Short-term evaluation of dental implants in a diabetic population: an in vivo study

In the past two decades, dental implants have become increasingly popular as a procedure to restore missing teeth. A number of patient and procedure related parameters determine the success of the implant treatment.

Diabetes Mellitus (DM) is the most common systemic disease which is generally considered as a relative and not an absolute contraindication for implant therapy.1

Among men and women over 55 years of age, where the rates of edentulism are higher, about 18.4 percent of individuals have some form of diabetes affecting the whole body.2

Since tooth loss is greater in diabetic than in non-diabetic individuals, the validity of dental implant treatment options for these patients has to be realized.3 The metabolism of phosphorus and calcium is essential for bone mineralization & remodeling and is affected by hyperglycemia, which alters the response of the parathyroid hormone. Diabetes mellitus also inhibits osteoblastic differentiation.4 The success of replacing lost teeth by dental implants in diabetic patients was evaluated in a study in 1999 by Balshi and Wolfinger.2 The study found a success rate of 94.3% with 227 Brånemark implants for a follow up period of two years, and concluded that the success rates of dental implants are higher in controlled diabetics.2 In 2003 Peled et al. evaluated the clinical outcome of dental implants in a group of controlled diabetics over a five year period and they reported an overall success rate of 97.3%.5

Further a study done in 2003 by Al Jabbari et al., showed that diabetic geriatric patients with acceptable glucose control demonstrated a 92.7% success rate, 1 year after first stage surgery.6

The above literature indicates that diabetic patients are eligible candidates for implant therapy provided their plasma glucose level is under metabolic control.

The aim of the study was to evaluate the efficacy of implant as tooth replacement in diabetic patients with acceptable metabolic control with early non-functional loading protocol evaluated at periodic time intervals for three months. Survival of the implants is evaluated by radiographic evaluation to measure the crestal bone heights, clinical assessment by bleeding on probing and microbiological colonization around the implants.

Blood glucose levels were monitored one week prior to surgery. The patients signed an informed consent and were explained about all the procedures that would be done during the study. The approval for this clinical study was obtained from the Institutional Review Board of Sri Ramachandra university. Under local, anesthesia, a crestal incision was made and a full thickness muco-periosteal flap was raised. Sequential osteotomy was performed following manufacturer's instructions. Single stage screw tapered, self threaded Implants (UNITI implants, Equinox Medical Technologies, Zeist, Holland) with a diameter of 3.7 mm and length 13 mm were placed with an insertion torque of 45 Ncm (Fig. 2) and an early non-functional loading protocol was followed.

Fig. 2
UNITI implant (Equinox Medical Technologies, Zeist, Holland) with a diameter of 3.7 mm and length 13 mm placed.

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Patients were recalled after an interval of 4 days from the day of surgery, for evaluation of the implant and for cementation of the provisional restoration. Abutments were placed with a torque of 15 Ncm. The provisional restoration was fabricated using heat cure acrylic resin and cemented with non-eugenol zinc oxide cement (3M ESPE). The restoration was relieved from all centric and eccentric contacts. Sutures were removed after a period of one week.

Microbiological assessment

Microbiological assessment was done to identify micro-organisms located subgingivally along the implant site. The micro flora was examined for their predominance of aerobic organisms and represented by means of colony forming units (CFU). All patients were instructed to brush twice daily and rinse the mouth after every meal.

On the fourth day, the provisional restoration was removed and the abutment was isolated with sterile gauze at the palatal and buccal sites. Specimens were collected using sterile swab which were inserted into the depth of peri-implant site and kept for 15-20 seconds (Fig. 3). The swab was transferred to a test tube (Fig. 4) and handed over to the Microbiology laboratory for investigations.

Fig. 3
Specimen collection using sterile swab to identify microorganisms located subgingivally along the implant site.

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Fig. 4
Transfer of samples to vials.

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All the samples were plated in 5% Blood agar (Fig. 5a), Chocolate agar (Fig. 5b) and MacConkey agar (Fig. 5c) using streak culture (surface plating) method. Plates were then analysed and quantified by semi quantitative method. Colonies were identified by Gram stain, growth was reported for, Cocci, Bacilli, Gram positive (Staphlylocoocus aureus, Streptococcus species) and Gram negative (Pseudomonas species) pathogens. The number of colonies of each sub cultured isolate was related to the total colony count (CFU) to obtain the relative proportion.

Fig. 5
A: Blood agar medium demonstrating colonization of fastidious organisms, B: Chocolate agar medium showing largest proportion of microorganisms obtained from the samples. This is a non-selective medium that showed colonies of respiratory bacteria, anaerobic organisms and gram positive cocci, C: MacConkey agar medium showing colonization. Colonies of Gram negative bacteria were seen.

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This sampling procedure was also repeated at regular intervals of 4^th, 20^th, 40^th, 60^th day and at the end of three months. Since the restoration was cemented using a temporary cement, it could be removed easily without causing damage to the soft tissues around the implant.

Clinical assessment

Bleeding on probing (BOP) is a widely used clinical indicator to detect the presence of inflammation. By clinical observation of bleeding on probing using calibrated manual periodontal probe, the peri-implant tissue was assessed around the implant.

The Mombelli et al.7 scores were used as the standard (Table 1).

Table 1
Mombelli et al.7 scores

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It is estimated that 15% to 25% of the elderly population suffer from either insulin-dependent or noninsulin-dependent diabetes mellitus.8 The influence of diabetes on bone and bone forming cells imposed many speculations about the use of dental implants in diabetics and osteoblast function was shown to improve by glycaemic control.9

The present study evaluated the efficacy of implant as tooth replacement in diabetic patients with acceptable metabolic control with early non-functional loading protocol by radiographic evaluation, clinical assessment and microbiological colonization around the implants.

Loading protocol in diabetic patients is an important factor in the success of dental implant treatment. Balshi et al. in 2007, identified that an immediate loading protocol in a diabetic patient can lead to successful osseointergration despite the effects that the disease has on the bone remodelling process.10

In a two year follow up study done by Azza Ezz Ell-Arab in 2000 assessed the durability of single tooth replacement implant in controlled diabetics versus non-diabetics.11 Radiographic evidence of bone intergration was detected in both healthy and diabetic individuals. It is essential to detect early signs of diabetes in the clinical peri-implant evaluation and plan the therapeutic intervention accordingly. Absence of bleeding on probing (BOP) is widely considered as an useful clinical indicator for the absence of inflammation.12

In the present study, there was no association found between presence of microorganisms and amount of bone loss. Between 4^th day (base line) and at the end of 90^th day, statistically different counts were found at the implant surfaces. By the end of 90^th day the colonization was similar to that of the contra lateral healthy tooth. Thus, significantly lower bacterial counts of putative pathogens were found at the end of three months.

The findings of the present study were similar to that reported by Salvi et al. in 2007.12

In the present study, all implants were well intergrated in bone for the duration of the study as evaluated by clinical and radiographic criteria. However, future studies are needed to establish definitive guidelines with objective criteria such as duration, type of diabetes and glycosylated hemoglobin levels. Better study designs, preferably longitudinal randomized clinical trials, are needed to evaluate various determining factors and prove such a statement.

The results of this retrospective study show that a growing number of diabetic patients can enjoy the benefits of dental implants provided their diabetes is under control. A high success rate of dental implants is achievable in diabetic patients whose disease is under control.