurane (2%) using an induction chamber.
Validation
There are different possibilities to confirm the success of the LAD-ligation.
The troponin test can be performed 6 to 18 hours after surgery, using only 150 l blood without the need to euthanize the animal. The blood is applied to a customized troponin test kit (TROP T Sensitive, Roche, Mannheim) (Figure 4). Troponin is a regulative protein in the actin filaments of the muscle cell, there are different isotypes in the three types of muscle. The isotypes cTnI and cTnT are found in the heart and are released in tissue injury. The standardized test for troponin T (cTnT) is based on two heart specific monoclonal antibodies, one traps the troponin in the blood sample, the second one is a marker.
The infarcted area can be identified macroscopically after 3 days (Figure 5).
TTC (2,3,5-Triphenyltetrazolium chloride) staining measures tissue viability used to evaluate infarct size. Evans blue dye (1,5%, 1.0mL) in phosphate-buffered saline (PBS) is injected into the left ventricular cavity to measure the myocardial ischemic area. The mouse is euthanized and the heart is harvested and sectioned into slices. The tissue slices are incubated in 1% TTC PBS solution, pH 7.4 at 37°C for 20min. Tissues are fixed in 10% PBS-buffered formalin overnight at 2-8°C. TTC is administered ex vivo to dye Evans blue-negative areas (Figure 6).
For histology the mouse has to be euthanized and the heart has to be embedded for further processing. After performing paraffin sections, slides are stained with H&E (hematoxylin and eosin) or trichrome to visualize fibrotic tissue (Figure 7).
Figure 1: Tracheal tube.
1A: Exposed trachea, after ventral cervical incision.
1B: Trachea is opened two cartilage rings caudal to the larynx.
1C: Tracheal tube is inserted into the trachea.
Figure 2: The heart is exposed through a left sided thoracotomy, the LAD is ligated.
Figure 3: After the thorax is closed, a pleura drain is performed. The mouse is still under anesthesia.
Figure 4: Two lines appear after a few minutes when the troponin test is positive.
Figure 5: Shows the explanted heart.
5A: Macroscopic view of the heart with the ischemic area with a faded whitish color.
5B: Cross section of the infarcted heart, the ischemic area shows in the upper right corner.
In summary, this video visualizes the LAD-ligation model step-by-step and identifies LAD-ligations in mice as easily feasible surgical procedures.
The authors have nothing to disclose.
The authors thank Christiane Pahrmann for her technical assistance and performing histology.