Frederick Starr
Pioneer in Neurofeedback and QEEGMedical Doctor/Child PsychiatristUSA Patent Holder in EEGPolymathDevoted Husband and FatherOcean Sports Expert and Avid WatermanAvant-garde Spirit
Address: San José, San José, Costa Rica
Address: San José, San José, Costa Rica
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Neurofeedback: The First Fifty Years features broadly recognized pioneers in the field sharing their views and contributions on the history of neurofeedback. With some of the pioneers of neurofeedback already passed on or aging, this book brings together the monumental contributions of renowned researchers and practitioners in an unprecedented, comprehensive volume. With the rapid and exciting advances in this dynamic field, this information is critical for neuroscientists, neurologists, neurophysiologists, cognitive and developmental psychologists and other practitioners, providing a clear presentation of the frontiers of this exciting and medically important area of physiology.
Study objective: Impaired cardiac and respiratory responses during active tonic-clonic convulsions (ictal periods) may contribute to complications during seizures. This study characterized physiologic parameters in two pentylenetetrazol (PTZ)-induced seizure models.
Participants: Twelve spontaneously breathing piglets.
Interventions: Under ketamine anesthesia, a tracheostomy was performed, and an arterial catheter and epidural electrodes were inserted. Piglets received a PTZ bolus (100 mg/kg), with (six; 5 mg/kg/min) or without (six) an infusion of PTZ for 20 minutes.
Measurements and main results: Arterial blood gases, mean arterial pressure, heart rate, tidal volume, and EEG waveforms were measured. Ictal periods had high-amplitude, synchronized EEG activity; interictal periods had EEG suppression. Seizure duration (24 +/- 3.5 versus 11 +/- 3.8 minutes; mean +/- SD) was significantly increased in the infusion group (P < .05). Significant increases in heart rate, minute ventilation, and base deficit plus decreases in pH occurred in both groups during seizures compared with baseline (P < .05). The duration and severity of metabolic acidosis were greater in the infusion group. During the first ten minutes of seizures, ten-second epochs were compared: beginning of ictal period, end of same ictal period, beginning of accompanying interictal period, and end of same interictal period. Respiratory rate decreased during initial interictal (65 +/- 40) more than latter ictal more than latter interictal period, compared with initial ictal period (194 +/- 65; P < .001). Tidal volume increased during latter ictal more than latter interictal more than initial ictal period (33 +/- 11), but the greatest increases occurred during initial interictal period (140 +/- 55; P < .001).
Conclusion: This model demonstrates significant increases in the duration and various measures of seizure severity in piglets given a PTZ infusion compared with those receiving a bolus alone. Systematic alterations in respiratory but not cardiac responses occur during ictal-interictal cycling of PTZ-induced seizures.
Neurofeedback: The First Fifty Years features broadly recognized pioneers in the field sharing their views and contributions on the history of neurofeedback. With some of the pioneers of neurofeedback already passed on or aging, this book brings together the monumental contributions of renowned researchers and practitioners in an unprecedented, comprehensive volume. With the rapid and exciting advances in this dynamic field, this information is critical for neuroscientists, neurologists, neurophysiologists, cognitive and developmental psychologists and other practitioners, providing a clear presentation of the frontiers of this exciting and medically important area of physiology.
Study objective: Impaired cardiac and respiratory responses during active tonic-clonic convulsions (ictal periods) may contribute to complications during seizures. This study characterized physiologic parameters in two pentylenetetrazol (PTZ)-induced seizure models.
Participants: Twelve spontaneously breathing piglets.
Interventions: Under ketamine anesthesia, a tracheostomy was performed, and an arterial catheter and epidural electrodes were inserted. Piglets received a PTZ bolus (100 mg/kg), with (six; 5 mg/kg/min) or without (six) an infusion of PTZ for 20 minutes.
Measurements and main results: Arterial blood gases, mean arterial pressure, heart rate, tidal volume, and EEG waveforms were measured. Ictal periods had high-amplitude, synchronized EEG activity; interictal periods had EEG suppression. Seizure duration (24 +/- 3.5 versus 11 +/- 3.8 minutes; mean +/- SD) was significantly increased in the infusion group (P < .05). Significant increases in heart rate, minute ventilation, and base deficit plus decreases in pH occurred in both groups during seizures compared with baseline (P < .05). The duration and severity of metabolic acidosis were greater in the infusion group. During the first ten minutes of seizures, ten-second epochs were compared: beginning of ictal period, end of same ictal period, beginning of accompanying interictal period, and end of same interictal period. Respiratory rate decreased during initial interictal (65 +/- 40) more than latter ictal more than latter interictal period, compared with initial ictal period (194 +/- 65; P < .001). Tidal volume increased during latter ictal more than latter interictal more than initial ictal period (33 +/- 11), but the greatest increases occurred during initial interictal period (140 +/- 55; P < .001).
Conclusion: This model demonstrates significant increases in the duration and various measures of seizure severity in piglets given a PTZ infusion compared with those receiving a bolus alone. Systematic alterations in respiratory but not cardiac responses occur during ictal-interictal cycling of PTZ-induced seizures.