Although hypothermia suppresses myocardial ischemia/reperfusion injury, whether it also protects the myocardium against cellular stresses such as chemical anoxia and calcium overload remains unknown. We examined the effect of mild hypothermia (33°C) on myocardial injury during ischemia/reperfusion, local administration of sodium cyanide (chemical anoxia), or local administration of maitotoxin (forced Ca overload) using cardiac microdialysis applied to the feline left ventricle. Baseline myoglobin levels (in ng/mL) were 237 ± 57 and 150 ± 46 under normothermia and hypothermia, respectively (mean ± SE, n = 6 probes each). Coronary artery occlusion increased the myoglobin level to 2600 ± 424 under normothermia, which was suppressed to 1160 ± 149 under hypothermia (P < 0.05). Reperfusion further increased the myoglobin level to 6790 ± 1550 under normothermia, which was also suppressed to 2060 ± 343 under hypothermia (P < 0.05). By contrast, hypothermia did not affect the cyanide-induced myoglobin release (930 ± 130 vs. 912 ± 62, n = 6 probes each) or the maitotoxin-induced myoglobin release (2070 ± 511 vs. 2110 ± 567, n = 6 probes each). In conclusion, mild hypothermia does not make the myocardium resistant to cellular stresses such as chemical anoxia and forced Ca overload.