Warming and response to contractile agents in calf cardiac vein: role of the Ca2+, KCa2+, and Na+ ion channel blockers.

@article{Atalk2005WarmingAR,
  title={Warming and response to contractile agents in calf cardiac vein: role of the Ca2+, KCa2+, and Na+ ion channel blockers.},
  author={Kısmet Esra Nurullahoğlu Atalık and Ayse Saide Sahin and Necdet Doğan},
  journal={Methods and findings in experimental and clinical pharmacology},
  year={2005},
  volume={27 9},
  pages={
          653-7
        },
  url={https://api.semanticscholar.org/CorpusID:24909666}
}
The results of this study suggest the role for Ca2+ and Na+ ions in the warming-induced changes of cardiac vein treated with 5-HT and carbachol.
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4 Citations
Background Citations
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4 Citations

Role of calcium in contractile responses of calf cardiac vein during cooling.

It is suggested that Ca(2+) plays an essential role in the cooling-induced changes of calf cardiac vein preparations treated with carbachol and 5-HT.

The role of phosphodiesterase activity on the temperature-dependent responses of calf cardiac vein.

It is suggested that PDE activity plays an essential role in cooling-and warming-induced changes of calf cardiac vein treated with carbachol, and Cooling to 28 and warming to 41 °C, after treatment with IBMX, cilostazol or rolipram significantly decreased the sensitivity tocarbachol.

Role of the nitric oxide on rosuvastatin-induced relaxation of the calf cardiac vein during cooling.

The results of the present study suggested that nitric oxide played an essential role in the cooling-induced changes of rosuvastatin in calf cardiac vein.

Agomelatine-induced responses in rat aorta

The results indicate that nitric oxide, Ca2+-activated K+ channels and also phosphodiesterase played role in agomelatine-induced relaxation.