(19) United States
`(12) Patent Application Publication (10) Pub. No.: US 2011/0172735 A1
`Johari
`(43) Pub. Date:
`Jul. 14, 2011
`
`US 20110172735A1
`
`(54) SYSTEMS AND METHODS FORTHERAPY
`
`(76) Inventor:
`
`Pooja Johari, San Diego, CA (US)
`
`(21) Appl. No.:
`
`12/981,576
`
`(22) Filed:
`
`Dec. 30, 2010
`Related U.S. Application Data
`(60) Provisional application No. 61/291,543, filed on Dec.
`31, 2009.
`
`Publication Classification
`
`(51) Int. Cl.
`A61N L/00
`
`(2006.01)
`
`
`
`(52) U.S. Cl. .......................................................... 6O7/48
`(57)
`ABSTRACT
`An electrotherapy stimulation device is provided. In an
`embodiment the electrotherapy stimulation device may
`include a cranial electrical stimulation module with a pulse
`generator system, a processor, and a memory. The processor
`can be configured to control the pulse generation SVStem and
`the NiOSA be configured E. E. CalSC
`the processor to cause the pulse generator to generate cranial
`stimulation waveforms. The electrotherapy stimulation
`device may also include a body stimulation module that is
`coupled to the cranial stimulation system and configured to
`operate in conjunction with it. One example body stimulation
`module is an electrical muscle stimulation module. Addition
`ally, the electrotherapy stimulation device may be used to
`stimulate a patient’s mind and body by following a protocol
`that can including predetermined e-yoga, power vector, clas
`sical sequence, dynamic rotation, micro-massage, and body
`CaC.
`
`Body
`
`Body Stimulation
`
`104
`
`Electrical Muscle Stimulation
`(EMS)
`
`Micro-current Therapy
`
`Laser Treatment
`
`Micro-massage
`
`Massage
`
`Acupuncture
`
`Other Bodywork
`
`LUMENIS EX1063
`Page 1
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`

`Patent Application Publication
`
`Jul. 14, 2011 Sheet 1 of 4
`
`US 2011/0172735A1
`
`
`
`Mind
`
`Cranial Electrical
`Stimulation (CES)
`
`102
`
`Body
`
`Body Stimulation
`104.
`
`F.G. 1
`
`Body
`
`Body Stimulation
`
`104
`
`Electrical Muscle Stimulation
`(EMS)
`Micro-current Therapy
`
`Laser Treatment
`
`Micro-massage
`
`Massage
`
`Acupuncture
`
`Other Bodywork
`
`FIG. 2
`
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`Patent Application Publication
`
`Jul. 14, 2011 Sheet 2 of 4
`
`US 2011/0172735A1
`
`
`
`300
`
`5000 Hz
`
`302
`
`5000 Hz
`
`f
`
`f
`
`3O4
`
`306
`
`FIG. 3
`
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`Patent Application Publication
`
`Jul. 14, 2011 Sheet 3 of 4
`
`US 2011/0172735 A1
`
`
`
`SO2
`
`)s.
`
`504
`
`Circuit
`
`Circuit
`
`Circuit
`
`Circuit
`
`FIG. 4
`
`FIG.5
`
`606
`
`
`
`N 608
`* N 604
`EMS 1 | EMS2 Eusales EMS 2 Eusal
`
`F.G. 6
`
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`Patent Application Publication
`
`Jul. 14, 2011 Sheet 4 of 4
`
`US 2011/0172735 A1
`
`4L ul-O O-N 4R
`
`3L O O 3R
`
`FIG. 7
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`US 2011/0172735 A1
`
`Jul. 14, 2011
`
`SYSTEMIS AND METHODS FOR THERAPY
`
`CROSS-REFERENCE TO RELATED
`APPLICATIONS
`Filed in pursuant on the provisional Appl. No.
`0001
`61/291,543
`
`FIELD OF THE INVENTION
`0002 This invention generally relates to systems and
`methods for medical therapy devices and more particularly,
`Some embodiments relate to systems and methods for elec
`trotherapy stimulation.
`
`BACKGROUND
`0003 Various forms of bio-electrical or other types of
`therapy are known throughout the medical community. These
`can include cranial electrotherapy, vacuum therapy, and ultra
`Sound therapy, as well as other types. The therapies may be
`used to relieve a number of patient health issues. For example,
`cranial electrotherapy has been used to potentially provide
`relief from insomnia, depression, anxiety, drug addiction, and
`cognitive dysfunction.
`0004. The therapy regimes have been used to treat various
`symptoms, conditions, and aliments. New treatment regimes
`and combinations of treatment regimes and protocols may be
`used to potentially provide different patient benefits or
`increased patient benefits such as muscle strengthening,
`decreased fat Volume, improved circulation, stress relief,
`relaxation, ATP predication, or increased energy.
`
`SUMMARY
`0005. An electrotherapy stimulation device is provided. In
`an embodiment the electrotherapy stimulation device may
`include a cranial electrical stimulation module with a pulse
`generator system, a processor, and a memory. The processor
`can be configured to control the pulse generation system and
`the memory can be configured to store instructions that cause
`the processor to cause the pulse generator to generate cranial
`stimulation waveforms.
`0006. In some embodiments, the electrotherapy stimula
`tion device may also include a body stimulation module that
`is coupled to the cranial stimulation system and configured to
`operate in conjunction with it. One example body stimulation
`module is an electrical muscle stimulation module. The elec
`trical muscle stimulation module can provide a variety of
`waveforms to stimulate the abdominal muscles, buttocks, or
`other muscle areas within a patient's body.
`0007. Other example body stimulation modules can
`include microcurrent therapy, laser treatment, micro-mas
`sage, massage, acupuncture, or other bodywork. Addition
`ally, multiple types of body work might be combined in a
`single dual therapy system, for example, electrical muscle
`stimulation and massage could be combined together in some
`example systems. Such a system might provide electrical
`stimulation to the body followed by a massage. Additionally,
`the body work might be provided by a module such as the
`electrical muscle stimulation module, a massage module,
`microcurrent module, etc. In some cases, however, a method
`may include bodywork performed by a person in conjunction
`with cranial electrical stimulation. It will be understood that,
`in Some examples, an electrical muscle stimulation module
`may also be able to provide microcurrent therapy.
`
`0008. In some embodiments the electrotherapy stimula
`tion device may be used to stimulate a patient’s mind and
`body by following a protocol that can include predetermined
`e-yoga, power vector, classical sequence, dynamic rotation,
`micromassage, and body care. Such a sequence may include
`multiple sessions with different treatments or combinations
`of treatments performed as the treatments progress.
`
`BRIEF DESCRIPTION OF THE DRAWINGS
`0009. A more particular description of the present disclo
`sure will be rendered by reference to specific embodiments
`thereof that are illustrated in the appended drawings. It is
`appreciated that these drawings depict only typical embodi
`ments of the invention and are therefore not to be considered
`limiting of its scope. Example embodiments of the invention
`will be described and explained with additional specificity
`and detail through the use of the accompanying drawings in
`which:
`0010 FIG. 1 is a block diagram illustrating an example
`dual therapy system in accordance with an embodiment;
`0011
`FIG. 2 is a block diagram illustrating an example
`body stimulation module inaccordance with the embodiment
`illustrated in FIG. 1;
`0012 FIG. 3 is a graph illustrating an example power
`vector waveform in accordance with various embodiments of
`the systems and methods described herein;
`0013 FIGS. 4 and 5 are diagrams illustrating stimulation
`patterns in accordance with various embodiments of the sys
`tems and methods described herein;
`0014 FIG. 6 is a diagram illustrating a series of stimula
`tions in a treatment waveform in accordance with the systems
`and methods described herein; and
`0015 FIG. 7 is a diagram illustrating placement of elec
`trodes and patterns of signal movements between electrodes
`in accordance with the systems and methods described
`herein.
`
`DETAILED DESCRIPTION OF SELECTED
`EMBODIMENTS
`0016 Reference will now be made to figures wherein like
`structures will be provided with like reference designations. It
`is understood that the drawings are diagrammatic and sche
`matic representations of exemplary embodiments of the
`present invention, and are neither limiting nor necessarily
`drawn to scale. The words “including,” “has and “having.”
`as used herein, including the claims, shall have the same
`meaning as the word “comprising.”
`0017 FIG. 1 is a block diagram illustrating an example
`dual therapy system 100 in accordance with one embodiment
`of the systems and methods described herein. Dual therapy
`system 100 includes a mind stimulation portion and a body
`stimulation portion. The mind stimulation portion can be a
`cranial electrical stimulation (CES) module 102.
`0018 CES module 102 may provide treatment be trans
`mitting Small electrical current pulses across a patient's head.
`In some embodiments, the current used in conjunction with
`CES may be between 0 and 3 m.A. Generally CES might
`Sometimes be used for anxiety, depression, insomnia, drug
`addiction, or other patient issues. CES is also sometimes
`referred to as “electro-sleep therapy,” “neuro-electric
`therapy,” or “transcranial electrotherapy.” The CES module
`102 can be used to perform “e-Yoga. E-Yoga involves pass
`ing microcurrents of electricity across the brain.
`
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`US 2011/0172735 A1
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`0019. The CES module can be used in conjunction with
`body stimulation provided by a body stimulation module 104.
`In the illustrated embodiment of FIG. 1 body stimulation is
`provided to the patient by the body stimulation module 104 as
`part of a larger dual therapy system 100. It will be understood
`that, in some embodiments, however, body stimulation may
`be provided by a separate stand-alone system. In other words,
`some embodiments of the systems and methods described
`herein relate to stand-alone body stimulation modules, wave
`forms for body stimulation modules, or both, while other
`embodiments of the systems and methods described herein
`relate to dual therapy systems. Generally, features and wave
`forms of body stimulation module 104 can be applied to
`stand-alone body stimulation modules. Additionally, in some
`embodiments, non-device based body stimulation can be
`used. For example, a massage might be performed by a mas
`sage module or a person can perform a massage.
`0020 FIG. 2 is a block diagram illustrating an example
`body stimulation module inaccordance with the embodiment
`illustrated in FIG.1. Body stimulation can include, but is not
`limited to, electrical muscle stimulation (EMS), microcurrent
`therapy, laser treatment, micro-massage, massage, acupunc
`ture, or other bodywork. As illustrated in FIG. 1, various
`embodiments of the systems and methods described herein
`may provide the body stimulation using a module within the
`dual therapy system 100. For example, an EMS module may
`be combined with a CES module to provide multiple types of
`therapy to a patient. Similarly, other modules such as
`Microcurrent modules, laser treatment modules, micro-mas
`Sager modules, massage modules, automated acupuncture
`modules, or other automated bodywork modules may be
`combined with CES. Additionally, multiple body stimulation
`modules 104 might be combined with one or more CES
`modules 102. For example, an EMS module and a laser treat
`ment module might both be combined with a CES module
`102.
`0021. As discussed above, while some embodiments of
`the systems and methods described herein may combine CES
`with device-based treatments, other embodiments may use a
`CES device in combination with treatments that can some
`times be non-device based treatments, such as massage, acu
`puncture, or other body work.
`0022. Such a device may provide various EMS waveforms
`Such as the waveforms discussed herein. In some embodi
`ments of the systems and methods described herein these
`waveforms, generated by the EMS module may to provide
`lymphatic drainage or body contouring for a patient. Treat
`ments for other aliments, symptoms, or patient issues may
`also be possible using a dual therapy system 100, standalone
`body stimulation, or the waveforms described herein.
`0023 The waveforms can include a power vector wave
`form, a sequential stimulator waveform, dynamic rotation,
`and micromassage. An example power vector waveform that
`can be used in conjunction with an EMS module, either
`within a system 100 or in a standalone system are illustrated
`in FIG. 3. In one embodiment a power vector wave form may
`be generated using two medium-frequency, sinusoidal signals
`300 and 302 that can intersect deep within the tissues of a
`patient to generate a third signal 304. The third signal is a
`combination of the two signals.
`0024 For example, in one embodiment the first signal 300
`may be generated at 5000 Hz. The second signal 302 can
`sweep between 5000Hz to 5299 Hz. In the time domain graph
`of FIG. 3 the first signal 300 is at 5000 Hz and the second
`
`signal 302 is at 5299 Hz, the high end of the frequency sweep.
`The frequency domain graphs illustrate the first signal 300 at
`5000 Hz, the second signal 302 sweeping between 5000 Hz
`and 5299 HZas indicated at reference character 302. Note that
`the figures are not to Scale.
`0025 Signals 300 and 302 can combine to generate a third
`signal 304, which varies between dc (0 Hz) and 288 Hz. (A
`high frequency signal 306 at approximately 10 kHz, which
`also varies up to 10.288 Hz may also be generated as a result
`of the combination. The higher frequency signal might not
`provide the desired therapy for the patient, however, because
`the higher frequency signal may not propagate well through
`the patient's body.)
`0026. In one embodiment, Sweeping can entail increasing
`frequency from 5000 Hz to 5299 Hz and the starting the
`sweep over at 5000 Hz. In another embodiment, the system
`may sweep up from 5000 Hz to 5299 HZ and then sweep down
`from 5299 Hz to 5000 Hz. Yet another embodiment may
`include both types of Sweeps or other possible Sweeping
`patterns.
`0027. It will be understood that other signal frequencies
`might also be used in dual therapy systems or EMS systems.
`For example a signal from approximately 2500 Hz to 6000Hz
`might be used for the first and second signals, with the second
`signal varying by 0 to 288 Hz or more. At the lower frequency
`end (approximately 2500 HZ) the signals may increase
`muscle bulking, which is not desired in some embodiments.
`At the higher frequency end (approximately 6000 Hz) the
`signals may not propagate through the body as desired. It will
`be understood, however, that the systems and methods
`described herein might be combined with higher or lower
`frequencies than these described based on other desired
`results, e.g., muscle bulking; different body types which
`might propagate signals differently, etc.
`0028. Other frequency variations may also be used,
`including a second signal that varies by an amount greater
`than 288 Hz, a second signal that combines with the first to
`generate a third signal that does not include a dc (0 HZ com
`ponent), or other variations. Additionally, in some embodi
`ments, both the first and second signals may be varied to
`generate a third signal.
`0029. The illustrated embodiment of the power vector can
`include an IFC with an inbuilt 100% scan at 5000 Hz. The
`sweep frequency can be from 0 to 299 HZ, 1 to 299 Hz, or
`other Sweep frequencies. Additionally, the Sweep time can be
`10 second up from 0 to 299 Hz and 10 seconds down 299 HZ
`to 0 Hz. The output may be provided to the patient using one
`or more pairs of electrodes. In one embodiment twelve elec
`trodes (six pairs) might be used. These electrodes can be used
`for treatment to various body parts, including, for example the
`waistline, buttocks, or thighs.
`0030 The signals can cause small currents to flow within
`the tissues of the patient. The current may radiate from deep
`within the tissues to the surface of the patient's body stimu
`lating the body and generally generating torsional move
`ments within the patient's muscles. These movements may
`stimulate fat cells and initiate a decrease in fat Volume.
`0031. In one embodiment, the area of maximum stimula
`tion may form a “four-leaf clover shape. As the current is
`increased this four leaf clover may expand to envelop a larger
`and larger area. Example stimulation patterns are illustrated
`in FIGS. 4 and 5.
`0032 Circuit I is formed between two electrodes 502 and
`504 placed on a patient's body. These electrodes 502 and 504
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`
`are energized such that current flows between them. Simi
`larly, circuit II is formed between two electrodes 506 and 508
`placed on a patient's body such that current flows between
`them when the electrodes are energized. The pattern illus
`trated in FIG. 4 may be generated using the same or a similar
`electrode patter at lower signal intensity.
`0033 FIG. 6 is a diagram illustrating an example series of
`stimulations in a treatment waveform in accordance with the
`systems and methods described herein. A first series of stimu
`lations 602 may include three treatment sequences, EMS1,
`EMS2, and EMS3.These sequences 602 can be followed by a
`rest period 604 and then repeated 606 and followed by
`another rest period 608. The sequences EMS1, EMS2, and
`EMS3; followed by the rest period can be repeated according
`to a treatment protocol; however, it will be understood by
`those of skill in the art that other sequences may used.
`0034. In one embodiment the total sequence time can be 2
`minutes 30 seconds with a 30 second rest period after the
`sequence. Accordingly, each sequence, EMS1, EMS2, and
`EMS3, may be 50 seconds long. In other embodiments, how
`ever, the length of each sequence EMS1, EMS2, and EMS3
`are not required to be equal.
`0035. The sequences may be applied to a patient using
`multiple electrodes, e.g., 3 outputs with 12 electrodes. These
`electrodes may be attached to a patient to provide stimulation
`to a patient's abs, waistline, buttocks, or thighs; as well as
`other locations.
`0036 Sequence EMS1 can be a symmetrical biphasic
`square wave with a pulse width of 200 microseconds, a pulse
`rate of 100 Hz, and a sweep frequency of 40 to 100 Hz. The
`Sweep time may be a two second Sweep up increasing in
`frequency followed by a two second Sweep decreasing in
`frequency. Sequence EMS2 can be a symmetrical biphasic
`square wave with a pulse width of 350 microseconds and the
`pulse rate of 30 Hz. Sequence EMS3 can be a symmetrical
`biphasic square wave with a pulse width of 350 microseconds
`and a pulse rate of 100 Hz.
`0037. It will be understood that while biphasic square
`waves are discussed with respect to EMS1, EMS2, and
`EMS3, other embodiment may include a square wave or other
`signal with a dc offset. Accordingly, the signal may have a
`Voltage that changes between 0 Volts and a positive Voltage V
`or between 0 volts and a negative voltage -V. Alternatively,
`the signal may be dc offset Such that the signal has a Voltage
`that changes between V1 volts and V2 volts, where V1 may be
`negative, V2 may be positive, and the magnitudes of each
`might not be equal. Depending on the Voltage of the dc offset,
`however, V1 and V2 may both be positive or both be negative.
`0038 Contractions are times when a signal is applied.
`Relaxations are times when no signal is applied. Contractions
`and relaxations can occur within a sequence. The relaxations
`within a sequence may be in addition to a “rest' at the end of
`the EMS1, EMS2, and EMS3 series. Each of the EMS1,
`EMS2, and EMS3 sequences can include a contraction time
`of 6 seconds followed by a relaxation time of four seconds.
`Additionally, a ramp up of 4 seconds and a ramp down of four
`seconds may be included between relaxation and contraction
`times.
`0039 FIG. 7 is a diagram illustrating placement of elec
`trodes and patterns of signal movements between electrodes
`in accordance with the systems and methods described
`herein.
`0040. As illustrated in FIG. 7, dynamic rotation can be
`performed, for example, on a patient's abdominal region. The
`
`left and right sides, which may be from the perspective of the
`person performing the treatment or the person being treated,
`can be operated independently from each other. For example,
`left electrodes interact with other left electrodes, while right
`electrodes interact with right electrodes. It will be under
`stood, however, that some leakage of current flow might occur
`between left and right and that in other embodiments, elec
`trodes on opposite sides might interact with each other.
`(Leakage currents might occur with respect to other wave
`forms as well.)
`0041. One example treatment may include four
`sequences. The first sequence can provide stimulation
`between 1L and 2L and stimulation between 1R and 2R.
`These stimulations can occur at the same time. The second
`sequence can provide stimulation between 3L and 4L and
`stimulation between 3R and 4R. These stimulations can also
`occur at the same time.
`0042. The third and fourth sequences can provide stimu
`lation between multiple electrodes on the same side at the
`same time. For example, in the third sequence, stimulation
`can be provided between 1L and 3L while stimulation is also
`being provided between 2L and 4L. The third sequence can
`also include stimulation between 1R and 3R at the same time
`as stimulation is being provided between 2R and 4R. Addi
`tionally, all of these third sequence stimulations may occurat
`the same time. The fourth sequence can include stimulation
`between 1L and 2L while stimulation is also being provided
`between 3L and 4L. The fourth sequence can also include
`stimulation between 1R and 2R at the same time as stimula
`tion is being provided between 3R and 4R. Additionally,
`similarly to the third sequence, all of these fourth sequence
`stimulations may occur at the same time.
`0043. In some embodiments each sequence can be seven
`seconds long. A rest period of five seconds can be included
`after sequence 4. Accordingly, the series of sequences may be
`32 seconds long. The dynamic rotation series can include
`multiple four sequence series and rest periods.
`0044. In some embodiments, the dynamic rotation series
`can use a “premod” signal. The premod signal can be 5000Hz
`with a sweep frequency from 40 to 80 Hz, and a sweep time of
`two seconds increasing from 40Hz to 80 Hz and two seconds
`decreasing from 40 Hz to 80 Hz. Various embodiments use
`two outputs that drive a total of eight electrodes. Some
`embodiments may use other Sweep frequencies, such as 40 to
`5000 Hz or preferably 50 to 100 Hz.
`0045. After the various other treatments described above,
`cool down and body care treatments can occur. These treat
`ments can include microcurrent therapy, skin tightening treat
`ments, a rinse to remove the seaweed gel, hydration treat
`ments, etc. Additionally, aftertreatment measurements,
`photos, or both may be taken. (These may be compared to
`pretreatment measurements and photos, if they were taken.)
`0046 Microcurrent therapy can include a symmetrical
`biphasic square wave with a pulse width for a 50% duty cycle.
`The frequency of the square wave can be swept between 20
`HZ and 150 Hz with sweep times of 10 seconds increasing
`from 20 Hz to 150 Hz and 10 seconds decreasing from 150Hz
`down to 20 Hz. It will be understood that, as discussed above,
`while a biphasic square wave is discussed in the example,
`other embodiment may include a square wave or other signal
`with a dc offset. Accordingly, the signal may have a Voltage
`that changes between 0 volts and a positive voltage V or 0
`Volts and a negative Voltage -V. Alternatively, the signal may
`be dc offset Such that the signal may have a Voltage that
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`changes between V1 volts and V2 volts, where V1 may be
`negative, V2 may be positive, and the magnitudes of each
`might not be equal. Depending on the Voltage of the dc offset,
`however, V1 and V2 may both be positive or both be negative.
`0047. Some embodiments of the systems and methods
`described herein may a standard protocol that is a minimum
`of six treatments of approximately 60 minutes each. It will be
`understood, however, that other treatment protocols may be
`used. These other protocols may include longer or shorter
`treatment time, a fewer or greater number of total treatments,
`or some combination of these. In some cases the systems that
`implement the treatment protocol may operate with minimal
`intervention, e.g., for initial set up, periodic monitoring, etc.
`0048. In one example, six treatment sessions are used. The
`protocol has a first session which can include e-yoga treat
`ment, power vector treatment, micro-massage treatment, and
`body care. A second session can include e-yoga treatment,
`classical sequence treatment, micro-massage treatment, and
`body care. A third session can include e-yoga treatment,
`classical sequence treatment, micro-massage treatment, and
`body care. Sessions fourthrough six can include e-yoga treat
`ment, dynamic rotation treatment, micro-massage treatment,
`and body care. Other example protocols may include six to
`ten sessions or more. It will also be understood that other
`protocols may also be used with the systems and methods
`described herein. These other protocols may include different
`combinations of eyoga treatment, a power vector treatment,
`classical sequence treatment, dynamic rotation treatment,
`micro-massage treatment, and body care
`0049 Embodiments of the invention may be embodied in
`other specific forms without departing from the spirit of the
`present disclosure. The described embodiments are to be
`considered in all respects only as illustrative, not restrictive.
`The scope of the embodiments is, therefore, indicated by the
`appended claims rather than by the foregoing description. All
`changes that come within the meaning and range of equiva
`lency of the claims are to be embraced within their scope.
`What is claimed is:
`1. An electrotherapy stimulation device comprising:
`a cranial electrical stimulation module including:
`a pulse generator System,
`a processor configured to control the pulse generation sys
`tem, and
`a memory configured to store instructions that cause the
`processor to cause the pulse generator to generate cra
`nial stimulation waveforms;
`
`a body stimulation module, coupled to the cranial stimula
`tion system and configured to operate in conjunction
`with the cranial stimulation system.
`2. The electrotherapy stimulation device of claim 1,
`wherein the body stimulation module comprises an electrical
`muscle stimulation module.
`3. A method of mind and body stimulation comprising:
`connecting an electrotherapy stimulation device to a
`patient, the electrotherapy device comprising:
`a cranial electrical stimulation module including:
`a pulse generator system,
`a processor configured to control the pulse generation sys
`tem, and
`a memory configured to store instructions that cause the
`processor to cause the pulse generator to generate cra
`nial stimulation waveforms; and
`a body stimulation module, coupled to the cranial stimula
`tion system and configured to operate in conjunction
`with the cranial stimulation system, the body stimula
`tion module comprising an electrical muscle stimulation
`module;
`stimulating the patient's mind using the mind stimulation
`module; and
`stimulating the patient's body using the electrical muscle
`stimulation module, wherein the mind and body stimu
`lation follow a protocol including predetermined
`e-yoga, power vector, classical sequence, dynamic rota
`tion, micro-massage, and body care.
`4. A method of mind and body stimulation comprising:
`connecting an electrotherapy stimulation device to a
`patient, the electrotherapy device comprising:
`a cranial electrical stimulation module including:
`a pulse generator system,
`a processor configured to control the pulse generation sys
`tem, and
`a memory configured to store instructions that cause the
`processor to cause the pulse generator to generate cra
`nial stimulation waveforms;
`stimulating the patient's mind using the mind stimulation
`module; and
`stimulating the patient's body using non-electrical muscle
`stimulation.
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