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The Use of 3D Printing in Orbital Fractures

Primary Purpose

Orbital Fractures

Status
Terminated
Phase
Not Applicable
Locations
United States
Study Type
Interventional
Intervention
office-based 3-dimensional printers (OB3DP)
standard stock orbital plate
Sponsored by
Emory University
About
Eligibility
Locations
Arms
Outcomes
Full info

About this trial

This is an interventional treatment trial for Orbital Fractures focused on measuring 3D Printer, orbital implants

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

  • Agreed to be enrolled in the study.
  • Indications for surgical repair of orbital floor and/ wall fractures are dependent on several factors:

    • Correction or prevention of cosmetic deformity ( enophthalmos or inferior dystopia; disruption of greater than 50% of the orbital floor is likely to cause cosmetically apparent enophthalmos.
    • Correction of unresolved diplopia (7 to 11 days) in the sitting of soft tissue prolapse with a positive forced duction test.
    • Immediate correction of diplopia in the sitting inferior rectus muscle incarceration and a positive forced duction test.
    • Immediate correction in a symptomatic patient with orbital floor ( trapdoor) fracture that has elicited the oculocardiac reflex.
  • At least 18 years of age.
  • Unilateral orbital floor fracture.
  • No history of orbital trauma.
  • Healthy contralateral orbit.
  • Underwent orbital reconstruction.
  • Admitted to GMH.
  • Returned for the 6-week follow-up.

Exclusion Criteria:

  • Refuse study enrollment.
  • Are younger than 18 years.
  • Pregnant women.
  • Prisoner
  • Unable to obtain consent (cognitively impaired)
  • Are admitted to hospitals other than Grady Memorial Hospital.

Sites / Locations

  • Grady Memorial Hospital

Arms of the Study

Arm 1

Arm 2

Arm Type

Experimental

Active Comparator

Arm Label

Treatment Group

Control Group

Arm Description

Patients undergo orbital reconstruction using pre-adjusted patient-specific orbital implants with office-based 3-dimensional printers (OB3DP)

Patients undergo orbital reconstruction with non-patient-specific orbital implants (traditional approach, Control Group) which is a standard stock orbital plate

Outcomes

Primary Outcome Measures

Orbital Volume of the Injured Orbit Compared to the Contralateral Uninjured Orbit as Assessed by CT Scan Between the Treatment and Control Groups
The Primary Investigator will evaluate the orbital volume using OsiriX (medical software). Orbital volume measurements will be obtained to compare the injured and uninjured (contralateral) orbital volumes. OsiriX MD offers advanced processing techniques and has the ability to precisely measure orbital volume. It also utilizes the DICOM data from the immediate postoperative CT scans.

Secondary Outcome Measures

Number of Subjects With Reduction of Orbital Volume to Less Than 2 cm3 Between the Treatment and Control Groups
Adequate orbital volume reduction, defined as a reduction of orbital volume to less than 2 cm3. The Primary Investigator will evaluate the orbital volume using OsiriX (medical software). Number of subjects with reduction of orbital volume to less than 2 cm3 between the treatment and control groups are recorded
Number of Subjects With a Difference of More Than 2 mm Between the Two Orbits Between the Treatment and Control Groups
A difference of more than 2 mm between the two orbits is diagnostic for enophthalmos. Enophthalmos is assessed by clinical examination using a Hertel exophthalmometer. The measurement is taken from the lateral orbital rim to the corneal apex. The normal range is 12-21 mm. Upper normal limit for people of African origin is a little higher, about 23-24 mm. A difference greater than 2 mm between the eyes is significant.
Number of Subjects With Infection Between the Treatment and Control Groups
Infection is defined by the presence of postoperative pus in the wound, a sinus tract or fistula, or elevated white blood cell count (WBC) >11.0x109/L combined with erythematous skin and swelling on the operated side more than on the un-operated side. WBC is measured with a blood draw test. Infection will be confirmed with clinical examination along with blood tests.
Number of Subjects With Infraorbital Nerve Injury Between the Treatment and Control Groups
Infraorbital nerve injury is assessed by clinical examination using neurosensory testing (NST). NST is a standardized methodology designed to objectively evaluate sensory nerve function. The sensory impairment is determined by 3 levels of testing; each level classifies a specific type of sensory nerve injury.
Number of Subjects With Intraocular Pressure (IOP) > 40 mmHg Between the Treatment and Control Groups
Intraocular pressure (IOP) > 40 mmHg is diagnostic of orbital compartment syndrome. Orbital compartment syndrome is assessed through clinical examination using tonometry test. Tonometry is a diagnostic test that measures the pressure inside your eye, which is called intraocular pressure (IOP). The normal pressure range is 12 to 22 mm Hg.
Mean Operating Time in Minutes Between the Treatment and Control Groups
Operating time will be calculated from fracture exposure and identification to the final implant placement and fixation and will be recorded in minutes. This will be compared between the two treatment groups. To record and compare the operative time between the two groups, a stopwatch will be utilized.
Mean Length of Stay in Hospital Measured in Days Between the Treatment and Control Groups
Isolated orbital floor fracture patients do not require a pre-operative hospital stay. Length of stay will be calculated in terms of postoperative hospital stay (days). Length of stay in cases of complex orbital fracture will be calculated in terms of pre-operative and postoperative hospital stay (days). The number of days subject stays in the hospital are measured and compared
Mean Treatment Amount in Dollars Between the Treatment and Control Groups
Treatment charges will be calculated with consideration of the following: Facility operating room charges, which include anesthesia time (surgical time multiplied by the facility rate of $33/ minute). Hardware charges (plates and screws). Length Of Stay charges (LOS multiplied by the facility daily rate of $1,690/ day). The cost of the 3D printed model including the cost of the 3D printer and filaments ($1.5). All treatment charge variables will be provided by the Grady Memorial Hospital Financial Planning and Analysis center. Total treatment charges facility operating room charges, hardware charges, LOS, and the 3D printed model cost will be compared between groups in a manner similar to that outlined in previous studies by our group.
Number of Subjects That Develop Restricted Extraocular Motility That Was Not Present Before Between the Treatment and Control Groups
Extra-ocular motility is assessed through clinical examination. The patient should be able to move the eyes through the six cardinal positions of gaze (left, right, up and right, up and left, down and right, down and left). All patients will be examined for the following: Development of restricted extraocular motility that was not present prior to the surgery. Persistent restriction of extraocular motility after the surgery
Number of Subjects With Inability to Achieve the Normal Orbital Contour Between the Treatment and Control Groups
Inability to achieve the normal orbital contour as assessed in the immediate post-operative Computerized Tomography (CT) scan. Maxillofacial non-contrast CT scans according to the protocol will be obtained as part of the standard of care in managing orbital fractures and will be obtained for all subjects post operatively.

Full Information

First Posted
September 14, 2018
Last Updated
July 25, 2022
Sponsor
Emory University
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1. Study Identification

Unique Protocol Identification Number
NCT03673865
Brief Title
The Use of 3D Printing in Orbital Fractures
Official Title
Does the Use of a Customized Titanium Reconstruction Plate for Orbital Fractures Result in Better Orbital Volume and Outcome
Study Type
Interventional

2. Study Status

Record Verification Date
July 2022
Overall Recruitment Status
Terminated
Why Stopped
Enrollment and study activities were initially suspended due to COVID-19 and it has been determined that the study will not resume.
Study Start Date
October 11, 2019 (Actual)
Primary Completion Date
June 10, 2021 (Actual)
Study Completion Date
June 10, 2021 (Actual)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Principal Investigator
Name of the Sponsor
Emory University

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
Yes
Product Manufactured in and Exported from the U.S.
No
Data Monitoring Committee
Yes

5. Study Description

Brief Summary
The study is a prospective randomized longitudinal clinical study to compare pre-adapted patient-specific orbital implants utilizing an office-based 3-D printer versus standard non-adapted orbital implants (the latter being the traditional approach and current standard of care).
Detailed Description
Orbital fracture, which accounts for 10-25% of facial fractures, is one of the most difficult facial fractures to treat. The complex bone anatomy and the proximity of adjacent vital structures make reconstruction of these fractures challenging. Inadequate orbital fracture reconstruction leads to cosmetic and functional complications. Cosmetic complications include enophthalmos, which is defined as posterior displacement of the eyeball within the orbit due to changes in the volume of the orbit (bone) relative to its contents (the eyeball and orbital fat). Functional complications include diplopia, defined as a type of vision disorder in which two images are seen of a single object. This is a prospective randomized clinical study with longitudinal follow-up. The study duration is 2 years, and it will be conducted at Grady Memorial Hospital (GMH). The study targets low-income, urban adults suffering blunt facial trauma who are diagnosed with unilateral orbital fracture. The purpose of this study is to compare pre-adapted patient-specific orbital implants utilizing an office-based 3-D printer versus standard non-adapted orbital implants. Main aims of the study are to 1) preoperatively generate a patient-specific model to pre-adapt the titanium mesh for use in unilateral orbital fractures; 2) accurately restore the orbital volume to pre-injury levels; 3) prevent postoperative complications including enophthalmos and diplopia; and 4) decrease the operative time, therefore decreasing overall cost and increasing value.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Orbital Fractures
Keywords
3D Printer, orbital implants

7. Study Design

Primary Purpose
Treatment
Study Phase
Not Applicable
Interventional Study Model
Parallel Assignment
Model Description
This is a prospective randomized clinical study with longitudinal follow-up
Masking
None (Open Label)
Allocation
Randomized
Enrollment
25 (Actual)

8. Arms, Groups, and Interventions

Arm Title
Treatment Group
Arm Type
Experimental
Arm Description
Patients undergo orbital reconstruction using pre-adjusted patient-specific orbital implants with office-based 3-dimensional printers (OB3DP)
Arm Title
Control Group
Arm Type
Active Comparator
Arm Description
Patients undergo orbital reconstruction with non-patient-specific orbital implants (traditional approach, Control Group) which is a standard stock orbital plate
Intervention Type
Device
Intervention Name(s)
office-based 3-dimensional printers (OB3DP)
Other Intervention Name(s)
3D Printer, Prusa i3 MK2 3D Printer kit with liquid crystal display
Intervention Description
In this treatment group subjects, using office-based 3-dimensional printers (OB3DP) a patient-specific pre-adjusted (pre-bend) orbital plates will be made using over-the-counter titanium plates that are manually adjusted according to the printed model. The plates are then send to sterilization for preparation.
Intervention Type
Device
Intervention Name(s)
standard stock orbital plate
Other Intervention Name(s)
orbital plate
Intervention Description
In this control group subjects will receive non-patient-specific orbital implants which is standard stock orbital plate that is adapted intraoperatively to the fractured orbit
Primary Outcome Measure Information:
Title
Orbital Volume of the Injured Orbit Compared to the Contralateral Uninjured Orbit as Assessed by CT Scan Between the Treatment and Control Groups
Description
The Primary Investigator will evaluate the orbital volume using OsiriX (medical software). Orbital volume measurements will be obtained to compare the injured and uninjured (contralateral) orbital volumes. OsiriX MD offers advanced processing techniques and has the ability to precisely measure orbital volume. It also utilizes the DICOM data from the immediate postoperative CT scans.
Time Frame
1 hour post operatively
Secondary Outcome Measure Information:
Title
Number of Subjects With Reduction of Orbital Volume to Less Than 2 cm3 Between the Treatment and Control Groups
Description
Adequate orbital volume reduction, defined as a reduction of orbital volume to less than 2 cm3. The Primary Investigator will evaluate the orbital volume using OsiriX (medical software). Number of subjects with reduction of orbital volume to less than 2 cm3 between the treatment and control groups are recorded
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Number of Subjects With a Difference of More Than 2 mm Between the Two Orbits Between the Treatment and Control Groups
Description
A difference of more than 2 mm between the two orbits is diagnostic for enophthalmos. Enophthalmos is assessed by clinical examination using a Hertel exophthalmometer. The measurement is taken from the lateral orbital rim to the corneal apex. The normal range is 12-21 mm. Upper normal limit for people of African origin is a little higher, about 23-24 mm. A difference greater than 2 mm between the eyes is significant.
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Number of Subjects With Infection Between the Treatment and Control Groups
Description
Infection is defined by the presence of postoperative pus in the wound, a sinus tract or fistula, or elevated white blood cell count (WBC) >11.0x109/L combined with erythematous skin and swelling on the operated side more than on the un-operated side. WBC is measured with a blood draw test. Infection will be confirmed with clinical examination along with blood tests.
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Number of Subjects With Infraorbital Nerve Injury Between the Treatment and Control Groups
Description
Infraorbital nerve injury is assessed by clinical examination using neurosensory testing (NST). NST is a standardized methodology designed to objectively evaluate sensory nerve function. The sensory impairment is determined by 3 levels of testing; each level classifies a specific type of sensory nerve injury.
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Number of Subjects With Intraocular Pressure (IOP) > 40 mmHg Between the Treatment and Control Groups
Description
Intraocular pressure (IOP) > 40 mmHg is diagnostic of orbital compartment syndrome. Orbital compartment syndrome is assessed through clinical examination using tonometry test. Tonometry is a diagnostic test that measures the pressure inside your eye, which is called intraocular pressure (IOP). The normal pressure range is 12 to 22 mm Hg.
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Mean Operating Time in Minutes Between the Treatment and Control Groups
Description
Operating time will be calculated from fracture exposure and identification to the final implant placement and fixation and will be recorded in minutes. This will be compared between the two treatment groups. To record and compare the operative time between the two groups, a stopwatch will be utilized.
Time Frame
Intraoperative time period
Title
Mean Length of Stay in Hospital Measured in Days Between the Treatment and Control Groups
Description
Isolated orbital floor fracture patients do not require a pre-operative hospital stay. Length of stay will be calculated in terms of postoperative hospital stay (days). Length of stay in cases of complex orbital fracture will be calculated in terms of pre-operative and postoperative hospital stay (days). The number of days subject stays in the hospital are measured and compared
Time Frame
up to 2 weeks
Title
Mean Treatment Amount in Dollars Between the Treatment and Control Groups
Description
Treatment charges will be calculated with consideration of the following: Facility operating room charges, which include anesthesia time (surgical time multiplied by the facility rate of $33/ minute). Hardware charges (plates and screws). Length Of Stay charges (LOS multiplied by the facility daily rate of $1,690/ day). The cost of the 3D printed model including the cost of the 3D printer and filaments ($1.5). All treatment charge variables will be provided by the Grady Memorial Hospital Financial Planning and Analysis center. Total treatment charges facility operating room charges, hardware charges, LOS, and the 3D printed model cost will be compared between groups in a manner similar to that outlined in previous studies by our group.
Time Frame
up to 2 weeks
Title
Number of Subjects That Develop Restricted Extraocular Motility That Was Not Present Before Between the Treatment and Control Groups
Description
Extra-ocular motility is assessed through clinical examination. The patient should be able to move the eyes through the six cardinal positions of gaze (left, right, up and right, up and left, down and right, down and left). All patients will be examined for the following: Development of restricted extraocular motility that was not present prior to the surgery. Persistent restriction of extraocular motility after the surgery
Time Frame
1 week, 3 weeks, and 6 weeks postoperatively.
Title
Number of Subjects With Inability to Achieve the Normal Orbital Contour Between the Treatment and Control Groups
Description
Inability to achieve the normal orbital contour as assessed in the immediate post-operative Computerized Tomography (CT) scan. Maxillofacial non-contrast CT scans according to the protocol will be obtained as part of the standard of care in managing orbital fractures and will be obtained for all subjects post operatively.
Time Frame
Up to 6 hours postoperatively

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria: Agreed to be enrolled in the study. Indications for surgical repair of orbital floor and/ wall fractures are dependent on several factors: Correction or prevention of cosmetic deformity ( enophthalmos or inferior dystopia; disruption of greater than 50% of the orbital floor is likely to cause cosmetically apparent enophthalmos. Correction of unresolved diplopia (7 to 11 days) in the sitting of soft tissue prolapse with a positive forced duction test. Immediate correction of diplopia in the sitting inferior rectus muscle incarceration and a positive forced duction test. Immediate correction in a symptomatic patient with orbital floor ( trapdoor) fracture that has elicited the oculocardiac reflex. At least 18 years of age. Unilateral orbital floor fracture. No history of orbital trauma. Healthy contralateral orbit. Underwent orbital reconstruction. Admitted to GMH. Returned for the 6-week follow-up. Exclusion Criteria: Refuse study enrollment. Are younger than 18 years. Pregnant women. Prisoner Unable to obtain consent (cognitively impaired) Are admitted to hospitals other than Grady Memorial Hospital.
Overall Study Officials:
First Name & Middle Initial & Last Name & Degree
Dina Amin, DDS
Organizational Affiliation
Emory University
Official's Role
Principal Investigator
Facility Information:
Facility Name
Grady Memorial Hospital
City
Atlanta
State/Province
Georgia
ZIP/Postal Code
30303
Country
United States

12. IPD Sharing Statement

Plan to Share IPD
No

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The Use of 3D Printing in Orbital Fractures

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