Abstract: An ophthalmic composition is provided, comprising chlorophyll or bacteriochlorophyll compounds for photodynamic treatment (PDT) of diseases, disorders and conditions associated with corneal or scleral anomalies such as corneal thinning and scleral stretching.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of the skin surface with coated metal nanoparticles are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of the skin surface with metal nanoparticles in surfactant containing solutions are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of acne with nanoparticles with coatings that facilitate selective removal from the skin surface are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of hair removal with metal nanoparticles in surfactant containing solutions are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of acne with coated metal nanoparticles are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of a pilosebaceous unit with nanoparticles with coatings that facilitate selective removal from the skin surface are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of hair removal with nanoparticles with coatings that facilitate selective removal from the skin Surface are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of the skin surface with nanoparticles with coatings that facilitate selective removal from the skin surface are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. in particular, embodiments of thermal treatment of acne with metal nanoparticles in surfactant containing solutions are disclosed.

Abstract: Thermal drawing processes can be used to make multifunctional, high-resolution neural probes for neural recording and stimulation. An exemplary neural probe may include one or more conductive fibers or microelectrodes coated with two or more layers of insulating material, at least one of which is partially etched to expose a tip at the neural probe's distal end. The conductive fibers conduct electrical signals (e.g., neural spikes or electrical stimulation) between the tip and the neural probe's proximal end. Optional optical and fluidic waveguides may guide light and fluid, respectively, between the tip and the proximal end. A neural probe may be flexible enough for long-term (chronic) implantation in neural tissue (e.g., the brain) without excessive tissue damage, even during movement of the brain in the skull. The probe may be made from biocompatible materials, such as insulating and conductive polymers, that have negligible (insignificant) interaction with the surrounding tissue.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of hair removal with coated metal nanoparticles are disclosed.

Abstract: Treatment of skin tissue with photoactive materials and light, such as nanoparticles and formulations which are useful for cosmetic, diagnostic and therapeutic applications to mammals such as humans. In particular, embodiments of thermal treatment of a pilosebaceous unit with coated metal nanoparticles are disclosed.

Abstract: An apparatus having a thin film battery includes: a device electrically operating and including a substrate; and the thin film battery for supplying power to the device.

Abstract: There is provided a skin rejuvenation composition which comprises at least one oxidant, at least one photoactivator capable of activating the oxidant, and at least one healing factor chosen from hyaluronic acid, glucosamine and allantoin, in association with a pharmaceutically acceptable carrier.

Abstract: A method for forming a lead or lead extension having an arrangement of elongated conductors disposed in a body of a lead or lead extension includes ablating a plurality of spaced-apart channels in proximity to at least one of the proximal end or the distal end of the body to expose at least part of at least one of the conductors. A C-shaped contact is disposed into each of a different one of the transverse channels. Each C-shaped contact is electrically coupled to at least one of the conductors. Each C-shaped contact is closed so that opposing ends of the C-shaped contact are adjacent to one another and aligned over one of the elongated conductors. The two opposing ends of each C-shaped contact is coupled together such that each C-shaped contact forms a continuous path around the arrangement within the transverse channel in which the C-shaped contact is disposed.

Abstract: An object of the present invention is to efficiently inject a drug (physiologically active substance). Therefore, a micro-needle device 1 comprises a base plate 2 and a micro-needle 3 installed on the base plate 2. A coating agent containing the physiologically active substance is coated at least at a part of the micro-needle 3, and a coating range thereof is 100 to 230 ?m including the top of the micro-needle 3. A load due to the energy of 0.2 to 0.7 J/cm2 is applied to the micro-needle device 1 which is in contact with the skin.

Abstract: An embodiment in accordance with the present invention provides a device and method to deliver direct ionic current safely to target neural tissue, while also eliminating interruptions in the output of the device that can result from the non-ideal operation of the valves used to control the current flow in the device. The device includes two valve-operated systems that work in tandem. The first and second current producing systems are configured to be used together in order to eliminate the periodic interruptions in current flow. In use, one system drives current through the target tissue, while the other system closes all of the valves first and then opens its valves in sequence. This intermediate step of closing all of the valves prevents unintended current shunts through either system. The device also includes two conductors to direct the flow of direct current into the target tissue.

Abstract: Disclosed herein are systems, devices, and methods for transdermal delivery of a therapeutic agent (for example, a molecule or molecules) to a therapy site. The systems, devices, and methods described herein are flexible and able to conform to the contours of a therapy site, such as the shape of a user's face. In certain approaches, the devices and systems described herein include an integrated power supply for standalone application to the therapy site. The devices, systems, and methods include flexible electrodes with integrated conductance layers and interface layers for improved stability and current distribution. In practice, the device includes at least two electrodes which are coupled to the therapy site. When the electrodes are placed at the therapy site, they are electrically coupled, thereby drawing a current from the power supply to deliver the therapeutic agent to the therapy site.

Abstract: Systems and methods for treatment of a biological tissues comprising target tissues and other tissues. The method includes elevating a temperature of the target tissues above a physiological temperature of the biological tissues to treatment temperature, and generating an electric field extending through at least a portion of the target tissues using a pre-defined sequence of short voltage pulses applied between at least two electrodes. In the method, the treatment temperature is maintained during the generating. Further, the pre-defined sequence is selected such that a magnitude of the electric field generated is sufficient to induce electromanipulation in the portion of the target tissues without substantially elevating of the temperature of the portion of the target tissues above the treatment temperature.

Abstract: A microlead includes a conductive cable formed by a strand of microcables, each microcable being formed of a strand of individual metallic wires. The microlead also includes an insulation layer sheathing the cable. The microlead further includes at least one exposed area formed in the insulation layer so as to form a corresponding electrode of the microlead. The microlead further includes a pharmacologically active agent (e.g., an anti-inflammatory agent) configured to gradually be released into the environment of the microlead after implantation of the microlead. The pharmacologically active agent may be a soluble material. An interstitial space, delimited by the inner wall of the insulation layer and existing in the remainder between the wires of each microcable, is filled with the pharmacologically active agent.

Abstract: The present invention refers to a composite material including at least one upconversion particulate material that under near infrared (NIR) irradiation emits visible light of a wavelength between 380 and 740 nm, and at least one semiconductor particulate material that can absorb the visible light emitted by the at least one upconversion particulate material and upon absorbance generates reactive species, wherein the at least one upconversion particulate material and the at least one semiconductor particulate material are physiologically acceptable. The upconversion particulate material can comprises NaYF4 doped with a one rare earth metal. The bright fluorescence emitted from rare earth-doped NaYF4 upconversion particles is in the visible region of the electromagnetic spectrum and may be absorbed by a biocompatible photocatalysts such as TiO2 to produce reactive species. This allows the composite to be used for in vivo applications.

Abstract: Methods and systems are provided for transporting a therapeutic or cosmetic substance into nanoporous mineralized tissue structures, such as teeth. The method may include contacting the nanoporous mineralized tissue structure with an ionic solution including the therapeutic or cosmetic substance; and simultaneously applying to the nanoporous mineralized tissue structure an electrical potential effective to transport the therapeutic or cosmetic substance into the nanopores of the nanoporous mineralized tissue structure.

Abstract: The present invention provides an immunomodulator for use in the treatment and/or control of a neoplastic disease in a patient intended to undergo immunogenic cell death therapy simultaneously, separately or sequentially with administration of the immunomodulator. The therapy can be selected from microwave irradiation, targeted radiotherapy, embolization, cryotherapy, ultrasound, high intensity focused ultrasound, cyberknife, hyperthermia, radiofrequency ablation, cryoablation, electrotome heating, hot water injection, alcohol injection, embolization, radiation exposure, photodynamic therapy, laser beam irradiation, and combinations thereof.

Abstract: Methods, systems and devices are implemented in connection with light-responsive ion channel molecules. One such method is implemented using a light-activated ion channel molecule that responds to a light stimulus. The method includes engineering the light-activated ion channel molecule in a cell; and activating the ion channel molecule, in response to light stimulus that is provided to the ion channel molecule and that has properties that do not activate a ChR2 ion channel, to allow ions to pass through the light-activated ion channel molecule.

Abstract: Nanosecond pulsed electric field (nsPEF) treatments of a tumor are used to cause the tumor to express calreticulin and stimulate an immune response against the tumor and other tumors in a subject. An immune response biomarker can be measured, and further nsPEF treatments can be performed if needed to stimulate or further stimulate the immune response. Cancers that have metastasized may be treated. The treatment can be combined with CD47-blocking antibodies, doxorubicin, CTLA-4-blocking antibodies, and/or PD-1-blocking antibodies. Electrical characteristics of nsPEF treatments can be based on the size, type, and/or strength of tumors and/or a quantity of tumors in the subject.

Abstract: A system and method are provided for minimally-invasive lipolysis in a target area by injecting the area with a solution of photo-absorbing nanoparticles and irradiating the injected area with a beam of near infrared (NIR) light. The NIR emission wavelength excites the nanoparticles to melt fat within the target area so that the liquefied fat can be aspirated from the target area. The nanoparticles may be gold nanorods having aspect ratios selected to produce surface plasmon resonance when irradiated with NIR light around 800 nm.

Abstract: Embodiments of the invention provide patch assemblies for iontophoretic transdermal delivery of therapeutic agents. An embodiment provides a patch assembly comprising a conformable patch for delivery of the agent and having a tissue contacting side including an adhesive. The housing has a bottom surface for engaging a non-tissue contacting side of the patch, a current source such as a battery and a controller for controlling the delivery of the agent. The housing has sufficient flexibility such that when it is engaged with the patch to form the patch assembly and the patch is adhered to a target site on the patient's skin, the assembly has sufficient flexibility to deform with movement of the patient's skin to remain sufficiently adhered to the skin over an extended period of time to transdermally deliver a desired dose of the agent. Embodiments of the assembly may used to deliver a variety of therapeutic agents.

Abstract: According to an embodiment of the present disclosure, a wound dressing system is presented. The wound dressing system includes a fluid permeable support layer, the support layer configured for positioning within a wound and adapted to generally conform to a topography of the wound, and to permit exudates from the wound to pass therethrough. The wound dressing system further includes a plurality of beads supported by the support layer, the beads defining an insulated inter-connected elongate member and an electrode embedded within and extending through at least a portion of the elongate member. Also, a current is generated by an external energy source that electrically flows through the electrode.

Abstract: A portable, self-contained, irradiation apparatus for photodynamic treatment of the vulva and/or the anus which comprises: a treatment surface 2 capable of conforming to the area of the vulva and/or anus to be treated, an illumination system 4 for directing light onto a treatment area of the vulva and/or anus and a power source 18 for the illumination system; wherein the illumination system is arranged to provide light at fluence rates of 50 mW/cm2 or below.

Abstract: A method of treating pain involves administering to a human in need of such treatment a therapeutically effective amount of hyaluronic acid. In some embodiments, the hyaluronic acid is a non-avian based non-cross linked hyaluronic acid configured to treat post-traumatic and degenerative joint disorders. In some embodiments, the hyaluronic acid is cross linked hyaluronic acid.

Abstract: Naphthalimide compounds are used in tissue bonding and protein cross-linking applications. When activated by an activating agent, such as light in the 400-500 nm absorption range, the naphthalimide compounds form chemically-reactive species that cross-link proteins, bond connective tissues together, and bond tissues and other biomaterials together. A naphthalimide-labeled biomolecule, such as a naphthalimide-labeled chitosan, is also capable of bonding tissues without subsequent direct illumination of the contacted tissue area. The naphthalimide compounds may be used in tissue or arterial repair, stabilization of an expanded arterial wall after angioplasty, tethering pharmaceutical agents to tissue surfaces to provide local drug delivery, and for chemically bonding skin care products, sunscreens, and cosmetics to the skin.

Abstract: The present invention is related to novel functional antibody coated nanoparticles, and the preparation method thereof. The functional antibody coated nanoparticles according to the present invention can be used as photothermal agents to effectively inhibit the growth of microbes including drug-resistant strains and biolfilm with laser irradiation.

Abstract: A device, a system, or a method is described for treating a disease or a condition of one or more joints of articulating bone in a mammalian subject. The device provides one or more medicaments to one or more joints of the mammalian subject. A device is described that includes one or more substrates configured to contact one or more body contours in proximity to one or more joints of articulating bone of a mammalian subject; one or more sensors configured to monitor movement of the one or more body contours; and one or more applicators supported by the one or more substrates and configured to respond to the movement of the one or more body contours by injecting one or more medicaments to the one or more joint tissues of the mammalian subject.

Abstract: Medical implants can comprise various instrumentation to impart desirable functionality to the implant. In some embodiments, the implants comprise functional structures, such as sensors, energy propagating transducers, drug delivery systems and the like. Additional instrumentation to facilitate the functionality of these devices can include, for example, microprocessors, communication systems, power sources or the like. Drug delivery systems can comprise, for example, an isolated reservoir with a control system to control the delivery of a biological agent from the reservoir. The implants can be orthopedic implants that are designed to interface with a patient's skeletal system wherein the orthopedic implant may itself embody sensors, processors, power supplies, memory and/or communication capability.

Abstract: The invention relates to compositions and methods for treating C. difficile associated disease (CDAD) through the administration to a subject in need thereof at least one nucleic acid encoding at least a portion of at least one of toxin A and toxin B.

Abstract: Various agents and additives for cross-linking treatments are identified in disclosed studies. The characteristics of the various agents and additives may be advantageously employed in formulations applied in cross-linking treatments of the eye. In some embodiments, riboflavin is combined with Iron(II) to enhance the cross-linking activity generated by the riboflavin. In other embodiments, cross-linking treatments employ an Iron(II) solution in combination with a hydrogen peroxide pre-soak. In yet other embodiments, 2,3-butanedione is employed to increase the efficacy of corneal cross-linking with a photosensitizer, such as riboflavin. In further embodiments, folic acid is employed in combination with a photosensitizer, such as riboflavin, to enhance cross-linking activity. In yet further embodiments, 2,3-butanedione, folic acid, a quinoxaline, a quinoline, dibucaine, Methotrexate, menadione, or a derivative thereof is applied as a cross-linking agent.

Abstract: Methods for the treatment of a cell proliferation disorder in a subject, involving: (1) administering to the subject at least one activatable pharmaceutical agent that is capable of effecting a predetermined cellular change when activated, either alone or in combination with at least one energy modulation agent; and (2) applying an initiation energy from an initiation energy source to the subject, wherein the applying activates the activatable agent in situ, thus causing the predetermined cellular change to occur, wherein the predetermined cellular change treats the cell proliferation disorder, preferably by causing an increase or decrease in rate of cell proliferation, and a kit for performing the method, a computer implemented system for performing the method, a pharmaceutical composition useful in the method and a method for causing an autovaccine effect in a subject using the method.

Abstract: The present invention relates to methods for treating cell proliferation disorders comprising (1) administering to the subject at least one activatable pharmaceutical agent that is capable of activation by a simultaneous two photon absorption event and of effecting a predetermined cellular change when activated, (2) administering at least one plasmonics-active agent to the subject, and (3) applying an initiation energy from an initiation energy source to the subject, wherein the plasmonics-active agent enhances or modifies the applied initiation energy, such that the enhanced or modified initiation energy activates the activatable pharmaceutical agent by the simultaneous two photon absorption event in situ, thus causing the predetermined cellular change to occur, wherein said predetermined cellular change treats the cell proliferation related disorder, and the use of plasmonics enhanced photospectral therapy (PEPST) and exiton-plasmon enhanced phototherapy (EPEP) in the treatment of various cell proliferation

Abstract: A method and device are presented for providing patient safe light to a wound. The device includes a radiation source producing flora lethal radiation wavelengths, a radiation conduit detachably optically coupled to the radiation source, and a patch remotely located from the radiation source configured to at least partially conform to a surface contour of the wound. The patch includes a flexible panel formed of a radiation transmitting material able to withstand sterilization, including at least one surface with a disturbed surface area configured to emit radiation upon the wound.

Abstract: Devices and methods for delivering a chemical compound to, through or into a membrane, tissue or layer are provided. The device may include an AC signal source and at least one electrode. In one application, an interdigitated electrode may be electrically connected to the AC signal source. In one application, the chemical compound such as a medicament containing a drug may be disposed on or within the electrode and logic may control the AC signal source to provide the signal, including setting or selecting characteristics such as voltage, frequency and the like to orient and/or motivate an amount of the chemical compound through the electrode and into the tissue.

Abstract: A volume of a patient can be mapped with a system operable to identify a plurality of locations and save a plurality of locations of a mapping instrument. The mapping instrument can include one or more electrodes that can sense a voltage that can be correlated to a three dimensional location of the electrode at the time of the sensing or measurement. Therefore, a map of a volume can be determined based upon the sensing of the plurality of points without the use of other imaging devices. An implantable medical device can then be navigated relative to the mapping data.

Abstract: A device, a system, or a method is described for treating a disease or condition of one or more joints of articulating bone in a mammalian subject. A device is described which includes one or more substrates configured to contact one or more body contours at one or more joints of articulating bone of a mammalian subject; and an applicator supported by the one or more substrates and configured to inject one or more medicaments to one or more joint tissues of the mammalian subject.

Abstract: Embodiments disclosed herein are directed to systems and methods for protecting needleless injector units from one or more contaminants. In an embodiment, a needleless injector system includes a needleless injector unit and an auxiliary unit. The needleless injector unit has a nozzle portion and a supply of one or more substances for injection. The needleless injector unit is configured to inject the one or more substances from the nozzle portion through a skin surface of a subject. The auxiliary unit is coupleable to the needleless injector unit. The auxiliary unit includes a source of one or more protectants and is configured to emit the one or more protectants in a region between the nozzle portion of the needleless injector unit and the skin surface of the subject.

Abstract: This invention effects a change in the accommodation of the human lens affected by presbyopia through the use of various reducing agents that change accommodative abilities of the human lens, and/or by applying energy to affect a change in the accommodative abilities of the human lens. This invention both prevents the onset of presbyopia as well as treats it. By breaking and/or preventing the formation of bonds that adhere lens fibers together causing hardening of the lens, the present invention increases the elasticity and distensibility of the lens and/or lens capsule.

Abstract: Methods and compositions to controllably regulate cells at a target site. A quantum dot-targeting agent complex is administered to a patient in need of therapy, and the complex is stimulated using an implanted fiber optic system. In embodiments, the system includes an electrical sensor that detects and monitors electrical activity of the stimulated controllably regulated cells, and relays this information to a controller that can regulate further stimulation.

Abstract: The present disclosure relates to a method and a device for treating heart failure by normalizing elevated blood pressure in the left and right atria of a heart of a mammal The present disclosure includes methods for creating and maintaining an opening in the atrial septum. Tools for making an opening and enlarging the opening are also disclosed. Use of the techniques and tools described herein prolongs the patency of an intra-atrial pressure relief opening.

Abstract: Methods for treatment of arterial or venous thrombosis in patients undergoing an endovascular intervention or a surgical procedure, and more particularly, administering alfimeprase directly into the thrombus or adjacent to the thrombus in a coronary, cerebral, or peripheral vessel.

Abstract: Embodiments of the technology described herein relate, at least in part, to methods of modulating the activity of a neuron by contacting the neuron with a photo-sensitive TrpA1 agonist and then illuminating the neuron with electromagnetic radiation. Also described herein are photo-sensitive TrpA1 agonists.

Abstract: Particular aspects of the invention provide methods for decreasing the amount of fluid present in the subretinal space of the eye by administering interferon gamma to the basolateral side of the retinal pigment epithelium. Adverse ocular conditions associated with the accumulation of fluid in the subretinal space can be treated by administering an amount of interferon gamma to the basolateral side of the retinal pigment epithelium effective to remove excess fluid from the subretinal space.