3D-printed Crowns Versus Zirconia Crowns for Primary Molars

Not Applicable

Completed

• Conditions: Dental Caries in Children
• Interventions: Other: 3D printed crowns; Other: Zirconia crowns

• Registration Number: NCT06068244
• Lead Sponsor: Ain Shams University

Brief Summary

The aim of the present study is to compare between 3D-printed crowns and prefabricated zirconia crowns for restoring pulpally-treated primary molars regarding the following aspects:

1. In vivo:

Evaluate the clinical outcome of 3D printed crowns in comparison to prefabricated zirconia crowns in pulpally-treated primary molars as well as parent satisfaction.

2. In vitro:

Comparative analysis of fracture resistance and marginal gap of 3D printed crowns and prefabricated zirconia crowns

Detailed Description

in vitro part :

All selected primary molars should fulfill the following criteria:

1. Freshly extracted molars with at least three sound walls.

2. Retain at least one third of their roots Teeth preparation All soft tissue debris will be removed with a hand scaler and teeth will be disinfected, and then stored in distilled water at 4 degrees Celsius until the start of the study.

Pulpotomy procedures will be performed to the extracted molars and the molars will be filled. Then, they will be randomly allocated into two groups.

Group 1: Will receive 3D-printed crowns Group 2: Will receive prefabricated zirconia crowns The specimens will be embedded perpendicularly in Polyvinyl chloride (PVC) cubes with the occlusal surface parallel to the ground using acrylic resin extending 2mm below the cementoenamel junction.

Evaluations: teeth in both groups will be evaluated for the following:

1. Marginal gap:

Precementation measurements of the cervical vertical marginal discrepancies will be performed before cementation., Four optical images for each specimen will be captured using a stereomicroscope (Wild 400, Switzerland) at a 32× magnification. Images will then be transferred to the computer software for image analysis.

2. Fracture Resistance:

An axial loading condition through the functional cusp will be defined in the mechanical failure description. Failure-to-fracture strength will be tested with a universal testing machine (LLOYD machine) at a 0.5 mm/sec crosshead speed. Application of a round-end vertical loading tip on the occlusal third of a specimen fixed into a loading apparatus as functional loading simulation.

in vivo part : Teeth will be polished using a polishing paste and brush, and dried before being examined.

A dental mirror will be used for clinical examination under light emitting diode (LED) illumination to confirm the fulfillment of the inclusion criteria of the patient's selection.

* The molars will be randomly allocated into two equal treatment groups 23/each):

1. Group 1: 3D-printed crowns

2. Group 2: prefabricated zirconia crowns

Pulpotomy procedure for both groups:

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1. Local anesthesia will be administered.

2. Teeth will undergo pulpotomy procedure' as follows:

* Caries removal will be done using a large size 4 round bur, mounted onto a high-speed hand piece with constant coolant.

* All access cavity walls will be flared to allow complete exposure of the pulp chamber, and easy undisturbed access to the canals, followed by removal of all the soft pulpal tissue tags by a sharp spoon shaped excavator.

* Bleeding control will be done using moist cotton pellet with gentle pressure.

* Formocresol will be applied using a cotton pellet for 3-5 mins, for fixation.

* The pulp chamber will be filled with re-inforced zinc oxide and eugenol that will be mixed according to manufacturer's instructions.

* Analgesics will be prescribed to the patient to be taken when needed.

Intervention Group 1:

1. Crown reduction: The teeth will be prepared using taper diamond bur with round end for buccal, lingual, mesial, and distal wall for 0.8- 1 mm, producing a chamfer margin circumferentially, and then, reduction of the occlusal surface will be done using a round wheel to produce occlusal clearance of 1.5 mm.

2. Impression for the preparation will be taken using putty and light poly vinyl siloxane material.

3. The impression will be sent to the lab and the patient will be dismissed.

4. The preparation will be optically scanned in the lab and the crown will be digitally designed using computer designing software.

5. The crown will be printed using 3D printer.

6. The 3D printed crown will be cemented in the 2nd visit.

Control: Group 2:

1. Crown reduction:

* In order to compensate for the thickness of zirconia crown, reduction will be performed on the mesial, distal, buccal and lingual surfaces of the tooth for 0.7-1.75mm. Reduction will be performed using fine needle stone in the beginning to free the contact from the adjacent teeth then followed by reduction of the other surfaces using a diamond stone.

* Reduction of the occlusal surface will be performed using a flame stone or wheel stone to produce occlusal clearance of 1.5- 2 mm.

* All line angles will be checked to remove any sharp line angles.

2. Selection of the matching size from zirconia crowns will be made taking into consideration that the preparation must be free from any undercuts to avoid crown fracture.

3. After checking the selected size of the crowns, it will be removed, dried and cemented to the tooth using resin cement.

Method of evaluation:

After cementation , at baseline ,3rd ,6th and 12th months evaluation of the crowns will be performed clinically using the modified U.S. Public Health Service criteria for retention, marginal integrity and gingival health for both groups. Also, parental satisfaction will be evaluated at end of the study using 5-point likert scale.

Study Timeline

• Study Start: 2023-07-01
• Study First Submitted: 2023-09-08
• Study First Submitted QC: 2023-09-28
• Study First Posted: 2023-10-05
• Primary Completion: 2024-11-30
• Study Completion: 2024-11-30
• Status Verified: 2025-02
• Last Update Submitted: 2025-02-04
• Last Update Posted: 2025-02-05

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 46

Inclusion Criteria

• Children included in the study should stratify to the following criteria:

  • Age range of children from 4 -7 years.
  • Having at least one vital primary molar with deep carious lesion indicated for pulpotomy or pulpectomy.
  • The expected exfoliation date of the selected primary teeth must be more than 12 months from the start date of the study.

Exclusion Criteria

• a) Uncooperative children who needs sedation or general anesthesia. b) Children with physical, intellectual disability or medical conditions that may complicate treatment.

  c) Teeth with poor prognosis due to the presence of an abscess or a sinus, mobility or advanced bone resorption.

  d) Presence of internal or external root resorption.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
3D printed crowns	3D printed crowns	Participants received 3D printed resin crowns
Zirconia crowns	Zirconia crowns	Participants received ready made zirconia crowns

Primary Outcome Measures

Name	Time	Method
Gingival health (gingival index)	1 year follow up for vivo part only	Gingival index and plaque index; A gingival index, based on the Loe and Silness scoring criteria (1963). It will be measured by gently inserting the tip of a periodontal probe into the sulcus surrounding each tooth. Scoring as followed: 0 = Normal (Absence of inflammation); 1. = Mild gingivitis (slight change in color, slight edema. No bleeding on probing); 2. = Moderate gingivitis (redness, edema and glazing. Bleeding on probing); 3. = Severe gingivitis (marked redness and edema; ulceration; tendency to spontaneous bleeding); * Gingival index and plaque index.
crown retention	one year follow up	Alpha: Bonded Bravo: Debonded Charlie: Lost
In vitro marginal gap	Immediately after samples preparation	micrometers
plaque index	1year follow up	Plaque index (PI) (Silness and Loe) PI 0: No observable plaque PI 1: A thin film of plaque is detected at the gingival margin by running a probe or explorer across the tooth surfaces PI 2: A moderate amount of plaque is detected along the gingival margin. Plaque is visible clinically.; PI 3: Heavy plaque accumulation is detected at the gingival margin and in the interdental Plaque index (PI) (Silness and Loe) PI 0: No observable plaque PI 1: A thin film of plaque is detected at the gingival margin by running a probe or explorer across the tooth surfaces PI 2: A moderate amount of plaque is detected along the gingival margin. Plaque is visible clinically.; PI 3: Heavy plaque accumulation is detected at the gingival margin and in the interdental
Marginal integrity	1yeat follow up	by visual inspection and explorer Alfa: Explorer does not catch or has one way catch when drawn across the restoration/tooth interface.; Bravo: Explorer falls into crevice when drawn across the restoration/tooth interface, Dentin is not exposed; clinically acceptable.; Charlie: Dentin or base is exposed along the margin; clinically unacceptable.
in vitro fracture resistance	Immediately after samples preparation	newton

Secondary Outcome Measures

Name	Time	Method
parent satisfaction	immediately after cementation of crowns	5-point likert scale.1-very dissatisfied; 2-dissatisfied; 3-neutrally satisfied; 4-satisfied; 5-very satisfied.

Trial Locations

Locations (1)

Ain shams university; 🇪🇬 Cairo, Egypt