PHARMACO-KINESIS CORPORATION Patent applications |
Patent application number | Title | Published |
20140303455 | MULTIPURPOSE CEREBROSPINAL FLUID SENSOR ASSEMBLY AND METHOD OF OPERATION OF THE SAME - A cerebrospinal fluid (CSF) monitoring device for the detection of obstructions in real time through the collection of pressure data from an on-board pressure sensor. This system is designed to integrate into medical devices equipped with a CSF drainage system, such as implantable shunts. CSF analysis data can be transmitted in real-time wirelessly to a physician or can be stored on-board in a memory card and retrieved wirelessly at a later time. Information from the CSF sensors can be used by physicians to monitor CSF conditions known to cause shunt malfunction/obstruction such as elevated protein concentrations, evidence of an on-going or recent hemorrhage such as presence of heme proteins, and concentrations of administered medications/drugs over time. It can be used to monitor for CSF infections, in which increased pressure, increased temperature, CSF high protein and low glucose, would be suggestive of CSF infections. | 10-09-2014 |
20120245565 | METHOD FOR DELIVERING GENE AND CELL THERAPY TO A TUMOR OR TARGETED SITE USING AN IMPLANTED METRONOMIC BIOFEEDBACK PUMP - A method for utilizing a controlled pump implanted into a patient connected to a multilumen catheter allowing delivery to and sampling from the brain or other organ for treatment of a cancer. The pump delivers a plurality of medicating agents, including viral and non-viral vectors for gene therapy and cell therapy at a controlled rate, corresponding to the specific needs of the patient. A catheter is implanted in or adjacent to the tumoral region. Fluid drawn from the tumor region to the pump via the multilumen catheter is analyzed within the pump by various biofeedback sensors. The operation of the apparatus and hence the treatment is remotely controlled based on these measurements and displayed through an external controller. The method allows localized delivery of gene and cell therapy to a solid tumor or tumoral region, or to any other treatment area of interest within the patient. | 09-27-2012 |
20120041562 | Remotely Activated Piezoelectric Pump for Delivery of Biological Agents to the Intervertebral Disc and Spine - A remotely activated piezoelectric pump for delivery of biological agents to the intervertebral disc and spine in order to achieve spinal fusion. A spinal pump is implanted on the vertebrae of a patient and a spinal cage is inserted in between two adjacent vertebrae after removal of the vertebrae disc. A piezoelectric motor drives the pump and pushes osteogenetic agent through the spinal cage and into a sponge disposed within the cage. The pump is charged by an external removable induction belt worn by the patient. Delivery duration and delivery frequency may be changed before implantation of the spine pump according to the specific needs of the patient. The current device employs a mathematical model that enables the regulation as well as attenuation of the bone fusion process by extending and generalizing the model to enhance and optimize the delivery of osteogenetic agent in a regulated manner. | 02-16-2012 |
20110295159 | Method and Apparatus for an Implantable Inertial-Based Sensing System for Real-Time, In Vivo Detection of Spinal Pseudarthrosis and Adjacent Segment Motion - A vertebral processor designed to collect and interpret data from multiple surgically implanted accelerometers. Each accelerometer is surgically implanted into a vertebra of a patient utilizing a bone screw. Additional accelerometers are implanted in adjacent vertebrae. The data from the accelerometers is compared by an algorithm to determine the relative movement of the accelerometers implanted in adjacent vertebrae. Data is generated via the algorithm and compared against the expected behavior of the surgically implanted accelerometers as if they were connected to a rigid body, thus determining the level of success of a spinal fusion procedure for those adjacent segments. The apparatus may be utilized with or without spinal stabilization hardware, and with or without fusion cages or artificial discs. The vertebral processor is supplemented by an external system worn by the patient, which provides for an inductive charging power source and for data transfer. | 12-01-2011 |
20110166033 | Method and Apparatus for Forming of an Automated Sampling Device for the Detection of Salmonella Enterica Utilizing an Electrochemical Aptamer Biosensor - An aptamer-based solid-state electrochemical biosensor for label-free detection of | 07-07-2011 |
20110162979 | Method and Apparatus for Forming of an Automated Sampling Device for the Detection of Salmonella Enterica Utilizing an Electrochemical Aptamer Biosensor - An aptamer-based solid-state electrochemical biosensor for label-free detection of | 07-07-2011 |
20110092960 | ENHANCED METHOD FOR DELIVERING BEVACIZUMAB (AVASTIN) INTO A BRAIN TUMOR USING AN IMPLANTED MAGNETIC BREATHER PUMP - A magnetically controlled pump is implanted into the brain of a patient and delivers a plurality of medicating agents mixed with Avastin at a controlled rate corresponding to the specific needs of the patient. The current invention comprises a flexible double walled pouch that is formed from two layers of polymer. The pouch is alternately expanded and contracting by magnetic solenoid. When contracted, the medicating agent Avastin is pushed out of the pouch through a plurality of needles. When the pouch is expanded, surrounding cerebral fluid is drawn into the space between the double walls of the pouch from which it is drawn through a catheter to an analyzer. In cases where a tumor resection is not performed, an intratumoral catheter will be implanted. Cerebral fluid drawn from the patient is analyzed. The operation of the apparatus and hence the treatment is remotely controlled based on these measurements and displayed through an external controller. | 04-21-2011 |
20110092950 | Metronomic Convection Enhanced Delivery of Intrathecal Chemotherapy Using an Implanted Magnetic Breather Pump (MBP) for Leptomeningeal Carcinomatosis - A magnetically controlled pump is implanted into the cerebrospinal fluid of a patient and delivers a plurality of medicating agents at a controlled rate corresponding to the specific needs of the patient. The current invention comprises a flexible double walled lumen, intratumoral catheter which will be implanted. Spinal fluid drawn from the patient is analyzed. Medication is delivered on a continuous metronomic basis into the CSF via an internalized pump. CSF is removed and analyzed for VEGF and other cytokines via spectrophotometer analysis or a lab on a chip. The operation of the apparatus and hence the treatment is remotely controlled based on these measurements and displayed through an external controller. | 04-21-2011 |
20110092948 | Remotely Activated Piezoelectric Pump for Delivery of Biological Agents to the Intervertebral Disc and Spine - The present disclosure describes a remotely activated piezoelectric pump for delivery of biological agents to the intervertebral disc and spine in order to achieve spinal fusion. A spinal pump is implanted on the vertebrae of a patient and a spinal cage is inserted in between two adjacent vertebrae after removal of the vertebrae disc. A piezoelectric motor drives the pump and pushes osteogenetic agent through the spinal cage and into a sponge disposed within the cage. The pump is charged by an external removable induction belt worn by the patient. Delivery duration and delivery frequency may be changed before implantation of the spine pump according to the specific needs of the patient. The current device employs a mathematical model that enables the regulation as well as attenuation of the bone fusion process by extending and generalizing the model to enhance and optimize the delivery of osteogenetic agent in a regulated manner. | 04-21-2011 |
20100262375 | METHOD AND APPARATUS FOR FORMING A HOMEOSTATIC LOOP EMPLOYING AN APTAMER BIOSENSOR - A novel architecture solid-state biosensor for label-free detection of vascular endothelial growth factor (VEGF) hybridization is presented. The new device is realized by forming a matrix array of parallel capacitors, thus allowing the realization of low-cost, portable, fully integrated devices. The detection mechanism is based on an electrochemical binding of circulating VEGF to an immobilized VEGF aptamer; whereby binding of these two compounds modulates the threshold voltage of a novel circuit, changing the impedance (capacitance) of the circuit. This novel circuit is further characterized by an electrode coded with a p-Si substrate, enhancing the affinity between the VEGF molecules and the aptamer. An apparatus forming a fluid cell is configured so as to enable the flow for delivering VEGF samples onto the active surface of the chip. The device has an array of parallel capacitors which act as an integrated, individual counter-electrode, computational apparatus which employs the sensory output over the time domain so as to enable detection, reporting and formation of a homeostatic loop for VEGF measurements. Moreover, this detector is able to provide an accurately measured and quantifiable rate of change of the VEGF molecules in-vivo, providing real time feedback of this important biomarker which may be used to measure response of the tumor to delivered chemotherapeutic agents and biological response modifiers (BRMs) for the purpose of determining tumor burden. | 10-14-2010 |
20100260679 | METHOD AND APPARATUS FOR DETECTING AND REGULATING VASCULAR ENDOTHELIAL GROWTH FACTOR (VEGF) BY FORMING A HOMEOSTATIC LOOP EMPLOYING A HALF-ANTIBODY BIOSENSOR - A biosensor for detection of vascular endothelial growth factor (VEGF) hybridization uses an array of parallel capacitors to detect electrochemical binding of circulating VEGF to immobilized anti-VEGF monoclonal half-antibodies (a-VEGF mhAb). Binding of a-VEGF mhAb modulates the threshold voltage of a circuit, changing the impedance of the circuit. An electrode coated with a p-Si substrate enhances the affinity between the VEGF molecules. A fluid cell delivers VEGF samples onto the active surface of the chip. An array of parallel capacitors arranged in an interdigitated pattern detects the VEGF in the fluid. The detector provides an accurately measured and quantifiable rate of change of the VEGF molecules in vivo, providing real time feedback which is used to measure response of the tumor to delivered chemotherapeutic agents and biological response modifiers (BRMs) for the purpose of determining tumor burden and efficacy of the chemotherapy as part of a homeostatic loop for chemotherapy. | 10-14-2010 |
20090318903 | Magnetic Breather Pump and a Method for Treating a Brain Tumor Using the Same - A magnetically controlled pump is implanted into the brain of a patient and delivers a plurality of medicating agents at a controlled rate corresponding to the specific needs of the patient. The current invention comprises a flexible double walled pouch that is formed from two layers of polymer. The pouch is alternately expanded and contracting by magnetic solenoid. When contracted, a medicating agent is pushed out of the pouch through a plurality of needles. When the pouch is expanded, surrounding cerebral fluid is drawn into the space between the double walls of the pouch from which it is drawn through a catheter to an analyzer. Cerebral fluid drawn from the patient is analyzed. The operation of the apparatus and hence the treatment is remotely controlled based on these measurements and displayed through an external controller. | 12-24-2009 |
20090318902 | Magnetic Breather Pump and a Method for Treating a Brain Tumor Using the Same - A magnetically controlled pump is implanted into the brain of a patient and delivers a plurality of medicating agents at a controlled rate corresponding to the specific needs of the patient. The current invention comprises a flexible double walled pouch that is formed from two layers of polymer. The pouch is alternately expanded and contracting by magnetic solenoid. When contracted, a medicating agent is pushed out of the pouch through a plurality of needles. When the pouch is expanded, surrounding cerebral fluid is drawn into the space between the double walls of the pouch from which it is drawn through a catheter to an analyzer. Cerebral fluid drawn from the patient is analyzed. The operation of the apparatus and hence the treatment is remotely controlled based on these measurements and displayed through an external controller. | 12-24-2009 |
20090220563 | ARTIFICIAL TOOTH MEDICATING APPARATUS FOR CONTROLLING, REGULATING, SENSING, AND RELEASING MEDICAL AGENTS INTO THE BODY - An artificial tooth apparatus for dispensing medicating agents to the body through the patient's jaw bone comprising a mechanical movement and kinetic mainspring winder, a tourbillon mechanism, a electronic regulator, and a pump mechanism arranged and configured to allow any medicating agent to be dispensed from the apparatus in a highly controlled and regulated manner according to input received by the electronic regulator and the patient's specific pharmacokinetic and pharmacodynamic attributes. Multiple artificial teeth or a comprehensive bridge with several chambers may be used in cases where a polypharmaceutical approach is needed. | 09-03-2009 |