Oleg Broytman scite author profile

Background Obstructive sleep apnea (OSA) may worsen asthma, but large studies are lacking and the underlying mechanisms are unknown. Objective Determine the prevalence of OSA risk among patients with asthma of different severity compared to normal controls (NC), and among asthmatics, test the relationship of OSA risk with asthma burden and airway inflammation. Methods Subjects with severe (SA, n=94) and non-severe asthma (NSA, n=161), and NC (n=146) were recruited in an add-on sub-study, to the observational Severe Asthma Research Program (SARP) II; subjects completed sleep quality, sleepiness and OSA risk (Sleep Apnea scale of the Sleep Disorders Questionnaire [SA-SDQ]) questionnaires and clinical assessments. Sputum was induced in a subset of asthmatics. Results Relative to NC, despite similar sleep duration, the SA and NSA subjects had worse sleep quality, were sleepier and had higher SA-SDQ scores. Among asthmatics, higher SA-SDQ was associated with increased asthma symptoms, β-agonist use, health care utilization, and worse asthma quality of life. Significant association of SA-SDQ with sputum polymorphonuclear cells% was noted: each increase in SA-SDQ by its standard deviation (6.85 units) was associated with a rise in % sputum neutrophils of 7.78 (95 % CI 2.33-13.22, p = 0.0006), independent of obesity and other confounders. Conclusions OSA symptoms are more prevalent among asthmatics, in whom they are associated with higher disease burden. OSA risk is associated with a neutrophilic airway inflammation in asthma, suggesting that OSA may be an important contributor to the neutrophilic asthma. Further studies are necessary to confirm these findings and better understand the mechanistic underpinnings of this relationship.

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Spinal Atypical Protein Kinase C Activity Is Necessary to Stabilize Inactivity-Induced Phrenic Motor Facilitation

Strey

Nichols

Baertsch

et al. 2012

J. Neurosci.

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The neural network controlling breathing must establish rhythmic motor output at a level adequate to sustain life. Reduced respiratory neural activity elicits a novel form of plasticity in circuits driving the diaphragm known as inactivity-induced phrenic motor facilitation (iPMF), a rebound increase in phrenic inspiratory output observed once respiratory neural drive is restored. The mechanisms underlying iPMF are unknown. Here, we demonstrate in anesthetized rats that spinal mechanisms give rise to iPMF, and that iPMF consists of at least two mechanistically distinct phases: 1) an early, labile phase that requires atypical PKC (PKCζ and/or PKCΙ/λ) activity to transition to a 2) late, stable phase. Early (but not late) iPMF is associated with increased interactions between PKCζ/Ι and the scaffolding protein ZIP/p62 in spinal regions associated with the phrenic motor pool. Although PKCζ/Ι activity is necessary for iPMF, spinal aPKC activity is not necessary for phrenic long-term facilitation (pLTF) following acute intermittent hypoxia, an activity-independent form of spinal respiratory plasticity. Thus, while iPMF and pLTF both manifest as prolonged increases in phrenic burst amplitude, they arise from distinct spinal cellular pathways. Our data are consistent with the hypotheses that: 1) local mechanisms sense and respond to reduced respiratory-related activity in the phrenic motor pool, and 2) inactivity-induced increases in phrenic inspiratory output require local PKCζ/Ι activity to stabilize into a long-lasting iPMF. Although the physiological role of iPMF is unknown, we suspect that iPMF represents a compensatory mechanism, assuring adequate motor output in a physiological system where prolonged inactivity ends life.

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Effects of Chronic Intermittent Hypoxia on Allergen-Induced Airway Inflammation in Rats

Broytman

Braun

Morgan

et al. 2015

Am J Respir Cell Mol Biol

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Obstructive sleep apnea aggravates asthma, but its mechanisms are unknown. Chronic intermittent hypoxia is one hallmark feature of sleep apnea. In this study, we tested the effects of chronic intermittent hypoxia on allergen-induced inflammation in rats. Four groups (n = 9-11/group) of ovalbumin (OVA)-sensitized Brown-Norway rats underwent intermittent hypoxia (10% oxygen, 30 cycles/h, 10 h/d) or normoxia for 30 days concurrent with weekly OVA or vehicle challenges. Lung physiology, differential leukocyte counts from bronchoalveolar lavage, and histology (Picro Sirius Red staining for collagen content) were compared between groups 2 days after the last challenge. Gene expression in bronchoalveolar lavage cells was quantified by quantitative PCR. Compared with normoxia, chronic intermittent hypoxia reduced the FEV0.1/FVC ratio (P = 0.005), peak expiratory flow (P = 0.002), and mean midexpiratory flow (P = 0.004), predominantly in medium and large airways; decreased the baseline eosinophil number (P = 0.01) and amplified the effect of OVA on monocyte number (P = 0.02 for the interaction); in proximal airways, increased (P = 0.008), whereas in distal airways it decreased (P = 0.004), collagen density; induced qualitative emphysematous changes in lung periphery; and increased expression of the M2 macrophage marker YM-1 and augmented OVA-induced expression of plasminogen activator inhibitor-1. Chronic intermittent hypoxia alters immune response to allergen toward a more TH-1-predominant cellular phenotype with collagen deposition and matrix degradation, leading to airflow limitation. These findings highlight the potential of sleep apnea to aggravate airway dysfunction in patients with preexistent asthma.

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Oleg Broytman

Obstructive Sleep Apnea Risk, Asthma Burden, and Lower Airway Inflammation in Adults in the Severe Asthma Research Program (SARP) II

Spinal Atypical Protein Kinase C Activity Is Necessary to Stabilize Inactivity-Induced Phrenic Motor Facilitation

Effects of Chronic Intermittent Hypoxia on Allergen-Induced Airway Inflammation in Rats

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