The article was written in collaboration with Dr. Ariel Savyon of the Savyon Medical Center – who holds an MDC degree that focuses on microscopic dentistry. To read more about the clinic's services, visit the website https://savion-c.co.il/
The Winning Combination of Microscopic Approach and Laser Dentistry – A Revolution in the Field of Tooth Extraction
The use of innovations and advanced technologies in a variety of dental treatments, including tooth extraction, offers patients safer, faster, and more comfortable treatment options.
Such a groundbreaking innovation is Microsurgery By combining the use of a therapeutic microscope with different types of lasers. This is an innovative approach that has redefined the way dental treatments are performed. The combination of a dental microscope – which offers improved magnification and accuracy – along with the use of different types of lasers, such as diode lasers or erbium lasers, allows dentists to perform complex dental procedures with a level of precision never seen before.
The use of lasers in dental microsurgery allows for minimally invasive procedures, as the focused light energy can remove tissue accurately, with minimal damage to the surrounding areas. Lasers also have a burning effect, which helps reduce bleeding, promote faster healing, and minimize discomfort for patients after the procedure. The innovative combination revolutionized dental care, allowing for a new level of effectiveness in oral care.
The combination of the microscopic approach with laser dentistry is a winning combination because it harnesses the accuracy of diagnosis using the microscope to the possibility of precision treatment with laser technology, which significantly improves the dental process of extracting and extracting teeth, including complex cases of extracting an impacted wisdom tooth.
The microscopic approach in dentistry involves the use of high-intensity dental microscopes, which allow the dentist to enlarge the view of the surgical area, thus allowing him to see an accurate specification of the tooth and surrounding tissues. These microscopes offer a magnification range of 3 to 25 times the size of the tooth, allowing dentists to identify even the smallest anatomical structures, as well as hidden fractures or infections that previously could not be detected.
This advanced form of dentistry requires a lot of skill from the dentist because the ability to see the details, in the area where care needs to be treated more precisely, has led to the replacement of dental tools and small drills with even more tiny tools and drills, which allow dental treatments to be performed with great precision, and offer additional advantages:
With the improved visibility that the microscope provides, a dentist can accurately assess the extent of the problem, avoiding overtreatment. Which not only benefits the patient's oral health, but also allows for financial savings.
The microscopic approach allows for a high level of precision, thus helping to preserve healthy tooth structure and tissue around the treated area, while reducing the risk of possible complications.
The use of a dental microscope allows a skilled dentist to have full control over the procedure. The improved visibility ensures that there are no surprises during the treatment, leading to predictable and successful results.
Microscopic dentistry allows the doctor to perform small, non-invasive surgical procedures with minimal trauma to the soft tissues. This makes it possible to minimize discomfort and pain during and after the procedure, and to shorten recovery times.
The use of laser technology has also revolutionized dental care; It offers an efficient, precise, and less invasive approach to various dental procedures. The use of a dental laser, which emits focused light energy, offers a wide range of applications that have changed and improved the way dental treatments are performed.
One of the most notable effects of laser technology in dentistry is its ability to improve the efficiency and convenience of common procedures. If in the past, the traditional treatment of extracting an impacted wisdom tooth consisted of a surgical procedure that required incisions, and sometimes even the removal of bone parts, and of course sutures (and was usually accompanied by a recovery period with side effects of pain, swelling, bleeding, and more), with the introduction of laser technology, dentists have added a minimally invasive alternative to the extraction of impacted wisdom teeth. The use of a dental laser helps in the precise and delicate removal of the gum and bone tissue that block the wisdom tooth. The laser beam simultaneously seals the blood vessels and nerve endings, reducing bleeding and pain after surgery.
The synergy of these advanced technologies, which are integrated into the dental clinic and operated by skilled hands, makes successful and painless dental treatment a reality.
Microscopic wisdom tooth extraction – accurate and recommended treatment
Wisdom tooth extraction using a dental microscope is an advanced, modern and accurate treatment option. The use of a dental microscope allows the dentist to perform a process of extracting the tooth with a high degree of precision. Before the procedure, the dentist uses a microscope to thoroughly examine the impacted tooth, nearby structures, and possible complications. The improved visibility, thanks to the extensive enlargement of the area of the tooth trapped by the microscope, allows for careful planning of the extraction, and to do it safely without damaging the surrounding nerves and blood vessels, or neighboring teeth.
During the extraction, the dental microscope continues to play a vital role. Its powerful magnification and illumination capabilities allow the dentist to access even areas that would otherwise be difficult to reach without being able to see them clearly. In this way, it is possible to gently and control the removal of the impacted tooth, minimize trauma to the surrounding tissues, and promote a faster and smoother healing process.
Another crucial benefit of using a dental microscope in extracting wisdom teeth is that it can be used to identify small fractures or hidden roots that may have been left behind. This ability ensures the complete removal of the impacted tooth, thus reducing the risk of unwanted side effects and future complications.
The precise and focused approach results in less pain after the surgery, because fewer tissues were damaged during the process, and a shorter recovery time, which makes the entire process more comfortable for the patient. Patients who have undergone wisdom tooth extraction with the help of a dental microscope often experience improved results and express a higher level of satisfaction.
Benefits of extracting an impacted wisdom tooth using a microscopic approach
Extracting an impacted wisdom tooth is a common dental procedure, and there are several main reasons why it is an essential procedure recommended by dentists:
An impacted wisdom tooth can often cause pain and discomfort, especially when it is trying to erupt but is blocked by other teeth or bone. This is a condition that can lead to pain, swelling, and difficulty opening your mouth properly.
Due to its location at the back of the mouth, it is difficult to clean it thoroughly and it can form gum pockets around it that become breeding grounds for bacteria, which can lead to gingivitis.
Not only that, but it can put pressure on adjacent teeth to the point of damage, and even push them out in a way that can jeopardize the alignment of the entire dental arch.
If it is a wisdom tooth that is trapped in the upper jaw, it can also cause sinus problems and infections due to roots that have extended into the sinus cavity.
Extracting an impacted wisdom tooth using a microscopic approach offers benefits that improve the treatment experience:
Enlargement and detailed visibility of the impacted tooth and the surrounding structures allow for precise planning and execution of the procedure. The enlargement also allows the use of tools and drill bits that are even more delicate than before, so that the incisions can be smaller and more precise, without environmental damage.
With the microscopic view, it is possible to preserve the tissues around the impacted tooth and avoid damage to the nerves and any blood, which helps to minimize the risk of accidental damage during the extraction.
The precision and control offered by the microscope reduces the risk of complications during the extraction process, the likelihood of infections, dry depression and other postoperative problems, allowing for faster healing. Patients can usually return to their normal activities sooner compared to the healing time required after traditional extraction methods.
The microscopic approach is a more detailed, precise, meticulous and comfortable treatment method for the patient, with less trauma, which contributes to a more positive dental experience along with a high success rate.
Laser dentistry
Laser dentistry is a rapidly evolving field in dentistry, revolutionizing the way dental treatments are performed. The method uses focused light energy to perform a wide range of dental procedures, with many advantages over traditional techniques. The versatility of dental lasers allows them to be used in procedures that involve hard tissues with soft tissues, making them a valuable tool for various dental applications.
One of the main things that contributed to a significant improvement in the level of dental care following the use of the laser is the precision. Dental lasers can selectively target specific tissues, such as rotten areas, infected gum tissue, or lesions in the mouth, treat only them, and keep the surrounding tissues healthy and intact. This level of accuracy results in patients experiencing less pain, shorter healing times, and a reduction in complications after dental treatments.
Dental laser beams have the ability, in most cases, to perform procedures without the need for traditional surgical incisions or sutures; The process becomes very minimally invasive, resulting in smaller wounds, minimal bleeding, and reduced trauma to the tissues. The laser can also clot blood vessels as it cuts through the tissue and allows for bleeding-free procedures, giving the dentist a cleaner and clearer field of action. This feature improves visibility and facilitates more precise and effective treatments.
The laser energy can not only burn the blood capillaries so that they do not bleed, but can also sterilize and disinfect the treated area effectively; It is especially useful in root canal treatments and in the treatment of gum disease, where the elimination of bacteria is critical for successful results.
As an emerging field, laser dentistry continues to advance with continuous technological innovations. With the advent of new wavelength laser types, dental laser applications are expanding. Laser dentistry is expected to play an increasingly significant role in shaping the future of modern dentistry, offering patients innovative and advanced dental treatments
Types of Lasers in Dentistry
- Diode laser: emits light at a wavelength that is in the spectrum of the near infrared (800-1100 nm).
Diode laser is mainly used for soft tissue treatment procedures. Its advantage is that it is well absorbed by melanin and hemoglobin, which makes it effective for periodontal surgery, gingivectomy, gum shaping and treatment of oral lesions. In addition, diode lasers are used as cold lasers to stimulate the production of ATP energy, which is a type of organic compound that serves as an energy reservoir in every living cell, and its production accelerates the healing process and provides pain relief in the treated area.
- Erbium laser: emits light of a wavelength that is in the middle infrared spectrum (2700-3000 nm).
Erbium laser is versatile and can be used for both soft and hard tissue treatments. The laser is suitable for treatments that involve toothbone and tooth decay, and can also be used to prepare a cavity in the treated area, in root canal treatments, and in periodontal surgery. It offers exceptional precision, minimal thermal damage to surrounding tissues, and effective removal of rotten or infected areas.
- Laser produced from gas (CO2): emits light of a wavelength that is in the spectrum of the far infrared (9300-10000 nm).
The light of these lasers is well absorbed by water and hydroxyapatite (tooth enamel), making it ideal for treating hard and soft tissues. CO2 laser is often used in oral surgery, including the extraction of wisdom teeth (also impacted). The laser's ability to target soft and hard tissues makes it a valuable tool for removing gum tissue, bone, and obstructive structures during the extraction process. The laser's ability to burn the blood capillaries during the incision operation reduces bleeding, improves visibility and improves the accuracy of the procedure and recovery.
Benefits of Laser Dentistry
The integration of laser in dentistry has truly revolutionized the patient experience. The dentist's ability to use this advanced technology, which provides more precise and targeted treatments, with minimal damage to the surrounding tissues, significant improvement in treatment results, and rapid recovery, has made laser dentistry more convenient and effective than ever before, especially for people who are anxious about dental treatments.
One of the most significant benefits of laser dentistry is the ability to expand the range and types of treatments, from invasive surgical interventions to minimally invasive procedures. They eliminate the need for incisions or sutures, reducing pain and discomfort after surgery. The laser's ability to clot blood vessels reduces bleeding during procedures, improving patient comfort. Moreover, dental lasers have the ability to sterilize the treatment area and lower the risk of infection, leading to shorter healing times. Reduced trauma to surrounding tissues, and faster recovery, allowing patients to return to normal activities sooner. In addition, some laser treatments can be performed without anesthesia.
Many patients report less anxiety and pain compared to traditional dental treatments. Furthermore, dental lasers provide dentists with diverse treatment options that can be customized according to each patient's specific situation, needs, and preferences.