Clinical Impact of Rapid Prototyping 3D Models for Surgical Management

Children's National

Status

Withdrawn

Conditions

Transposition of the Great Arteries

Congenitally Corrected Transposition of the Great Arteries

Double Outlet Right Ventricle

Truncus Arteriosus

Treatments

Diagnostic Test: 3D Printed Heart Model

Study type

Interventional

Funder types

Other

Identifiers

NCT04788082

15-090

Details and patient eligibility

About

Patient-specific, 3D printed models have been utilized in preoperative planning for many years. Among researchers and clinicians, there is a perception that preoperative exposure to 3D printed models, derived from patient images (CT or MRI), aid in procedural planning. 3D printed models for heart surgery have the potential to improve a clinician's preparedness and therefore may reduce surgically-related morbidity and mortality. This randomized clinical trial aims to evaluate whether pre-procedural planning of surgeons exposed to a patient-specific 3D printed heart model will decrease cardiopulmonary bypass time, morbidity, and mortality.

Full description

3D imaging and rapid prototyping 3D printing technology have advanced to the point where it is feasible to marry the two to produce a patient-matched and accurate 3D model of congenital heart defects. The production of a 3D model of the heart may be particularly useful in anticipation of surgery such that the operator can plan and visualize the surgery prior to the surgical date with a physical heart he or she can manipulate in their hands.

Preliminary studies demonstrate potential for clinical impact of 3D models on patient care and patient outcomes. 3D models have long been shown to enhance education and communication of anatomy. In 2008 Kim et al reviewed 3D printed models as an emerging technology in management of congenital heart disease, and also suggests that physical models may also help enhance patients and physicians' understanding of congenital heart disease. Our group has also published on the clinical and educational value of these 3D heart models. To date, no systematic trial identifying the value of 3D models on procedural planning has been published.

Sex

All

Volunteers

No Healthy Volunteers

Inclusion criteria

Pediatric subjects undergoing primary complex two-ventricle repair of congenital heart defect, including but not limited to:
1. double outlet right ventricle (DORV),
2. transposition of the great arteries with ventricular septal defect and pulmonary stenosis (TGA/VSD/PS),
3. truncus arteriosus with ventricular septal defect (TA/VSD)
4. congenitally corrected transposition of the arteries with pulmonary stenosis (CCTGA/PS).
Patient who will undergo preoperative cardiac MR or cardiac CT imaging

a. Images will be validated by the IRC prior to inclusion
Written informed consent (and assent when applicable) and HIPAA authorization obtained from subject or subject's legal representative and ability for subject to comply with the requirements of the study.

Exclusion criteria

Complex defects involving atrioventricular valve anomalies
1. complete or transitional atrioventricular canal
2. double inlet left ventricle
3. tricuspid atresia
4. mitral atresia
Defects with valve dysfunction requiring an extensive valvuloplasty
Patients with a contraindication to MRI scanning will be excluded unless they are referred for a cardiac CT per clinical standard of practice. These contraindications include patients with the following devices:
1. Central nervous system aneurysm clips
2. Implanted neural stimulator
3. Implanted cardiac pacemaker or defibrillator which are not MR safe or MR conditional according to the manufacturer
4. Cochlear implant
5. Ocular foreign body (e.g. metal shavings)
6. Implanted Insulin pump
7. Metal shrapnel or bullet.
8. Any contraindications to receiving IV gadolinium contrast, determined clinically
Subjects where MRI or CT images are acquired more than six months prior to the scheduled surgical date
Subjects where date of scan to date of surgery is less than 10 calendar days
Subjects where MRI or CT reconstruction is limited due to poor image acquisition as solely determined by the Image Reconstruction Center.