Patents by Inventor G. Patrick Maxwell
G. Patrick Maxwell 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: 9129055Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: December 20, 2013Date of Patent: September 8, 2015Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20140379319Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: September 10, 2014Publication date: December 25, 2014Inventors: David H. Mordaunt, G. Patrick Maxwell
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Patent number: 8888717Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: January 9, 2009Date of Patent: November 18, 2014Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell, Thomas J. Liolios
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Patent number: 8876899Abstract: A medical implant assembly and method having a medical implant, e.g. a breast prostheses, attached to a biological interface. The biological interface is comprised of a dermal material with capsular contracture inhibiting properties so that once the medical assembly is inserted into the host, the biological interface, which is intimately coupled to the implant, prevents/reduces capsular contracture formation around the implant. The biological interface comprises a plurality of apertures along its periphery, and attaches to the medical implant by receiving a plurality of attachment flaps or appendages located on the exterior surface of the medical implant within or through the apertures. The attachment of the biological interface is such that the assembly remains intact even where the attachment flaps loosen upon expansion of the implant after insertion into a host, as where the implant is therein injected to a desired dimension.Type: GrantFiled: April 23, 2013Date of Patent: November 4, 2014Inventor: G. Patrick Maxwell
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Patent number: 8858630Abstract: A variable cohesive gel form stabilizing implant is provided for augmentation or reconstruction of the breast. The prosthesis includes a shell filled with a gel having variations in cohesiveness to maintain stable form, shape, and dimension after surgical implantation.Type: GrantFiled: September 13, 2013Date of Patent: October 14, 2014Assignee: Allergan, Inc.Inventors: G. Patrick Maxwell, Thomas E. Powell, Daniel A. Carlisle
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Patent number: 8834391Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: January 9, 2009Date of Patent: September 16, 2014Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Patent number: 8795204Abstract: Various systems, methods, techniques and/or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: August 4, 2011Date of Patent: August 5, 2014Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20140104272Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: December 20, 2013Publication date: April 17, 2014Applicant: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Patent number: 8648853Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: October 4, 2012Date of Patent: February 11, 2014Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20140039617Abstract: A medical implant assembly and method having a medical implant, e.g. a breast prostheses, attached to a biological interface. The biological interface is comprised of a dermal material with capsular contracture inhibiting properties so that once the medical assembly is inserted into the host, the biological interface, which is intimately coupled to the implant, prevents/reduces capsular contracture formation around the implant. The biological interface comprises a plurality of apertures along its periphery, and attaches to the medical implant by receiving a plurality of attachment flaps or appendages located on the exterior surface of the medical implant within or through the apertures. The attachment of the biological interface is such that the assembly remains intact even where the attachment flaps loosen upon expansion of the implant after insertion into a host, as where the implant is therein injected to a desired dimension.Type: ApplicationFiled: April 23, 2013Publication date: February 6, 2014Inventor: G. Patrick Maxwell
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Publication number: 20140012377Abstract: A variable cohesive gel form stabilizing implant is provided for augmentation or reconstruction of the breast. The prosthesis includes a shell filled with a gel having variations in cohesiveness to maintain stable form, shape, and dimension after surgical implantation.Type: ApplicationFiled: September 13, 2013Publication date: January 9, 2014Applicant: Allergan, Inc.Inventors: G. Patrick Maxwell, Thomas E. Powell, Daniel A. Carlisle
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Publication number: 20130245500Abstract: Various systems, methods, techniques and/or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: May 6, 2013Publication date: September 19, 2013Applicant: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Patent number: 8425600Abstract: A medical implant assembly and method having a medical implant, e.g. a breast prostheses, attached to a biological interface. The biological interface is comprised of a dermal material with capsular contracture inhibiting properties so that once the medical assembly is inserted into the host, the biological interface, which is intimately coupled to the implant, prevents/reduces capsular contracture formation around the implant. The biological interface comprises a plurality of apertures along its periphery, and attaches to the medical implant by receiving a plurality of attachment flaps or appendages located on the exterior surface of the medical implant within or through the apertures. The attachment of the biological interface is such that the assembly remains intact even where the attachment flaps loosen upon expansion of the implant after insertion into a host, as where the implant is therein injected to a desired dimension.Type: GrantFiled: November 13, 2008Date of Patent: April 23, 2013Inventor: G. Patrick Maxwell
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Patent number: 8294708Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: January 9, 2009Date of Patent: October 23, 2012Assignee: Allergan, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20120169732Abstract: Various systems, methods, techniques and/or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: March 13, 2012Publication date: July 5, 2012Applicant: ALLERGAN, INC.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20120143328Abstract: A variable cohesive gel form stabilizing implant is provided for augmentation or reconstruction of the breast. The prosthesis includes a shell filled with a gel having variations in cohesiveness to maintain stable form, shape, and dimension after surgical implantation.Type: ApplicationFiled: November 3, 2011Publication date: June 7, 2012Applicant: ALLERGAN, INC.Inventors: G. Patrick Maxwell, Thomas E. Powell, Daniel A. Carlisle
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Patent number: 8070808Abstract: A variable cohesive gel form stabilizing implant is disclosed for augmentation or reconstruction of the breast. The prosthesis of this invention comprises an implantable shell or envelope (not limited to a single shell or envelope), filled with a biocompatible gel, or gels, having alterations in gel cohesiveness to maintain stable form, shape, and dimension after surgical implantation. The gel cohesiveness may increase, with increased volume or dimension of the prosthesis. The variable cohesiveness of the gel filler material may be altered by any means (i.e. chemical, fabrication, etc.). The variable cohesive gel form stabilizing implant has shape retention characteristics to maintain its form, thereby reducing or eliminating the undesirable effects of shell wrinkling, knuckling, scalloping or deformation, which can occur at the upper or lower pole of the prostheses, along the perimeter of the shell or at the base, post-implantation.Type: GrantFiled: October 25, 2006Date of Patent: December 6, 2011Assignee: Allergan, Inc.Inventors: G. Patrick Maxwell, Thomas E. Powell, Daniel A. Carlisle
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Publication number: 20110295112Abstract: Various systems, methods, techniques and/or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: August 4, 2011Publication date: December 1, 2011Inventors: David H. Mordaunt, G. Patrick Maxwell
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Patent number: 7993288Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: GrantFiled: January 9, 2009Date of Patent: August 9, 2011Assignee: Precision Light, Inc.Inventors: David H. Mordaunt, G. Patrick Maxwell
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Publication number: 20090227904Abstract: Various methods, techniques or modules are provided to allow for the automated analysis of the 3-D representation of the upper front torso (i) to recognize 3-D anatomical features, (ii) to orient the subject with reference to their anatomy or a display, (iii) to determine dimensional analysis including direct point-to-point lines, 3-D surface lines, and volume values, (iv) to simulate the outcome with the addition of breast implants including breast and nipple positioning, (v) to assist in the selection of the breast implants, and/or (vi) to assist in the planning of breast surgery. The automated analysis is based on the analysis of changes in a 3-D contour map of the upper torso, orientation analysis of 3-D features and planes, color analysis of 3-D features, and/or dimensional analysis of 3-D features and positions of the upper torso.Type: ApplicationFiled: January 9, 2009Publication date: September 10, 2009Inventors: David H. Mordaunt, G. Patrick Maxwell