Patents by Inventor Pierre Jean Messier
Pierre Jean Messier 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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Publication number: 20210137105Abstract: Antitoxic fibers and fabrics contain impregnated material including an antitoxin. A method for producing antitoxic fabric and products includes impregnating a fabric formed from nonpolymeric or polymeric fibers by fully immersing the fabric in a solution of a concentrate of triiodide and an additive portion that includes an oil of ethoxylated fatty acids in sufficient proportion to stabilize the triiodide in the fabric. An antitoxic fabric includes polymeric or nonpolymeric fibers and impregnated material, which includes an antitoxin, the antitoxin being triiodide, and additional chemical components including an oil of ethoxylated fatty acids in sufficient proportion to stabilize the triiodide in the antitoxic fabric. The antitoxic fabric is efficacious on contact, and maintains efficacy with negligible toxicity in use.Type: ApplicationFiled: January 13, 2021Publication date: May 13, 2021Inventors: Pierre Jean Messier, David Ohayon
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Patent number: 10918103Abstract: Antitoxic fibers and fibrous media contain impregnated material including an antitoxin. A method for producing antitoxic fibers and fibrous media includes impregnating a fibrous media by dipping in a dipping solution containing a concentrate of an antitoxin to form a fiber with impregnated material including an antitoxin. The impregnated material is at least about 1.0% to about 2.5% by weight of the fibers and includes additive chemical components including at least one of an anionic, cationic or nonionic component, an oil and/or an organic solvent, and an alcohol. The additives include those found in a spin finish. The antitoxin is in an amount of at least 0.1% by weight of the fiber. The manufacturing process can be applied to any woven or nonwoven media.Type: GrantFiled: June 3, 2013Date of Patent: February 16, 2021Assignee: I3 Biomedical Inc.Inventors: Pierre Jean Messier, David Ohayon
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Publication number: 20130323290Abstract: Antitoxic fibers and fibrous media contain impregnated material including an antitoxin. A method for producing antitoxic fibers and fibrous media includes impregnating a fibrous media by dipping in a dipping solution containing a concentrate of an antitoxin to form a fiber with impregnated material including an antitoxin. The impregnated material is at least about 1.0% to about 2.5% by weight of the fibers and includes additive chemical components including at least one of an anionic, cationic or nonionic component, an oil and/or an organic solvent, and an alcohol. The additives include those found in a spin finish. The antitoxin is in an amount of at least 0.1% by weight of the fiber. The manufacturing process can be applied to any woven or nonwoven media.Type: ApplicationFiled: June 3, 2013Publication date: December 5, 2013Inventors: Pierre Jean Messier, David Ohayon
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Publication number: 20130039968Abstract: The invention provides a novel method of generating fabrics with outstanding antitoxic properties. The antitoxic properties are imparted to the fabric by introducing an active agent such as an antimicrobial or antiviral agent to the fabric. The active agent may be introduced into the fabric at multiple stages of the manufacturing process. For nonwoven fabrics, the active agent can be introduced during web formation and/or during post-processing steps. The fabrics produced in accordance with the present invention have widespread utility. For instance, they can be used as wound dressings, gowns, drapes, air filters, protective clothing and wipes.Type: ApplicationFiled: February 22, 2011Publication date: February 14, 2013Applicant: TRIOMED INNOVATIONS CORP.Inventors: Pierre Jean Messier, David Ohayon
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Publication number: 20110275971Abstract: There is provided a protective media and a method of manufacturing the same. Also provided is a wound dressing, clothing and liners incorporating the protective media and methods of manufacturing the same. In one aspect, the protective media includes a porous dielectric carrier, an active agent incorporated in the porous dielectric carrier, and an electrostatic charge across at least a portion of the porous dielectric carrier. This innovative media is capable of eradicating microorganisms and/or toxins more efficiently than prior art solutions and can also self-sterilize.Type: ApplicationFiled: June 6, 2011Publication date: November 10, 2011Inventor: Pierre Jean Messier
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Patent number: 7955997Abstract: There is provided a protective media and a method of manufacturing the same. In one aspect, the protective media includes a porous dielectric carrier, an active agent incorporated in the porous dielectric carrier, and an electrostatic charge across at least a portion of the porous dielectric carrier. This innovative media is capable of eradicating microorganisms and/or toxins more efficiently than prior art solutions and can also self sterilize.Type: GrantFiled: September 8, 2003Date of Patent: June 7, 2011Assignee: Triosyn Corp.Inventor: Pierre Jean Messier
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Patent number: 7699906Abstract: The present invention relates to iodinated resins. It relates in particular to a process for preparing a polyiodide-resin wherein an anion exchange resin is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The absorbable member is selected from the group consisting of I.sub.2 and polyiodide ion having a valence of ?1. In the process, conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperate and/or elevated pressure, the elevated temperature being about 100.degree. C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to a substance comprising an iodine (impregnated) resin as produced by the above process.Type: GrantFiled: July 25, 2007Date of Patent: April 20, 2010Assignee: Triosyn Holding Inc.Inventor: Pierre Jean Messier
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Publication number: 20080264554Abstract: There is provided a protective media and a method of manufacturing the same. In one aspect, the protective media includes a porous dielectric carrier, an active agent incorporated in the porous dielectric carrier, and an electrostatic charge across at least a portion of the porous dielectric carrier. This innovative media is capable of eradicating microorganisms and/or toxins more efficiently than prior art solutions and can also self-sterilize.Type: ApplicationFiled: July 3, 2008Publication date: October 30, 2008Applicant: Triosyn Holding Inc.Inventor: Pierre Jean Messier
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Publication number: 20080148941Abstract: The present invention relates to iodinated resins. It relates in particular to a process for preparing a polyiodide-resin wherein an anion exchange resin is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. ‘The absorbable member is selected from the group consisting of I.sub.2 and polyiodide ion having a valence of ?1. In the process, conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperate and/or elevated pressure, the elevated temperature being about 100.degree. C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to a substance comprising an iodine (impregnated) resin as produced by the above process.Type: ApplicationFiled: July 25, 2007Publication date: June 26, 2008Inventor: Pierre Jean Messier
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Patent number: 7320758Abstract: A method for disinfecting microorganisms in metalworking fluids without leaving behind unacceptable amount of chemicals in the treated fluids. The method comprises passing the fluid in a recirculating cooling system through a filter, which contains a demand disinfectant, preferably an iodinated resin. The iodinated resin inhibits the growth of microorganism in the fluid, which is then cycled back into the system. The present invention also relates to a filter and system for disinfecting microorganisms in metalworking fluids.Type: GrantFiled: July 30, 2004Date of Patent: January 22, 2008Assignee: Triosyn Holding, Inc.Inventors: Pierre Jean Messier, Joe Tanelli, Jean-Pierre St-Louis, David Ohayon, Gerald Bruno, Jr.
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Patent number: 7261879Abstract: The present invention relates to iodinated resins. It relates in particular to a process for preparing a polyiodide-resin wherein an anion exchange resin is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The absorbable member is selected from the group consisting of I2 and polyiodide ion having a valence of ?1. In the process, conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and/or elevated pressure, the elevated temperature being about 100° C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to a substance comprising an iodine (impregnated) resin as produced by the above process.Type: GrantFiled: September 10, 2002Date of Patent: August 28, 2007Assignee: Triosyn Holding Inc.Inventor: Pierre Jean Messier
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Patent number: 6899868Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of ?1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: GrantFiled: May 31, 2002Date of Patent: May 31, 2005Assignee: Triosyn Holding Inc.Inventor: Pierre Jean Messier
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Patent number: 6696055Abstract: The present invention relates to a method for treating air with an iodinated resin to remove contaminants contained in the air. The iodinated resin is an iodinated anion exchange resin. The present invention also relates a system for treating air. The system comprises a means for providing an air path for air to move through, and an iodinated resin disposed in the air path.Type: GrantFiled: June 10, 2002Date of Patent: February 24, 2004Assignee: Triosyn Holdings, Inc.Inventor: Pierre Jean Messier
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Patent number: 6680050Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of −1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: GrantFiled: March 12, 1999Date of Patent: January 20, 2004Assignee: Triosyn Holdings, Inc.Inventor: Pierre Jean Messier
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Publication number: 20030138395Abstract: The present invention relates to iodinated resins. It relates in particular to a process for preparing a polyiodide-resin wherein an anion exchange resin is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The absorbable member is selected from the group consisting of I2 and polyiodide ion having a valence of −1. In the process, conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and/or elevated pressure, the elevated temperature being about 100° C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to a substance comprising an iodine (impregnated) resin as produced by the above process.Type: ApplicationFiled: September 10, 2002Publication date: July 24, 2003Inventor: Pierre Jean Messier
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Patent number: 6592861Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of −1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: GrantFiled: February 11, 2002Date of Patent: July 15, 2003Assignee: Triosyn Holding Inc.Inventor: Pierre Jean Messier
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Publication number: 20030099606Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of −1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: ApplicationFiled: May 31, 2002Publication date: May 29, 2003Applicant: Triosyn Holding, Inc.Inventor: Pierre Jean Messier
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Publication number: 20030037673Abstract: The present invention relates to a method for treating air with an iodinated resin to remove contaminants contained in the air. The iodinated resin is an iodinated anion exchange resin. The present invention also relates a system for treating air. The system comprises a means for providing an air path for air to move through, and an iodinated resin disposed in the air path.Type: ApplicationFiled: June 10, 2002Publication date: February 27, 2003Inventor: Pierre Jean Messier
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Publication number: 20020150623Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of −1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: ApplicationFiled: February 11, 2002Publication date: October 17, 2002Inventor: Pierre Jean Messier
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Publication number: 20010009661Abstract: The present invention relates to iodine demand disinfectants. It relates in particular to a process for preparing a polyiodide-resin for use as an iodine demand disinfectant wherein a porous strong base anion exchange resin in a salt form, is contacted with a material capable of donating a member absorbable by the resin so as to convert the resin to the polyiodide-resin. The adsorbable member is selected from the group comprising I2 and polyiodide ion having a valence of −1. The process is characterized in that conversion of the anion exchange resin to the polyiodide-resin is effected at elevated temperature and elevated pressure, the elevated temperature being 100 degrees C. or higher, the elevated pressure being greater than atmospheric pressure. The present invention also relates to disinfectant substance comprising an iodine (impregnated) resin as produced by the above process.Type: ApplicationFiled: February 15, 2001Publication date: July 26, 2001Inventor: Pierre Jean Messier