The invention relates generally to temperature-controllable devices. More particularly, the present invention relates to therapeutic temperature-controllable devices for post-surgery recovery.
A person who has undergone surgery or experienced injury generally requires treatment to facilitate healing of the affected region of the body. Typically, the application of cold to the affected region is desired to decrease swelling and bruising in the region. Cold treatment has been found to be particularly useful after cosmetic surgeries, such as breast augmentations. Traditional devices to serve this purpose are generally based on using ice-filled or gel-filled packs. The packs first must be frozen and then applied to the affected region to provide cold relief.
The frozen nature of the packs creates at least three major disadvantages to such devices. First, a pack is initially at or below a freezing temperature, which can potentially cause frostbite or, at the very least, discomfort to the user of the pack. Due to the freezing temperature, the pack must be intermittently removed from the body, thereby reducing the therapeutic effect. The second disadvantage of a frozen pack is that the pack melts and increases in temperature while it is being used. As the temperature is constantly changing, the degree of effectiveness of the device changes. In other words, the device cannot provide consistent thermal therapy to the user. Lastly, hot therapy is sometimes desired for post-surgery or post-injury treatment. Clearly, a frozen ice or gel pack cannot provide heat therapy to affected regions.
Traditional devices can also be ineffective when applied to irregularly shaped body parts, such as breasts. For instance, gel packs in their frozen state cannot conform to the affected body part. Furthermore, the application of the packs to the irregular body part requires tape or another fastener means. Using complicated fastening methods could be difficult for an injured person. Alternatively, an assistant may be required to help a user apply and fasten the packs onto the affected areas. This requirement could cause embarrassment, especially when privacy of the affected regions is desired, such as for the breast regions.
In addition to cold therapy, post-surgery treatment generally requires stabilization of and/or application of pressure to the affected regions. Movement of the affected parts can disrupt the normal healing process. A disrupted healing process can lead to scars and undesirable visible markings. This result is particularly troubling when the purpose is primarily for aesthetics, as it is in cosmetic surgery.
The present invention addresses the difficulties of providing post-surgery treatment to irregularly shaped regions of a body, especially the breasts, and advances the art with a wearable device for providing thermal therapy.
The present invention provides a thermal therapy device for post-surgery or injury recovery of the breast region of a human subject. The device provides cooling or heating therapy to breast regions that have recently undergone a surgical procedure, such as breast augmentation surgery. The thermal therapy device provides consistent temperature treatment and stabilization to the affected regions and the device is conformable to the breasts.
The thermal therapy device is composed of a breast pad bladder and a breast pad shell. The bladder includes a region to cover the right breast, a region to cover the left breast, a conduit region connecting the right and left regions, and a passageway for fluid to flow throughout all of the regions. The temperature of the fluid is controllable and can stay approximately constant. The bladder is conformable to irregular shapes, particularly the breasts. To increase conformability, the bladder can have holes near the center of the left and right regions. Movable flaps with fluid passageways connected to the temperature-controlled fluid can also be included with the bladder.
The breast pad shell holds the bladder onto a subject and enables the device to be wearable and comfortable. The shell includes a layer adhered to the bladder and one or more splints conformable to the breasts. The layer can provide insulation to the fluid. A splint stabilizes a breast during recovery. Additional layers and straps can be attached to the shell to provide comfort.
The device is designed to be portable and easily worn and discarded. In particular, the conduit region is shaped to fit around the back of the torso of the subject to allow the left and right regions to be separable in the front. A fastener, such as a zipper, is used to fasten the two regions. This design enables a recovering subject to wear and remove the device with little or no assistance.
The present invention together with its objectives and advantages will be understood by reading the following description in conjunction with the drawings, in which:
Post-surgery treatment or treatment to injured areas of the body helps to facilitate the healing process. Treatment generally requires applying cold or heat to the damaged areas and stabilizing the areas. For regions of the body with complex shapes, such as the breasts, the application of treatment could be difficult. Below is a detailed description of a device for providing thermal therapy to the breasts of a human subject.
A portable therapeutic temperature-controllable device for post-surgery treatment or injury treatment allows the device to be used at the convenience of the injured subject, including inside the subject's home and outside of hospitals and clinics. A comfortable and portable thermal therapy device for the breasts is composed of a breast pad bladder, shown in
Cooling fluid is transported through the fluid passageways 140 to provide thermal therapy to a subject in contact with the regions of the breast pad bladder 100. The fluid flow may be constant or pulsatile. The fluid passageways may also have valves to control the fluid flow inside of the passageways. The fluid can optionally contain active agents.
In a preferred embodiment, the conduit region 110 is sized and positioned to be worn around the back of the torso of the subject instead of directly in between the right 120R and left 120L regions. This location of the conduit region 110 allows the right 120R and left 120L regions to be separated, thereby the thermal therapy device, generally, and the breast pad bladder, specifically, can be easily worn and taken off by the subject. The breast pad bladder 100 also has inlet/outlet features 190 to receive/transmit fluid into and out of the bladder. In a preferred embodiment, the inlet/outlet features 190 are conveniently placed on one side of the subject's body.
In an embodiment, flaps are included with the breast pad bladder 100. The flaps can be any size or shape and are preferably constructed with fluid passageways similar to the breast pad bladder 100 in
The breast pad shell includes a layer 210 that covers the breast pad bladder. Preferably, the layer 210 is an insulating layer for efficiently retaining heat or cold inside of the thermal therapy device. The insulating layer helps keep cold or heat on the subject's body instead of wastefully allowing the heat or cold to escape. The breast pad shell 200 may also include pads 230 made of a stretchable material, such as Lycra. The pads 230 fit over the breasts of the subject and can accommodate different-sized breasts due to their stretchiness.
It is important to note that the breast pad shell also includes one or more splints 220 conformable to the breasts. The splints 220 are used to comfortably hold the breasts or implants. Besides providing comfort, splints 220 also serve in stabilizing the breasts or implants while the subject undergoes healing from an injury or post-surgery. Decreasing the motion of the breasts due to movement of the user helps the healing process. In a preferred embodiment, the splints 220 are essentially C-shaped and positioned to stabilize around the perimeter of the breasts. The C-shape enables both the upper and lower regions of the breast or implant to be supported and pressure to be applied to the regions. The splint 220 can also be adjustable and reformable. The splint 220 is made from a thermoplastic material, a metal, copper, aluminum, stainless steel, brass, tin, a ferrous metal, a plastic, an alloy, a wax, rubber, or a mixture thereof. For additional support and comfort, one or more compression straps 280, attachable to the breast pad shell, can also be provided.
As one of ordinary skill in the art will appreciate, various changes, substitutions, and alterations could be made or otherwise implemented without departing from the principles of the present invention, e.g. fluids of any temperature can be used in the device and the device can include additional functional or decorative layers or flaps. Accordingly, the scope of the invention should be determined by the following claims and their legal equivalents.
This application is a continuation-in-part of U.S. Non-Provisional patent application Ser. No. 11/784,033 filed Apr. 4, 2007. U.S. Non-Provisional patent application Ser. No. 11/784,033 filed Apr. 4, 2007 is cross-referenced to and claims benefit of U.S. Provisional Patent Application 60/791,303 filed Apr. 12, 2006. U.S. Non-Provisional patent application Ser. No. 11/784,033 filed Apr. 4, 2007 is cross-referenced to and claims benefit of U.S. Non-Provisional patent application Ser. No. 11/064,546 filed Feb. 23, 2005. U.S. Non-Provisional patent application Ser. No. 11/064,546 filed Feb. 23, 2005 is cross-referenced to and claims benefit of U.S. Provisional Patent Application 60/546,903 filed Feb. 23, 2004. All of which are hereby incorporated by reference.
Number | Date | Country | |
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60791303 | Apr 2006 | US |
Number | Date | Country | |
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Parent | 11784033 | Apr 2007 | US |
Child | 11998866 | US |