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Background and Objective: Electromagnutic field of cell Phones may affect the biological systems. This study was done to evaluate the effect of electromagnutic field of mobile phones on blood pressure, heart rate and arytmia on students of Kurdistan University of Medical Science, in West of Iran. Materials and Methods: In a randomized, double-blind clinical Trial, 56 young healthy volunteers with 20-30 years age were divided in two groups: expousure (n=27) and control (n=29). Cell phone was kept in front of the heart. Non functional cell phone was used in the control group. Systolic and diastolic blood pressure, heart rate and basic ECG were recorded. The Parameters were recorded in stage one (before set on cell phone), stage two (the first 5minutes), stage three (6minutes,with silent ringing), stage four (after 17min conection) and stage five (after 35 min conection). In all Stages, it was evaluated by cardiac monitoring (Lead2) for the presence of (sinus arryhthmia, sinus bradycardia, SA block, AV block, PAC and PVC). Results: Systolic and diastolic blood pressure and heart rate did not show to have any significant differences between two groups in any stages. Rate of sinus arryhthmia was higher in expousure group at stages four and five, but only in stage four, this difference was shown to be significant (P<0.05). Conclusion: The findings of this study showed that, electromagnetic of cellular phone cause sinus arryhthmia after 17 minute connection, to prevent the side effect of cell phone, we suggest that, cell phone set distant away from heart and reduce the connection time.

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Background and Objective: Electroconvulsive therapy (ECT) is one of the most common methods in treatment of different types of psychological disorder. The effectiveness of this therapy has a direct relation with the duration of convulsion. This study was conducted to assess the effect of lidocaine on duration of seizure and hemodynamic alterations in electroconvulsive therapy. Materials and Methods: This clinical trial study was conducted on 72 ASA-I, II patients with psychotic disorders in Hajar Medical Center in Shahrekord, Iran during 2010. The patients randomly divided into intervention and control group. The interventional group was received 1.5 mg/kg lidocaine and controls were received normal saline. For induction of anesthesia, all patients were received Sodium Thiopental (2mg/kg), Succinylcholine (1mg/kg) and Atropine (0.5mg) Propofol and Succinylcholine during 72 sessions of ECT. Duration of objective convulsion and hemodynamic alterations including blood pressure and heart rate were recorded (before, immediately and 3, 5 minutes after ECT). Data were analyzed using SPSS-11.5 and t-test. Results: Systolic and diastolic blood pressures and heart rate in 3rd minutes in interventional group following electroconvulsive therapy were 143.38±16 mmHg, 79.86±6.7 mmHg, 91.9±9.9 mmHg, respectively and in controls were 128.88±13.04 mmHg, 87.63±5.79 mmHg and 102.86±13 mmHg, respectively. These difference were significant (P<0.05). The above-mentioned indices for 5th minutes in intervention and controls were as follow: systolic (113.47±9.97 mmHg, 122.36±13 mmHg), diastolic (73.47±4.27 mmHg, 77.63±6.26 mmHg) heart rate (84.41±4.6 in minute, 93.19±12.53 in minute). These differences in above indices were significant (P<0.05). Conclusion: This study showed that lidocaine administration during electroconvulsive therapy increase the duration of convulsion and reduces heart rate and blood pressure.

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Background and Objective: Fetal heart pattern is one of the most important criteria in non stress test. This study was done to compare the effect of two anxiety- reducing methods, maternal relaxation and fetal-maternal attachment skills training on the prevalence of sporadic fetal heart decelerations and heart beat variability. Methods: In this clinical trial study, 126 pregnant women were randomly divided into three groups including teaching relaxation, maternal-fetal attachment skills and controls. Training was done for four weeks. NST was performed 30 minutes before of traning and after 4th week of training in the interventional groups. In the control group, NST was done in the 4th week. Cranley scale was filled at the end of the study. Results: The prevalence of sporadic deceleration in attachment skills, relaxation and control groups before intervention was 23.8%, 19% and 21.4%, respectively. After the intervention, the prevalence of sporadic deceleration in attachment skills group non-significantly changed to 11.9%. After the intervention the prevalence of sporadic deceleration in the relaxation group significantly changed to 4.8% (P<0.05). Conclusion: Maternal relaxation training decreased the prevalence of sporadic fetal heart decelerations, and enhances fetal heart beat variability.

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Background and Objective: Aging reduces cardiac autonomic function parameters such as heart rate response to exercise and heart rate recovery after physical activity. This study aimed to determine the parasympathetic nerves reactivation after upper body exercise among young and middle-aged men.
Methods: In this quasi-experimental study 24 active men based on their age were divided into two groups including 30-35 (young) and 55-60 years old men (middle-aged). Participants performed upper body exercise on a Monark arm ergometer. During the test, heart rate was recorded continuously by electrocardiogram. Also, participants' heart rate was recorded for 10 minutes after completion of the test. In order to measure the time domain parameters of heart rate variability (PNN50 and RMSSD), one-minute successive RR waves intervals collected in 5 minutes and 10 minutes after the completion of the test and then were transmitted to the heart rate variability software for analysis. Also, heart rate recovery was measured in one minute and two minutes after the test by the difference between the maximum heart rate during the test with heart rate in one and two minutes after the completion of the test.
Results: There was a significant difference between PNN50 in minutes 5 and 10 after the test in young men (P<0.05). Young men also had higher values of RMSSD in minutes 5 and 10 compared to middle-aged men. The heart rate recovery in the 2 minutes after test was significantly higher than 1 minute after test in both groups (P<0.05). Heart rate recovery was higher in young people than in middle-aged people at 5 and 10 minutes after high-intensity exercise due to faster withdrawal of sympathetic nerves.
Conclusion: Changes in the autonomic nervous system is dependent on the type, duration of activity, and the age of the participants.