Background. The impacts of COVID-19 on lung allograft function, rejection, secondary infection, and clinical outcomes in lung transplant recipients (LTRs) remain unknown. Methods. A 1:2 matched case–control study was performed to evaluate rehospitalization, lung allograft function, and secondary infections up to 90 d after COVID-19 diagnosis (or index dates for controls). Results. Twenty-four LTRs with COVID-19 (cases) and 48 controls were identified. Cases and controls had similar baseline characteristics and lung allograft function. LTRs with COVID-19 had higher incidence of secondary bacterial infection (29.2% versus 6.3%, P = 0.008), readmission (29.2% versus 10.4%, P = 0.04), and for-cause bronchoscopy (33.3% versus 12.5%, P = 0.04) compared with controls. At d 90, mortality in cases versus controls was 8.3% versus 2.1% (P = 0.21), incidence of invasive fungal infections in cases versus controls was 20.8% versus 8.3% (P = 0.13) and forced expiratory volume in 1 s (FEV1) decline ≥10% from baseline occurred in 19% of cases versus 12.2% of controls (P = 0.46). No acute cellular rejection, acute antibody-mediated rejection, or new donor-specific anti-HLA antibodies were observed among cases or controls within 90 d post index date. Conclusions. We found LTRs with COVID-19 were at risk to develop secondary infections and rehospitalization post COVID-19, compared with controls. While we did not observe post viral acute cellular rejection or antibody-mediated rejection, further studies are needed to understand if LTRs with COVID-19 who did not recover baseline lung function within 90 d have developed chronic lung allograft dysfunction stage progression.
Background. Human metapneumovirus (HMPVi) and parainfluenza virus (PIVi) infections are common community-acquired infections in lung transplant recipients (LTRs), but data are extremely limited. Methods. A retrospective study including all LTRs at the Johns Hopkins Hospital during July 2010–June 2019 with positive HMPV and PIV polymerase chain reaction respiratory specimens was performed. Results. Thirty-one HMPV- and 53 PIV-infected LTRs were identified. LTRs with HMPVi and PIVi had similar baseline characteristics, infection parameters, treatment allocation, and allograft function outcomes. Among entire cohort, 31.6% had chronic allograft dysfunction (CLAD) stage progression within 1 y postinfections (29.2% versus 35.5% for PIVi versus HMPVi, respectively, P = 0.56). In forced expiratory volume in 1 s percent (FEV1%) trajectory analysis showed steadily decline of FEV1 across time among CLAD stage progressors from both viruses. FEV1% decline ≥10% at 90 d had adjusted hazard ratio for CLAD stage progression of 18.4 (4.98-67.76) and 4.6 (1.36-15.34) for PIVi and HMPVi, respectively. PIVi caused higher donor-specific antigen development (11.8% versus 3.2%, P = 0.18) and 1-y mortality (9.4% versus 0%, P = 0.11), compared with HMPVi, even though the results were not statistically significant. Ribavirin did not show protective effect, and mycophenolate discontinuation during infection did not increase risk of CLAD stage progression. Conclusions. One-third of HMPV- and PIV-infected LTRs developed CLAD stage progression within 1 y. The lack of early lung function recovery may predict long-term CLAD progression.
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