Formulation for electrically assisted delivery of lidocaine and epinephrine
First Claim
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1. An electrotransport delivery device for delivering an agent by electrotransport through a body surface, said device comprising:
- a pair of electrode assemblies, at least one of the assemblies comprising the agent to be delivered;
a source of electrical power having a cell voltage and adapted to be electrically connected to said pair of electrode assemblies;
a controller which regulates electrical power between the power source and the electrode assemblies, said controller comprising an electrotransport current generating circuit which provides an output current to said pair of electrode assemblies and an activation circuit capable of detecting resistance between said electrode assemblies and said activating circuit capable of controlling the output current of the current generating circuit;
said current generating circuit capable of generating pulsed and non-pulsed output current and capable of providing said output current at a voltage both at or below the cell voltage and at a voltage greater than the cell voltage; and
said activating circuit adapted to cause the current generating circuit to provide one or more pulses of output current at a voltage level greater than the cell voltage and said activating circuit adapted to detect resistance between said electrode assemblies any time during or after said pulses of output current, and when said detected resistance falls below a predetermined threshold value, said activating circuit causes the current generating circuit to generate a non-pulsed output current.
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Abstract
The invention relates to formulations for the electrically assisted transdermal delivery of lidocaine and epinephrine. The present invention further provides methods and devices for the electrically assisted delivery of local anesthetics, preferably lidocaine.
87 Citations
18 Claims
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1. An electrotransport delivery device for delivering an agent by electrotransport through a body surface, said device comprising:
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a pair of electrode assemblies, at least one of the assemblies comprising the agent to be delivered;
a source of electrical power having a cell voltage and adapted to be electrically connected to said pair of electrode assemblies;
a controller which regulates electrical power between the power source and the electrode assemblies, said controller comprising an electrotransport current generating circuit which provides an output current to said pair of electrode assemblies and an activation circuit capable of detecting resistance between said electrode assemblies and said activating circuit capable of controlling the output current of the current generating circuit;
said current generating circuit capable of generating pulsed and non-pulsed output current and capable of providing said output current at a voltage both at or below the cell voltage and at a voltage greater than the cell voltage; and
said activating circuit adapted to cause the current generating circuit to provide one or more pulses of output current at a voltage level greater than the cell voltage and said activating circuit adapted to detect resistance between said electrode assemblies any time during or after said pulses of output current, and when said detected resistance falls below a predetermined threshold value, said activating circuit causes the current generating circuit to generate a non-pulsed output current. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A method of delivering an agent by electrotransport through body surface comprising the steps of:
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applying a first electrode assembly to the body surface, said first electrode assembly comprising a reservoir containing the agent to be delivered;
applying a second electrode assembly to the body surface;
providing a battery as a source of electrical power, said battery having a cell voltage;
applying one or more pulsed voltages across the electrode assemblies, said pulsed voltage being greater than the cell voltage;
detecting resistance between said first and said second electrode assemblies any time during or after said pulses; and
applying non-pulsed current between said first and said second electrode assemblies when the detected resistance falls below a predetermined threshold. - View Dependent Claims (10, 11, 12, 13)
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14. A method of delivering an agent by electrotransport through a body surface comprising the steps of:
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providing a first and a second electrode assembly, at least one of the assemblies comprising the agent to be delivered;
providing a source of electrical power having a cell voltage and adapted to be electrically connected to said pair of electrode assemblies;
providing a controller which regulates electrical power between the power source and the electrode assemblies, said controller comprising an electrotransport current generating circuit which is capable of providing a pulsed and non-pulsed output current to said pair of electrode assemblies and an activation circuit capable of detecting resistance between said electrode assemblies and said activation circuit capable of controlling the output current of the current generating circuit;
applying the first electrode assembly to the body surface;
applying the second electrode assembly to the body surface;
causing the controller to apply one or more pulses of output current across the electrode assemblies, said output current pulses having a voltage greater than the cell voltage;
causing the activation circuit to detect resistance between said electrode assemblies any time during or after said pulses;
causing the controller to provide non-pulsed output current when the resistance detected by the activation circuit falls below a predetermined threshold. - View Dependent Claims (15, 16, 17, 18)
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Specification