PT - JOURNAL ARTICLE AU - Wu, Joyce KY AU - DeHaas, Emily AU - Nadj, Richard AU - Cheung, Aloysius Brandon AU - Dandurand, Ronald J AU - Hantos, Zoltán AU - Ryan, Clodagh M AU - Chow, Chung-Wai TI - Development of Quality Assurance and Quality Control Guidelines for Respiratory Oscillometry in Clinic Studies AID - 10.4187/respcare.07412 DP - 2020 Nov 01 TA - Respiratory Care PG - 1687--1693 VI - 65 IP - 11 4099 - http://rc.rcjournal.com/content/65/11/1687.short 4100 - http://rc.rcjournal.com/content/65/11/1687.full AB - BACKGROUND: The guidelines to conduct and interpret conventional pulmonary function (PFT) tests are frequently reviewed and updated. However, the quality assurance and quality control (QA/QC) guidelines for respiratory oscillometry testing remain limited. QA/QC guidelines are essential for oscillometry to be used as a diagnostic pulmonary function test (PFT) in a clinical setting.METHODS: We developed a QA/QC protocol shortly after oscillometry was introduced in our laboratory as part of a clinical study. The first clinical study began after the research personnel completed 3 h of combined didactic and hands-on training and establishment of a standard operating protocol (SOP) for oscillometry testing. All oscillometry tests were conducted using the initial SOP protocol from October 17, 2017, to April 6, 2018. At this time, the first QA/QC audit took place, followed by revisions to the SOP, the addition of a QA/QC checklist, and the development of a 12-h training program. A second audit of oscillometry tests was conducted from April 9, 2018, to June 30, 2019. Both audits were completed by a registered cardiopulmonary technologist from the Toronto General Pulmonary Function Lab.RESULTS: The first audit evaluated 197 paired oscillometry-PFT tests and found 10 tests (5.08%) to be invalid, with a coefficient of variation > 15%. The second audit examined 1,930 paired oscillometry-PFT tests; only 3 tests (0.16%) were unacceptable, with a coefficient of variation > 15%. Improvement in QA/QC was significantly better compared to the first audit (P < .001).CONCLUSIONS: Although oscillometry requires minimal subject cooperation, application of the principles that govern the conduct and application of a PFT are important for ensuring that oscillometry testing is performed according to acceptability and reproducibility. Specifically, the inclusion of a SOP, a proper training program, a QA/QC checklist, and regular audits with feedback are vital to ensure that oscillometry is conducted accurately and precisely.