Patents by Inventor Alexis C. Goolik
Alexis C. Goolik has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11896459Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: December 16, 2021Date of Patent: February 13, 2024Assignee: BIOMET 3I, LLCInventors: Zachary B. Suttin, Bruce Berckmans, III, Dan P Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20220104922Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: December 16, 2021Publication date: April 7, 2022Inventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Patent number: 11219511Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: April 29, 2019Date of Patent: January 11, 2022Assignee: Biomet 3I, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20190350684Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: April 29, 2019Publication date: November 21, 2019Inventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P Rogers, T. Tait Robb, Alexis C. Goolik
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Patent number: 10307227Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: March 6, 2015Date of Patent: June 4, 2019Assignee: Biomet 3I, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Patent number: 9662185Abstract: A scanning member includes a head portion and a body portion. The head portion has an at least partially flat top surface indicative of a first characteristic of a dental implant, an at least partially flat first side surface indicative of a second characteristic of the dental implant, and a second non-flat side surface that opposes the first side surface. The body portion has a non-rotational feature configured to non-rotationally couple the body portion to the dental implant. The body portion is physically attached to a bottom surface of the head portion to form a generally “T” shape. The scanning member has an internal through hole for receiving a screw to threadably couple with a threaded bore within the dental implant. A set of scanning members includes scanning members having different body portions configured to couple to dental implants from different manufacturers.Type: GrantFiled: September 30, 2014Date of Patent: May 30, 2017Assignee: Biomet 3I, LLCInventors: John J. Bellanca, Brandt M. Davis, Alexis C. Goolik, David Edward Beeby
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Publication number: 20150173866Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: March 6, 2015Publication date: June 25, 2015Inventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Patent number: 8998614Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: July 20, 2012Date of Patent: April 7, 2015Assignee: Biomet 3i, LLCInventors: Bruce Berckman, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20150017600Abstract: A scanning member includes a head portion and a body portion. The head portion has an at least partially flat top surface indicative of a first characteristic of a dental implant, an at least partially flat first side surface indicative of a second characteristic of the dental implant, and a second non-flat side surface that opposes the first side surface. The body portion has a non-rotational feature configured to non-rotationally couple the body portion to the dental implant. The body portion is physically attached to a bottom surface of the head portion to form a generally “T” shape. The scanning member has an internal through hole for receiving a screw to threadably couple with a threaded bore within the dental implant. A set of scanning members includes scanning members having different body portions configured to couple to dental implants from different manufacturers.Type: ApplicationFiled: September 30, 2014Publication date: January 15, 2015Inventors: John J. Bellanca, Brandt M. Davis, Alexis C. Goolik, David Edward Beeby
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Patent number: 8882508Abstract: A scanning member includes a head portion and a body portion. The head portion has an at least partially flat top surface indicative of a first characteristic of a dental implant, an at least partially flat first side surface indicative of a second characteristic of the dental implant, and a second non-flat side surface that opposes the first side surface. The body portion has a non-rotational feature configured to non-rotationally couple the body portion to the dental implant. The body portion is physically attached to a bottom surface of the head portion to form a generally “T” shape. The scanning member has an internal through hole for receiving a screw to threadably couple with a threaded bore within the dental implant. A set of scanning members includes scanning members having different body portions configured to couple to dental implants from different manufacturers.Type: GrantFiled: December 6, 2011Date of Patent: November 11, 2014Assignee: Biomet 3i, LLCInventors: John J. Bellanca, Brandt M. Davis, Alexis C. Goolik, David Edward Beeby
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Patent number: 8690574Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: March 22, 2011Date of Patent: April 8, 2014Assignee: Biomet 3i, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20120283866Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: July 20, 2012Publication date: November 8, 2012Applicant: Biomet 3i, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Patent number: 8257083Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: GrantFiled: February 22, 2008Date of Patent: September 4, 2012Assignee: Biomet 3i, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20120141951Abstract: A scanning member includes a head portion and a body portion. The head portion has an at least partially flat top surface indicative of a first characteristic of a dental implant, an at least partially flat first side surface indicative of a second characteristic of the dental implant, and a second non-flat side surface that opposes the first side surface. The body portion has a non-rotational feature configured to non-rotationally couple the body portion to the dental implant. The body portion is physically attached to a bottom surface of the head portion to form a generally “T” shape. The scanning member has an internal through hole for receiving a screw to threadably couple with a threaded bore within the dental implant. A set of scanning members includes scanning members having different body portions configured to couple to dental implants from different manufacturers.Type: ApplicationFiled: December 6, 2011Publication date: June 7, 2012Applicant: Biomet 3i, LLCInventors: John J. Bellanca, Brandt M. Davis, Alexis C. Goolik
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Publication number: 20110200970Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: March 22, 2011Publication date: August 18, 2011Applicant: Biomet 3i, LLCInventors: Bruce Berckmans, III, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik
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Publication number: 20080153067Abstract: A method of placing a dental implant analog in a physical model for use in creating a dental prosthesis is provided. The physical model, which is usually based on an impression of the patient's mouth or a scan of the patient's mouth, is prepared. The model is scanned. A three-dimensional computer model of the physical model is created and is used to develop the location of the dental implant. A robot then modifies the physical model to create an opening for the implant analog. The robot then places the implant analog within the opening at the location dictated by the three-dimensional computer model.Type: ApplicationFiled: February 22, 2008Publication date: June 26, 2008Inventors: Bruce Berckmans, Zachary B. Suttin, Dan P. Rogers, T. Tait Robb, Alexis C. Goolik