Evaluation of Erythropoietin on Alveolar Ridge Preservation

II. Aim of the study:

To assess the efficiency of Erythropoietin in alveolar ridge preservation.

1. Objectives:

Primary objective:

Dimensional changes of the ridge clinically and radiographically.

Secondary objective:

1. Postoperative pain.

2. Postoperative wound healing.

3. Histomorphometric analysis of the bone regeneration patterns of the extraction sockets.

III. Materials and Methods

1. Study design and patient selection:

   It is a randomized controlled clinical trial. Patients will be selected from the outpatient clinic of the Department of Oral Medicine and Periodontology-Ain Shams University and the British University of Egypt. All patients will sign an informed consent about the details of the surgery according to the Ethical Committee Ain Shams University.

2. Sample size:

   The sample size was estimated based on assuming confidence level= 95% and study power= 80%. Pandya et al. [29] reported that the Collagen percentage was 2.1%±0.6% in EPO treated sockets while it was 1%±0.6% in non-treated sockets, the average Standard deviation was 0.6%n. The minimum sample size was calculated to be 5 extraction sockets per group. This was increased to 7 sockets to make up for lost to follow-up cases. The total sample size = number of groups × number per group= 3×7= 21 sockets. The sample size was collected by G power 3.0.10.

3. Eligibility criteria:

Inclusion criteria:

1. Age range (18-40).

2. Hopeless teeth indicated for extraction such as root fractures, caries, internal root resorption, external root resorption, endodontic failures.

3. Systemically free patients using Cornell Medical Index-Health Questionnaire [36].

4. Patients diagnosed with intact surrounding alveolar bone (socket type I) [37].

5. Maxillary anterior teeth and/or premolars indicated for extraction.

6. Enough zone of keratinized tissue (≥2 mm).

Exclusion criteria:

1. Smokers

2. Occlusal trauma at the site of the graft

3. Pregnancy and lactation

4. Bad compliance with the plaque control instructions following initial therapy.

5. Interventions:

Pre-surgical phase:

Patients will be initially examined. All patients will receive oral hygiene instructions using roll technique with a soft-bristled toothbrush and interdental floss, and phase I therapy using an ultrasonic device if necessary. At baseline, intraoral periapical radiographs, clinical periodontal measurements including plaque Index [38] , bleeding on probing (BOP) [38], probing depth (PD) [38], and clinical attachment level (CAL) [38] will be recorded at teeth adjacent to the extraction socket area using a UNC periodontal probe [38].

Impressions will be taken using Alginate impression material before the extraction day. Diagnostic casts will be made for the fabrication of a customized stent to standardize the measurements of marginal crestal bone levels at baseline and 4 months post-extraction [39].

Surgical preparation of Extraction socket:

1. After anesthetizing the surgical field with local anesthesia (4% Articaine , 1: 100 000 epinephrine), An atraumatic extraction procedure will be performed by cutting the periodontal ligaments gently to preserve the buccal plate of bone using periotome and forceps.

2. The socket will be irrigated with saline and curetted from any granulation tissue following extraction then the buccal and lingual plate of bone will be checked for absence of any fenestration or dehiscence using UNC periodontal probe.

3. Computer-generated randomization will be used to randomly divide the sockets into three groups. Group I: Extraction sockets filled with CS/ β-GP/gelatin hydrogels loaded EPO until the crestal level.

   Group II: extraction sockets filled with CS/ β-GP/gelatin hydrogels alone until the crestal level.

   Group III: Natural healing socket (control group).

4. In the three groups, the flaps will be sutured with criss-cross horizontal mattress technique with polypropylene 5-0 .

Implant placement Surgery

Patients will return for a follow-up examination at 4 months and implant placement.

1. After anesthetizing the surgical field with local anesthesia (4% Articaine, 1: 100 000 epinephrine), a papillary sparing will be incised using Bard-Parker scalpel carrying blade number 15C; a crestal flap will be elevated by Molt number 5 mucoperiosteal elevator.

2. The first drill will be a trephine bur to collect a core bone biopsy; the collected bone will be preserved in a diluted formaldehyde solution to fix the sample to perform the histomorphometry.

3. Sequential twist drills will be used until the final drill following the implant manufacturer instructions.

4. In the three groups, the flaps will be sutured with criss-cross horizontal mattress technique suture type using 5-0 polypropylene sutures.

Postoperative care instruction and medication of both surgeries:

• Patients will be instructed to rinse twice daily with a 0.12% chlorhexidine gluconate solution for 2 weeks, and the sutures will be removed after 2 weeks later.

• Analgesic and antibiotic drugs were prescribed after the surgical procedure. Ibobrufen (400 mg.) will be prescribed upon patient's need with a maximum dose 2400mg per day for pain relief [40]. Amoxicillin (500 mg.) every 12 hours for 7 days or clindamycin (300 mg.) every 8 hours for 5 days, for patients having a penicillin allergy, three times per day, for infection control [41].

  5. Assessment:

A) Clinical assessment:

1. Dimensional changes width changes will be measured using bone caliper at baseline immediately following tooth extraction and 4 months postoperatively [42].

2. Postoperative Pain level Pain score will be reported by the patient directly through Visual Analogue Scale score (between 0 and 10. 0: no pain, 1: minimal pain, 5: moderate pain, 10: severe pain) VAS will be recorded at day 14 post-extraction [43]. Post-operative pain was assessed indirectly by mean consumption of analgesics for 7 days postoperatively, will be recorded in milligrams[44].

3. Postoperative wound healing Wound healing will be recorded the 1st and 2 weeks postoperatively through Landry Wound Healing Index (LWHI) [45] which evaluates the extraction site based on tissue color, response to touch, the marginality of the incision line, and extent of the area. The rating is from 1 = very poor to 5 = excellent.

B) Radiographic assessment:

Dimensional changes will be measured using Cone Beam computed Tomography (CBCT) at baseline immediately following tooth extraction and 4 months postoperatively [42].

C) Histomorphometric assessment:

Histological and histomorphometric assessment of bone regeneration patterns of core biopsy harvested at the re-entry surgery for implant placement 4 months post extraction using H&E stains to evaluate bone trabeculae and Modified Masson Trichrome to evaluate bone maturity[46].