Synapse 3D With Intravascular Indocyanine Green

Phase 1

Recruiting

• Conditions: Primary Neoplasm; Non-small Cell Lung Cancer
• Interventions: Device: Synapse 3D Lung Modelling; Drug: IC-Green (ICG)

• Registration Number: NCT03953144
• Lead Sponsor: St. Joseph's Healthcare Hamilton

Brief Summary

With the advent of CT screening for lung cancer, an increasing number of NSCLCs are being detected at very early stages, and the demand for pulmonary segmentectomy is rising rapidly. As such, there is a need to develop new surgical techniques to facilitate minimally invasive pulmonary segmentectomy, as segmentectomy may provide a number of significant advantages over lobectomy for patients presenting with early-stage lung cancer, or for patients unable to undergo a full lobectomy due to existing comorbidities. This study will provide the first case series using preoperative 3D anatomical planning (Synapse 3D) added to ICG and NIF-guided robotic segmentectomy to date and will be the first reported use of Synapse 3D-guided targeted pulmonary segmental resection in Canada. As lung cancer is the most frequently fatal cancer in North America, many thousands of patients will be able to benefit from this operation every year.

Detailed Description

Lungs are made up of individual lobes. When a lung cancer tumour is found in one of these lobes, the surgeon often performs a Lobectomy. A Lobectomy is the surgery most commonly done to treat early-stage lung cancer and requires removal of an entire lobe of the lung, which removes a large amount of lung tissue

For patients with small tumours saving as much healthy lung tissue as possible is important. Each lobe of the lung has smaller sections called segments. When a lung cancer is in one of these segments, it is possible to remove that segment, without removing the entire lobe. This surgery is called a Segmentectomy. Compared to a lobectomy, a segmentectomy saves a larger amount of healthy lung tissue. Research shows that a segmentectomy can result in less blood loss, shorter operation time, less days of having a chest tube, and a shorter hospital stay, compared to a lobectomy.

With the advances in screening technology for lung cancer tumours, an increasing amount of very small lung cancer tumours are being found, and the demand for segmentectomy is increasing. A segmentectomy is a hard surgery to perform robotically because it is difficult to view the tissue lines that separate each segment within the lobe. As a result, it is difficult for the surgeon to see exactly which pieces of tissue should be removed in order to safely complete the segmentectomy. Because of these challenges, many patients having robotic surgery will have a lobectomy, even if a full lobectomy is not needed.

In response to these challenges, our surgical group has developed the technique of using Near-Infrared Fluorescence (NIF) mapping with intravascular indocyanine green (ICG) dye injection. With the aid of an infrared camera the surgeon is able to see the segment within a lobe of lung after injection of the ICG dye, allowing for a more accurate segmentectomy. We recently reported a 60% success rate of segmental resections with the use of ICG and NIF-guided surgical resection. However, a limitation to this technique is that the segmental anatomy can only be seen during the operation and only after cutting the blood vessels.

The introduction of 3D reconstruction and virtual modeling provides a new way to locate lesions accurately within a segment and plan the appropriate operation before the actual surgery occurs. Synapse 3D (Mississauga, Canada) is a 3D modelling technology that is capable of producing a detailed 3D virtual model of a patient's lung based on Computed Tomography (CT) scans. It has been shown to be safe and feasible in performing segmental pulmonary resections on a robotic platform. In this study, we propose a new operation that uses 3D anatomical planning before the surgery (Synapse 3D) and real-time NIF-mapping at the time of surgery using ICG dye, which we believe will greatly increase the likelihood of a successful segmentectomy. If this new operation is successful, it will help patients save more of their healthy lung tissue when they are undergoing surgery for lung cancer.

Study Timeline

• Study First Submitted: 2019-04-30
• Study First Submitted QC: 2019-05-15
• Study First Posted: 2019-05-16
• Study Start: 2022-12-01
• Status Verified: 2024-01
• Last Update Submitted: 2024-01-16
• Last Update Posted: 2024-01-18
• Primary Completion: 2024-09-30
• Study Completion: 2024-12-31

Recruitment & Eligibility

• Status: RECRUITING
• Sex: All
• Target Recruitment: 32

Inclusion Criteria

• Tumour size <3 cm
• Clinical Stage 1 Non-Small Cell Lung Cancer (NSCLC)
• CT-imaging confirming that the tumour is confined to one broncho-pulmonary segment, rendering the patient a candidate for segmental resection.

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Exclusion Criteria

• Hypersensitivity or allergy to ICG, sodium iodide, or iodine
• Women who are currently pregnant or breastfeeding; or women of childbearing potential who are not currently taking adequate birth control.
• Patients with clinical evidence of N1 or N2 disease on preoperative imaging
• Pulmonary Function tests demonstrating Forced Expiratory Volume in 1s (FEV1) or diffusion capacity of the lung for carbon monoxide (DLCO) less than or equal to 30% of predicted.

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Study & Design

• Study Type: INTERVENTIONAL
• Study Design: SINGLE_GROUP

Arm && Interventions

Group	Intervention	Description
Synapse 3D Lung Modelling + IC-GREEN Segmentectomy	IC-Green (ICG)	Patients within this arm will undergo a high-resolution CT scan of the chest, which is required by Synapse 3D to create accurate 3D virtual model reconstructions. At the start of the operation, the 3D virtual model of the segmental pulmonary anatomy will be displayed on the da Vinci Robotic platform for operative planning. The model will be used as a guide to determine which vessels are involved in the segment and need to be removed. The surgeon will ligate the pulmonary vein and pulmonary artery of the broncho-pulmonary segment with the lung cancer nodule, isolating it from any blood supply, and mark the proposed segmental planes based on the 3D model. ICG will be prepared as a sterile solution (2.5 mg/10mL) for injection. After vascular ligation, an 8 mL bolus of ICG solution will be injected into the peripheral vein catheter, followed by a 10 mL saline solution bolus
Synapse 3D Lung Modelling + IC-GREEN Segmentectomy	Synapse 3D Lung Modelling	Patients within this arm will undergo a high-resolution CT scan of the chest, which is required by Synapse 3D to create accurate 3D virtual model reconstructions. At the start of the operation, the 3D virtual model of the segmental pulmonary anatomy will be displayed on the da Vinci Robotic platform for operative planning. The model will be used as a guide to determine which vessels are involved in the segment and need to be removed. The surgeon will ligate the pulmonary vein and pulmonary artery of the broncho-pulmonary segment with the lung cancer nodule, isolating it from any blood supply, and mark the proposed segmental planes based on the 3D model. ICG will be prepared as a sterile solution (2.5 mg/10mL) for injection. After vascular ligation, an 8 mL bolus of ICG solution will be injected into the peripheral vein catheter, followed by a 10 mL saline solution bolus

Primary Outcome Measures

Name	Time	Method
Segmental Resection Conversion Rate	1 year	Rate of conversions to lobectomy will be measured by collecting the proportion of conversions to lobectomy.
Number of Participants with Post Operative Complications	1 year	Post operative complications will be reported and measured using the Ottawa Thoracic Morbidity and Mortality Classification of (a) Adverse reactions to ICG dye at the time of surgery and (b) Perioperative complications through study completion.

Secondary Outcome Measures

Name	Time	Method
Anatomical Accuracy of the 3D Lung Model	1 year	Anatomical accuracy will be evaluated using the criteria listed in points a-c. A score of 3/3 on these items will indicate success of anatomical accuracy; 1. Ex-vivo localization of lesions; 2. Ex-vivo confirmation of tumor-free margins around lesion; 3. Ex-vivo confirmation of adequate anatomical inter-segmental.
Operation Time	1 year	Length of time of the operation will be measured by collecting the time the patient entered the operating room until the time the patient left the operating room.
Estimated Blood Loss	1 year	Estimated blood loss will be measured at the time of operation by OR staff.
Length of Stay	1 year	Duration of hospital length of stay will be measured by collecting the data of admission and the date of discharge.
Surgeon Confidence	1 year	A pre-operative CT scan based, a pre-operative 3D reconstruction based and post segmental resection surgeon confidence score will be obtained on a scale of 1-5: 1 - not at all confident, 2 - somewhat confident, 3 - confident, 4 - very confident, 5 - extremely confident.
Conversion to Thoracotomy	1 year	Rate of conversion to thoracotomy will be measured by collecting the proportion of conversions to thoracotomy. Descriptive analysis of reasons for conversion will also be collected.
Chest Tube Duration	1 year	Duration the patient had chest tubes in situ will be measured by collecting the date of surgery and the date the chest tube was removed.

Trial Locations

Locations (1)

St. Josephs Healthcare Hamilton; 🇨🇦 Hamilton, Ontario, Canada