Can Pre-operative Flexible 3D Models of Pulmonary Malformations Facilitate Thoracoscopic Resection

Pulmonary Malformation Clinical Trial

— 3DLP  

Official title:

Can Pre-operative Flexible 3D Models of Pulmonary Malformations Facilitate Thoracoscopic Resection

Clinical Trial Details — Status: Not yet recruiting

Administrative data

• NCT number: NCT03913416
• Other study ID #: 69HCL19_0030
• Status: Not yet recruiting
• Phase: N/A
• Start date: September 2020
• Est. completion date: September 2024

Study information

• Verified date: March 2020
• Source: Hospices Civils de Lyon
• Contact: Frederic Hameury, MD
• Phone: 4 27 85 57 89
• Email: julien.berthiller[@]chu-lyon.fr
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

The National Rare Diseases plans, the ongoing MALFPULM PHRC and thoracoscopic advents in children, are remarkable improvements in understanding and managing lung malformations. The resection of these malformations is now proposed in most cases to avoid infections which are difficult to treat and to diagnose or to avoid exceptional tumors. Procedures are ideally performed around the age of 5-6 months to take advantage of the lung growth that continues during the first two years of life. The surgical strategies depend of the malformation size, the tumor risk and surgeon choice: conservative surgery with removal of part of the lobe may be preferred over complete resection of the concerned lobe.

If possible, thoracoscopic resection is carried out. The open thoracotomy is more painful and leads to complications such as thoracic deformities, larger scars, blood loss. However, in infants the thoracoscopic work space is small, lung exclusion is challenging and the anatomy (normal or malformative) is difficult to understand in space. The rate of thoracoscopy without conversion to thoracotomy ranges from 98% in one American center with a more radical approach , to 48% in a national cohort. Pulmonary exclusion failure, complexity and size of malformations and intra-operative complications are factors of conversion to thoracotomy . These factors can lead surgeons to perform thoracotomy without attempting thoracoscopy.

3D printing is a thriving research field for its educational or therapeutic potential optimization of management, prosthesis, and organ replacement. 3D printing is particularly adapted to pediatrics, which suffers from the rarity of its pathologies and a large spectrum of size and morphology prohibiting the mass production of models. 3D printing models of complex pulmonary pathologies will allowed for a better anesthetic and surgical approach. The modeling of bronchial, vascular and even parenchymatous anatomy permits a better understanding of the anatomical particularities of each patient. This, in turn, avoids the intra-operative conversions to thoracotomy with a direct benefit for the patient.

Recruitment information / eligibility

• Status: Not yet recruiting
• Enrollment: 178
• Est. completion date: September 2024
• Est. primary completion date: September 2024
• Accepts healthy volunteers: No
• Gender: All
• Age group: N/A to 24 Months

Eligibility

Inclusion Criteria:

• Patients aged from 1 day to 24 months.

• Patients with pulmonary malformation eligible for surgery

• Parents agreement for surgical treatment

• Parents able to sign an informed consent form

• Patient benefiting from a social insurance system or a similar system

Exclusion Criteria:

• Emergency surgeries (less than 15 days between scanner and surgery)

• Obvious extrapulmonary sequestration on tomographic scanning images

• Patients with other major malformation additionally to pulmonary malformation

• Parents unable to understand the purpose of the trial

• Patient already participating to another clinical trial that might jeopardize the current trial

Related Conditions & MeSH terms

• Congenital Abnormalities
• Pulmonary Malformation

Intervention

Device:
• 3D printed model
Before surgery, the surgeon will have a 3D printed model of the pulmonary malformation as well as the lung, the rib cage and the tracheal trunk based on the initial scanner images. He will then be able to train and plan the surgical strategy, as well as to discuss the pulmonary exclusion with the anesthetist.

Other:
• Control group
The control group is composed of patients operated with standard surgery

Locations

Country	Name	City	State
France	Hopital Femme Mere Enfant	Bron

Sponsors (1)

Lead Sponsor	Collaborator
Hospices Civils de Lyon

Country where clinical trial is conducted

France, 

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	proportion of intent to treat under thoracoscopy vs thoracotomy procedures	Comparisonbetween the 2 groups.	Day 1
Secondary	conversion rate from thoracoscopy over thoracoscopy attempted.	Comparison between the 2 groups.	Day 1
Secondary	Proportion of effective pulmonary exclusion of the operated lung.		Day 1
Secondary	Proportion of variation between preoperative and effective strategy	Variation of strategy in terms of type of resection (lobar, sub-lobar or segmental resection)	Day 1
Secondary	induction time	Comparison of induction time in minutes between the 2 strategies	Day 1
Secondary	Evaluation of pain using EVENDOL scale	Comparison of pain between the 2 groups. Total EVENDOL scores vary from 0 (min) to 15 (max). Each item is scored from 0 to 3 0 = No sign, normal; = weak or transient sign; = moderate or only present half the time; = strong or almost permanent sign	Hour 12
Secondary	Evaluation of pain using EVENDOL scale	Comparison of pain between the 2 groups. Total EVENDOL scores vary from 0 (min) to 15 (max). Each item is scored from 0 to 3 0 = No sign, normal; = weak or transient sign; = moderate or only present half the time; = strong or almost permanent sign	Hour 24
Secondary	Evaluation of pain using EVENDOL scale	Comparison of pain between the 2 groups. Total EVENDOL scores vary from 0 (min) to 15 (max). Each item is scored from 0 to 3 0 = No sign, normal; = weak or transient sign; = moderate or only present half the time; = strong or almost permanent sign	Hour 36
Secondary	Evaluation of pain using EVENDOL scale	Comparison of pain between the 2 groups. Total EVENDOL scores vary from 0 (min) to 15 (max). Each item is scored from 0 to 3 0 = No sign, normal; = weak or transient sign; = moderate or only present half the time; = strong or almost permanent sign	Hour 48
Secondary	Evaluation of pain using EVENDOL scale	Comparison of pain between the 2 groups. Total EVENDOL scores vary from 0 (min) to 15 (max). Each item is scored from 0 to 3 0 = No sign, normal; = weak or transient sign; = moderate or only present half the time; = strong or almost permanent sign	Hour 72
Secondary	percentage of analgesic treatments	Comparison of Analgesic consumption between the 2 groups	Day 10
Secondary	Blood loss	Comparison of Blood loss in ml between the 2 groups	Day 1
Secondary	number of residual lesions assessed on TDM scanner images		1 year
Secondary	number of complications (duration of postoperative air leak greater than 5 days)		Day 10
Secondary	number of complications (reoperation)		Day 10
Secondary	number of complications (pneumothorax).		Day 10
Secondary	Drainage duration	Comparison between the 2 groups of drainage duration in days (drain removal when loss lower than 50ml)	Day 10
Secondary	Length of hospital stay	Comparison between the 2 groups of Length of hospital stay in days	Day 10
Secondary	resection complexity classification	Development of a resection complexity classification similar to the PreText classification of hepatoblastoma	Day 10