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A review of Dental implant Stem manufacturing Techniques tailored to the patient’s oral and Maxillary anatomy
Volume 4, Issue 2, 2023-2024, Pages 134 - 147
1 Department of Biomedical Engineering, Faculty of Paramedical Sciences, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran.
2 Department of Biomedical Engineering, Faculty of Paramedical Sciences, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran.
3 Department of Biomedical Engineering, Faculty of Paramedical Sciences, Tehran Medical Sciences, Islamic Azad University, Tehran, Iran.
Abstract :
Dental implants are a contemporary approach of replacing teeth that are missing. This process involves meticulous planning and consideration of various elements, including the choice of materials, size, measurements, implantation procedure, potential difficulties related to soft tissues, and the way of connecting the abutment screw. The implant base, also known as the fixture, functions as the foundation of the tooth in the lower jaw and is an essential element of dental implants. Titanium is commonly employed as an implant fixture because of its superior biocompatibility with the human body in comparison to other alloys such as zirconium oxide and cobalt-chromium-based alloys. Titanium alloy is the most ideal material for implant fixtures due to its resistance to corrosion, absence of excess, and conformance to PH criteria. Based on a comparative review of several 3D printer procedures, it can be concluded that using titanium-based technology is the most effective method for producing implants. The objective of the study is to manufacture dental implant bases that precisely match the shape and structure of the patient's jaw and oral anatomy.
Dental implants are a contemporary approach of replacing teeth that are missing. This process involves meticulous planning and consideration of various elements, including the choice of materials, size, measurements, implantation procedure, potential difficulties related to soft tissues, and the way of connecting the abutment screw. The implant base, also known as the fixture, functions as the foundation of the tooth in the lower jaw and is an essential element of dental implants. Titanium is commonly employed as an implant fixture because of its superior biocompatibility with the human body in comparison to other alloys such as zirconium oxide and cobalt-chromium-based alloys. Titanium alloy is the most ideal material for implant fixtures due to its resistance to corrosion, absence of excess, and conformance to PH criteria. Based on a comparative review of several 3D printer procedures, it can be concluded that using titanium-based technology is the most effective method for producing implants. The objective of the study is to manufacture dental implant bases that precisely match the shape and structure of the patient's jaw and oral anatomy.
Keywords :
Dental Implant Fixture, 3D printers, corrosion, Titanium alloys, Different Methods of Manufacturing
Dental Implant Fixture, 3D printers, corrosion, Titanium alloys, Different Methods of Manufacturing