PT - JOURNAL ARTICLE AU - Tavernier, G AU - Niven, R TI - P45 Sputum And Nasal Markers Of Inflammation In Severe Asthma - A Pilot Study AID - 10.1136/thoraxjnl-2014-206260.186 DP - 2014 Dec 01 TA - Thorax PG - A93--A93 VI - 69 IP - Suppl 2 4099 - http://thorax.bmj.com/content/69/Suppl_2/A93.short 4100 - http://thorax.bmj.com/content/69/Suppl_2/A93.full SO - Thorax2014 Dec 01; 69 AB - Introduction and objectives The Manchester Severe Asthma Team has successfully been using sputum eosinophil monitoring for several years to help tailor steroid medication. Whilst very useful for patients able to produce a sputum sample, some patients cannot produce a sample. As a result we looked at developing an alternative method of monitoring using nasal lavage samples to study the intra-individual changes in inflammation in severe asthma. Methods Patients requiring sputum monitoring as part of their clinical management were invited to take part in this pilot and to provide an additional nasal lavage sample obtained using an olive method. Participants were clear of infection at time of sampling. Sputum was either spontaneous or induced using the traditional 3%-4%-5% nebulised sodium chloride procedure. ECP (Eosinophil Cationic Protein) was measured in sputum and nasal supernatants using a commercial ELISA kit (Mesacup, MBL). Differential cell count (DCC) was attempted for both sputum and nasal sample types. Results This abstract show the results obtained for the first 32 consecutive patients. Our patient population is described in Table 1, 69% female, 69% atopic (as defined by positive RAST of elevated total IgE), and 50% were non-smokers, 7.6 current smokers and 42.4% ex-smokers. No patient was immunosuppressed or on IM Triamcinolone. ECP levels were as follows: Sputum: median 2650 (min:20.76–28603 ng/ml), 100% of samples had detectable levels. Nasal lavage: 0(0–7.6), 20%. DCC were as follows: Sputum: 38% patients were eosinophil positive (as defined by >3%), Nasal lavage: no eosinophil was detected, 38.5% of samples had a DCC but interpretation was hindered by low cell yield. Sputum DCC/ECP did not correlate significantly with nasal ECP (Pearson R=0.168, p = 0.374 and R=-0.048, p = 0.807 respectively). Nasal DCC data could not be computed as no patient was found to be eosinophil positive. Sputum DTT and sputum ECP correlated significantly (Pearson R=0.607, p = 0.001) as reported in the literature. Conclusions At this stage of our pilot, intermediate data analysis shows that nasal sampling does not appear to be a successful alternative to sputum monitoring in severe asthma. View this table:Abstract P45 Table 1 Characteristics of severe asthma patients enrolled on James Trust Study