| Nomir Medical Technologies, Inc. Patent applications |
| Patent application number | Title | Published |
|---|
| 20090299441 | Near Infrared Microbial Elimination Laser Systems (NIMEL) - Methods, systems, and apparatus for Near Infrared Microbial Elimination Laser Systems (NIMELS) including use with medical devices are disclosed. The medical devices can be situated in vivo. Suitable medical devices include catheters, stents, artificial joints, and the like. NIMELS methods, systems, and apparatus can apply near infrared radiant energy of certain wavelengths and dosimetries capable of impairing biological contaminants without intolerable risks and/or adverse effects to biological moieties other than a targeted biological contaminant associated with traditional approaches described in the art (e.g., loss of viability, or thermolysis). Lasers including diode lasers may be used for one or more light sources. A delivery assembly can be used to deliver the optical radiation produced by the source(s) produced to an application region that can include patient tissue. Exemplary embodiments utilize light in a range of 850 nm-900 nm and/or 905 nm-945 nm at suitable NIMELS dosimetries. | 12-03-2009 |
| 20090299263 | Near-Infrared electromagnetic modification of cellular steady-state membrane potentials - Systems and methods are disclosed herein for applying near-infrared optical energies and dosimetries to alter the bioenergetic steady-state trans-membrane and mitochondrial potentials (ΔΨ-steady) of all irradiated cells through an optical depolarization effect. This depolarization causes a concomitant decrease in the absolute value of the trans-membrane potentials ΔΨ of the irradiated mitochondrial and plasma membranes. Many cellular anabolic reactions and drug-resistance mechanisms can be rendered less functional and/or mitigated by a decrease in a membrane potential ΔΨ, the affiliated weakening of the proton motive force Δp, and the associated lowered phosphorylation potential ΔGp. Within the area of irradiation exposure, the decrease in membrane potentials ΔΨ will occur in bacterial, fungal and mammalian cells in unison. This membrane depolarization provides the ability to potentiate antimicrobial, antifungal and/or antineoplastic drugs against only targeted undesirable cells. | 12-03-2009 |
| 20090105790 | Near Infrared Microbial Elimination Laser Systems (NIMELS) - Methods, systems, and apparatus for Near Infrared Microbial Elimination Laser Systems (NIMELS) including use with medical devices are disclosed. The medical devices can be situated in vivo. Suitable medical devices include catheters, stents, artificial joints, and the like. NIMELS methods, systems, and apparatus can apply near infrared radiant energy of certain wavelengths and dosimetries capable of impairing biological contaminants without intolerable risks and/or adverse effects to biological moieties other than a targeted biological contaminant associated with traditional approaches described in the art (e.g., loss of viability, or thermolysis). Lasers including diode lasers may be used for one or more light sources. A delivery assembly can be used to deliver the optical radiation produced by the source(s) produced to an application region that can include patient tissue. Exemplary embodiments utilize light in a range of 850 nm-900 nm and/or 905 nm-945 nm at suitable NIMELS dosimetries. | 04-23-2009 |
