The features of the reparative regeneration of an oral mucosa wound created under the exposure of a laser at a wavelength of 445 nm (a pilot study).
Natalia RomanenkoSvetlana TarasenkoAlbert DavtyanNatalya B SerejnikovaSofiko DjidjavadzeAlexandre DerevyankinEkaterina ShchetininaAnton DeryuginAnastasiya BurlakPublished in: Lasers in medical science (2024)
In clinical practice, an innovative laser technology that provides contactless preparation of soft tissues with a wavelength of 445 nm has been introduced. This study aimed to investigate the morphological changes in the oral mucosa when exposed to laser radiation at a wavelength of 445 nm in the ablation mode.An experimental study was conducted to analyze the dynamics of reparative regeneration in the wound caused by that particular type of radiation, utilizing the procedure of lower lip frenuloplasty as an illustration. 48 sexually mature male laboratory rats were chosen as the research object. The procedure of preparing the oral vestibule was executed by employing a contactless laser beam with a wavelength of 445 nm and a power of 0.7 W in continuous mode (CW) and an uninitiated fiber.Histological examination showed that 25 min after the surgery, there were large areas of coagulation necrosis in the oral mucosa in the area affected by the blue laser. In 48 h, the area of necrosis decreased both in size and depth. By the 7th day after the surgery, the necrotic masses had grown into the connective tissue, while marginal regeneration of the epithelium was noted. By the 14th day, the wound surface was completely epithelialized, represented by fibrous scar tissue. Clinically, around the mandibular incisors, there was a wide area of attached keratinized gingiva.The findings of histological examination indicate a necrosis of coagulation type in the region of tissue ablation and also show the absence of phase II of the inflammatory response (the stage of exudation), which expedites the process of epithelialization of the oral mucosa wound.
Keyphrases
- minimally invasive
- surgical site infection
- wound healing
- stem cells
- inflammatory response
- photodynamic therapy
- phase ii
- clinical practice
- high speed
- clinical trial
- light emitting
- coronary artery bypass
- open label
- radiation therapy
- magnetic resonance imaging
- magnetic resonance
- computed tomography
- coronary artery disease
- atrial fibrillation
- high resolution
- percutaneous coronary intervention
- working memory
- mass spectrometry
- molecularly imprinted
- plant growth