Submit or Track your Manuscript LOG-IN

Interaction Effect of Social Isolation and Taurine Doses on in vivo Cardiac Electrical Activity in Rat

Interaction Effect of Social Isolation and Taurine Doses on in vivo Cardiac Electrical Activity in Rat

Chinar Mustafa Mohammed1*, Thamer M. Bashir1, Omar A.M. Al-Habib2, Farhad Ramadhan1, Mohammed Bassam1

1Department of Biology, Faculty of Science, University of Zakho, Zakho, Kurdistan Region, Iraq; 2College of Science, Nawroz University, Duhok, Kurdistan Region, Iraq.

 
*Correspondence | Chinar Mustafa Mohammed, Department of Biology, Faculty of Science, University of Zakho, Zakho, Kurdistan Region, Iraq; Email: [email protected]

Figure 1:

The effects of social isolation on rat weight in comparison to control. Data are expressed as Median ± interquartile range.

Figure 2:

The effects of taurine infusion (1mg/kg, 2.5mg/kg, and 10mg/kg) on heart rate in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 3:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on JT Interval in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± Interquartile range.

Figure 4:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on QT interval in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median±interquartile range.

Figure 5:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on QTc interval in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 6:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on QRS interval in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 7:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on ST height in Social isolation-induced cardiac arrhythmia in male albino rats. A significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 8:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on RR interval in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 9:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr and 10mg/kg/hr) on P duration in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 10:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on P amplitude in Social isolation-induced cardiac arrhythmia in male albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Figure 11:

The effects of Taurine infusion (1mg/kg/hr, 2.5mg/kg/hr, and 10mg/kg/hr) on PR interval in Social isolation-induced cardiac arrhythmia in male’s albino rats. No significant difference was observed between the groups. Data are expressed as Median ± interquartile range.

Advances in Animal and Veterinary Sciences

December

Vol. 12, Iss. 12, pp. 2301-2563

Featuring

Click here for more

Subscribe Today

Receive free updates on new articles, opportunities and benefits


Subscribe Unsubscribe