Originally the first dental implants (1980’s) had two parts: the fixture (which goes screwed into the bone) and the abutment (where the prosthetic crown is cemented).
The improvements in new ceramic materials made it possible on 2000 to have the abutment part made of ceramic. This material was commonly known to be more tissue friendly than titanium.
In 2005, the CeraRoot full ceramic implant (fixture and abutment in one body/part) was introduced into the European market and in 2011 accepted by the FDA to be used in U.S. dental clinics. The main advantage of a one-piece zirconia implant is that it has no prosthetic connections, where bacteria can grow, and therefore have better gum health. Another big advantage is that the implant is 100% white. This means that no metal will ever be visible when smiling or communicating with other people.
Titanium is a metal, and suffers corrosion.
Corrosion, the gradual degradation of materials by electrochemical attack is a concern particularly when a metallic implant is placed in the hostile electrolytic environment provided by the human body.
The term corrosion is defined as the process of interaction between a solid material and its chemical environment, which leads to a loss of substance from material, a change in its structural characteristics, or loss of structural integrity.
The clinical importance of degradation of metal implants is evidenced by particulate corrosion and wear products in tissue surrounding the implant, which may ultimately result in a cascade of events leading to periprosthetic bone loss. Furthermore, many authors have reported increased concentrations of local and systemic trace metal in association with metal implants.
Zirconia is a ceramic and does not suffer any corrosion.
Throughout the decades, the materials that have been used for the dental treatments have been made with metal. The main reason was to give mechanical strength and therefore augment the longevity of the treatment. Overtime, the scientific research contributed enormously to the improvement of the ceramic’s mechanical strength. In the beginning, ceramics were introduced into the patients mouth because of it’s fabulous esthetic properties. However, the latests research shows that the esthetic is not the most important characteristic of this material. Ceramics due to its inert, non-corrosive and nonallergic properties, it is actually many times more beneficial to the patient than any other dental material ever made. We encourage patients to demand treatments without metal. Metal-free treatments. All-ceramic treatments.
WHAT TO KNOW ABOUT TITANIUM (metal implants)
Titanium allergy is barely recognized in mainstream medicine – yet laboratories using the MELISA® technology have reported that about 4% of all patients tested to titanium will be allergic to it (Valentine-Thon E., et al. “LTT-MELISA® is clinically relevant for detecting and monitoring metal sensitivity”. Neuro Endocrinol Lett 2006; 27(Suppl 1):17–24). For those affected with titanium allergy, the symptoms can be multiple and bewildering. These can range from simple skin rashes to muscle pain and fatigue.
From foodstuff to medicine, titanium is now an everyday metal. Several brands of candy, such as Skittles and M&M, have titanium dioxide in the coating – often described by its E-number: E171. Some brands of toothpaste contain titanium particles. Hospitals use titanium implants to rebuild bones after accidents.
More than just a rash: the effects of titanium allergy
Like all metals, titanium releases particles through corrosion. These metals become ions in the body and bind to body proteins. For those who react, the body will try to attack this structure. This starts a chain reaction which can lead to many symptoms including Chronic Fatigue Syndrome. The MELISA® test is the only scientifically-proven test which can objectively diagnose titanium allergy and measure its severity.
Those who test positive are advised to avoid exposure if possible. This may include switching to titanium-free toothpaste and cosmetics, or in some cases, consider removing a titanium implant from the body.
Titanium: where to find it
Titanium dioxide (TiO2) is widely used in consumer products, as it is non-toxic – even though it triggers allergies in certain people. It is known as a “pearling agent” as it makes paper and paint glossy and white. Always check the content of food stuff, pills and cosmetics for titanium dioxide. It is found in the following:
Body implants, such as Brånemark (for teeth) or to rebuild bones.
Dentistry: as a color pigment in composites
Sunscreen agents: Finely ground titanium dioxide will block the harmful ultraviolet rays from the sun.
Confectionery: Used to make candy look brighter and adding a crunchy coat to for example chewing gum.
Cosmetics: Used to brighten and intensify the color of make-up. It is regularly found in shadow, blush, nail polish, lotions, lipstick and powder.
Toothpaste: Used as a pigment agent to make the toothpaste whiter.
Paint: TiO2 will improve the durability of coatings and gives white color.
Plastic carrier bags: Improves durability and gives white color.
Medical pills and vitamin supplements may also get their white coating from titanium dioxide.
Piercing & Jewelry: For example watches and all types of body piercing. Fewer people are allergic to titanium than for example to nickel.
Titanium polluted with nickel
Several studies show that titanium alloys contain traces of nickel as a result of the production process. This can pose trigger health problems in patients with nickel allergy, and also mean that a reaction may be falsely attributed to titanium itself.
Do you suspect you have titanium allergy?
If a health problem starts after you have received a titanium implant it is possible that you are allergic to titanium. You can take a MELISA® test for titanium allergy through one of the clinics we cooperate with or send a sample to a laboratory. If you are planning to have a test before receiving a titanium implant it is advised to find out the exact composition of the implant. Vanadium, aluminium and other metals are sometimes added to improve the properties of titanium implants, and allergy to these metals can also be tested.
How about clinical studies?
The articles Hypersensitivity to titanium: Clinical and laboratory evidence and LTT-MELISA® is clinically relevant for detecting and monitoring metal sensitivity published in 2006 can be downloaded from our Article page.
In the former article fifty-six (56) patients who had developed clinical symptoms after receiving titanium-based implants were tested in MELISA® against 10 metals including titanium. Out of 56 patients, 54 were patch-tested with titanium as well as with other metals. The implants were removed in 54 patients (2 declined explantation), and 15 patients were retested in MELISA®.
Of the 56 patients, 21 (37.5%) were positive, 16 (28.6%) ambiguous, and 19 (33.9%) negative to titanium. In the latter group, 11 (57.9%) showed lymphocyte reactivity to other metals, including nickel. All 54 patch-tested patients were negative to titanium. Following removal of the implants, all 54 patients showed remarkable clinical improvement. In the 15 retested patients, this clinical improvement correlated with normalization in MELISA® reactivity.
The conclusion of the article is that these data clearly demonstrate that titanium can induce clinically relevant hypersensitivity in a subgroup of patients chronically exposed via dental or endoprosthetic implants. Below, you will also find several articles which discuss the issue of corrosion of titanium implants and possible reactions due to hypersensitivity.
source: http://www.ceraroot.com/patients/zirconia-vs-titanium/
