Respiratory Responses to Stimulation of Temporal Pole, Insula, and Hippocampal and Limbic Gyri in Man

Kaada, B

doi:10.1001/archneurpsyc.1952.02320230035004

Cited by 149 publications

(94 citation statements)

References 13 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…8,9 Spontaneous ictal events originating from limbic regions may also cause apneic episodes. 10 Limbic localization for apneic seizures has been suggested by Nelson et al, 10 who summarized observations and experimental stimulation studies implicating seizure discharges in the limbic system as the cause of respiratory arrest; however, the discharges need not be temporal in focus.…”

Section: Discussionmentioning

confidence: 99%

Apnea Caused by Mesial Temporal Lobe Mass Lesions in Infants: Report of 3 Cases

et al. 2007

View full text Add to dashboard Cite

Apnea as an isolated manifestation of seizures is well described in neonates but is only occasionally observed in infants. This article reports 3 infants presenting with apneic events as the main manifestation of seizure, documented by video electroencephalogram, all with mesial temporal lobe lesions. The 3 infants, after normal pregnancy and delivery at term, showed the first apnea at the age of 4 to 10 months. Although the interictal electroencephalogram result was often normal, ictal video electroencephalogram in all infants showed focal rhythmic discharges with or without generalization. Magnetic resonance imaging showed an inferior mesial temporal lobe mass lesion in all infants. All patients underwent lesion removal, and they are seizure free with normal psychomotor development.

show abstract

Section: Discussionmentioning

confidence: 99%

Apnea Caused by Mesial Temporal Lobe Mass Lesions in Infants: Report of 3 Cases

et al. 2007

View full text Add to dashboard Cite

show abstract

“…There is little information at present on the nature of cortical control that the diaphragm has and on the path ways that could mediate such an action. Although stim ulation of some cerebral areas, especially the anterior insular cortex, has been reported to produce arrest of breathing [2] laryngeal, truncal and abdominal move ments [8], as well as a contralateral 'costal margin sensa tion' [6] the motility of the diaphragm was not assessed in these experiments. Our findings might suggest a role in the control of diaphragmatic movement by efferents travelling in the genu of the contralateral internal cap sule and/or the nearest anterolateral area.…”

Section: Discussionmentioning

confidence: 99%

Diaphragmatic Elevation in Stroke

Santamaría

Ruiz²

1988

Eur Neurol

View full text Add to dashboard Cite

We compared the relative elevations of the two diaphragms in the supine chest films of 62 patients with recent hemiparesis due to a supratentorial stroke with that of 92 acute coronary patients without neurologic disease. Patients with severe hemiparesis or lesions larger than 40 ml exhibited an excessive elevation of the diaphragm on the paretic side compared with controls. This finding was more common with lesions involving the genu of the internal capsule and/or the near anterolateral area. Measurement of the interdiaphragmatic elevation difference may give information on the location and/or size of the stroke.

show abstract

“…Also, electrical stimulation of the ventral HC depressed cardiovascular activation but only when the MPFC was intact (Ruit and Neafsey, 1990). Additionally, electrical stimulation of the CA1 region of the HC in anesthetized rats elicited a variety of visceral or autonomic modifications, such as decreases in heart rate and increases in pulse pressure (Anand and Dua, 1956;Andy and Akert, 1955;Kaada, 1951;Kaada and Jasper, 1952). To test the hypothesis of HC involvement in cardiovascular adjustments at the exercise onset, Norton et al (2013) used fMRI methods and studied individuals from 18 to 80 years of age during moderate, short-duration 40% maximal strength handgrip tasks.…”

Section: Section 1: Overviewmentioning

confidence: 99%