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Journal of bronchology & interventional pulmonology
Apr 01, 2024;31 (2): 105-116.

High Tidal Volume, High Positive End Expiratory Pressure and Apneic Breath Hold Strategies (Lung Navigation Ventilation Protocol) With Cone Beam Computed Tomography Bronchoscopic Biopsy of Peripheral Lung Lesions: Results in 100 Patients.

Krish Bhadra, Carlos Baleeiro, Sumit Patel, William Condra, Brittany Amento Bader, Randolph M Setser, Sloan Youngblood
Author Information
  1. Krish Bhadra: CHI Memorial Rees Skillern Cancer Institute.
  2. Carlos Baleeiro: CHI Memorial Rees Skillern Cancer Institute.
  3. Sumit Patel: CHI Memorial Rees Skillern Cancer Institute.
  4. William Condra: CHI Memorial Rees Skillern Cancer Institute.
  5. Brittany Amento Bader: CHI Memorial Rees Skillern Cancer Institute.
  6. Randolph M Setser: Siemens Healthineers, Malvern, PA.
  7. Sloan Youngblood: American Anesthesia of Tennessee, CHI Memorial Hospital, Chattanooga, TN.
PMID: 37459049 DOI: 10.1097/LBR.0000000000000938

Abstract

BACKGROUND: A dedicated anesthesia protocol for bronchoscopic lung biopsy-lung navigation ventilation protocol (LNVP)-specifically designed to mitigate atelectasis and reduce unnecessary respiratory motion, has been recently described. LNVP demonstrated significantly reduced dependent ground glass, sublobar/lobar atelectasis, and atelectasis obscuring target lesions compared with conventional ventilation.
METHODS: In this retrospective, single-center study, we examine the impact of LNVP on 100 consecutive patients during peripheral lung lesion biopsy. We report the incidence of atelectasis using cone beam computed tomography imaging, observed ventilatory findings, anesthesia medications, and outcomes, including diagnostic yield, radiation exposure, and complications.
RESULTS: Atelectasis was observed in a minority of subjects: ground glass opacity atelectasis was seen in 30 patients by reader 1 (28%) and in 18 patients by reader 2 (17%), with good agreement between readers (�� = 0.78). Sublobar/lobar atelectasis was observed in 23 patients by reader 1 and 26 patients by reader 2, also demonstrating good agreement (�� = 0.67). Atelectasis obscured target lesions in very few cases: 0 patients (0%, reader 1) and 3 patients (3%, reader 2). Diagnostic yield was 85.9% based on the AQuIRE definition. Pathology demonstrated 57 of 106 lesions (54%) were malignant, 34 lesions (32%) were benign, and 15 lesions (14%) were nondiagnostic.
CONCLUSION: Cone beam computed tomography images confirmed low rates of atelectasis, high tool-in-lesion confirmation rate, and high diagnostic yield. LNVP has a similar safety profile to conventional bronchoscopy. Most patients will require intravenous fluid and vasopressor support. Further study of LNVP and other ventilation protocols are necessary to understand the impact of ventilation protocols on bronchoscopic peripheral lung biopsy.

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MeSH Term

Humans
Tidal Volume
Breath Holding
Retrospective Studies
Lung
Positive-Pressure Respiration
Pulmonary Atelectasis
Cone-Beam Computed Tomography
Biopsy
Journal Article
Article has an altmetric score of 5

Word Cloud

Created with Highcharts 10.0.0patientsatelectasisreaderLNVPlesionsventilationlungobservedyield120anesthesiaprotocolbronchoscopicdemonstratedgroundglasstargetconventionalstudyimpact100peripheralbiopsybeamcomputedtomographydiagnosticAtelectasisgoodagreement��=ConehighprotocolsHighLungBACKGROUND:dedicatedbiopsy-lungnavigation-specificallydesignedmitigatereduceunnecessaryrespiratorymotionrecentlydescribedsignificantlyreduceddependentsublobar/lobarobscuringcomparedMETHODS:retrospectivesingle-centerexamineconsecutivelesionreportincidenceusingconeimagingventilatoryfindingsmedicationsoutcomesincludingradiationexposurecomplicationsRESULTS:minoritysubjects:opacityseen3028%1817%readers78Sublobar/lobar2326alsodemonstrating67obscuredcases:0%33%Diagnostic859%basedAQuIREdefinitionPathology5710654%malignant3432%benign1514%nondiagnosticCONCLUSION:imagesconfirmedlowratestool-in-lesionconfirmationratesimilarsafetyprofilebronchoscopywillrequireintravenousfluidvasopressorsupportnecessaryunderstandTidalVolumePositiveEndExpiratoryPressureApneicBreathHoldStrategiesNavigationVentilationProtocolBeamComputedTomographyBronchoscopicBiopsyPeripheralLesions:ResultsPatients

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