Total Arch Replacement with Frozen Elephant Trunk Versus Hemiarch Replacement in the Management of Acute Type a Aortic Dissection

Not Applicable

Not yet recruiting

• Conditions: Aortic Dissection Type a

• Registration Number: NCT06676371
• Lead Sponsor: Chinese University of Hong Kong

Brief Summary

Acute Type A aortic dissection (ATAAD) and its complications are life-threatening conditions that cause more than 1400 hospital admissions and 300 deaths every year in Hong Kong and cause 172,927 deaths globally in 2019. There is an increasing trend in recent years.

Given the hyperacute presentation and complexity of the clinical manifestation with various mal-perfusion syndromes, the mortality of ATAAD remained high in all international reported registries and published series.

Conventional Hemiarch (HAR) replacement has been the gold standard procedure for ATAAD in most of cardiac surgical centers around the world because of the relative simplicity of the procedure. However, around 50-70% of patients were reported to develop distal anastomosis new entry after hemiarch procedure and for those with entry tear over aortic arch and distal mal-perfusion, hemiarch alone might not be able to solve the downstream problem. On the other hand, total arch replacement and frozen elephant trunk procedure (TARFET) is more complex, technically demanding procedure that could potentially cover/resect the arch entry tear and exclude tear over proximal descending thoracic aorta and, hence, solve the distal mal-perfusion syndrome. To date, there is no randomized control trial to answer whether HAR or TARFET procedure is superior in patients with ATAAD and entry tear is over the aortic arch or proximal descending thoracic aorta.

We plan to conduct a multi-center trial to recruit consecutive patients with ATAAD with entry tear beyond ascending aorta and randomized them, after informed consent, into either the conventional hemiarch replacement group (HAR) or total arch replacement and frozen elephant trunk (TARFET). The participating centers will collect pre- operative, intra-operative and post-operative clinical parameters for two groups of patients via REDCap system. Written informed consent, specifically allowing the use of clinical records for this randomized study, will be obtained from every patient prior to data collection. The primary outcome is the 30-day mortality of the ATAAD patients with surgically treated by HAR versus TARFET approach. The secondary outcomes are the major adverse cardiovascular and cerebral events, post-op renal replacement therapy, re-exploration for bleeding and re-intervention within 30-days.

This study will be the world's first multi-center randomized control trial in ATAAD to compare the 30-day mortality of patients treated with HAR and TARFET. It could be a guideline-changing study for the treatment of ATAAD and its impact on the surgical approach to patients suffering from ATAAD.

Detailed Description

Project Objectives:

1. The primary objective is to evaluate the all-cause 30-day mortality rate between the TARFET and HAR groups in patients with acute type A aortic dissection with entry tear beyond ascending aorta.

2. The secondary objective is to evaluate the impact of TARFET and HAR in patients with ATAAD complicated with mal-perfusion syndrome.

3. The third objectives include comparing the rates of major adverse cardiovascular and cerebrovascular events (MACCE), renal replacement therapy, aortic reintervention, and other relevant clinical outcomes within 30 days.

Background Acute Type A aortic dissection (ATAAD) and its complications are life-threatening conditions that cause more than 1400 hospital admissions and 300 deaths every year in Hong Kong and cause 172,927 deaths globally in 2019. There is an increasing trend in recent years. Given the hyperacute presentation and complexity of the clinical manifestation with various mal-perfusion syndromes, the mortality of ATAAD remained high in all international reported registries and published series. (IRAD and GERAAD). For the same reason, high quality clinical studies are lacking, and the current guideline are largely based on non-randomized clinical trials and prospective studies (EACTS/STS/AHA guideline). Data from international registries showed the mortality of surgically treated ATAAD was around 17-26% and those with mal-perfusion had even higher mortality. The primary goals of surgical therapy in ATAAD are to replace the ascending thoracic aorta together with the primary entry tear, sealing of the false lumen (FL) and the distal anastomotic site and decompression the false lumen and resolve distal mal-perfusion. Conventional Hemiarch (HAR) replacement has been the gold standard procedure for ATAAD in most of cardiac surgical centers around the world because of the relative simplicity of the procedure. However, around 50-70% of patients were reported to develop distal anastomosis new entry (DANE) after hemiarch procedure and for those with entry tear over aortic arch and distal mal-perfusion, hemiarch alone might not be able to solve the downstream problem. On the other hand, total arch replacement and frozen elephant trunk procedure (TARFET) is a more complex and technically demanding procedure that could potentially cover/resect the arch entry tear and exclude tear over proximal descending thoracic aorta and, hence, solve the distal mal-perfusion syndrome. To date, there is no randomized control trial to answer whether HAR or TARFET procedure is superior in patients with ATAAD where entry tear is beyond ascending aorta. The investigators aim to conduct a multi-centers, randomized control trial to compare the 30-day mortality of patients with ATAAD who undergo HAR versus TARFET.

Main research questions

1. To evaluate the all-cause 30-day mortality rate between the TARFET and HAR groups in patients with ATAAD where entry tear is beyond the ascending aorta.

2. To evaluate the impact of TARFET and HAR in patients with ATAAD complicated with mal-perfusion syndrome.

3. To compare the rates of major adverse cardiovascular and cerebrovascular events (MACCE), renal replacement therapy, aortic reintervention, and other relevant clinical outcomes.

Hypothesis In ATAAD with entry tear beyond ascending aorta with or without mal-perfusion, there is no survival benefit by performing TARFET when compared with HAR

Study Design:

This will be a multi-center, randomized controlled trial to compare the clinical outcomes of HAR and TARFET in patients with acute aortic dissection with entry tear(s) beyond ascending aorta.

Centers involved

1. Division of Cardiothoracic Surgery, Department of Surgery, Prince of Wales Hospital, the Chinese University of Hong Kong, Hong Kong SAR

2. Department of Cardiac Surgery, Faculty of Medicine, University of Vienna, Austria: Co- I: Prof Marek Erhlich

3. Division of Cardiothoracic Surgery, Siriraj Hospital, Faculty of Medicine, Mahidol University, Thailand: Co-I: Prof Worawong Slisatkorn

Inclusion and Exclusion criteria:

Consecutive patients with acute thoracic aortic dissection diagnosed within 2 weeks of the onset of the symptoms with the diagnosis made by CT scan will be screened.

Methodology:

In this study, the investigators plan to prospectively recruit consecutive patients with ATAAD with entry tear beyond ascending aorta and randomized them, after informed consent, into either the HAR or TARFET group. The participating team will collect pre-operative, intra-operative, and post- operative clinical and radiological parameters for two groups of patients. Written informed consent, specifically allowing the use of clinical records for this randomized study, will be obtained from every patient prior to data collection. Patient data will be documented at the following time points: Pre-operative, intervention(s), discharge(s) from the hospital. Source data verification will be performed on 100% of the patients; data in the database will be reviewed and verified against existing source documents by a dedicated research assistant. Complete DICOM image files of the CT scans will be evaluated by site Investigator to ascertain the patients fulfilled the radiological inclusion criteria.

Study population Screening and randomization A computer-generated randomization sequence will be generated by the research assistant using the online randomization software. A total of 150 patients will be randomized 1:1 to one of the two treatment arms. Block randomization with block size of 8 is used to maintain good balance to each treatment group. The randomization list will be kept in a set of tamper-evident envelopes. The envelopes will be identical and sealed. The trial identifier with a sequential number will be printed on each envelope and the inside will contain the treatment allocation. Envelopes will be unsealed by the on-call surgeon to reveal the allocation treatment prior to the surgery.

Patients, with their consent, will be recruited to participate by investigators after considering the inclusion and exclusion criteria.

Blinding of the study After randomization, the recruited patient will be allocated to either HAR or TARFET group. There will be no blinding of the randomization result to the recruited patients, the operating surgeons, and the clinician-in-charge.

Treatment Procedures

Conventional Hemiarch group (HAR):

Under general anesthesia and trans-esophageal echocardiogram monitoring, a median sternotomy will be performed. Patients will be put on cardiopulmonary bypass with arterial inflow from femoral artery/axillary artery/direct aortic cannulation and right atrial appendage venous two-stage cannulation. Systemic cooling to 25 Degree Celsius will commence. At a temperature of 25 Degree Celsius and thiopentone coma, the circulatory arrest will begin. The aorta will be trimmed to the level of the distal ascending or proximal arch. Antegrade cerebral perfusion will be started to the brachiocephalic branch of the aortic arch. The distal anastomosis will be done between a vascular graft and the distal ascending aorta/aortic arch. After the distal anastomosis is completed, visceral and cerebral systemic perfusion and rewarming will be started. The proximal ascending aorta will be anastomosed with the proximal end of the vascular graft. After de-airing and aorta will be de-clamped and the patient will be weaned from cardiopulmonary bypass and decannulated. Hemostasis and sternal closure will be done as per routine protocol of the individual institution.

Total Arch Replacement and Frozen Elephant Trunk group (TARFET):

Under general anesthesia and trans-esophageal echocardiogram monitoring, a median sternotomy will be performed. Patients will be put on cardiopulmonary bypass with arterial inflow from femoral artery/axillary artery/direct aortic cannulation and right atrial appendage venous two-stage cannulation. Systemic cooling to 25 Degree Celsius will commence. At a temperature of 25 Degree Celsius and thiopentone coma, the circulatory arrest will begin. The aorta will be trimmed to the level of the distal arch. Antegrade cerebral perfusion will be started to the brachiocephalic, left common carotid and left subclavian branches of the aortic arch. The distal anastomosis will be done between a vascular graft and the distal arch at zone 2 or zone 3 at the discretion of the operating surgeon. After the distal anastomosis is completed, visceral systemic perfusion and rewarming will be started. The proximal ascending aorta will be anastomosed with the proximal end of the vascular graft followed by individual head and neck vessels perfusion. After de-airing and aorta will be de-clamped and the patient will be weaned from cardiopulmonary bypass and decannulated. Hemostasis and sternal closure will be done as per routine protocol of the individual institution.

The exact arterial cannulation site(s) for HAR and TARFET will be at the discretion of the operating surgeon according to the clinical scenario and intra-operative findings. These parameters will be recorded and analysed accordingly.

Perioperative management The perioperative management of all recruited patients is standardized. All patients receive prophylactic antibiotics during induction and until all drains are removed in the postoperative period. All patients will have invasive blood pressure monitoring with an arterial line and intravenous antihypertensive medications aiming to control systolic blood pressure to below 140mmHg.

Randomization:

Eligible patients will be randomized 1:1 to the TARFET or HAR group using a computerized, permuted-block randomization scheme, stratified by site. The randomization sequence will be generated by an independent statistician and concealed from the study team. Screening log will also be kept by the individual institution.

Data Management and Analysis:

All data will be collected and managed using a secure, web-based electronic data capture system.

An independent Data and Safety Monitoring Board (DSMB) will regularly review the study data and safety outcomes and make recommendations to the Steering Committee.

The primary analysis will be conducted on an intention-to-treat basis, comparing the 30-day all-cause mortality rates between the two groups using a Chi-square test. Secondary analyses will evaluate the other clinical outcomes.

Ethical consideration:

This study shall be conducted in accordance with the ethical principles in the Declaration of Helsinki. This protocol will be submitted to the Clinical Ethical Review Committees (CREC) of individual institution for approval. The clinical investigation shall not begin until CREC approval has been obtained. Any additional requirements imposed by the CREC shall be followed. Written informed consent, specifically allowing the use of clinical records for study purposes, will be obtained from every patient prior to data collection. Patients can withdraw from the study without any prejudice at any time during the study. Data will be kept confidential in secure offices/location of the Department of Surgery of corresponding institution for seven years.

Confidentiality:

All laboratory specimens, evaluation forms, reports, and other records will be stored de- identified with a unique study ID to maintain research participant confidentiality. All clinical records will be kept in a secure storage area in the Department of Surgery of the corresponding institutions. Clinical information will not be released without the written permission of the research participant except as necessary for monitoring by regulatory bodies, and/or the IRB/EC.

The Investigators and all employees and research staff involved with this study may not disclose or use any data, record, or other unpublished, confidential information for any purpose other than performance of the study.

Potential risks of the study:

Acute aortic dissection is a life-threatening emergency condition with mortality of around 18- 25% from the world registries. In both the P-I and Co-I units, the investigators can achieve 30-days mortality of less than 20% from the previously published series. The study team should carefully assess the risks associated with each surgical intervention and implement strategies to minimize these risks, such as stringent patient selection criteria, meticulous surgical techniques, and robust perioperative management protocols. The potential benefits of the study interventions, including improved survival and reduced complications, should be clearly communicated to the participants. The study design should aim to maximize the potential benefits to the participants and future patients, while minimizing the risks. The investigators believe there will be minimal risk incur to the study patients.

Study Timeline

• Status Verified: 2024-10
• Study First Submitted: 2024-10-28
• Study First Submitted QC: 2024-11-04
• Last Update Submitted: 2024-11-04
• Study First Posted: 2024-11-06
• Last Update Posted: 2024-11-06
• Study Start: 2026-10
• Primary Completion: 2029-06
• Study Completion: 2029-10

Recruitment & Eligibility

• Status: NOT_YET_RECRUITING
• Sex: All
• Target Recruitment: 150

Inclusion Criteria

1. Patient 's age is between 18 and 80 years.
2. Patient is willing and able to give informed consent.
3. Patient has acute type A aortic dissection with entry tear beyond ascending aorta.
4. Patient not in coma/irreversible end organ failure/cardiac massage for resuscitation

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Exclusion Criteria

1. There is no identifiable entry tear in the aorta
2. The ascending entry tear extends into aortic arch
3. Patient has entry tear only in ascending aorta
4. Patient with Type B aortic dissection
5. Patient has co-morbidity (i.e. active malignancy (progressive, stable or partial remission)) causing expected survival to be less than 2 years.
6. Patient has any other medical, social, or psychological problems, that in the opinion of the investigator, preclude the patient from participating in this study.

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Primary Outcome Measures

Name	Time	Method
To evaluate the all-cause 30-day mortality rate between the TARFET and HAR groups in patients with acute type A aortic dissection with entry tear beyond ascending aorta.	From enrollment to the end of treatment at 30 days

Secondary Outcome Measures

Name	Time	Method
Malperfusion with respect to radiological evidence	From enrollment to 12 months after treatment.	True lumen cross sectional area divided by total aortic cross sectional area at the narrowest part in descending thoracic aorta.; Significant radiological ischemia definited as \<20% (True Lumen/Total aortic cross sectional area)
Malperfusion with respect to biochemical evidence	From enrollment to 12 months after treatment.	Increased myoglobin: increase more than normal range
Malperfusion with respect to clinical evidence	From enrollment to 12 months after treatment.	Paraplegia or paraparesis (modified Tarlov score) No lower extremity movement (0, paraplegia), lower extremity motion without gravity (1, paraplegia), Lower extremity motion against gravity (2, paraplegia), able to stand with assistance (3 paraparesis), able to walk with assistance (4, paraparesis), normal (5, normal)

Trial Locations

Locations (3)

University Hospital Vienna; 🇦🇹 Vienna, Austria

Prince of Wales Hospital; 🇭🇰 Hong Kong, Hong Kong

Siriraj Hospital - Mahidol University; 🇹🇭 Bangkok, Thailand