We demonstrate in the video a method for producing a middle cerebral artery occlusion in adult mice using an intraluminal monofilament. We also show how to evaluate the extent of cerebral infarction by 2,3,5-triphenyltetrazolium chloride (TTC) staining.
Stroke is the most common fatal neurological disease in the United States 1. The majority of strokes (88%) result from blockage of blood vessels in the brain (ischemic stroke) 2. Since most ischemic strokes (~80%) occur in the territory of middle cerebral artery (MCA) 3, many animal stroke models that have been developed have focused on this artery. The intraluminal monofilament model of middle cerebral artery occlusion (MCAO) involves the insertion of a surgical filament into the external carotid artery and threading it forward into the internal carotid artery (ICA) until the tip occludes the origin of the MCA, resulting in a cessation of blood flow and subsequent brain infarction in the MCA territory 4. The technique can be used to model permanent or transient occlusion 5. If the suture is removed after a certain interval (30 min, 1 h, or 2 h), reperfusion is achieved (transient MCAO); if the filament is left in place (24 h) the procedure is suitable as a model of permanent MCAO. This technique does not require craniectomy, a neurosurgical procedure to remove a portion of skull, which may affect intracranial pressure and temperature 6. It has become the most frequently used method to mimic permanent and transient focal cerebral ischemia in rats and mice 7,8. To evaluate the extent of cerebral infarction, we stain brain slices with 2,3,5-triphenyltetrazolium chloride (TTC) to identify ischemic brain tissue 9. In this video, we demonstrate the MCAO method and the determination of infarct size by TTC staining.
1. MCAO Method
This protocol was approved by the Institutional Animal Care and Use Committees at UCSF and Kent State University, and abides by the National Institutes of Health guidelines for the use of experimental animals.
2. Representative Results
The infarcts generated by MCAO are seen in the striatum and the dorsolateral cortex. The striatum is more sensitive to ischemia than the cerebral cortex. Thirty minutes of MCAO will produce an infarct only in the striatum, while more than one hour of MCAO will damage both striatum and cortex. After 24 h permanent MCAO, the total infarct percentage is ~40±5% of the hemisphere and the mortality rate after surgery is ~10%. We exclude mice from further studies if excessive bleeding occurs during surgery, the operation time exceeds 90 min, mice fail to recover from anesthesia within 15 min, or hemorrhage is found in the brain slices or at the base of the circle of Willis during postmortem examination.
Figure 1. Representative images of TTC-stained brain slices (coronal level 1-4) after 24 h of permanent MCAO. In living tissue TTC is enzymatically reduced by dehydrogenases to 1,3,5-triphenylformazan (TPF), which is red in color, while in necrotic areas it remains white due to absence of such enzymatic activity. Therefore, the area of infarction can be identified by its white color due to lack of conversion of TTC to TPF. Note: TTC is somewhat heat and light unstable so protect stained sections from heat and light as much as possible.
MCAO in mice is commonly used to model focal brain ischemia in humans. Use of mice for stroke studies has become more frequent because of the availability of transgenic and knockout strains. There are a few critical details to note in the protocol:
The authors have nothing to disclose.
This work was supported by NIH grant NS057195, UCSF REAC award, and Kent State University start-up fund to W.H. Chou.
Material Name | Tipo | Company | Catalogue Number | Comment |
---|---|---|---|---|
Isoflurane | Chemical | Aerrane, Baxter | 95045-588 | |
V-10 Anesthesia system | Equipment | VetEquip | 901807 | |
TR-200 Temp Controller | Equipment | Fine Science Tools | 21060 | |
Electric clipper | Equipment | Braintree | CLP-9931 | |
Dissecting microscope | Equipment | Nikon | SMZ745T | |
Retractor system | Equipment | Braintree | ACD-014 | |
Bipolar coagulator | Equipment | Howard Instrument | 64000 | |
Silk suture | Material | Harvard Apparatus | 510479 | |
Monofilament suture | Material | Harvard Apparatus | 723351 | |
Vascular clamp | Equipment | Fine Science Tools | 00396-01 | |
Vannas scissor | Equipment | Fine Science Tools | 15000-08 | |
Brain matrix | Equipment | Braintree | BS-2000C | |
2,3,5-triphenyltetrazolium chloride | Chemical | Sigma-Aldrich | T8877 | |
10% neutral buffer formalin | Chemical | Sigma-Aldrich | HT5011 |