Clinically Considerations About Induced Experimental Periodontitis in Rats Treated by Photodynamic Therapy

Periodontitis is a chronic inflammatory condition that affects the soft and hard tissue supporting the tooth, favoring the adhesion of bacteria that can generate dental laxity and bone resorption. This study aimed to test an experimental protocol for inducing periodontitis which allows a close clinical assessment and to evaluate the effectiveness of a photodynamic therapy (PDT) protocol to reverse the associated clinical signs. Fifteen Wistar male rats were used for this study, divided into three equal groups. Tooth scaling, rooting and planning of the first superior left molar were performed in all rats, causing the displacement of the gingiva in order to create an accumulation of plaque. A 5-0 cotton ligature was placed, provoking an inflammatory response removed after ten days. One group received one session of PDT; another group received 3 PDT; the last one represented the control group, with no treatment. Clinical evaluation was represented by assessing the body weight, mobility index and bleeding. A rat grimace scale was used to determine the pain. The results showed clinical aspects of periodontitis and healing tissue proved microscopically. The tested procedure can provide all the key biological factors present in periodontal disease and an option for reversing the clinical aspects

Dental Hydrogels with Essential Oils with Potential Activity in Periodontitis

This study seeks to understand the effects of new hydrogels based on Oregano® essential oil, Frankincense® essential oil, and the Thieves® blend, which includes clove, lemon, cinnamon bark, eucalyptus radiata, rosemary extract, and Frankincense® essential oil through in vitro cytotoxicity and antimicrobial analysis. Mesenchymal stem cells (D1MSCs) generated from the dental papilla of human wisdom teeth germs were used to test the hydrogels’ cytotoxicity (D1MSCs). The chemical makeup of the tested essential oils (EO) was determined using GC-MS analysis, and their presence in the novel hydrogels was determined using UV-VIS analysis. The primary constituents of the essential oils identified as being present were eugenol, pinene, limonene, carvacrol, and cymene. The primary constituents from essential oils identified by the absorption spectra included eugenol, pinene, limonene, carvacrol, and cymene. The presence of essential oils in the hydrogel composition was also clearly discernible. All of the studied compounds had a reduced cytotoxic effect on cell cultures, proving the lack of in vitro toxicity of the gels. This study demonstrates that hydrogels enriched with pure natural extracts of essential oils have a tangible in vitro antimicrobial potential, especially for Staphylococcus aureus and Bacillus cereus