The ability of an electronic nose to distinguish between complications in lung transplant recipients.

Complications like acute cellular rejection (ACR) and infection are known risk factors for the development of chronic lung allograft dysfunction, impacting long-term patient and graft survival after lung transplantation (LTx). Differentiating between complications remains challenging and time-sensitive, highlighting the need for accurate and rapid diagnostic modalities. We assessed the ability of exhaled breath analysis using an electronic nose (eNose) to distinguish between ACR, infection, and mechanical complications in LTx recipients (LTR) presenting with suspected complications.

Outcomes of lung transplantation in patients with telomere-related forms of progressive fibrosing interstitial lung disease pulmonary fibrosis: A systematic review.

Background: Lung transplantation (LTX) is the last life-extending option for patients with progressive fibrosing interstitial lung diseases (fILD). Between 12% and 71% of patients with fILD are patients with underlying telomere-dysfunction (trILD) related to pathogenic telomere-related gene (TRG) variants and/or short telomere length. TrILD patients tend to have earlier disease onset, faster progression, and worse prognosis causing them to be referred for LTX more often.

Detection of Bacterial Colonization in Lung Transplant Recipients Using an Electronic Nose.

Background: Bacterial colonization (BC) of the lower airways is common in lung transplant recipients (LTRs) and increases the risk of chronic lung allograft dysfunction. Diagnosis often requires bronchoscopy. Exhaled breath analysis using electronic nose (eNose) technology may noninvasively detect BC in LTRs.

Diagnostic performance of electronic nose technology in chronic lung allograft dysfunction.

Background: There is a need for reliable biomarkers for the diagnosis of chronic lung allograft dysfunction (CLAD). In this light, we investigated the diagnostic value of exhaled breath analysis using an electronic nose (eNose) for CLAD, CLAD phenotype, and CLAD stage in lung transplant recipients (LTR).

Methods: We performed eNose measurements in LTR with and without CLAD, visiting the outpatient clinic.

The potential of electronic nose technology in lung transplantation: a proof of principle.

https://bit.ly/3wgQ3DE.

Long-term outcome and bridging success of patients evaluated and bridged to lung transplantation on the ICU.

Background: Evaluating and bridging patients to lung transplantation (LTx) on the intensive care unit (ICU) remains controversial, especially without a previous waitlist status. Long term outcome data after LTx from ICU remains scarce. We compared long-term survival and development of chronic lung allograft dysfunction (CLAD) in elective and LTx from ICU, with or without previous waitlist status.

Evaluation of a Home Monitoring Application for Follow Up after Lung Transplantation-A Pilot Study.

Home spirometry after lung transplantation is common practice, to monitor graft function. However, there is little experience with online home monitoring applications with direct data transfer to the hospital. We evaluated the feasibility and patient experiences with a new online home monitoring application, integrated with a Bluetooth-enabled spirometer and real-time data transfer.