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Airway Oscillometry Detects Spirometric-Silent Episodes of Acute Cellular Rejection

Elizabeth Cho, Joyce Wu, Daniella Cunha Birriel, John Matelski, Richard Nadj, E. deHaas, Qian Huang, Kelsey Yang, Tong Xu, Aloysius Brandon Cheung, Lindsay Woo, Lauren Day, Marcelo Cypel, Jussi Tikkanen, Clodagh M. Ryan, Chung‐Wai Chow

2020American Journal of Respiratory and Critical Care Medicine52 citationsDOI

Abstract

Abstract Rationale Acute cellular rejection (ACR) is common during the initial 3 months after lung transplant. Patients are monitored with spirometry and routine surveillance transbronchial biopsies. However, many centers monitor patients with spirometry only because of the risks and insensitivity of transbronchial biopsy for detecting ACR. Airway oscillometry is a lung function test that detects peripheral airway inhomogeneity with greater sensitivity than spirometry. Little is known about the role of oscillometry in patient monitoring after a transplant. Objectives To characterize oscillometry measurements in biopsy-proven clinically significant (grade ≥2 ACR) in the first 3 months after a transplant. Methods We enrolled 156 of the 209 double lung transplant recipients between December 2017 and March 2019. Weekly outpatient oscillometry and spirometry and surveillance biopsies at Weeks 6 and 12 were conducted at our center. Measurements and Main Results Of the 138 patients followed for 3 or more months, 15 patients had 16 episodes of grade 2 ACR (AR2) and 44 patients had 64 episodes of grade 0 ACR (AR0) rejection associated with stable and/or improving spirometry. In 15/16 episodes of AR2, spirometry was stable or improving in the weeks leading to transbronchial biopsy. However, oscillometry was markedly abnormal and significantly different from AR0 (P < 0.05), particularly in integrated area of reactance and the resistance between 5 and 19 Hz, the indices of peripheral airway obstruction. By 2 weeks after biopsy, after treatment for AR2, oscillometry in the AR2 group improved and was similar to the AR0 group. Conclusions Oscillometry identified physiological changes associated with AR2 that were not discernible by spirometry and is useful for graft monitoring after a lung transplant.

Topics & Concepts

MedicineSpirometryAirwayInternal medicineCardiologyBiopsyLung transplantationLungAsthmaAnesthesiaTransplantation: Methods and OutcomesRespiratory viral infections researchInterstitial Lung Diseases and Idiopathic Pulmonary Fibrosis
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