Biolase Technology – The First Wonder of Laser Dentistry

Laser Dentistry
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With the digitalization in the field of dentistry, a company decided to develop an innovative laser system that can significantly enhance the way medical procedures are being performed. Biolase Technology is known to be a leading company in the field of dental and medical lasers. The technology is designed to make treatment safer and more accessible for patients in Michigan. 

Lasers work by focusing intense beams of light to perform various tasks. In dentistry, biolase lasers can be used for a lot of procedures. It can be anything from feeling cavities to whitening teeth in order to treat gum diseases or performing surgeries. One of the main advantages your dentist might also tell you is that lasers often require very little anesthesia and cause little to low bleeding and swelling. Make sure that you are consulting Lansing Michigan dental crowns before making any decisions. 

What Is The Role of Biolase In The Future Of Dentistry? 

Biolase is changing Dental Care by providing a very less invasive and more efficient alternative to traditional tools. The company’s focus is on research and development, which has made laser dentistry more accessible to all dental professionals and has made sure that it significantly improves patient outcomes. As the dental industry moves forward, patient-friendly technologies are being introduced, and Biolase is continuously innovating. 

Future advancements in laser technology can be seen where they play a larger role in various procedures, which can range from diagnostic to even complex surgery, which will offer better precision, comfort, and safety. 

What Are The Applications Of Biolase? 

Biolase lasers have many applications across various specialties in dentistry. Let us look at them one by one. 

1. Periodontics 

Periodontics involves the prevention, diagnosis, and treatment of gum diseases. This is basically for the treatment of other conditions affecting the structures of teeth. Biolase lasers play a very significant role when it comes to periodontal therapy by offering a gentle and more effective alternative to traditional methods. 

Laser-Assisted New Attachment Procedure 

Biolase lasers are used in the laser-assisted new attachment procedure (LANAP), which is a minimally invasive treatment for moderate to severe levels of periodontal disease. This technique uses laser energy in order to precisely target and remove the infected tissue while leaving the healthy gum tissue intact, promoting better healing and reducing the overall discomfort. 

Non-Surgical Gum Therapy 

Patients who are in an early stage period of the disease or those who are seeking a nonsurgical option can go for biolase lasers. These lasers can be used to perform scaling and root planning in a very less incase manner. The laser helps to remove any tartar, plaque, or bacteria from below the gum line and helps to promote the reattachment of healthy gum tissue. 

2. Endodontics 

Endodontics focuses on treating infections and damage within the tooth pulp, which is most commonly done with the help of root canal treatments. Biolase lasers offer multiple benefits when it comes to root canal therapy and make the process more efficient, precise, and smoother for the patients. 

Bacterial Disinfection 

Lasers are very effective when it comes to root canal disinfection. Traditional root canal treatments rely mainly on mechanical instruments and chemicals to clean out root canals. However, in most cases, a higher failure rate is observed when it comes to eliminating all the bacteria deep in the canal system. Biolase lasers have the ability to penetrate more deeply into the root canal system and reach areas that traditional tools cannot access easily. 

Less Post-treatment pain 

Biolase laser treatments minimize post-treatment inflammation, swelling, and discomfort. This provides the patients with a faster recovery time after the root canal therapy. The laser energy also has the ability to promote the regeneration of healthy tissues and improve further outcomes.

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