Mendy Lum scite author profile

Background: Despite an improved understanding of the pathophysiology of asthma, severe asthma sufferers continue to experience a poor quality of life (QOL). Bronchial thermoplasty (BT) utilizes thermal energy to reduce airway smooth muscle. In industry-sponsored trials, BT improves QOL and reduces severe exacerbations; however, the impact of BT on asthma-related QOL and medication use in non-industry-sponsored trials is less clear. Objective: The aim of this study was to determine the impact of BT on asthma QOL measures (mini-AQLQ) and asthma controller medication use during the year following treatment with BT. Methods: We performed a prospective study of the impact of BT in 25 patients with severe persistent asthma. Our primary outcome was change in asthma-related QOL score (mini-AQLQ) 1 year after BT treatment. Our secondary outcome was change in asthma medication use 1 year after BT. Results: BT led to an improvement in mini-AQLQ score from a baseline of 3.6 ± 0.3 before therapy to 5.6 ± 0.3 1 year after the final BT procedure. Overall, 88% percent of patients showed a clinically significant improvement in mini-AQLQ at 1 year. Patients treated with BT showed a reduction in the use of montelukast and omalizumab 1 year after BT. Conclusion: In patients with severe persistent asthma and low asthma-related QOL scores, BT leads to an improvement in asthma-related QOL and a decrease in asthma medication use when measured 1 year after the final BT treatment.

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Bronchoscopic Treatment of Airway Obstructions With a Novel Electrosurgical Device

Benn

Lum

Krishna

2020

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Objectives: Airway obstructions (AOs) in the central airway or lobar bronchi develop due to malignant or benign disease. Because of the morbidity and mortality associated with AO, it is important to develop additional therapeutic ablative techniques. CoreCath2.7S is a novel monopolar radiofrequency electrosurgical device approved to treat obstructions of the upper airway and tracheobronchial tree by both cutting soft tissue and providing electrosurgical hemostasis. We present a large case series describing its use. Methods: Retrospective chart review was performed of all patients with AO undergoing airway recanalization with CoreCath2.7S at 2 interventional pulmonology practices from October 2017 to May 2019. Demographic information, AO etiology, location, and degree, and therapeutic modalities used were recorded. Results: Fifty-three patients underwent 64 procedures for AO due to malignant (n=30, 57%) or benign (n=23, 43%) disease. AOs were treated in the trachea (n=28), mainstem bronchi (n=23), and lobar bronchi (n=17). All AO occluded the airway at least 50%. Adjunctive therapeutic modalities were commonly used (n=60, 94%), including flexible cryoprobe (n=33), balloon dilation (n=23), rigid bronchoscopy (n=19), spray cryotherapy (n=19), argon plasma coagulation (n=14), and stenting (n=5). Restoration of airway patency was achieved in all cases without any periprocedural or immediate postprocedural complications. Conclusion: CoreCath2.7S was successfully used to treat patients with AO due to malignant or benign disease. Airway patency was restored with no periprocedural or immediate postprocedural complications. It should be considered as another therapeutic modality in the growing field of ablative techniques for the treatment of AO.

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Cryobiopsy With Cone Beam Computerized Tomography for Diffuse Parenchymal Lung Disease

Romero¹,

Ivanick²,

Lum³

et al. 2020

Chest

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The current standard for diagnostic evaluation of diffuse parenchymal lung disease relies on multidisciplinary consensus (MDC) involving clinical, radiographic and histopathologic information. Transbronchial cryobiopsy is emerging as a viable alternative to surgical biopsy with equivalent diagnostic yield and better safety profile. The optimal positioning of the cryoprobe near pleura improves diagnostic yield and decreases complications. Fluoroscopic guidance is common during cryobiopsy but accuracy is limited to biopsy of segments where airways are perpendicular to the A-P axis. Use of radial EBUS can help avoid vessels but does aid in probe placement. Cone beam CT (CBCT) has demonstrated a high degree of accuracy for biopsy of pulmonary nodules and has feasibility in transbronchial cryobiopsy. The use of CBCT guidance for cryobiopsy may improve diagnostic yield and minimize complications by allowing targeting of abnormal areas.

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Mendy Lum

Robotic-Assisted Navigation Bronchoscopy as a Paradigm Shift in Peripheral Lung Access

Cone Beam CT Guidance Improves Transbronchial Lung Cryobiopsy Safety

The Impact of Bronchial Thermoplasty on Asthma-Related Quality of Life and Controller Medication Use

Bronchoscopic Treatment of Airway Obstructions With a Novel Electrosurgical Device

Cryobiopsy With Cone Beam Computerized Tomography for Diffuse Parenchymal Lung Disease

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