Publications by authors named "Eric Renaghan"
Background: Traditional electrocardiography (ECG)-derived heart rate variability (HRV) and photoplethysmography (PPG)-derived "HRV" (termed PRV) have been reported interchangeably. Any potential dissociation between HRV and PRV could be due to the variability in pulse arrival time (PAT; time between heartbeat and peripheral pulse).
Objective: This study examined if PRV is equivalent to ECG-derived HRV and if PRV's innate error makes it a high-quality measurement separate from HRV.
Sport coaches increasingly rely on external load metrics for designing effective training programs. However, their accuracy in estimating internal load is inconsistent, and their ability to predict autonomic nervous system (ANS) deterioration is unknown. This study aimed to evaluate the relationships between internal and external training load metrics and ANS recovery and function in college football players.
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- Exercise in higher core temperatures can negatively impact the autonomic nervous system (ANS) function, particularly with longer training durations.
- The study tracked 50 Division I collegiate football players to analyze correlations between training duration and ANS recovery at core temperatures of ≥37 °C, ≥38 °C, and ≥39 °C.
- Significant negative associations were found between training duration and ANS metrics like heart rate recovery and heart rate variability (HRV) as core temperatures increased, indicating that hotter conditions worsen ANS recovery.
Background: Evidence shows relaxation techniques reactivate the parasympathetic nervous system (PNS) following physiological stressors such as exercise. As such, these techniques may be useful following exercise training of high intensity sports, like collegiate football.
Purpose: To evaluate the impact of mindfulness and rest activities on PNS reactivation following training sessions, in a sample of Division-I collegiate, male football athletes.
Current metrics like baseline heart rate (HR) and HR recovery fail in predicting overtraining (OT), a syndrome manifesting from a deteriorating autonomic nervous system (ANS). Preventing OT requires tracking the influence of internal physiological loads induced by exercise training programs on the ANS. Therefore, this study evaluated the predictability of a novel, exercise cardiac load metric on the deterioration of the ANS.
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- The autonomic nervous system (ANS) is crucial for athletes' performance, and insufficient recovery during training can hurt their performance.
- A study tracked collegiate football players over 13 weeks, using armband monitors to assess their exercise cardiac load (ECL), heart rate (HR), and heart rate variability (HRV) to gauge ANS function and recovery.
- Findings revealed that higher ECLs negatively impacted running speed, while better HRV was linked to improved speed, suggesting that managing training intensity and recovery is essential for optimal performance during the season.
The autonomic nervous system (ANS) is profoundly affected by high intensity exercise. However, evidence is less clear on ANS recovery and function following prolonged bouts of high intensity exercise, especially in non-endurance athletes. Therefore, this study aimed to investigate the relationships between duration and intensity of acute exercise training sessions and ANS recovery and function in Division I football athletes.
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