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Impact of Panic Attacks on Bronchoconstriction and Subjective Distress in Asthma Patients With and Without Panic Disorder.

Author(s): Boudreau M, Bacon SL, Paine NJ, Cartier A, Trutschnigg B, Morizio A, Lavoie KL

Psychosom Med. 2017 Jun;79(5):576-584 Authors: Boudreau M, Bacon SL, Paine NJ, Cartier A, Trutschnigg B, Morizio A, Lavoie KL

Article GUID: 28033197
Title:Impact of Panic Attacks on Bronchoconstriction and Subjective Distress in Asthma Patients With and Without Panic Disorder.
Authors:Boudreau MBacon SLPaine NJCartier ATrutschnigg BMorizio ALavoie KL
Link:https://www.ncbi.nlm.nih.gov/pubmed/28033197?dopt=Abstract
Category:Psychosom Med
PMID:28033197
Dept Affiliation: HKAP
1 From the Montreal Behavioural Medicine Centre (Boudreau, Bacon, Paine, Trutschnigg, Morizio, Lavoie), Hôpital du Sacré-Cœur de Montréal-CIUSSS-NIM, Montréal, Québec, Canada; Department of Psychology (Boudreau, Lavoie), University of Quebec at Montreal, Montreal, Quebec, Canada; Department of Exercise Science (Bacon, Paine, Morizio), Concordia University, Montreal, Quebec, Canada; and Research Center (Boudreau, Bacon, Cartier, Trutschnigg, Lavoie), Hôpital du Sacré-Coeur de Montréal-CIUSSS-NIM, Montréal, Québec, Canada.

Description:

Impact of Panic Attacks on Bronchoconstriction and Subjective Distress in Asthma Patients With and Without Panic Disorder.

Psychosom Med. 2017 Jun;79(5):576-584

Authors: Boudreau M, Bacon SL, Paine NJ, Cartier A, Trutschnigg B, Morizio A, Lavoie KL

Abstract

OBJECTIVE: Panic disorder (PD) is common among asthma patients and is associated with worse asthma outcomes. This may occur because of psychophysiological factors or cognitive/affective factors. This study evaluated the impact of panic attacks (PAs) on bronchoconstriction and subjective distress in people who have asthma with and without PD.

METHODS: A total of 25 asthma patients (15 with PD who had a PA [PD/PA], 10 without PD who did not have a PA [no PD/no PA]) were recruited from an outpatient clinic. They underwent a panic challenge (one vital capacity inhalation of 35% carbon dioxide [CO2]) and completed the Panic Symptom Scale, the Subjective Distress Visual Analogue Scale, and the Borg Scale before and after CO2. Forced expiratory volume in 1 second was assessed pre- and post-CO2; respiratory (i.e., CO2 production, minute ventilation, tidal volume) was continuously recorded, and physiological measures (i.e., systolic and diastolic blood pressure [SBP/DBP]) were recorded every 2 minutes.

RESULTS: Analyses adjusting for age, sex, and provocative concentration of methacholine revealed no significant differences between groups in forced expiratory volume in 1 second change after CO2 inhalation (F(1, 23) < 0.01, p = .961). However, patients with PD/PA reported more panic (F(1, 22) = 18.10, p < .001), anxiety (F(1, 22) = 21.93, p < .001), worry (F(1, 22) = 26.31, p < .001), and dyspnea (F(1,22) = 4.68, p = .042) and exhibited higher levels of CO2 production (F(1, 2843) = 5.89, p = .015), minute ventilation (F(1, 2844) = 4.48, p = .034), and tidal volume (F(1, 2844) = 4.62, p = .032) after the CO2 challenge, compared with patients with no PD/no PA.

CONCLUSIONS: Results, presented as hypothesis generating, suggest that asthma patients with PD/PA exhibit increased panic-like anxiety, breathlessness, and a respiratory pattern consistent with hyperventilation that was not linked to statistically significant drops in bronchoconstriction.

PMID: 28033197 [PubMed - indexed for MEDLINE]