TY - JOUR
T1 - Modified two-step model for studying the inflammatory response during myocardial ischemia and reperfusion in mice
AU - Jong, Willeke M. C.
AU - Reitsma, Pieter H.
AU - ten Cate, Hugo
AU - de Winter, Robbert J.
PY - 2003
Y1 - 2003
N2 - Studies of myocardial ischemia-reperfusion (MI-R) in the mouse can be accomplished by use of reversible ligation of the left interventricular branch artery (LIB). To study interactions of coagulation, inflammation, and reperfusion injury, the model should not be influenced by effects of the surgery. In existing closed-thorax mouse models, the release of inflammatory factors attributable to surgical intervention could be separated from the release resulting from induction of MI-R. In these models, the final myocardial injury was induced by reversible closure of-the LIB several days after preparative surgery that included median thoracotomy. In an attempt to develop a less invasive procedure to approach the LIB, we replaced median thoracotomy with lateral thoracotomy. After this procedure, body weight was regained within four days, and on days 9 to 11 after the preparative surgery, cytokine values were back to baseline. During one hour of ischemia, mean arterial pressure (MAP) remained at 78 +/- 2 mmHg. After induction of reperfusion, ALAP was 67 +/-4 mmHg, indicating better perfusion pressure of myocardial tissue at the microcirculatory level than that in simple open-thorax models. Electrocardiographic recording revealed transient ST elevation indicating reversible transmural ischemia and reperfusion. Evans blue and 2,3,5-triphenyltetrazolium chloride (TTC) staining visualized the extent of area of infarction (AOI) and area at risk (AAR). The procedure-related mortality was 13%, which compared well with published data from median thoracotomy studies. We conclude that our new model provides stable near-physiologic hemodynamics and allows study of the inflammatory response resulting from MI-R, with low procedure-related mortality
AB - Studies of myocardial ischemia-reperfusion (MI-R) in the mouse can be accomplished by use of reversible ligation of the left interventricular branch artery (LIB). To study interactions of coagulation, inflammation, and reperfusion injury, the model should not be influenced by effects of the surgery. In existing closed-thorax mouse models, the release of inflammatory factors attributable to surgical intervention could be separated from the release resulting from induction of MI-R. In these models, the final myocardial injury was induced by reversible closure of-the LIB several days after preparative surgery that included median thoracotomy. In an attempt to develop a less invasive procedure to approach the LIB, we replaced median thoracotomy with lateral thoracotomy. After this procedure, body weight was regained within four days, and on days 9 to 11 after the preparative surgery, cytokine values were back to baseline. During one hour of ischemia, mean arterial pressure (MAP) remained at 78 +/- 2 mmHg. After induction of reperfusion, ALAP was 67 +/-4 mmHg, indicating better perfusion pressure of myocardial tissue at the microcirculatory level than that in simple open-thorax models. Electrocardiographic recording revealed transient ST elevation indicating reversible transmural ischemia and reperfusion. Evans blue and 2,3,5-triphenyltetrazolium chloride (TTC) staining visualized the extent of area of infarction (AOI) and area at risk (AAR). The procedure-related mortality was 13%, which compared well with published data from median thoracotomy studies. We conclude that our new model provides stable near-physiologic hemodynamics and allows study of the inflammatory response resulting from MI-R, with low procedure-related mortality
M3 - Article
C2 - 14655995
SN - 1532-0820
VL - 53
SP - 522
EP - 526
JO - Comparative medicine
JF - Comparative medicine
IS - 5
ER -