When an experienced dentist connects a dental implant to an individual's tooth, osseointegration will gradually occur, and the bone will eventually fuse to the dental implant. Generally, osseointegration can strengthen the dental implants, minimize side effects, reduce the risk of infections, optimize comfort and decrease inflammation. If you have undergone a dental procedure, osseointegration will effectively stabilize the other teeth, and the fused bone could optimize recovery and fortify various sections of the jawbone.

Examining Numerous Aspects of Osseointegration

Osseointegration can substantially augment the thickness of the soft tissue that may surround the dental implants. Once the tooth fully fuses to the synthetic compound, the connected bone will stop the dental implants from becoming loose, and consequently, an individual can chew hard foods, undergo other dental surgeries and floss the teeth. Various reports have indicated that the entire process could have a duration of five months, yet sometimes, the bone will become fully fused within two months of the procedure.

Understanding the History of Osseointegration

During the 1950s, a Swedish expert was examining blood flow that could affect the growth of bones. The researcher frequently noticed osseointegration, so when conducting various experiments, he connected titanium to numerous types of bones. During 1965, the same expert created dental anchors that underwent osseointegration. These materials fused to the mandible and the maxilla, and consequently, the anchors stabilized other materials that replaced certain teeth.

Decreasing Inflammation

Generally, clients rarely experience chronic inflammation after dental procedures, yet osseointegration can tremendously reduce inflammation by fortifying the soft tissue that could affect the dental implants. Consequently, the process may decrease soreness, enhance recovery and reduce the risk of complications.

Optimizing the Benefits of Osseointegration

If you frequently brush the surrounding teeth, the technique can reduce the effects of cytokines, eliminate bacteria that could affect the gums and stabilize the other teeth. Osseointegration will prevent the surrounding teeth from becoming worn, so the fusion may reduce the likelihood of dental conditions in the future.

Choosing Dental Implants

Many dentists offer dental implants that feature titanium, and this durable metal will not be affected by moisture or foods. Incredibly, the thick metal can remain stable when surrounding materials have become weak. Titanium will withstand acidic compounds that many foods contain, and numerous acidic compounds are found in certain fruits. Moreover, many experts have indicated that titanium is ideally compatible with bones, so the biocompatibility of the compound will accelerate numerous processes that could influence osseointegration.

Some dentists also choose dental implants that consist of zirconia. This material is not as strong as titanium, yet zirconia may be resistant to many acidic compounds. Bones could slowly fuse to zirconia; however, titanium can substantially optimize the efficiency of osseointegration and maximize the durability of the dental implants.

Understanding the Strength of the Materials

Usually, dental implants are connected to numerous sections of the jawbones, and these strong bones fortify the teeth, the gums, the muscles that control the face and the chin. Once osseointegration has occurred, the jawbones can effectively optimize the durability of dental implants, eliminate unstable movements, minimize the effects of chewing, reduce soreness and enhance the contour of the jaw.