Perioperative Recovery Outcomes of a Spontaneous Breathing-Preserving Strategy in Salvage Lung Transplantation

Guangzhou Medical University

Status

Not yet enrolling

Conditions

End-stage Lung Disease

Treatments

Procedure: Lung transplantation that preserves spontaneous breathing function

Study type

Interventional

Funder types

Other

Identifiers

NCT07384533

BREATH-Rescue

Details and patient eligibility

About

The goal of this prospective, multicenter, single-arm clinical study is to learn whether a breathing-preserved anesthesia-surgical strategy can improve early recovery and perioperative survival in adults undergoing rescue/bridge lung transplantation.

The main questions it aims to answer are whether, in adult rescue lung transplant recipients, a breathing-preserved anesthesia-surgical strategy can improve early postoperative recovery and perioperative survival, with a focus on the need for postoperative invasive mechanical ventilation, postoperative length of hospital stay, and perioperative survival outcomes.

Participants will undergo lung transplantation using a standardized breathing-preserved anesthesia-surgical pathway, with predefined criteria for conversion to endotracheal intubation and/or initiation or escalation of extracorporeal support when clinically necessary. Participants will receive standardized perioperative care per each participating center's transplant pathways and will be followed from screening through hospital discharge and up to 30 days after surgery. Routine perioperative data and key postoperative outcomes, including major complications (e.g., graft dysfunction, respiratory support events, infections, bleeding requiring re-intervention, acute kidney injury, rejection, and thrombotic events), will be collected.

Full description

Purpose:

Rescue/bridge lung transplantation recipients represent a high-risk population with limited physiologic reserve and a high likelihood of prolonged postoperative support. This prospective, multicenter, single-arm clinical study (BREATH-Rescue) aims to evaluate the clinical effectiveness and perioperative safety of a breathing-preserved anesthesia-surgical strategy designed to minimize exposure to invasive mechanical ventilation while maintaining adequate gas exchange and hemodynamic stability. The study focuses on early postoperative recovery and perioperative survival, with primary outcomes centered on postoperative invasive mechanical ventilation (IMV) requirement, postoperative hospital length of stay (LOS), and perioperative survival through hospital discharge or 30 days after surgery (whichever occurs first).

Study Design and Methods:

BREATH-Rescue will enroll approximately 40 adult (≥18 years) rescue/bridge lung transplant candidates across multiple centers, with an anticipated ~36 participants contributing evaluable data for primary endpoint analyses. Rescue/bridge status is defined by meeting any of the following conditions prior to transplantation: ongoing invasive mechanical ventilation (endotracheal tube or tracheostomy), receipt of ECMO/other extracorporeal life support (ECLS), or urgent escalation of support due to progressive respiratory and/or circulatory failure prompting an emergency transplant pathway. Key baseline organ function thresholds are applied (e.g., LVEF ≥40%, eGFR ≥40 mL/min/1.73 m²), with exclusion of active uncontrolled infection.

All participants will undergo lung transplantation under a standardized breathing-preserved anesthesia-surgical pathway. The strategy emphasizes preservation or early restoration of spontaneous breathing when feasible, use of a laryngeal mask airway-based approach and intravenous anesthesia with multimodal analgesia/regional techniques, and continuous physiologic monitoring. Predefined criteria guide prompt conversion to endotracheal intubation and/or initiation or escalation of extracorporeal support when clinically necessary (e.g., inadequate oxygenation/ventilation, severe hypercapnia/acidosis, hemodynamic instability, major airway bleeding, insufficient operative exposure, or airway device failure). Postoperatively, participants will receive standardized perioperative management per center transplant pathways. Outcomes and safety events will be collected from screening through hospital discharge and up to 30 days after surgery, including key complications (e.g., primary graft dysfunction graded at 0/24/48/72 hours, respiratory support events such as re-intubation/tracheostomy/new or escalated ECMO, infections, bleeding requiring re-intervention, acute kidney injury, rejection episodes, and thrombotic events). The primary endpoint is a composite of three early recovery metrics (reported both as a composite and as individual components): postoperative IMV requirement, postoperative LOS, and perioperative survival.

Anticipated Results:

Investigators hypothesize that, in rescue/bridge lung transplant recipients, implementation of a breathing-preserved anesthesia-surgical strategy will increase the proportion of patients who do not require postoperative IMV, shorten postoperative hospital LOS, and achieve an acceptable perioperative survival rate through discharge or 30 days, compared with participating centers' historical outcomes under conventional intubated strategies. The study is expected to generate pragmatic, multicenter evidence on feasibility, safety signals (including conversion/intubation and ECMO escalation rates), and recovery trajectories in this high-risk population, thereby informing pathway standardization and the design of future controlled comparative studies.

Enrollment

40 estimated patients

Sex

All

Ages

18 to 74 years old

Volunteers

Accepts Healthy Volunteers

Inclusion and exclusion criteria

[1] Inclusion Criteria

Age and informed consent: Age ≥18 years. The participant or their legally authorized representative (LAR) is able to complete the informed consent process in a rescue/emergent transplant setting and sign written informed consent.
Transplant candidacy: Listed in the China Lung Transplantation Registry (CLuTR) or the lung transplant waiting list of the participating center, with a planned allogeneic lung transplantation.
Rescue/bridge definition (core cohort criterion): Meets any of the following conditions and is deemed by the study team to require rescue/emergent transplantation and to proceed to transplant: continuous invasive mechanical ventilation preoperatively (endotracheal intubation or tracheostomy); or preoperative extracorporeal membrane oxygenation (ECMO) / other extracorporeal life support (ECLS); or urgent escalation of support due to progressive respiratory and/or circulatory failure, entering a rescue transplant pathway.
Minimum key organ function: Left ventricular ejection fraction (LVEF) ≥40%; estimated glomerular filtration rate (eGFR) ≥40 mL/min/1.73 m²; no evidence of acute liver failure or decompensated cirrhosis/portal hypertension; American Society of Anesthesiologists (ASA) Physical Status classification ≤ IV.
Infection and transmissible diseases: No evidence of active infection; no active tuberculosis; HIV/HBV/HCV meet the center's transplant requirements (e.g., undetectable viral load, as applicable).
Rehabilitation and support: Demonstrated potential for postoperative rehabilitation (able to cooperate with training) and reliable caregiving support (at least one primary caregiver).

[2] Exclusion Criteria

Informed consent/adherence: Refusal of or withdrawal of informed consent; investigator judgment that follow-up cannot be completed or that there is repeated serious non-adherence.
Transplant type: Re-transplantation, multi-organ transplantation, or planned lobar lung transplantation.
Recent major cardiovascular/cerebrovascular events: Acute coronary syndrome/myocardial infarction or stroke within the past 30 days.
Severe organ dysfunction/acute failure: LVEF <40%; eGFR <40 mL/min/1.73 m²; acute liver failure or decompensated cirrhosis/portal hypertension; acute renal failure requiring dialysis with low likelihood of recovery; significant preoperative neuropsychiatric disorder or impaired consciousness.
High risk of severe infection: Septic shock; active extrapulmonary/disseminated infection; active tuberculosis; detectable HIV viral load (or otherwise not meeting the center's transplant criteria).
High risk of major bleeding: Severe bronchiectasis not treated with preoperative vascular intervention or not readily correctable.
Malignancy: Active malignancy or malignancy with high risk of recurrence or cancer-related mortality.
Severe chest wall or spinal deformity: Deemed by the study team to compromise surgical exposure, ventilation/airway management, or perioperative safety.
Substance use/dependence: Current smoking, e-cigarette/vaping use, inhaled cannabis use, or intravenous drug use.
Tubeless/breathing-preserved strategy not safely feasible: The anesthesia team judges a difficult airway or laryngeal mask/non-intubated airway management to be unsafe (e.g., anticipated difficult airway, pharyngeal/laryngeal stenosis unsuitable for laryngeal mask, or other conditions unfavorable for airway management), including but not limited to: Mallampati class >III, mouth opening <3 cm, thyromental distance <5 cm, or significant airway anatomical variation (e.g., anomalous right upper lobe bronchial origin in a planned right lung transplantation) such that safe management with a laryngeal mask or single-lumen tube is deemed unlikely.
Donor/donor lung limitations: Donor age >60 years; donor mechanical ventilation >14 days; positive donor airway microbiology that the transplant team deems unacceptable.
Protected population: Pregnant or breastfeeding women.

Trial design

Primary purpose

Treatment

Allocation

N/A

Interventional model

Single Group Assignment

Masking

None (Open label)

40 participants in 1 patient group

Tubeless LTx Group

Experimental group

Description:

All participants receive lung transplantation under a standardized spontaneous-breathing-preserving ("tubeless") pathway. After anesthesia induction, a supraglottic airway (laryngeal mask airway) is used when feasible with regional nerve blocks and multimodal sedation/analgesia to control pain and cough while maintaining spontaneous breathing. Muscle relaxants are minimized; ventilatory assistance is provided only as needed with low airway pressures. Postoperatively, patients are managed in the intensive care unit with spontaneous breathing and protocol-guided noninvasive respiratory support. Conversion to endotracheal intubation, invasive mechanical ventilation, and/or extracorporeal membrane oxygenation is allowed if predefined safety criteria are met.

Treatment:

Procedure: Lung transplantation that preserves spontaneous breathing function

Trial contacts and locations

Central trial contact

Jiaqin Zhang, M.D.

Data sourced from clinicaltrials.gov

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