Pavol ŠvorcJr’s research while affiliated with University of Ostrava and other places

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Publications (7)


Trends in Medicine
  • Article
  • Full-text available

February 2022

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82 Reads

Trends in Medicine

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Pavol ŠvorcJr

Introduction: The primary objective of this study was to determine the impact of spectral powers of heart rate variability (HRV) on changes in heart rate (HR), total spectral power of HRV, and low-frequency (LF)/high-frequncy (HF) ratio in healthy, sexually mature rats of both sexes spontaneously breathing under zoletil anesthesia in the light (inactive) and the dark (active) period of their regimen day. Material and methods: Experiments were performed using male and female zoletil-anesthetized (30 mg/kg [intraperitoneal]) Wistar rats after a four-week adaptation to a light-dark (LD) cycle (12h:12h). The animals were divided into four experimental groups (n=20 each) according to sex and light period. HR, spectral powers of HRV (very low frequency, LF, and HF), as well as LF/HF ratio were evaluated 20 min after administration of anesthesia. Results and conclusions: Zoletil exerted a tachycardic effect in both sexes and in both light periods of the regimen day. In females, the autonomic nervous system was involved in HR changes in both light periods, while in males, HR exhibited no dependence on autonomic nervous system activity; as such, the authors speculate that it was predominantly determined by other factors. In females, HRV was determined by sympathetic and baroreflex activity in both light periods, while in males, HRV was determined by parasympathetic activity. LF significantly influenced LF/HF ratio in females, but not in males, while the effect of HF on the LF/HF ratio was negligible in both sexes and in both light periods.

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Issue 2 | 1 of 6 Anesth Pain Res

February 2022

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17 Reads

Background: It is known that general anesthesia weakens autonomic function and baroreflex control. Intravenous anesthetics may have different qualitative and quantitative effects on the peripheral autonomic nervous system (ANS) and, can thus, alter the activity of sympathetic or parasympathetic divisions of the ANS. Presently, there are relatively little data regarding sex differences in ANS activity or sex differences in ANS activities during anesthesia. The primary goal of the present study was to assess sex differences in ANS activity in dependence on the light-dark (LD) cycle in healthy, sexually mature, spontaneously breathing zoletil-anesthetized rats.


Academia Letters, Article 3136.

February 2022

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18 Reads

Background: It is known that general anesthesia weakens autonomic function and baroreflex control. Intravenous anesthetics may have different qualitative and quantitative effects on the peripheral autonomic nervous system (ANS) and, can thus, alter the activity of sympathetic or parasympathetic divisions of the ANS. Presently, there are relatively little data regarding sex differences in ANS activity or sex differences in ANS activities during anesthesia. The primary goal of the present study was to assess sex differences in ANS activity in dependence on the light-dark (LD) cycle in healthy, sexually mature, spontaneously breathing zoletil-anesthetized rats.


Chapter 2 Study on Heart rate Variability and Heart Rate under General Anesthesia in Rats of Both Sexes

February 2022

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74 Reads

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1 Citation

Objectives: It is known that general anesthesia weakens autonomic function and baroreflex control. Intravenous anesthetics may have different qualitative and quantitative effects on the peripheral autonomic nervous system (ANS) and, can thus, alter the activity of sympathetic or parasympathetic divisions of the ANS. Presently, there are relatively little data regarding sex differences in ANS activity or sex differences in ANS activities during anesthesia. Aims: The primary objective of this study was to determine the impact of spectral powers of heart rate variability (HRV) on changes in heart rate (HR), total spectral power of HRV, and low-frequency (LF)/high-frequncy (HF) ratio in healthy, sexually mature rats of both sexes spontaneously breathing under zoletil anesthesia in the light (inactive) and the dark (active) period of their regimen day. Materials and Methods: Experiments were performed using male and female zoletil-anesthetized (30 mg/kg [intraperitoneal]) Wistar rats after a four-week adaptation to a light-dark (LD) cycle (12h:12h). The animals were divided into four experimental groups (n=20 each) according to sex and light period. HR, spectral powers of HRV (very low frequency, LF, and HF), as well as LF/HF ratio were evaluated 20 min after administration of anesthesia. Results and Conclusions: Zoletil exerted a tachycardic effect in both sexes and in both light periods of the regimen day. In females, the autonomic nervous system was involved in HR changes in both light periods, while in males, HR exhibited no dependence on autonomic nervous system activity; as such, the authors speculate that it was predominantly determined by other factors. In females, HRV was determined by sympathetic and baroreflex activity in both light periods, while in males, HRV was determined by parasympathetic activity. LF significantly influenced LF/HF ratio in females, but not in males, while the effect of HF on the LF/HF ratio was negligible in both sexes and in both light periods.



Figure 2: Total spectral power of heart rate variability (HRV) in female and male Wistar rats in the light and dark period of the regimen day. Hollow bars represent the light and solid bars represent the dark period of the regimen day. *p < 0.05; ***p < 0.001 statistically significant differences between sexes in both light periods of the rat regimen day; ###p < 0.001 statistically significant light-dark differences in the same sex.
Figure 3: Low frequency (LF)/high frequency (HF) ratio in female and in male Wistar rats in the light and in the dark periods of the regimen day. Hollow bars represent the light and the solid bars represent the dark period of the rat regimen day. *p < 0.05; **p < 0.01 statistically significant differences between the sexes in both light periods of the rat regimen day, ##p < 0.01 statistically significant light-dark differences in the same sex.
Sex Differences in HRV Under General Anesthesia in Rat Model

September 2020

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103 Reads

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3 Citations

Anesthesia & Pain Research


Figure 2: Total spectral power of heart rate variability (HRV) in female and male Wistar rats in the light and dark period of the regimen day. Hollow bars represent the light and solid bars represent the dark period of the regimen day. *p < 0.05; ***p < 0.001 statistically significant differences between sexes in both light periods of the rat regimen day; ###p < 0.001 statistically significant light-dark differences in the same sex.
Figure 3: Low frequency (LF)/high frequency (HF) ratio in female and in male Wistar rats in the light and in the dark periods of the regimen day. Hollow bars represent the light and the solid bars represent the dark period of the rat regimen day. *p < 0.05; **p < 0.01 statistically significant differences between the sexes in both light periods of the rat regimen day, ##p < 0.01 statistically significant light-dark differences in the same sex.
Issue 1 | 1 of 6 Anesth Pain Res

June 2020

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86 Reads

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Assoc Prof

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Pavol Švorc

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[...]

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Pavol Švorcjr

Background: It is known that general anesthesia weakens autonomic function and baroreflex control. Intravenous anesthetics may have different qualitative and quantitative effects on the peripheral autonomic nervous system (ANS) and, can thus, alter the activity of sympathetic or parasympathetic divisions of the ANS. Presently, there are relatively little data regarding sex differences in ANS activity or sex differences in ANS activities during anesthesia. The primary goal of the present study was to assess sex differences in ANS activity in dependence on the light-dark (LD) cycle in healthy, sexually mature, spontaneously breathing zoletil-anesthetized rats.

Citations (1)


... On the other hand, on obtaining results from in vivo experiments in rats, errors in general interpretation may arise due to differences related to sex, and these discrepancies occur not only in behavioral studies [22][23][24]. Furthermore, there are also sex-dependent differences in drug metabolism and the action of liver enzymes [25], in the internal environment [26], in the activity of the ANS and cardiovascular system [27,28], and most probably, in other functions as well. ...

Reference:

The Autonomic Nervous System, Sex Differences, and Chronobiology under General Anesthesia in In Vivo Experiments Involving Rats
Sex Differences in HRV Under General Anesthesia in Rat Model

Anesthesia & Pain Research