A technique to measure the ability of the human nose  to warm and humidify air

Rouadi, Philip W.; Baroody, Fuad M.; Abbott, D.; Naureckas, Edward T.; Solway, Julian; Naclerio, Robert M.

doi:10.1152/jappl.1999.87.1.400

Cited by 111 publications

(119 citation statements)

References 14 publications

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“…In several investigations, a relative humidity of y90-100% in the nasopharynx could be observed [20,21]. These values are similar to the authors previous observations.…”

Section: Discussionsupporting

confidence: 90%

“…ROUADI et al [20] performed measurements in the nasopharynx during nasal breathing through only one nostril because the other nasal cavity was closed by the detection equipment. The particular features of the experimental setup in the current study are that the authors were able to measure relative humidity at defined intranasal detection sites, without interruption of physiological nasal breathing, without blocking one side of the nose and with registration of the respiratory cycle.…”

Section: Discussionmentioning

confidence: 99%

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The relationship between water vapour saturation of inhaled air and nasal patency

Lindemann¹,

Liu²,

Rettinger³

et al. 2003

Eur Respir J

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The nasal cavity volume and the temperature of the nasal mucosa are considered to be the most important predictors of nasal conditioning. The aim of this study was to assess the relationship between the intranasal degree of water vapour saturation of inhaled air and nasal patency.Intranasal humidity values at different locations within the nasal cavity of 15 healthy subjects were compared to nasal airway resistance detected by active anterior rhinomanometry (AAR). Repeated measurements were carried out during one day to obtain varying nasal cavity volumes due to the nasal cycle. The end-inspiratory humidity data were obtained with a miniaturised capacitive humidity sensor at defined detection sites within the anterior nasal segment without interruption of nasal breathing. Measurements were carried out at four different times during one day.The degree of water vapour saturation did not correlate with the values of the AAR at any intranasal detection site and time of detection during one day.The study supports the view that there is no correlation between the degree of water vapour saturation within the anterior nasal segment and the nasal resistance during the nasal cycle over the day. Although nasal patency varies because of the nasal cycle, the changes of nasal cavity volume due to the nasal cycle do not seem to influence the degree of water vapour saturation of the inspiratory air.

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“…In several investigations, a relative humidity of y90-100% in the nasopharynx could be observed [20,21]. These values are similar to the authors previous observations.…”

Section: Discussionsupporting

confidence: 90%

Section: Discussionmentioning

confidence: 99%

The relationship between water vapour saturation of inhaled air and nasal patency

Lindemann¹,

Liu²,

Rettinger³

et al. 2003

Eur Respir J

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“…The temperature of the human nasopharynx is variable, with measurements ranging from 37°C to 26°C (2,(17)(18)(19)(20)(21)(22). Temperature has an important impact on virulence factors and transcriptional regulation in M. catarrhalis (23)(24)(25).…”

Section: Resultsmentioning

confidence: 99%

“…Exacerbations of COPD related to the acquisition of M. catarrhalis and otitis media increase during the cooler winter months of the year (8,(53)(54)(55). The temperature of the nasopharynx, where M. catarrhalis first colonizes, is 34°C and decreases to 26°C upon exposure to colder temperatures in winter months in temperate climates (17)(18)(19)(20)(21)(22)(23)56). Cold shock increases the expression of the outer membrane protein UspA1, a known virulence factor, which is important for M. catarrhalis binding to host cells as well as immune evasion (23,25).…”

Section: Figmentioning

confidence: 99%

“…The gene cluster encodes two permeases, OppB and OppC; two ATPases, OppD and OppF; and a substrate binding protein, OppA (16). We hypothesized that this gene cluster was transcribed as an operon and that environmental factors, temperature and essential nutrients available as peptides, would alter the rate of transcription.The lower respiratory tract has a normal body temperature of 37°C, while the upper airways, specifically the nasopharynx, where M. catarrhalis first colonizes, ranges from 34°C at room temperature (25°C) down to 26°C after a short time of breathing air near 0°C, a temperature which many of the temperate climates throughout the world experience regularly throughout the winter months (2,(17)(18)(19)(20)(21)(22). Exposure to cold shock at 26°C has an important impact on virulence factors and transcriptional regulation in M. catarrhalis (23)(24)(25).…”

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confidence: 99%

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Expression of the Oligopeptide Permease Operon of Moraxella catarrhalis Is Regulated by Temperature and Nutrient Availability

Jones

Murphy

2015

Infect Immun

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Moraxella catarrhalis causes otitis media in children and exacerbations of chronic obstructive pulmonary disease in adults. Together, these two conditions contribute to enormous morbidity and mortality worldwide. The oligopeptide permease (opp) ABC transport system is a nutritional virulence factor important for the utilization of peptides. The substrate binding protein OppA, which binds peptides for uptake, is a potential vaccine antigen, but little was known about the regulation of gene expression. The five opp genes oppB, oppC, oppD, oppF, and oppA are in the same open reading frame. Sequence analysis predicted two promoters, one located upstream of oppB and one within the intergenic region between oppF and oppA. We have characterized the gene cluster as an operon with two functional promoters and show that cold shock at 26°C for <0.5 h and the presence of a peptide substrate increase gene transcript levels. Additionally, the putative promoter upstream of oppA contributes to the transcription of oppA but is not influenced by the same environmental cues as the promoter upstream of oppB. We conclude that temperature and nutrient availability contribute to the regulation of the Opp system, which is an important nutritional virulence factor in M. catarrhalis. Moraxella catarrhalis is an increasingly important human-specific pathogen contributing to worldwide morbidity and mortality that has transitioned from an emerging to an established pathogen (1-3). Otitis media in children is the primary cause of new antibiotic prescriptions and pediatric office visits, with M. catarrhalis accounting for 10% to 20% of acute otitis media episodes (2, 4-6). Chronic obstructive pulmonary disease (COPD) is the third leading cause of death in the United States, with M. catarrhalis contributing to at least 10% of exacerbations (7-11). The socioeconomic burden of otitis media and COPD is significant, with an estimated $50 billion dollars annually in health care expenses globally (5, 9, 12). In view of the morbidity and health care cost associated with M. catarrhalis, it is important to understand the mechanisms of pathogenesis in order to guide development of novel approaches to treatment and prevention (2,13,14). In previous work, we identified OppA as a promising vaccine antigen and a nutritional virulence factor for M. catarrhalis (15,16).We previously characterized the oligopeptide permease (opp) gene cluster as an ABC transport system vital for the utilization of peptide substrates. The gene cluster encodes two permeases, OppB and OppC; two ATPases, OppD and OppF; and a substrate binding protein, OppA (16). We hypothesized that this gene cluster was transcribed as an operon and that environmental factors, temperature and essential nutrients available as peptides, would alter the rate of transcription.The lower respiratory tract has a normal body temperature of 37°C, while the upper airways, specifically the nasopharynx, where M. catarrhalis first colonizes, ranges from 34°C at room temperature (25°C) down to 26°C after a short...

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Hot, Humid Air Partially Inhibits the Nasal Response to Allergen Provocation

Baroody

Assanasen²,

Chung³

et al. 2000

Arch Otolaryngol Head Neck Surg

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Preconditioning the nasal mucosa with HHA partially decreases the early response to nasal challenge with antigen irrespective of the administration technique. The secretory response, however, is only inhibited by localized delivery of HHA to the nose. The inhibitory effects of HHA are therefore probably related to local changes in the nasal mucosa and are not dependent on total body exposure to HHA.

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A technique to measure the ability of the human nose to warm and humidify air

Cited by 111 publications

References 14 publications

The relationship between water vapour saturation of inhaled air and nasal patency

The relationship between water vapour saturation of inhaled air and nasal patency

Expression of the Oligopeptide Permease Operon of Moraxella catarrhalis Is Regulated by Temperature and Nutrient Availability

Hot, Humid Air Partially Inhibits the Nasal Response to Allergen Provocation

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