BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`Amendments to the Claims
`
`This listing of claims will replace all prior versions, andlistings, of claims in the application.
`
`1.
`
`(Currently Amended) A treatment device for toning at least one muscle of a patient, the
`
`treatment device comprising:
`
`a first applicator comprising a first magnetic field generating coil, wherein the first magnetic
`
`field generating coil hasa first inductance;
`
`a second applicator comprising a second magnetic field generating coil, wherein the second
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`magnetic field generating coil has a second inductance,
`
`wherein the first inductance 1s equal to the second inductance, and
`
`wherein each ofthe first magnetic field generating coil and the second magnetic field
`
`generating coil is configured to be cooled;
`
`a first switch;
`
`a first capacitor configured to be dischargedto the first magnetic field generating coil, via
`
`the first switch, so that the first magnetic field generating coil generates a first time-varying
`
`magnetic field,
`
`wherein the first time-varying magnetic field has a magnetic flux density in a range
`
`of 0.1 Tesla to 7 Tesla and a maximal value of a magnetic flux density derivative in a range of 0.3
`
`kT/s to 800 kT/s,
`
`wherein the first time-varying magnetic field comprises a plurality of pulses of the
`
`first time-varying magnetic field, wherein the pulses comprise biphasic impulsesofthe first time-
`
`varying magnetic field,
`
`wherein the plurality of pulses of the first time-varying magnetic field comprises a
`
`first plurality of pulses with a first repetition rate, a second plurality of pulses with a second
`
`repetition rate, and a third plurality of pulses with a third repetition rate,
`
`wherein the second repetition rate is higher than the first repetition rate,
`
`wherein the third repetition rate differs from each ofthe first repetition rate
`
`and the secondrepetition rate[[;]], and
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein the first plurality of pulses comprisesa first envelope, wherein an
`
`amplitude of the magnetic flux density of subsequent pulses increases within the first envelope;
`
`a second switch;
`
`a second capacitor configured to be discharged to the second magnetic field generating coil,
`
`via the second switch, so that the second magnetic field generating coil generates a second time-
`
`varying magnetic field,
`
`wherein the second time-varying magnetic field comprises a plurality of pulses of the
`
`second time-varying magnetic field, wherein the pulses comprise biphasic impulses of the second
`
`time-varying magnetic field, [[and]]
`
`wherein the second time-varying magnetic field has a magnetic flux density ina
`
`range of 0.1 Tesla to 7 Tesla and a maximal value of a magnetic flux density derivative in a range of
`
`0.3 kT/s to 800 kT/s[[;]].
`
`wherein the plurality of pulses of the second time-varying magnetic field comprises a
`
`fourth plurality of pulses with the first repetition rate, a fifth plurality of pulses with the second
`
`repetition rate, and a sixth plurality of pulses with the third repetition rate,_and
`
`wherein the fourth plurality of pulses comprises a second envelope, wherein
`
`an amplitude of the magnetic flux density of subsequent pulses increases within the second
`
`envelope;_and
`
`a belt configured to couple both the first applicator and the second applicator to a body
`
`region, such that the first applicator is coupled to a first area of the body region and the second
`
`applicator is coupled to a second area of the body region, wherein thefirst area differs from the
`
`second area, andwherein the body region comprisesat least one of a buttock or an abdomen,
`
`wherein the first plurality of pulses are applied simultaneously with the fourth
`
`plurality of pulses,
`
`wherein the second plurality of pulses are applied simultaneously with the fifth
`
`plurality of pulses,
`
`wherein the third plurality of pulses are applied simultaneously with the sixth
`
`plurality of pulses,
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`Atty. Dkt. No. 4387.00400HO
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`

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`BTL MEDICAL SOLUTIONSAS.
`Application No. 16/915,640
`
`wherein the first time-varying magnetic field causes a muscle contraction of at least
`
`onefirst muscle such that the at least one first muscle is toned, and
`
`wherein the second time-varying magnetic field causes a muscle contraction of at
`
`least one second muscle such that the at least one second muscle is toned.
`
`2.
`
`(Previously Presented) The treatment device of claim 1, wherein the first magnetic field
`
`generating coil is configured to be positioned proximate to the body region of the patient
`
`independently of the second magnetic field generating coil.
`
`3.
`
`(Currently Amended) The treatment device of claim 2, wherein the first envelopelastsa first
`
`time period and the second envelope lasts a second time period, wherein thefirst time periodis
`
`equal to the second time period,
`
`wherein the first plurality of pulses further comprises a third envelope, wherein an amplitude
`
`of the magnetic flux density of subsequent pulses is constant within the third envelope,
`
`wherein the third envelope lasts a third time period in a range of 2 seconds to 5
`
`seconds, and
`
`wherein the third time period is longer than the first time period[[;]],
`
`wherein the fourth plurality of pulses further comprises a fourth envelope, wherein an
`
`amplitude of the magnetic flux density of subsequent pulses is constant within the fourth envelope,
`
`wherein the fourth envelope lasts a fourth time period in a range of 2 secondsto 5
`
`seconds, and
`
`wherein the fourth time period is longer than the second time period[[;]],and
`
`wherein each ofthe first applicator and the second applicator is moveable along thebelt.
`
`4.
`
`(Currently Amended) The treatment device of claim 1, further comprising a touchscreen
`
`configured to adjust at least one treatment parameter,
`
`wherein the treatment parameter comprisesat least one of a magnetic flux density, a
`
`repetition rate, and a treatment duration,
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein the biphasic impulses are sinusoidal[[;]],
`
`wherein each ofthe first applicator and the second applicator is configured to be moveable
`
`along thebelt, [[and]]
`
`wherein each ofthe first applicator and the second applicator is configured to be positioned
`
`independently[[;]], and
`
`wherein the belt is flexible and adjustable.
`
`5.
`
`(Currently Amended) The treatment device of claim 1, wherein thefirst time-varying
`
`magnetic field and the second time-varying magnetic field are each generated with a constant
`
`repetition rate,
`
`wherein the first plurality of pulses further comprises a third envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the third envelope,
`
`wherein the third envelopelasts a first time period,
`
`wherein the third envelope is generated after the first envelope, and
`
`wherein the fourth plurality of pulses further comprises a fourth envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the fourth envelope,
`
`wherein the fourth envelope lasts a second time period,
`
`wherein the fourth envelope is generated after the second envelope, and
`
`wherein the second plurality of pulses comprises a fifth envelope and a sixth envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses increases
`
`within the fifth envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the sixth envelope,
`
`wherein the sixth envelopelasts a third time period,_and
`
`wherein the sixth envelope is generated after the fifth envelope,
`
`wherein the fifth plurality of pulses comprises a seventh envelope and an eighth envelope,
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`Atty. Dkt. No. 4387.00400HO
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`

`

`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein an amplitude of the magnetic flux density of subsequent pulses increases
`
`within the seventh envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the eighth envelope,
`
`wherein the eighth envelope lasts a fourth time period,and
`
`wherein the eighth envelope is generated after the seventh envelope,_and
`
`wherein eachofthe first, second, third and fourth time period has a duration in a range of
`
`from 1 second to 5 seconds.
`
`6.
`
`(Currently Amended) The treatment device of claim 5, wherein the amplitude of the
`
`magnetic flux density of the subsequent pulses within each ofthe first envelope, the second
`
`envelope, the fifth envelope, and the seventh envelopeincreases linearly,and
`
`wherein the treatment device further comprises a first energy source configured to charge
`
`the first capacitor[[,]] and a second energy source configured to charge the second capacitor.
`
`7.
`
`(Currently Amended) The treatment device of claim 6, wherein thefirst applicator is
`
`configured to be positioned to the patient independently from the second applicator[[;]],
`
`wherein eachofthe first applicator and the second applicator are moveable along the
`
`belt[[;]].
`
`wherein eachofthe first time-varying magnetic field and the second time-varying magnetic
`
`field has an impulse duration in a range of 3 us to 3 ms,_and
`
`wherein each ofthe first envelope, the second envelope,the fifth envelope, and the seventh
`
`envelopelasts a fifth time period in a range of 0.5 second to 2 seconds.
`
`8.
`
`(Currently Amended) A method for toning at least one muscle of a patient, the method
`
`comprising:
`
`coupling a first applicator comprising a first magnetic field generating coil to a first area of a
`
`body region of the patient by a belt, wherein the body region comprises a buttock or an abdomen;
`
`Atty. Dkt. No. 4387.00400H0
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`

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`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`coupling a second applicator comprising a second magnetic field generating coil to a second
`
`area of the body region of the patient by the belt;
`
`charging a first capacitor and a second capacitor;
`
`discharging the first capacitor to the first magnetic field generating coil and generating a
`
`first plurality of biphasic impulses ofa first time-varying magnetic field by the first magnetic field
`
`generating coil,
`
`wherein the first time-varying magnetic field has a magnetic flux density in a range
`
`of 0.1 Tesla to 7 Tesla and a maximal value of a magnetic flux density derivative in a range of 0.3
`
`kT/s to 800 kT/s,
`
`wherein the first time-varying magnetic field comprisesa first plurality of pulses
`
`having a first repetition rate, a second plurality of pulses having a second repetition rate, and a third
`
`plurality of pulses having a third repetition rate,
`
`wherein the first repetition rate is in a range of 10 Hz to 30 Hz,
`
`wherein the second repetition rate is in a range of 20 Hz to 40 Hz,[[and]]
`
`wherein the third repletion rate is a range of 2 Hz to 6 Hz,_and
`
`wherein the first plurality of pulses comprisesa first envelope, wherein the
`
`first envelopelasts a first time period, and wherein an amplitude of the magnetic flux density of
`
`subsequent pulses increases within the first envelope, and
`
`wherein the first magnetic field generating coil hasa first inductance;
`
`discharging the second capacitor to the second magnetic field generating coil and generating
`
`a second plurality of biphasic impulses of a second time-varying magnetic field by the second
`
`magnetic field generating coil,
`
`wherein the second time-varying magnetic field has a magnetic flux density ina
`
`range of 0.1 Tesla to 7 Tesla and a maximal value of a magnetic flux density derivative in a range of
`
`0.3 kT/s to 800 kT/s,
`
`wherein the second time-varying magnetic field comprises a fourth plurality of
`
`pulses, a fifth plurality of pulses, and a sixth plurality of pulses,
`
`wherein the fourth plurality of pulses has the first repetition rate,
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`Atty. Dkt. No. 4387.00400H0
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`

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`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein the fifth plurality of pulses has the second repetition rate, [[and]]
`
`wherein the sixth plurality of pulses has the third repetition rate, and
`
`wherein the fourth plurality of pulses comprises a second envelope, wherein
`
`the second envelopelasts the first time period, and wherein an amplitude of the magnetic flux
`
`density of subsequent pulses increases within the second envelope, and
`
`wherein the second magnetic field generating coil has a second inductance which
`
`equals to the first inductance;
`
`cooling each of the first magnetic field generating coil and the second magnetic field
`
`generating coil;
`
`applying the first time-varying magnetic field to the first area of the body region of the
`
`patient and simultaneously applying the second time-varying magnetic field to the second area of
`
`the body region of the patient; and
`
`causing a muscle contraction of the at least one muscle within the body region such that the
`
`at least one muscle is toned.
`
`9.
`
`(Currently Amended) The methodof claim 8, further comprising charging the first capacitor
`
`by a first energy source, and charging the second capacitor by a second energy source[[;]],
`
`wherein each ofthe first magnetic field generating coil and the second magnetic field
`
`generating coil has an inductance in a range of 1 WH to 500 uHI[;]],and
`
`wherein each ofthe first magnetic field generating coil and the second magnetic field
`
`generating coil is circular and planar.
`
`10.
`
`(Currently Amended) The methodofclaim 8, further comprising:
`
`generating each ofthe first and the second time-varying magnetic fields with an impulse
`
`duration in a range of 3 us to 3 ms|[; and]],
`
`whereinthebelt is flexible,
`
`wherein the amplitude of the magnetic flux density of the subsequent pulses within the first
`
`envelope increases linearly, and
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`Atty. Dkt. No. 4387.00400H0
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`

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`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein the amplitude of the magnetic flux density of the subsequent pulses within the
`
`second envelope increaseslinearly.
`
`11.
`
`(Currently Amended) The methodofclaim 8, further comprising:
`
`charging the first capacitor by a first energy source, and charging the second capacitor by a
`
`second energy source[[;]].
`
`wherein each ofthe first repetition rate, the second repetition rate, or the third repetition rate
`
`is constant,
`
`wherein the first magnetic field generating coil is planar[[;]], and
`
`wherein the second magnetic field generating coil is planar.
`
`12.
`
`(Currently Amended) The methodofclaim 8, further comprising:
`
`generating the first and the second time-varying magnetic fields with at least one treatment
`
`parameter of the samevalue,[[p]]
`
`wherein the treatment parameter comprisesat least one of a magnetic flux density, an
`
`impulse duration, or a treatment duration, [[and]]
`
`wherein eachofthe first plurality of pulses, the second plurality of pulses, the fourth
`
`plurality of pulses, and the fifth plurality of pulses is modulated into a trapezoidal envelope, and
`
`wherein each ofthe first and the second magnetic field generating coils is circular and
`
`planar.
`
`13.
`
`(Currently Amended) The methodofclaim 8, further comprising:
`
`positioning the first applicator to the patient independently from the second applicator|[,]]:
`
`and
`
`generating the first time-varying magnetic field independently of the second time-varying
`
`magnetic field[[;]].
`
`wherein the first plurality of pulses further comprises a third envelope and a fourth envelope,
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`.
`
`BTL MEDICAL SOLUTIONSA:S.
`
`Application No. 16/915,640
`
`wherein the fourth plurality of pulses further comprisesa fifth envelope and a sixth
`
`envelope,
`
`wherein the amplitude of the magnetic flux density of subsequentpulses is constant within
`
`each ofthe third envelope andthefifth envelope, respectively,
`
`wherein the amplitude of the magnetic flux density of subsequent pulses decreases within
`
`each of the fourth envelope and the sixth envelope, respectively,
`
`wherein each of the third envelope andthe fifth envelope lasts a second time period, wherein
`
`the second time period is longer than thefirst time period,
`
`wherein the second plurality of pulses comprises a seventh envelope, an eighth envelope and
`
`a ninth envelope,
`
`wherein the fifth plurality of pulses comprises a tenth envelope, an eleventh envelope and a
`
`twelfth envelope,
`
`wherein each of the seventh envelope and the tenth envelopelasts a third time period,
`
`wherein the amplitude of the magnetic flux density of subsequentpulses increases within
`
`each of the seventh envelope and the tenth envelope, respectively,
`
`wherein each of the eighth envelope and the eleventh envelopelasts a fourth time period,
`
`wherein the fourth time period is longer than the third time period,
`
`wherein the amplitude of the magnetic flux density of subsequentpulses is constant within
`
`each of the eighth envelope and the eleventh envelope, respectively,and
`
`wherein the amplitude of the magnetic flux density of subsequent pulses decreases within
`
`each of the ninth envelope and the twelfth envelope, respectively.
`
`14.
`
`(Currently Amended) The methodofclaim 8, further comprising:
`
`charging the first capacitor by a first energy source, and charging the second capacitor by a
`
`second energy source;_and
`
`positioning the first applicator to the patient independently from the second applicator such
`
`that each of the first applicator and the second applicator is moveable along the belt[[;]],
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`"
`
`BTL MEDICAL SOLUTIONSA:S.
`
`Application No. 16/915,640
`
`wherein each ofthe first, second, third, fourth, fifth, and sixth plurality of pulses is
`
`modulated into a trapezoidal envelope, respectively[[;]].
`
`wherein eachofthe first time-varying magnetic field and the second time-varying magnetic
`
`field has an impulse duration in a range of 3 us to 3 ms,
`
`wherein eachofthe first time-varying magnetic field and the second time-varying magnetic
`
`field comprises sinusoidal impulses[[;]].
`
`wherein the second plurality of pulses comprises a third envelope,
`
`wherein the fifth plurality of pulses comprises a fourth envelope,
`
`wherein the amplitude of the magnetic flux density of subsequent pulses increases
`
`within each of the third envelope and the fourth envelope, respectively,
`
`wherein eachof the third envelope and the fourth envelopelasts a second time
`
`period,and
`
`wherein eachofthe first time period and the second time period lasts in a range of from 0.5
`
`seconds to 2 seconds.
`
`15.|(Currently Amended) The methodof claim 8, wherein the first plurality of pulses further
`
`comprises a third envelope, wherein the third envelope lasts a second time period, and wherein the
`
`amplitude of the magnetic flux density is constant within the third envelope,
`
`wherein the second time period is longer than the first time period, and
`
`wherein the fourth plurality of pulses further comprises a fourth envelope, wherein the
`
`fourth envelope lasts the second time period, and wherein the amplitude of the magnetic flux
`
`density is constant within the fourth envelope;
`
`wherein the second plurality of pulses comprises a fifth envelope and a sixth envelope,
`
`wherein the fifth envelope lasts a third time period,
`
`wherein the amplitude of the magnetic flux density of subsequent pulses within the
`
`fifth envelope increases,
`
`wherein the sixth envelope lasts a fourth time period, and wherein the fourth time
`
`period is longer than the third time period,
`
`Atty. Dkt. No. 4387.00400H0
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`

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`0
`
`BTL MEDICAL SOLUTIONSA:S.
`
`Application No. 16/915,640
`
`wherein the amplitude of the magnetic flux density of subsequent pulses within the
`
`sixth envelope is constant,
`
`wherein the fifth plurality of pulses comprises a seventh envelope and an eighth envelope,
`
`wherein the seventh envelopelasts the third time period,
`
`wherein the amplitude of the magnetic flux density of subsequent pulses within the
`
`seventh envelopeincreases,
`
`wherein the eighth envelope lasts the fourth time period,
`
`wherein the amplitude of the magnetic flux density of subsequent pulses within the
`
`eighth envelopeis constant,
`
`wherein each ofthe first, second, third, fourth, fifth, and sixth plurality of pulses is
`
`modulated into a trapezoidal envelope, respectively[[;]], and
`
`wherein each ofthe first magnetic field generating coil and the second magnetic field
`
`generating coil is planar.
`
`16.
`
`(Currently Amended) A treatment device for toning at least one muscle of a patient, the
`
`treatment device comprising:
`
`a control unit;
`
`a first energy source, wherein the first energy source is configured to chargea first
`
`capacitor;
`
`a first switching device;
`
`a first applicator comprising a first circular magnetic field generating coil, wherein thefirst
`
`magnetic field generating coil is configured to be cooled,
`
`wherein the first switching device is configured to discharge the first capacitor to the
`
`first magnetic field generating coil so that the first magnetic field generating coil generatesafirst
`
`time-varying magnetic field|[;]],
`
`wherein the first time-varying magnetic field has an impulse duration in a range of3
`
`us to 3 ms|[;]], and
`
`Atty. Dkt. No. 4387.00400H0
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`

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`-13-
`
`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein the first time-varying magnetic field is generated with a repetition rate in a
`
`range of 1 Hz to 300 Hz;
`
`a second energy source, wherein the second energy source is configured to charge a second
`
`capacitor;
`
`a second switching device;_and
`
`a second applicator comprising a second circular magnetic field generating coil, wherein the
`
`second magnetic field generating coil is configured to be cooled,
`
`wherein the second switching device is configured to discharge the second capacitor
`
`to the second magnetic field generating coil so that the second magnetic field generating coil
`
`generates a second time-varying magnetic field;
`
`wherein the second time-varying magnetic field has an impulse duration in a range of
`
`3 us to 3 ms,
`
`wherein the second time-varying magnetic field is generated with a
`
`repetition rate in a range of 1 Hz to 300 Hz|[;]].
`
`wherein each ofthe first time-varying magnetic field and the second time-varying
`
`magnetic field is generated with at least one treatment parameter,
`
`wherein the treatment parameter comprisesat least one of a magnetic flux density, an
`
`impulse duration, a repetition rate, or a treatment duration,
`
`wherein the first time-varying magnetic field and the second time-varying magnetic
`
`field are each generated with the same treatment parameter,
`
`wherein the first time-varying magnetic field comprisesa first plurality of pulses
`
`generated with a first repetition rate, a second plurality of pulses generated with a secondrepetition
`
`rate, and a third plurality of pulses generated with a third repetition rate,
`
`wherein the first repetition rate is different from the secondrepetition rate,
`
`and wherein the third repetition rate is different from each ofthe first repetition rate and the second
`
`repetition rate,
`
`wherein the first plurality of pulses comprisesa first envelope,
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`"
`
`BTL MEDICAL SOLUTIONSA:S.
`
`Application No. 16/915,640
`
`wherein an amplitude of a magnetic flux density of subsequent pulses
`
`increases within the first envelope,and
`
`wherein the first envelopelasts a first time period|[;]],
`
`wherein the second plurality of pulses comprises a second envelope,
`
`wherein an amplitude of a magnetic flux density of subsequent pulses
`
`increases within the second envelope,and
`
`wherein the second envelope lasts a second time period|[;]].
`
`wherein the second time-varying magnetic field comprises a fourth plurality of
`
`pulses generated with a fourth repetition rate, a fifth plurality of pulses generated with a fifth
`
`repetition rate, and a sixth plurality of pulses generated with a sixth repetition rate,
`
`wherein the fourth repetition rate is different from the fifth repetition rate,
`
`and wherein the sixth repetition rate is different from each of the fourth repetition rate and the fifth
`
`repetition rate,
`
`wherein the fourth plurality of pulses comprises a third envelope,
`
`wherein an amplitude of a magnetic flux density of subsequent
`
`pulses increases within the third envelope, and
`
`wherein the third envelopelasts the first time period[[;]],
`
`wherein the fifth plurality of pulses comprises a fourth envelope,
`
`wherein an amplitude of a magnetic flux density of subsequent pulses
`
`increases within the fourth envelope, and
`
`wherein the fourth envelope lasts the second time period,
`
`wherein both the first applicator and the second applicator are configured to be
`
`placed proximate to a body region of a patient and maintained by a positioning member,
`
`wherein the first applicator is configured to be coupledtoafirst area of the
`
`body region and the second applicator is configured to be coupled to a second area of the body
`
`region,
`
`Atty. Dkt. No. 4387.00400H0
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`-15—
`
`BTL MEDICAL SOLUTIONSAS.
`Application No. 16/915,640
`
`wherein each ofthe first and the second time-varying magnetic fields are applied at
`
`the same timeto the patient so that a muscle contraction of the at least one muscle within the body
`
`region is caused andthe at least one muscle is toned,_and
`
`wherein the body region comprisesat least one of a buttock or an abdomen.
`
`17.
`
`(Previously Presented) The treatment device of claim 16, wherein the positioning memberis
`
`flexible.
`
`18.|(Currently Amended) The treatment device of claim 16, wherein each ofthe first and the
`
`second magnetic field generating coils is planar,
`
`wherein eachofthe first and the second time-varying magnetic fields has a magnetic flux
`
`density in a range of 0.1 Tesla to 7 Tesla,
`
`wherein the first plurality of pulses further comprisesa fifth envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the fifth envelope,
`
`wherein the fifth envelope lasts a third time period, and
`
`wherein the fifth envelope is generated after the first envelope[[;]].
`
`wherein the second plurality of pulses further comprises a sixth envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the sixth envelope,
`
`wherein the sixth envelope lasts a fourth time period, and
`
`wherein the sixth envelope is generated after the second envelope,
`
`wherein the fourth plurality of pulses further comprises a seventh envelope,
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the seventh envelope,
`
`wherein the seventh envelopelasts the third time period, and
`
`wherein the seventh envelope is generated after the third envelope[[;]],and
`
`wherein the fifth plurality of pulses further comprises an eighth envelope,
`
`Atty. Dkt. No. 4387.00400H0
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`

`

`-16-
`
`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
`
`wherein an amplitude of the magnetic flux density of subsequent pulses is constant
`
`within the eighth envelope,
`
`wherein the eighth envelope lasts the fourth time period, and
`
`wherein the eighth envelope is generated after the fourth envelope.
`
`19.
`
`(Previously Presented) The treatment device of claim 16, wherein thefirst time-varying
`
`magnetic field is configured to be applied to the patient independently of the second time-varying
`
`magnetic field, and
`
`wherein the positioning memberisabelt.
`
`20.
`
`(Currently Amended) The treatment device of claim 21,
`
`wherein both the first magnetic field generating coil and the second magnetic field
`
`generating coil are planar|[;]],
`
`wherein the first plurality of pulses establishesa first trapezoidal envelope and the second
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`plurality of pulses establishes a second trapezoidal envelope[[;]], and
`
`wherein the fourth plurality of pulses establishes a third trapezoidal envelope andthefifth
`
`plurality of pulses establishes a fourth trapezoidal envelope.
`
`21.|(Currently Amended) The treatment device of claim 16, wherein thefirst applicatoris
`
`positioned to the patient independently from the second applicator[[;]],
`
`wherein the first plurality of pulses further comprisesa fifth envelope and a sixth envelope,
`
`wherein an amplitude of a magnetic flux density of subsequent pulses is constant
`
`within the fifth envelope,
`
`wherein the fifth envelope lasts a third time period, and wherein the thiedfifth
`
`envelope is generated after the first envelope[[;]].
`
`wherein an amplitude of a magnetic flux density of subsequent pulses decreases
`
`within the sixth envelope,
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`Atty. Dkt. No. 4387.00400H0
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`BTL MEDICAL SOLUTIONSA:S.
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`Application No. 16/915,640
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`wherein the sixth envelope lasts a fourth time period, and wherein the sixth envelope
`
`is generated after the fifth envelope[[;]],
`
`wherein the fourth plurality of pulses further comprises a seventh envelope and an eighth
`
`envelope,
`
`wherein an amplitude of a magnetic flux density of subsequent pulses is constant
`
`within the seventh envelope,
`
`wherein the seventh envelopelasts the third time period, and wherein the seventh
`
`envelope is generated after the third envelope[[;]].
`
`wherein an amplitude of a magnetic flux density of subsequent pulses decreases
`
`within the eighth envelope,
`
`wherein the eighth envelope lasts the fourth time period, and wherein the eighth
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`envelope is generated after the seventh envelope[[;]].
`
`wherein the second plurality of pulses further comprises a ninth envelope and a tenth
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`envelope,
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`wherein an amplitude of a magnetic flux density of subsequent pulses is constant
`
`within the ninth envelope,
`
`wherein the ninth envelopelasts a fifth time period, and wherein the ninth envelope
`
`is generated after the second envelope|[;]].
`
`wherein an amplitude of a magnetic flux density of subsequent pulses decreases
`
`within the tenth envelope,
`
`wherein the tenth envelopelasts a sixth time period, and wherein the tenth envelope
`
`is generated after the ninth envelope[[;]],and
`
`wherein the fifth plurality of pulses further comprises an eleventh envelope and a twelfth
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`envelope,
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`wherein an amplitude of a magnetic flux density of subsequent pulses is constant
`
`within the eleventh envelope,
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`wherein the eleventh envelopelasts the fifth time period, and wherein the eleventh
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`envelope is generated after the fourth envelope[[;]].
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`Atty. Dkt. No. 4387.00400H0
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`BTL MEDICAL SOLUTIONSA:S.
`Application No. 16/915,640
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`wherein an amplitude of a magnetic flux density of subsequent pulses decreases
`
`within the twelfth envelope,
`
`wherein the twelfth envelope lasts the sixth time period, and wherein the twelfth
`
`envelope is generated after the eleventh envelope.
`
`22.
`
`(Previously Presented) The treatment device of claim 20, wherein thefirst time period and
`
`the second time period are shorter than the third and the fifth time period, respectively.
`
`23.
`
`(Currently Amended) The treatment device of claim 16, wherein each ofthe first, second,
`
`fourth, and fifth plurality of pulses is modulated into a trapezoidal envelope, respectively|[;]].
`
`wherein both the first magnetic field generating coil and the second magnetic field
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`generating coil have an inductance in a range of 1 wH to 500 wHI[;]].
`
`wherein both the first capacitor and the second capacitor have a capacitance in a range of 5
`
`LF to 500 pF[[ I.
`
`wherein the amplitude of the magnetic flux density of the subsequent pulses within the first
`
`envelope is equal to the amplitude of the magnetic flux density of the subsequent pulses of the third
`
`envelope,and
`
`wherein the amplitude of the magnetic flux density of the subsequent pulses within the
`
`second envelopeis equal to the amplitude of the magnetic flux density of the subsequent pulses
`
`within the fourth envelope.
`
`24.
`
`(Currently Amended) A methodfor toning of at least one muscle of a patient, the method
`
`comprising:
`
`positioning a first applicator comprising a first circular magnetic field generating coil
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`proximate to a body region of the patient by a positioning member,
`
`wherein the body region comprisesat least one of a buttock or an abdomen;
`
`positioning a second applicator comprising a second circular magnetic field generating coil
`
`proximate to the body region of the patient by the positioning member,
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`Atty. Dkt. No. 4387.00400H0
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`BTL MEDICAL SOLUTIONSA:S.
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`Application No. 16/915,640
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`wherein the positioning member maintainsthe first applicator to a first area of the
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`body region and the second applicator to a second area of the body region, wherein thefirst area
`
`differs from the second area;
`
`chargingafirst capacitor by a first energy source;
`
`charging a second capacitor by a second energy source;
`
`controlling by a control unit a first switching device and a second switching device;
`
`switching the first switching device to dischargethe first capacitor to the first magnetic field
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`generating coil and generating a first time-varying magnetic field by the first magnetic field
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`generating coil, the first time-varying magnetic field having a first impulse duration in a range of 3
`
`us to 3 ms and a repetition rate in a range of 1 Hz to 300 Hz;
`
`swi