JPWO2020247532A5 - - Google Patents

Description

The specific examples and descriptions herein are illustrative in nature, and variations may be developed by those skilled in the art based on the materials taught herein without departing from the scope of the invention. However, the invention is limited only by the scope of the appended claims.
The present invention provides, for example, the following items.
(Item 1)
a heat exchanger configured to be wrapped around the patient's head;
a compression assembly releasably coupled to the heat exchanger, the compression assembly including a housing and an expandable member coupled to an interior surface of the housing, when coupled; , the expandable member is positioned between the housing and the heat exchanger, the heat exchanger being separate from and movable relative to the expandable member; cap assembly.
(Item 2)
2. Clause 1, wherein the expandable member includes a contracted configuration and an expanded configuration, wherein transitioning the expandable member from the contracted configuration to the expanded configuration increases the pressure applied to the head of the patient. cooling cap assembly.
(Item 3)
2. The cooling cap assembly of Claim 1, further comprising a fluid pump coupled to said inflatable member.
(Item 4)
2. The cooling cap assembly of Claim 1, wherein the housing is configured to create counter pressure when the inflatable member is in the expanded configuration.
(Item 5)
the compression assembly is configured to produce a compression of between about 0.1 lb/in ² and about 10 lb/in ² against the head when the expandable member is in the expanded configuration; A cooling cap assembly according to item 1.
(Item 6)
2. The cooling cap assembly of item 1, wherein the inflatable member includes a plurality of chambers.
(Item 7)
7. The cooling cap assembly of item 6, wherein each of said plurality of chambers is independently inflatable.
(Item 8)
2. The cooling cap assembly of claim 1, wherein the inflatable member includes an upper inflatable portion, a first inflatable side portion, and a second inflatable side portion, each portion including a chamber.
(Item 9)
9. The cooling cap assembly of clause 8, wherein the length of the first inflatable side portion and the length of the second inflatable side portion are each longer than the length of the upper inflatable portion.
(Item 10)
9. The cooling cap assembly of clause 8, wherein the length of the first inflatable side portion and the length of the second inflatable side portion are each less than the length of the upper inflatable portion.
(Item 11)
2. The cooling cap assembly of claim 1, wherein side inflatable portions of the inflatable member are configured to adjustably overlap to surround at least a portion of the head.
(Item 12)
2. The cooling cap assembly of item 1, wherein the inflatable member comprises a fluid barrier.
(Item 13)
2. The cooling cap assembly of item 1, wherein the inflatable member includes one or more notches.
(Item 14)
2. The cooling cap assembly of item 1, wherein the inflatable member includes at least three chambers.
(Item 15)
2. The cooling cap assembly of Claim 1, wherein the inflatable member includes one or more fasteners.
(Item 16)
2. The cooling cap assembly of item 1, wherein the heat exchanger includes a bottom portion, a top portion, a first side portion and a second side portion.
(Item 17)
The cooling cap assembly of claim 1, wherein the heat exchanger includes fluid barrier sets, each fluid barrier of the fluid barrier sets being about 5 mm to about 15 mm from an adjacent fluid barrier within the fluid barrier set. .
(Item 18)
18. The cooling cap assembly of Claim 17, further comprising a temperature sensor positioned within an opening of at least one fluid barrier of said fluid barrier set.
(Item 19)
18. The cooling cap assembly of item 17, wherein at least one fluid barrier of said fluid barrier set comprises a torus shape.
(Item 20)
2. The cooling cap assembly of claim 1, wherein the first side portion includes a first arm and the second side portion includes a second arm.
(Item 21)
17. The cooling cap assembly of item 16, wherein the top portion, first side portion, and second side portion each include a first lobe and a second lobe.
(Item 22)
22. The cooling cap of item 21, wherein the length of the first lobes of the first portion and the second portion is longer than the length of the second lobes of the first portion and the second portion. Assembly.
(Item 23)
17. The cooling cap assembly of item 16, wherein each portion of the heat exchanger includes at least a portion of a fluid channel.
(Item 24)
17. The cooling cap assembly of item 16, wherein the length of the first side portion and the second side portion is less than the length of the top portion.
(Item 25)
17. The cooling cap assembly of item 16, wherein the area of either the first side portion or the second side portion to the area of the top portion is from about 2:1 to about 0.5:1. .
(Item 26)
17. The cooling cap set of claim 16, wherein said top portion defines a longitudinal axis and said first side portion and said second side portion extend from said bottom portion at an acute angle to said longitudinal axis. three-dimensional.
(Item 27)
17. The cooling cap assembly of Claim 16, wherein one or more end portions of the heat exchanger are configured to adjustably overlap to surround at least a portion of the head.
(Item 28)
2. The cooling cap assembly of item 1, wherein the heat exchanger comprises a flexible material.
(Item 29)
2. The cooling cap assembly of item 1, wherein the heat exchanger comprises a non-woven fabric.
(Item 30)
2. The cooling cap assembly of claim 1, wherein the heat exchanger includes one or more fluid channels each including a cross-sectional area of about ^9mm2 to about ^100mm2 .
(Item 31)
2. The cooling cap assembly of Claim 1, further comprising one or more sensors coupled to said heat exchanger and configured to measure one or more characteristics of said compression assembly.
(Item 32)
32. The cooling cap assembly of item 31, wherein the one or more sensors include a temperature sensor and a pressure sensor.
(Item 33)
32. A cooling cap assembly according to item 31, wherein the heat exchanger comprises at least one sensor in each portion of the heat exchanger.
(Item 34)
2. The cooling cap assembly of item 1, wherein the heat exchanger includes fasteners.
(Item 35)
2. The cooling cap assembly of item 1, wherein the housing comprises a rigid or semi-rigid material.
(Item 36)
2. The cooling cap assembly of Claim 1, wherein the housing is configured to surround at least a portion of the inflatable member.
(Item 37)
2. The cooling cap assembly of Claim 1, wherein the housing defines a cavity configured to surround at least a portion of the inflatable member.
(Item 38)
2. The cooling cap assembly of item 1, wherein the housing includes a hemispherical shell.
(Item 39)
2. The cooling cap assembly of item 1, wherein the housing comprises a helmet.
(Item 40)
36. A cooling cap assembly according to item 35, wherein the housing further comprises a flexible cover.
(Item 41)
2. The cooling cap assembly of Claim 1, wherein the housing includes fasteners configured to couple to the inflatable member.
(Item 42)
41. The cooling cap assembly of item 40, wherein the flexible cover includes fasteners.
(Item 43)
2. The cooling cap assembly of item 1, wherein the housing defines a cavity configured to receive the head of a patient.
(Item 44)
a liner configured to be disposed between the heat exchanger and the patient's scalp;
2. The cooling cap assembly of claim 1, further comprising a fastener releasably coupled to said compression assembly and said patient.
(Item 45)
45. The cooling cap assembly of item 44, wherein the liner comprises a flexible material.
(Item 46)
Clause 1, further comprising a cooling unit fluidly coupled to the compression assembly, the cooling unit including fluid connections releasably coupled to the heat exchanger, the compressor, the reservoir, and the pump. A cooling cap assembly as described in .
(Item 47)
47. The cooling cap assembly of Claim 46, wherein said cooling unit comprises a housing, a battery, and a fluid reservoir releasably coupled to said housing.
(Item 48)
47. A cooling cap assembly according to item 46, wherein the cooling unit is configured to circulate fluid through the heat exchanger.
(Item 49)
49. The cooling cap assembly of item 48, wherein the fluid includes one or more of water and salt, water and glycol, and water and alcohol.
(Item 50)
a heat exchanger configured to be wrapped around the patient's head;
a compression assembly releasably coupled to the heat exchanger, the compression assembly including a housing and an expandable member coupled to an interior surface of the housing, when coupled; , the expandable member is disposed between the housing and the heat exchanger, the heat exchanger is separate from the expandable member and movable relative to the expandable member; A cooling cap assembly wherein transitioning an expandable member from a contracted configuration to an expanded configuration increases the contact area between the heat exchanger and the head of the patient.
(Item 51)
1. A method of cooling the scalp on the head to reduce hair loss caused by chemotherapy, comprising:
wrapping a heat exchanger around a portion of the scalp;
disposing a compression assembly over the head and over the wrapped heat exchanger, the compression assembly comprising a semi-rigid outer member and an inflatable inner member coupled to the outer member; arranging, including a member;
expanding the expandable member to compress the heat exchanger between the expandable member and the scalp.
(Item 52)
52. A method according to item 51, wherein the heat exchanger is separate from and movable relative to the expandable member.
(Item 53)
52. The method of paragraph 51, further comprising transitioning the expandable member from a contracted configuration to an expanded configuration to increase the pressure applied to the head.
(Item 54)
52. The method of item 51, further comprising using the outer member to create counterpressure when the inflatable member is in the expanded configuration.
(Item 55)
52. The method of item 51, further comprising creating a compression of about 0.1 lb/in ² to about 10 lb/in ² against the head when the expandable member is in the expanded configuration.
(Item 56)
52. The method of item 51, wherein the inflatable member comprises a plurality of independently inflatable chambers.
(Item 57)
52. The method of Claim 51, further comprising placing the liner around the portion of the scalp such that the heat exchanger is positioned between the liner and the expandable member.
(Item 58)
The heat exchanger includes a bottom portion, a top portion, a first side portion and a second side portion, wherein an end of the first side portion and an end of the second side portion overlap each other. and
placing ends of the top portion overlying the ends of the first side portion and the ends of the second side portion to enclose at least the portion of the scalp. , item 51.
(Item 59)
52. A method according to item 51, wherein the inflatable member is inflated with gas or liquid.
(Item 60)
52. The method of item 51, wherein the inflatable member is inflated using a manual pump.
(Item 61)
52. The method of item 51, further comprising circulating a fluid through said heat exchanger, said fluid comprising a temperature of about -10°C to about 5°C.
(Item 62)
52. The method of item 51, further comprising using the compression assembly to remove the heat exchanger from the scalp.
(Item 63)
63. The method of item 62, further comprising using the compression assembly to move the heat exchanger back onto the scalp.
(Item 64)
52. The method of item 51, further comprising releasably attaching the compression assembly to the scalp using fasteners.
(Item 65)
A cooling cap assembly comprising:
a flexible heat exchanger configured to remove heat from a patient's scalp, the flexible heat exchanger comprising a temperature sensor;
an expandable member comprising a pouch having a top surface and a bottom surface, the bottom surface being releasably coupled to the heat exchanger;
a pump configured to inflate the pouch;
an outer shell coupled to the top surface of the pouch of the expandable member;
a cooling unit fluidly coupled to the heat exchanger;
a memory containing instructions for receiving temperature from the temperature sensor and adjusting the output of the pump based on the temperature.
(Item 66)
66. A cooling cap assembly according to item 65, wherein the output of the pump is expansion pressure.
(Item 67)
66. A cooling cap assembly according to item 65, wherein the temperature is a scalp temperature.
(Item 68)
66. The cooling cap assembly of Claim 65, wherein the temperature sensor is disposed on an exterior surface of the heat exchanger, within the heat exchanger, or within a fluid channel of the heat exchanger.
(Item 69)
66. The cooling cap assembly of item 65, wherein the heat exchanger includes one or more fluid channels containing circulating fluid.
(Item 70)
66. The cooling cap assembly of item 65, wherein the temperature is fluid temperature.
(Item 71)
the temperature sensor includes a temperature sensor set, the temperature includes a temperature set, and the pouch includes a chamber set, the memory independently adjusting the expansion pressure of each chamber of the pouch based on the temperature set. 66. A cooling cap assembly according to item 65, including instructions for adjusting.
(Item 72)
66. A cooling cap assembly according to item 65, wherein the cooling unit is portable.
(Item 73)
66. A cooling cap assembly according to item 65, wherein the cooling unit comprises a releasable fluid reservoir.
(Item 74)
66. A cooling cap assembly according to item 65, wherein the fluid reservoir comprises a handle.
(Item 75)
66. A cooling cap assembly according to item 65, wherein the cooling unit comprises an adjustable handle.
(Item 76)
66. The cooling cap assembly of item 65, wherein the cooling unit includes a battery.
(Item 77)
A method of controlling scalp cooling on the head of a chemotherapy patient, comprising:
applying a cooling cap to the head, the cooling cap comprising a flexible heat exchanger including a temperature sensor; an expandable member releasably coupled to the heat exchanger; a shell coupled to an expandable member, said expandable member comprising a pouch and a pump in fluid communication with said pouch for increasing the inflation pressure of said pouch;
measuring temperature using the temperature sensor;
and adjusting the inflation pressure of the pouch using the pump based on the measured temperature.
(Item 78)
78. The method of item 77, wherein the temperature is scalp temperature.
(Item 79)
78. The method of item 77, wherein the temperature sensor is on the exterior surface of the heat exchanger, within the heat exchanger, or within a fluid channel of the heat exchanger.
(Item 80)
78. The method of item 77, wherein the heat exchanger includes one or more fluid channels containing a circulating fluid.
(Item 81)
81. The method of item 80, wherein the temperature is a fluid temperature.
(Item 82)
The temperature sensor includes a temperature sensor set, the temperature includes a temperature set, and the pouch includes a chamber set, the method independently adjusting the inflation pressure of each chamber of the pouch based on the temperature set. 78. The method of item 77, comprising adjusting.
(Item 83)
78. Method according to item 77, wherein the heat exchanger is separate from and movable relative to the expandable member.
(Item 84)
78. The method of Claim 77, further comprising transitioning the expandable member from a contracted configuration to an expanded configuration to increase the pressure applied to the head.
(Item 85)
78. The method of item 77, further comprising using the shell to create counterpressure when the inflatable member is in the expanded configuration.
(Item 86)
78. The method of item 77, further comprising creating a compression of about 0.1 lb/in ² to about 10 lb/in ² against the head when the expandable member is in the expanded configuration.
(Item 87)
78. The method of item 77, wherein the inflatable member comprises a plurality of independently inflatable chambers.
(Item 88)
78. The method of item 77, further comprising placing the liner around the portion of the scalp such that the heat exchanger is between the liner and the inflatable member.
(Item 89)
the heat exchanger includes a bottom portion, a top portion, a first side portion and a second side portion;
arranging the first side portion and the second side portion on top of each other;
78. The method of claim 77, wherein the top portion overlaps the first side portion and the second side portion to enclose at least the portion of the scalp.
(Item 90)
78. The method of item 77, wherein the pouch contains fluid, including gas or liquid.
(Item 91)
78. The method of item 77, further comprising circulating a fluid through said heat exchanger, said fluid comprising a temperature of about -10°C to about 5°C.
(Item 92)
78. The method of item 77, further comprising attaching the compression assembly to the scalp using fasteners.
(Item 93)
a flexible heat exchanger configured to remove heat from a patient's scalp;
an expandable member releasably coupled to the heat exchanger;
an outer shell coupled to the expandable member;
a cooling unit fluidly coupled to the heat exchanger and configured to determine a power source and to circulate a fluid through the heat exchanger;
and a memory containing instructions for adjusting the fluid flow rate of the cooling unit based on the determined power supply.
(Item 94)
94. The cooling cap assembly of item 93, wherein the power source includes one or more of an AC power source and a DC power source.
(Item 95)
18. The cooling cap assembly of item 17, wherein each fluid barrier in the fluid barrier set includes a diameter of about 5mm to about 10mm.
(Item 96)
A method of controlling scalp cooling on the head of a chemotherapy patient, comprising:
applying a cooling cap to the head, the cooling cap comprising a flexible heat exchanger, an expandable member releasably coupled to the heat exchanger, and coupled to the expandable member. applying a shell;
circulating a temperature-controlled fluid through the heat exchanger using a cooling unit that includes multiple operating states;
identifying a power source for the cooling unit;
selecting the operating state of the cooling unit based on the identified power source.

Claims (65)

a heat exchanger configured to be wrapped around a patient's head;
a compression assembly releasably coupled to the heat exchanger, the compression assembly including a housing and an expandable member coupled to an interior surface of the housing, when coupled; , the expandable member is positioned between the housing and the heat exchanger, the heat exchanger being separate from and movable relative to the expandable member; cap assembly. 2. The inflatable member of claim 1, wherein the inflatable member includes a contracted configuration and an expanded configuration, wherein transitioning the inflatable member from the contracted configuration to the expanded configuration increases the pressure applied to the head of the patient. A cooling cap assembly as described. 3. The cooling cap assembly of Claim 1, further comprising a fluid pump coupled to said inflatable member. 2. The cooling cap assembly of Claim 1, wherein the housing is configured to create a counterpressure when the inflatable member is in the expanded configuration. the compression assembly is configured to produce a compression of between about 0.1 lb/in ² and about 10 lb/in ² against the head when the expandable member is in the expanded configuration; A cooling cap assembly according to claim 1. 2. The cooling cap assembly of Claim 1, wherein the inflatable member includes a plurality of chambers. 7. The cooling cap assembly of Claim 6, wherein each of said plurality of chambers is independently expandable. 2. The cooling cap assembly of claim 1, wherein the inflatable member includes an upper inflatable portion, a first inflatable side portion, and a second inflatable side portion, each portion including a chamber. . 9. The cooling cap assembly of claim 8, wherein the length of the first inflatable side portion and the length of the second inflatable side portion are each longer than the length of the upper inflatable portion. 9. The cooling cap assembly of claim 8, wherein the length of the first inflatable side portion and the length of the second inflatable side portion are each less than the length of the upper inflatable portion. 2. The cooling cap assembly of claim 1, wherein side inflatable portions of the inflatable member are configured to adjustably overlap to surround at least a portion of the head. 2. The cooling cap assembly of claim 1, wherein said inflatable member comprises a fluid barrier. 2. The cooling cap assembly of claim 1, wherein said inflatable member includes one or more notches. 3. The cooling cap assembly of Claim 1, wherein the inflatable member includes at least three chambers. 3. The cooling cap assembly of claim 1, wherein said inflatable member includes one or more fasteners. 3. The cooling cap assembly of claim 1, wherein the heat exchanger includes a bottom portion, a top portion, a first side portion and a second side portion. The cooling cap set of claim 1, wherein the heat exchanger includes fluid barrier sets, each fluid barrier of the fluid barrier sets being about 5 mm to about 15 mm from an adjacent fluid barrier within the fluid barrier set. three-dimensional. 18. The cooling cap assembly of claim 17, further comprising a temperature sensor positioned within an opening of at least one fluid barrier of said fluid barrier set. 18. The cooling cap assembly of Claim 17, wherein at least one fluid barrier of said fluid barrier set comprises a torus shape. 2. The cooling cap assembly of claim 1, wherein the first side portion includes a first arm and the second side portion includes a second arm. 17. The cooling cap assembly of claim 16, wherein the top portion, first side portion, and second side portion each include a first lobe and a second lobe. 22. The cooling of claim 21, wherein said first lobe length of said first portion and said second portion is longer than said second lobe length of said first portion and said second portion. cap assembly. 17. The cooling cap assembly of Claim 16, wherein each portion of the heat exchanger includes at least a portion of a fluid channel. 17. The cooling cap assembly of claim 16, wherein the lengths of the first side portion and the second side portion are less than the length of the top portion. 17. The cooling cap set of claim 16, wherein the area of either the first side portion or the second side portion to the area of the top portion is from about 2:1 to about 0.5:1. three-dimensional. 17. The cooling cap of claim 16, wherein the top portion defines a longitudinal axis and the first side portion and the second side portion extend from the bottom portion at an acute angle to the longitudinal axis. assembly. 17. The cooling cap assembly of Claim 16, wherein one or more end portions of the heat exchanger are configured to adjustably overlap to surround at least a portion of the head. 2. The cooling cap assembly of claim 1, wherein said heat exchanger comprises a flexible material. 2. The cooling cap assembly of claim 1, wherein said heat exchanger comprises a non-woven fabric. 2. The cooling cap assembly of claim 1, wherein the heat exchanger includes one or more fluid channels each including a cross-sectional area of about ^9mm2 to about ^100mm2 . 2. The cooling cap assembly of claim 1, further comprising one or more sensors coupled to said heat exchanger and configured to measure one or more characteristics of said compression assembly. 32. The cooling cap assembly of Claim 31, wherein the one or more sensors include a temperature sensor and a pressure sensor. 32. The cooling cap assembly of claim 31, wherein the heat exchanger comprises at least one sensor in each portion of the heat exchanger. The cooling cap assembly of claim 1, wherein the heat exchanger includes fasteners. 2. The cooling cap assembly of claim 1, wherein the housing comprises rigid or semi-rigid material. 2. The cooling cap assembly of Claim 1, wherein the housing is configured to enclose at least a portion of the inflatable member. 2. The cooling cap assembly of Claim 1, wherein the housing defines a cavity configured to surround at least a portion of the inflatable member. 2. The cooling cap assembly of claim 1, wherein the housing includes a hemispherical shell. 2. The cooling cap assembly of Claim 1, wherein the housing comprises a helmet. 36. The cooling cap assembly of claim 35, wherein said housing further includes a flexible cover. 2. The cooling cap assembly of Claim 1, wherein the housing includes fasteners configured to couple to the inflatable member. 41. The cooling cap assembly of claim 40, wherein said flexible cover includes fasteners. 3. The cooling cap assembly of Claim 1, wherein the housing defines a cavity configured to receive the head of a patient. a liner configured to be disposed between the heat exchanger and the patient's scalp;
3. The cooling cap assembly of Claim 1, further comprising a fastener releasably coupled to the compression assembly and the patient. 45. The cooling cap assembly of Claim 44, wherein the liner comprises a flexible material. 4. The claim further comprising a cooling unit fluidly coupled to said compression assembly, said cooling unit including fluid connections releasably coupled to said heat exchanger, compressor, reservoir and pump. 2. The cooling cap assembly of claim 1. 47. The cooling cap assembly of Claim 46, wherein said cooling unit comprises a housing, a battery, and a fluid reservoir releasably coupled to said housing. 47. The cooling cap assembly of Claim 46, wherein the cooling unit is configured to circulate fluid through the heat exchanger. 49. The cooling cap assembly of claim 48, wherein the fluid comprises one or more of water and salt, water and glycol, and water and alcohol. a heat exchanger configured to be wrapped around a patient's head;
a compression assembly releasably coupled to the heat exchanger, the compression assembly including a housing and an expandable member coupled to an interior surface of the housing, when coupled; , the expandable member is disposed between the housing and the heat exchanger, the heat exchanger is separate from the expandable member and movable relative to the expandable member; A cooling cap assembly wherein transitioning an expandable member from a contracted configuration to an expanded configuration increases the contact area between the heat exchanger and the head of the patient. 1. A method of cooling the scalp on the head to reduce hair loss caused by chemotherapy comprising:
wrapping a heat exchanger around a portion of the scalp;
disposing a compression assembly over the head and over the wrapped heat exchanger, the compression assembly comprising a semi-rigid outer member and an inflatable inner member coupled to the outer member; arranging, including a member;
expanding the expandable member to compress the heat exchanger between the expandable member and the scalp. 52. The method of claim 51, wherein the heat exchanger is separate from and movable relative to the expandable member. 52. The method of claim 51, further comprising transitioning the expandable member from a contracted configuration to an expanded configuration to increase the pressure applied to the head. 52. The method of claim 51, further comprising using the outer member to create counterpressure when the inflatable member is in the expanded configuration. 52. The method of claim 51, further comprising producing a compression of about 0.1 lb/ ⁱⁿ² to about 10 lb/ ⁱⁿ² against the head when the expandable member is in the expanded configuration. 52. The method of Claim 51, wherein the inflatable member comprises a plurality of independently inflatable chambers. 52. The method of claim 51, further comprising placing the liner around the portion of the scalp such that the heat exchanger is positioned between the liner and the expandable member. The heat exchanger includes a bottom portion, a top portion, a first side portion and a second side portion, wherein an end of the first side portion and an end of the second side portion overlap each other. and
placing ends of the top portion overlying the ends of the first side portion and the ends of the second side portion to enclose at least the portion of the scalp. 52. The method of claim 51 . 52. The method of claim 51, wherein the inflatable member is inflated with gas or liquid. 52. The method of Claim 51, wherein the inflatable member is inflated using a manual pump. 52. The method of claim 51, further comprising circulating a fluid through the heat exchanger, the fluid comprising a temperature of about -10°C to about 5°C. 52. The method of claim 51, further comprising using the compression assembly to remove the heat exchanger from the scalp. 63. The method of claim 62, further comprising using the compression assembly to move the heat exchanger back onto the scalp. 52. The method of claim 51, further comprising releasably attaching the compression assembly to the scalp using fasteners. 18. The cooling cap assembly of claim 17, wherein each fluid barrier in said fluid barrier set includes a diameter of about 5mm to about 10mm.