Application of 3D Printing Guide Plate in Spinal Minimally Invasive and Interventional Surgeries

Status

UNKNOWN

Phases

Study type

Interventional

Source

ClinicalTrials.gov

Registry ID

NCT05487690

Enrollment

120

Registered

2022-08-04

Start date

2022-10-20

Completion date

2025-01-31

Last updated

2022-11-01

For informational purposes only — not medical advice. Sourced from public registries and may not reflect the latest updates. Terms

Conditions

Lumbar Disc Herniation, Lumbar Spinal Stenosis, Radiculopathy, Lumbosacral Facet Joint Syndrome, Ischemic Pain of the Lower Extremity, Spinal Minimally Invasive and Interventional Surgeries, 3D Printing Guide Plate, Radicular Pain, Low Back Pain

Brief summary

Application of 3D printing guide plate in spinal minimally invasive and interventional surgeries

Detailed description

This study applies 3D-printed customized guide plate in assisting the accurate puncture in endoscopic spinal surgery, radiofrequency ablation of the medial branch of the dorsal ramus or sensory ganglion or joint, disc coblation nucleoplasty, etc. in patients with low back pain, lumbosacral radicular pain, joint pain, perineal pain and pelvic pain. This technique can shorten reduce the intra-operative radiation, and do not affect the surgical outcome. This study involved lumbar disc herniation (LDH), lumbar spinal stenosis (LCS), radiculopathy, facet joint disorder syndrome, ischemic pain of the lower extremity, cancer pain, etc.. Spinal minimally invasive and interventional surgeries are effective treatments for these disease. Needle Puncture is the key technology in spinal minimally invasive and interventional surgeries. In the past when there were no customized guides, the surgeons would place the needle according to his/her previous experience under the guidance of C-arm fluoroscopy or CT. If the position of the needles is not satisfactory, repeated procedure will be performed. This would lead to an increase in the duration of surgery and intra-operative radiation, which is detrimental to both the surgeon and the patient. This problem could be well solved by applying the 3D printing guide plate. The key processes for the 3D printing guide plate procedure: the model of the spine or bone is established according to the patient's CT scan data to prepare the customized guide plate, then sterilize them for future use. The final position of needle is confirmed by C-arm fluoroscopy or CT.

Interventions

OTHER3D printing guide plate

3D-printed customized guide plate will be used to guide the puncture in the spinal minimally invasive and interventional surgeries. to help to reduce intra-operative radiation.

OTHERConventional guidance

The surgeons would place the needle according to his/her previous experience under the guidance of C-arm fluoroscopy or CT.

Study design

Allocation

RANDOMIZED

Intervention model

PARALLEL

Primary purpose

TREATMENT

Masking

NONE

Eligibility

Sex/Gender

ALL

Age

18 Years to No maximum

Healthy volunteers

Inclusion criteria

1. Age ≥18 years old, 2. Pain lasting ≥12 weeks, 3. The previous failure of conservative management such as physiotherapy, exercise therapy, or analgesic medications, 4. Pain intensity≥4 out of 10 on the numerical rating scale (NRS), 5. Availability of computed tomography/magnetic resonance imaging findings of pathology concordant with the side and level of their clinical features, 6. Agree with spinal minimally invasive and interventional surgery treatments, including endoscopic spinal surgery, radiofrequency treatment of the medial branch of the dorsal ramus or nerve root or sensory ganglion or joint, disc coblation nucleoplasty, etc.

Exclusion criteria

1. Patient refusal to participate in the study, 2. Pregnant or nursing 3. Allergies to local anesthetics, contrast dyes or steroids 4. Significant anatomic deformity (either congenital or acquired) making it difficult to access the foramen as evidenced by computed tomography/magnetic resonance imaging 5. Patients with platelet dysfunction, bleeding disorder or continuing anticoagulant treatment 6. Steroid injection within the previous 12 weeks, 7. Systemic infection, 8. Injection site infection, 9. Unstable medical or psychiatric condition

Design outcomes

Primary

Measure	Time frame	Description
C-arm fluoroscopy times	Intraoperative	Numbers of using C-arm fluoroscopy

Secondary

Measure	Time frame	Description
Puncture time	Intraoperative	Time from the first puncture to the last puncture
Numerical rating scale (NRS)	Postoperative 1 day, 2 weeks, 1 month	NRS at 1 day, 2 weeks, 1 month after the operation
MacNab	Postoperative 1 months	Patient satisfaction using the modified MacNab criteria
Complications	Intraoperative	Complication like nerve injury, blood, hemotoma, etc.

Countries

China

Contacts

Primary ContactShuiqing Li

bjfdfx@126.com+86 01082265690

Backup ContactQipeng Luo

1293194276@qq.com+86 01082265026

Outcome results

None listed

Source: ClinicalTrials.gov · Data processed: Feb 4, 2026