Daniel O’Hearn scite author profile

SummaryAllergic asthma is characterized by airway hyperresponsiveness and pulmonary eosinophilia, and may be mediated by T helper (Th) lymphocytes expressing a Th2 cytokine pattern. Interleukin (IL) 12 suppresses the expression of Th2 cytokines and their associated responses, including eosinophilia, serum immunoglobulin E, and mucosal mastocytosis. We have previously shown in a routine model that antigen-induced increases in airway hyperresponsiveness and pulmonary eosinophilia are CD4 + T cell dependent. We used this model to determine the ability of IL-12 to prevent antigen-induced increases in airway hyperresponsiveness, bronchoalveolar lavage (BAL) eosinophils, and lung Th2 cytokine expression. Sensitized A/J mice developed airway hyperresponsiveness and increased numbers of BAL eosinophils and other inflammatory cells after single or repeated intratracheal challenges with sheep red blood cell antigen. Pulmonary mKNA and protein levels of the Th2 cytokines IL-4 and IL-5 were increased after antigen challenge. Administration oflL-12 (1 p,g/d • 5 d) at the time of a single antigen challenge abolished the airway hyperresponsiveness and pulmonary eosinophilia and promoted an increase in interferon (IFN) ~ and decreases in IL-4 and IL-5 expression. The effects of IL-12 were partially dependent on IFN-3~, because concurrent treatment with IL-12 and anti-IFN-~/monoclonal antibody partially reversed the inhibition of airway hyperresponsiveness and eosinophilia by IL-12. Treatment of mice with IL-12 at the time of a second antigen challenge also prevented airway hyperresponsiveness and significantly reduced numbers of BAL inflammatory cells, reflecting the ability of IL-12 to inhibit responses associated with ongoing antigen-induced pulmonary inflammation. These data show that antigen-induced airway hyperresponsiveness and inflammation can be blocked by IL-12, which suppresses Th2 cytokine expression. Local administration of IL-12 may provide a novel immunotherapy for the treatment of pulmonary allergic disorders such as atopic asthma.

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Consumer Sleep Technology: An American Academy of Sleep Medicine Position Statement

Khosla¹,

Deak²,

Gault

et al. 2018

Journal of Clinical Sleep Medicine

177

116

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Consumer sleep technologies (CSTs) are widespread applications and devices that purport to measure and even improve sleep. Sleep clinicians may frequently encounter CST in practice and, despite lack of validation against gold standard polysomnography, familiarity with these devices has become a patient expectation. This American Academy of Sleep Medicine position statement details the disadvantages and potential benefits of CSTs and provides guidance when approaching patient-generated health data from CSTs in a clinical setting. Given the lack of validation and United States Food and Drug Administration (FDA) clearance, CSTs cannot be utilized for the diagnosis and/or treatment of sleep disorders at this time. However, CSTs may be utilized to enhance the patient-clinician interaction when presented in the context of an appropriate clinical evaluation. The ubiquitous nature of CSTs may further sleep research and practice. However, future validation, access to raw data and algorithms, and FDA oversight are needed.

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Upper airway response to electrical stimulation of the genioglossus in obstructive sleep apnea

Oliven

O’Hearn

Boudewyns

et al. 2003

Journal of Applied Physiology

138

101

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Contraction of the genioglossus (GG) has been shown to improve upper airway patency. In the present study, we evaluated responses in upper airway pressure-flow relationships during sleep to electrical stimulation (ES) of the GG in patients with obstructive sleep apnea. Five patients with chronically implanted hypoglossal nerve (HG) electrodes and nine patients with fine-wire electrodes inserted into the GG were studied. Airflow was measured at multiple levels of nasal pressure, and upper airway collapsibility was defined by the nasal pressure below which airflow ceased ["critical" pressure (Pcrit)]. ES shifted the pressure-flow relationships toward higher flow levels in all patients over the entire range of nasal pressure applied. Pcrit decreased similarly during both HG-ES and GG-ES (deltaPcrit was 3.98 +/- 2.31 and 3.18 +/- 1.70 cmH2O, respectively) without a significant change in upstream resistance. The site of collapse (velo- vs. oropharynx) did not influence the response to GG-ES. Moreover, ES-induced reductions in the apnea-hypopnea index of the HG-ES patients were associated with substantial decreases in Pcrit. Our findings imply that responses in apnea severity to HG-ES can be predicted by characterizing the patient's baseline pressure-flow relationships and response to GG-ES.

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Interleukin-4 receptor blockade prevents airway responses induced by antigen challenge in mice

Gavett

O’Hearn

Karp

et al. 1997

American Journal of Physiology-Lung Cellular and Molecular Phys

132

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The functional role of interleukin (IL)-4 in the development of airway hyperresponsiveness (AHR) and pulmonary eosinophilia in response to sensitization and challenge of mice with sheep red blood cells (SRBC) was examined. Control- and SRBC-sensitized A/J mice were treated with an antibody to the murine IL-4 receptor (anti-IL-4R) 3 days before intratracheal challenge with the antigen or vehicle only. Blockade of IL-4R significantly reduced antigen-induced AHR and prevented increases in goblet cells and bronchoalveolar lavage (BAL) eosinophils. Treatment with anti-IL-4R did not affect antigen-induced increases in lung mRNA and BAL protein levels of IL-5 and interferon-gamma or IL-4 mRNA but did significantly increase IL-4 protein levels. Antigen-induced AHR was not reduced by treatment with antibodies to the adhesion molecules, vascular cell adhesion molecule-1 and very late activation antigen-4. Administration of IL-4 over a 7-day period did not increase airway reactivity or induce any changes in BAL cell numbers in naive mice. These results demonstrate that IL-4 is necessary for in vivo development of antigen-induced AHR, goblet cell metaplasia, and pulmonary eosinophilia.

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Modeling Hypersomnolence in Sleep-disordered Breathing

Punjabi

O’Hearn

Neubauer

et al. 1999

Am J Respir Crit Care Med

131

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The etiology of excessive daytime sleepiness in patients with sleep-disordered breathing (SDB) is not well defined. In this study, we examined the relationships between several clinical and polysomnographic parameters and the degree of hypersomnolence in 741 patients with SDB (apnea-hypopnea index [AHI] >/= 10 events/h). The study sample was obese (body mass index [BMI]: 35.3 +/- 8.5 kg/m2) and had evidence of moderate SDB (AHI: 47.6 +/- 29.3 events/h). Hypersomnolence was quantified with the multiple sleep latency test (MSLT) and survival analysis was used to assess the risk factors for hypersomnolence. In a multivariate proportional hazards model, AHI and nocturnal hypoxemia were independent predictors of hypersomnolence (MSLT < 10 min). The adjusted relative risks (RR) of hypersomnolence were 1.00, 1.30, and 1.65 for patients with an AHI of 10 to 29.9, 30 to 59.9, and >/= 60 events/h, respectively. A positive association between hypersomnolence and oxyhemoglobin desaturation (DeltaSaO2) was observed with RR of 1.00, 1.18, 1.43, and 1.94 for a DeltaSaO2 of 15%, respectively. Sleep fragmentation, as assessed by the distribution of sleep stages, was also an independent predictor of hypersomnolence. Using stage 1 sleep as a reference, an increase in stage 2 and slow wave sleep (SWS) were protective from hypersomnolence. For a 10% increase in stage 2 or SWS the adjusted RR for hypersomnolence were 0.93 and 0.79, respectively. REM sleep showed no significant association with the degree of hypersomnolence. These results suggest that AHI, nocturnal hypoxemia, and sleep fragmentation are independent determinants of hypersomnolence in SDB.

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Daniel O’Hearn

Interleukin 12 inhibits antigen-induced airway hyperresponsiveness, inflammation, and Th2 cytokine expression in mice.

Consumer Sleep Technology: An American Academy of Sleep Medicine Position Statement

Upper airway response to electrical stimulation of the genioglossus in obstructive sleep apnea

Interleukin-4 receptor blockade prevents airway responses induced by antigen challenge in mice

Modeling Hypersomnolence in Sleep-disordered Breathing

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