Method and apparatus for pulsed iontophoretic drug delivery
First Claim
1. In a method of pulsed iontophoretic drug therapy, of the type wherein periodic electrical pulses are generated and applied to drive an active electrode and an indifferent electrode of an iontophoresis device in contact with the skin of a living body to deliver drug therethrough, an improvement comprising:
- generating a train of said periodic pulses at a predetermined frequency, each pulse thereof extending over a first interval of time which defines a predetermined pulse width of said pulse, each pulse thereof being separated from a subsequent pulse by a second interval of time which defines a pulse interval which immediately follows said pulse width, the summation of said pulse width and immediately following pulse interval comprising a cycle period which is the reciprocal of said frequency, wherein each pulse has waveform characteristics, comprising;
a first pulse segment extending over a predetermined first portion of said pulse width and having a predetermined first average current amplitude; and
a second pulse segment extending over a subsequent second portion comprising the remainder of said pulse width and having a predetermined second average current amplitude;
wherein said first average current amplitude is greater than said second average current amplitude and said second average current amplitude is greater than an average current amplitude during the pulse interval; and
wherein said first portion comprises not more than 50% of said pulse width.
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Abstract
A method and apparatus are disclose for transdermal iontophoretic delivery of ionic species, such as a drug in ionic form, in which therapeutic, electrical pulses having controlled, distinctive, dual-segment waveform characteristics are applied which facilitate more efficient drug administration throughout each pulse. The therapeutic pulses are generated at a predetermined frequency and have a predetermined pulse width. A first pulse segment and a second pulse segment comprise each dual-segment, therapeutic pulse. The electrical attributes of each pulse segment, including amplitude and duration, are controlled to produce the desired, pulsed output waveform.
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Citations
16 Claims
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1. In a method of pulsed iontophoretic drug therapy, of the type wherein periodic electrical pulses are generated and applied to drive an active electrode and an indifferent electrode of an iontophoresis device in contact with the skin of a living body to deliver drug therethrough, an improvement comprising:
generating a train of said periodic pulses at a predetermined frequency, each pulse thereof extending over a first interval of time which defines a predetermined pulse width of said pulse, each pulse thereof being separated from a subsequent pulse by a second interval of time which defines a pulse interval which immediately follows said pulse width, the summation of said pulse width and immediately following pulse interval comprising a cycle period which is the reciprocal of said frequency, wherein each pulse has waveform characteristics, comprising; a first pulse segment extending over a predetermined first portion of said pulse width and having a predetermined first average current amplitude; and a second pulse segment extending over a subsequent second portion comprising the remainder of said pulse width and having a predetermined second average current amplitude; wherein said first average current amplitude is greater than said second average current amplitude and said second average current amplitude is greater than an average current amplitude during the pulse interval; and wherein said first portion comprises not more than 50% of said pulse width. - View Dependent Claims (2, 3, 4)
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5. In a method of pulsed iontophoretic drug therapy, of the type wherein periodic electrical pulses are generated and applied to drive an active electrode and an indifferent electrode of an iontophoresis device in contact with the skin of a living body to deliver drug therethrough, an improvement comprising:
generating a train of said periodic pulses at a predetermined frequency, each pulse thereof extending over a first interval of time which defines a predetermined pulse width of said pulse, each pulse thereof being separated from a subsequent pulse by a second interval of time which defines a pulse interval which immediately follows said pulse width, the following pulse interval comprising a cycle period which is the reciprocal of said frequency, wherein each pulse has waveform characteristics, comprising; a first pulse segment extending over a predetermined first portion of said pulse width and having a predetermined average voltage amplitude; and a second pulse segment extending over a subsequent second portion comprising the pulse width and having a predetermined average current amplitude greater than an average current amplitude during the pulse interval; wherein said first portion comprises not more than 50% of said pulse width. - View Dependent Claims (6, 7, 8)
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9. In an apparatus for applying pulsed iontophoretic drug therapy to a living body, of the type having an electric power source, an active electrode and an indifferent electrode adapted to contact the skin of a living body, and a pulse generator means coupled to said power source and said active electrode and said indifferent electrode, said pulse generator means for generating a train of periodic electrical pulses and for applying said train of pulses to drive said electrodes to conduct a net DC current through said skin, an improvement comprising:
a pulse generator means for generating a train of periodic pulses at a predetermined frequency, each pulse thereof extending over a first interval of time which defines a predetermined pulse width of said pulse, each pulse thereof being separated from a subsequent pulse by a second interval of time which defines a pulse interval which immediately follows said pulse width, the summation of said pulse width and immediately following pulse interval comprising a cycle period which is the reciprocal of said frequency, said pulse generator means further comprising; a first pulse segment generator means for generating a first pulse segment extending over a predetermined first portion of said pulse width and having a predetermined first average current amplitude; and a second pulse segment generator means for generating a second pulse segment extending over a subsequent second portion comprising the remainder of said pulse width and having a predetermined second average current amplitude a discharge means providing an average current amplitude during the pulse interval that is less than the second average current amplitude; wherein said first average current amplitude is greater than said second average current amplitude; and wherein said first portion comprises not more than 50% of said pulse width. - View Dependent Claims (10, 11, 12)
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13. In an apparatus for applying pulsed iontophoretic drug therapy to a living body, of the type having an electric power source, an active electrode and an indifferent electrode adapted to contact the skin of a living body, and a pulse generator means coupled to said power source and said active electrode and said indifferent electrode, said pulse generator means for generating a train of periodic electrical pulses and for applying said train of pulses to drive said electrodes to conduct a net DC current through said skin, an improvement comprising:
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a pulse generator means for generating a train of periodic pulses at a predetermined frequency, each pulse thereof extending over a first interval of time which defines a predetermined pulse width of said pulse, each pulse thereof being separated from a subsequent pulse by a second interval of time which defines a pulse interval which immediately follows said pulse width, the summation of said pulse width and immediately following pulse interval comprising a cycle period which is the reciprocal of said frequency, said pulse generator means further comprising; a first pulse segment generator means for generating a first pulse segment extending over a predetermined first portion of said pulse width and having a predetermined average voltage amplitude; and a second pulse segment generator means for generating a second pulse segment extending over a subsequent second portion comprising the remainder of said pulse width and having a predetermined average current amplitude greater than an average current amplitude during the pulse interval; wherein said first portion comprises not more than 50% of said pulse width. - View Dependent Claims (14, 15, 16)
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Specification