Photodynamic Therapy for Medication-Related Osteonecrosis of the Jaws: A Case Report (Case Report)

Abstract

Medication-related osteonecrosis of the jaws (MRONJ) is a relatively new disease. MARX reported first cases in 2003. MRONJ relates to oral and parenteral bisphosphonates as well as to the so-called target cancer therapies but the list of medications only grows. Although MRONJ is a relatively rare condition, it can be associated to significant morbidity with feeding limitations and intense pain. More severe cases can lead to potentially life-threatening infections. Every patient initiating bisphosphonate and/or target cancer therapy must visit a dentist before starting medication because preventive measures for MRONJ are much more effective compared to surgical management of the lesions. Surgical resolution can be especially difficult to obtain in the coexistence of certain complication factors like wider bone exposures, history of nitrogen containing bisphosphonates use (mainly zolendronate) and immunodeficiency. Recently, researchers have given attention to laser therapy associated to photosensitive agents as a possible option to management of some MRONJ lesions. Our case report demonstrates the use of photodynamic therapy in a denosumab related lesion in the mandible. It seems that denosumab related lesions are more amenable to treatment and total resolution because of the marked differences between its chemical and metabolic characteristics when compared to bisphosphonates.

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Simões Israel, M. , Antero, S. , Riche, G. , Lima Pinheiro, G. , Duarte Meira, M. , Heimlich, F. , das Chagas, W. , Almeida Freire, N. , Barbosa Ramos, M. and Menezes Maciel, R. (2016) Photodynamic Therapy for Medication-Related Osteonecrosis of the Jaws: A Case Report. International Journal of Clinical Medicine, 7, 824-828. doi: 10.4236/ijcm.2016.712089.

1. Introduction

Medication-related osteonecrosis of the jaws (MRONJ) is a relatively new disease; MARX reported the first cases related to parenteral bisphosphonate in 2003 [1] . Later, a relation between MRONJ and oral bisphosphonates was established. More recently, medications like denosumab, used for the so-called target cancer therapies, received attention. Denosumab is a fully human monoclonal antibody that binds the cytokine RANKL (receptor activator of NFκB ligand), an essential factor initiating bone turnover. RANKL inhibition blocks osteoclast maturation, function and survival, thus reducing bone resorption [2] .

Although considered a rare condition, MRONJ can be associated to significant morbidity. Lesions can begin in an insidious, asymptomatic fashion and then lead to intense pain in the affected bone (mostly the mandible, but maxilla can be affected too), bone exposure, draining pus, fistula formation, feeding limitations and pathological fracture [3] [4] . Carrying out surgical procedures to heal MRONJ lesions can be a very frustrating experience for the surgeon. This can be especially true in the coexistence of certain complication factors like wider bone exposures, history of nitrogen containing bisphosphonates using (mainly zolendronate) and immunodeficiency [1] .

Recently, researchers have given attention to laser therapy associated to photosensitive agents as a possible option to management of some MRONJ lesions. Promising results have been reached by using Chimiolux 0.005%® (methylene blue; DMC) and posterior laser exposure.

2. Case Report

On February 2015, A.D.A, male, 83 years old, attended to FOUERJ complaining about “mild pain” in the lingual aspect of cortical bone near the lower right 3 during the last 4 months. History of denosumab use once a month until September 2014 for prevention of bone metastasis associated to prostate cancer was present. After removing upper and lower dentures, clinical examination revealed a painful area of exposed bone associated to pus drainage near the lower right 3 in association with a trauma of lower prosthesis in the region (Figure 1). Panoramic radiography showed an osteolytic lesion near the lower right 3 (Figure 2). The diagnostic of medication-related osteonecrosis of the jaws was clinically established. Initial management consisted in topical chlorhexidine 3 times a Day, after each brushing and penicillin intake Clavulin 875 mg (makes use of 1 tablet, 12 in 12 hours for 7 consecutive days). After almost 3 months patient related no pain and pus drainage disappeared. On July 2015, fifteen low level laser therapy (LLLT) were initiated. The laser therapy was used aiming at soft tissue repair (red laser), bone biostimulation (infrared laser), and nerve repair (infrared laser) for pain relief. The low- level laser therapy equipment used was XT Therapy, produced by DMC, emits red and infrared laser light to the anti-inflammatory, analgesic, bio stimulant and healing purposes. The infrared laser has a wavelength of 808 nm ± 10 nm the power output of the transmitter is 100 mW ± 20%. The red laser wavelength of 660 nm ± 10 nm the power output of the transmitter is 100 mW ± 20%. The equipment used is contraindicated in pregnant patients or who are breastfeeding, with episode of skin cancer in the irradiated region patients, glaucoma patients, patients with cataracts that are not under

Figure 1. Clinical aspect with pus drainage near the lower right 3.

Figure 2. Panoramic radiography showing an osteolytic lesion near the lower right 3.

medical supervision. The low-power laser emits radiation without destructive potential and therapeutic effects on tissues. When used in combination with dyes has the potential to produce death of microorganisms in a process known as photodynamic therapy (PDT-Photodynamic therapy) [1] . At the first session was held photodynamic therapy (PDT) that used the Chimiolux 0.005% as photosensitizer. The Chimiolux was used at a concentration of 0.005% (Chimiolux 5) of methylene blue. In combination with red laser irradiation, the Chimiolux acts as photodynamic therapy (PDT) generating release of free radicals that provide bactericidal effect in contaminated areas. The application protocol followed the DMC laser manufacturer’s recommendations: initially enters the solution from 0.005% methylene blue, then it is expected over 5 minutes (pre-irradiation time), then it proceeds to the red laser irradiation. The wavelength is 660 nm, a fluence of 320 J/cm² or power 9 J, a power of 100 mW, the application time of 90 seconds. Finally removes the photosensitizing agent with sterile saline irrigation. The laser’s exposure was made weekly for a total of 15 treatment sessions. The irradiated area was 6 cm2. The application protocol was given as follows: The infrared laser has a wavelength of 808 nm used in continuous mode and scan 2 mm distance to the mucosa to be irradiated, and the laser red has a wavelength of 808 nm irradiating at three points to one cm distance between them, or used the red ray with infrared radiating at three points with one cm distance between them. The power used with both the infrared laser as with laser red was 100 mW, varying only the fluence or power and the application time. The second session: 1 J red beam with infrared ray third, fourth and fifth session: 2 J with the red beam the sixth to tenth session: 2 J with the red beam and 4 J infrared ray Section 11:2 J red beam with the infrared ray. Thirteenth, fourth and fifth session: 2 J red beam with infrared ray and added 3 J with infrared ray in two oral extra points in the region of submentonianos lymph node in order to stimulate the defense of organism. In October 2015 panoramic examination showed kidnapping bony (Figure 3). There was good healing, without signs of infection and the presence of overlying mucosa under sequestration (Figure 4). Finally, on January 2016 spontaneous sequestration occurred with subsequent mucosal healing. Now, patient is clinically stable; free of signs and symptoms. The chlorhexidine gel is maintained and the management strategy was to conduct periodic follow-up radiographic evaluation.

Figure 3. Panoramic radiography showing kidnapping bony near the lower right 3.

Figure 4. Clinical aspect showing good healing, without signs of infection and the presence of overlying mucosa under sequestration.

3. Discussion

Until now cases associated to bisphosphonates therapies are not only the most common ones, but also the most difficult to manage. SMEETS et al., 2015 enfatized some important issues: the ten years bisphosphonates estimated half-life, the capacity of some of these drugs to lead to osteoclasts apoptosis, the alarming raising of prescriptions (including bisphosphonates indicated to osteopenia), the enhancement of drug-presentation leading to highly potent bisphosphonates, for example Aclasta®, Reclast® and the presence of bisphosphonates in uncountable day by day products. These factors are supposedly related to spread of cases worldwide [5] .

Lesions related to denosumab seem to be more amenable to treatment and total resolution because of its chemical and metabolic characteristics (temporary inhibition of RANKL) [6] . It is important to differentiate MRONJ from other diseases like periodontal disease, necrotizing periodontal diseases, bone malignancies, osteomyelitis and herpes zoster virus related osteonecrosis. Obviously, applying different therapies to different causes of jaws osteonecrosis is mandatory [1] . We insist on recommending that every patient initiating bisphosphonate and/or target cancer therapy must visit a dentist before starting medication. Preventive measures for MRONJ are indispensable and much more effective compared to surgical management after developing of lesions.

Conflicts of Interest

The authors declare no conflicts of interest.

References

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