Patent application number | Description | Published |
20080253935 | METHODS OF MANIPULATING SMALL AMOUNTS OF SOLIDS - The invention relates to methods and apparatuses for manipulating small amounts of solids. Specific embodiments of the invention are particularly suited for the automated transfer of small amounts of solids. In one embodiment, a uniform powder bed is lightly compressed into plugs of powder and dispensed. In another embodiment, the solid is placed in a liquid carrier to form a slurry, dispensed, and the liquid component is subsequently removed. In yet another embodiment, solids are manipulated using adhesive surfaces. | 10-16-2008 |
20090028824 | SYSTEMS AND METHODS FOR DELIVERING DRUGS - A patch pump device generally includes at least one fluid source, a fluid communicator, and an electrochemical actuator. The fluid communicator is in fluid communication with the fluid source. The electrochemical actuator is operative to cause fluid to be delivered from the fluid source into the fluid communicator. | 01-29-2009 |
20110098676 | SYSTEMS AND METHODS FOR DELIVERING DRUGS - A patch pump device generally includes at least one fluid source, a fluid communicator, and an electrochemical actuator. The fluid communicator is in fluid communication with the fluid source. The electrochemical actuator is operative to cause fluid to be delivered from the fluid source into the fluid communicator. | 04-28-2011 |
20110275995 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT USING MECHANICAL ADVANTAGE - Devices and methods for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir configured to contain a fluid, a first actuator coupled to the reservoir, a second actuator coupled to the first actuator, and an adaptor at least partially disposed between the first actuator and the second actuator. The first actuator and the second actuator are configured to collectively exert a force on the reservoir such that at least a portion of the fluid within the reservoir is communicated out of the reservoir. The adaptor is configured to couple the first actuator and the second actuator. | 11-10-2011 |
20110275996 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT USING MECHANICAL ADVANTAGE - Devices and methods for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir containing a fluid and a fluid communicator in fluid communication with the reservoir. An actuator is coupled to the reservoir and configured to displace and exert a force on the reservoir for a time period upon actuation such that fluid within the reservoir is communicated through the fluid communicator. An amplification mechanism is coupled to the actuator. The amplification mechanism is configured to increase at least one of the force, the displacement, or the time period the force is exerted by the actuator on the reservoir. In some embodiments, a transfer structure is disposed between the amplification mechanism and the reservoir. The transfer structure is configured to contact the reservoir upon actuation of the actuator. In some embodiments, the actuator can be an electrochemical actuator. | 11-10-2011 |
20110275997 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - Devices, methods, and kits for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, an apparatus comprises a reservoir for containing a fluid, a first actuator, a transfer structure, and a second actuator. The first actuator has a first configuration and a second configuration and is configured to exert a first force on the reservoir when moved from its first configuration to its second configuration such that a first volume of fluid within the reservoir is communicated out of the fluid reservoir. The transfer structure is disposed between the first actuator and the reservoir and has a surface configured to engage the reservoir such that the first force exerted by the first actuator is distributed across a surface of the reservoir engaged by the transfer structure. The second actuator has a first configuration and a second configuration and is configured to exert a second force on the reservoir when the second actuator is moved from its first configuration to its second configuration such that a second volume of fluid within the reservoir is communication out of the fluid reservoir. | 11-10-2011 |
20110275998 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - Devices and methods for delivering a fluid to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir for containing a fluid and a fluid communicator in fluid communication with the reservoir. An electrochemical actuator is coupled to the reservoir and configured to exert a force on the reservoir upon actuation such that fluid within the reservoir is communicated through the fluid communicator. The actuator includes a first end that is constrained and a second end that is not constrained. The actuator is configured to bend at a location along a length of the actuator when actuated such that the second end of the actuator is displaced in a direction toward the fluid reservoir. The actuator can be an electrochemical actuator. The apparatus can further include a transfer structure disposed between the actuator and the reservoir configured to contact the reservoir upon actuation of the actuator. | 11-10-2011 |
20120175998 | ELECTROCHEMICAL ACTUATORS - Devices and methods for providing electrochemical actuation are described herein. In one embodiment, an actuator device includes an electrochemical cell including a negative electrode and a positive electrode At least a portion of the negative electrode is formed with a material formulated to at least one of intercalate, de-intercalate, alloy with, oxidize, reduce, or plate with a first portion of the positive electrode to an extent different than with a second portion of the positive electrode such that a differential strain is imparted between the first portion and the second portion of the positive electrode and such that at least a portion of the electrochemical cell is displaced. The electrochemical cell includes a portion that is pre-bent along an axis of the electrochemical cell to define a fold axis and the displacement of the at least a portion of the electrochemical cell is maximized along the fold axis. | 07-12-2012 |
20130331812 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - Devices, methods, and kits for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, an apparatus comprises a reservoir for containing a fluid, a first actuator, a transfer structure, and a second actuator. The first actuator has a first configuration and a second configuration and is configured to exert a first force on the reservoir when moved from its first configuration to its second configuration such that a first volume of fluid within the reservoir is communicated out of the fluid reservoir. The transfer structure is disposed between the first actuator and the reservoir and has a surface configured to engage the reservoir such that the first force exerted by the first actuator is distributed across a surface of the reservoir engaged by the transfer structure. The second actuator has a first configuration and a second configuration and is configured to exert a second force on the reservoir when the second actuator is moved from its first configuration to its second configuration such that a second volume of fluid within the reservoir is communication out of the fluid reservoir. | 12-12-2013 |
20140135699 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - A delivery system includes a reservoir configured to contain a fluid and a fluid communicator configured to be placed in fluid communication with the reservoir. A first actuator is coupled to the reservoir and configured to exert a first force on the reservoir upon actuation. A transfer structure disposed between the first actuator and the reservoir is configured to engage the reservoir distribute the first force across a surface of the reservoir. A second actuator is disposed and oriented so that when the first actuator is displaced toward the fluid reservoir, the second actuator moves from a first configuration to a second configuration and exerts a second force on the transfer structure. The combination of the first and second forces collectively urge the transfer structure towards the reservoir such that fluid within the reservoir is communicated through the fluid communicator. | 05-15-2014 |
20140135700 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT USING A CLAMPED ACTUATOR - A delivery system includes a reservoir, a fluid communicator, and an actuator. The reservoir is configured to contain a fluid and is in fluid communication with the fluid communicator. The actuator includes an unconstrained first end portion, an unconstrained second end portion, and a constrained medial portion therebetween. When the actuator is actuated the medial portion is configured to bend along a bend axis to produce a displacement of the first end portion and the second end portion relative to the medial portion. The bending of the actuator is configured to displace the actuator towards the reservoir to exert a force on the reservoir such that a fluid disposed within the reservoir is communicated through the fluid communicator. | 05-15-2014 |
20140343495 | SYSTEMS AND METHODS FOR DELIVERING DRUGS - A patch pump device generally includes at least one fluid source, a fluid communicator, and an electrochemical actuator. The fluid communicator is in fluid communication with the fluid source. The electrochemical actuator is operative to cause fluid to be delivered from the fluid source into the fluid communicator. | 11-20-2014 |
20140346197 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT USING MECHANICAL ADVANTAGE - Devices and methods for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir configured to contain a fluid, a first actuator coupled to the reservoir, a second actuator coupled to the first actuator, and an adaptor at least partially disposed between the first actuator and the second actuator. The first actuator and the second actuator are configured to collectively exert a force on the reservoir such that at least a portion of the fluid within the reservoir is communicated out of the reservoir. The adaptor is configured to couple the first actuator and the second actuator. | 11-27-2014 |
20140350467 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT USING MECHANICAL ADVANTAGE - Devices and methods for delivering a therapeutic agent to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir containing a fluid and a fluid communicator in fluid communication with the reservoir. An actuator is coupled to the reservoir and configured to displace and exert a force on the reservoir for a time period upon actuation such that fluid within the reservoir is communicated through the fluid communicator. An amplification mechanism is coupled to the actuator. The amplification mechanism is configured to increase at least one of the force, the displacement, or the time period the force is exerted by the actuator on the reservoir. In some embodiments, a transfer structure is disposed between the amplification mechanism and the reservoir. The transfer structure is configured to contact the reservoir upon actuation of the actuator. In some embodiments, the actuator can be an electrochemical actuator. | 11-27-2014 |
20140350470 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - Devices and methods for delivering a fluid to a patient are disclosed herein. In one embodiment, a delivery system includes a reservoir for containing a fluid and a fluid communicator in fluid communication with the reservoir. An electrochemical actuator is coupled to the reservoir and configured to exert a force on the reservoir upon actuation such that fluid within the reservoir is communicated through the fluid communicator. The actuator includes a first end that is constrained and a second end that is not constrained. The actuator is configured to bend at a location along a length of the actuator when actuated such that the second end of the actuator is displaced in a direction toward the fluid reservoir. The actuator can be an electrochemical actuator. The apparatus can further include a transfer structure disposed between the actuator and the reservoir configured to contact the reservoir upon actuation of the actuator. | 11-27-2014 |
20140350528 | SYSTEMS AND METHODS FOR DELIVERING A THERAPEUTIC AGENT - Devices and methods for delivering a fluid to a patient are disclosed herein. In one embodiment, a method includes providing a wearable delivery device that includes an electrochemical actuator and a reservoir containing a fluid with viscosity greater than 15 cP. The electrochemical actuator can be actuated such that the actuator exerts sufficient force on the reservoir to cause the fluid within the reservoir to be communicated to the patient's body over a time period. In some embodiments, the time period is two hours. In one embodiment, a delivery system includes a reservoir containing a fluid having a viscosity greater than 15 cP and a fluid communicator in fluid communication with the reservoir. An electrochemical actuator is coupled to the reservoir and configured to exert a sufficient force on the reservoir for a time period upon actuation such that the fluid within the reservoir is communicated through the fluid communicator. | 11-27-2014 |