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The present disclosure generally relates to a wound treatment system and method, and more specifically, to a negative pressure wound treatment system and method for treating wounds with negative pressure generated by a user walking while wearing a device.
Negative pressure wound therapy (NPWT) is a treatment that aids in the healing of wound injuries by increasing blood flow to the target area and promoting the formation of granulation tissue. It also functions in removing and draining fluid and leakage, diminishing both the amount and rate of infection and bacterial growth, assisting in closure, and providing protection from the surrounding environment. Such a device typically is comprised of: 1) a gauze or wound dressing to fill the cavity, 2) a drainage tube held near the area of injury, sometimes inside of the dressing, 3) an adhesive sealant placed atop the dressing to create an air tight seal, 4) a container or outlet for the fluid drained from the injured area, and 5) a low-pressure vacuum to create negative pressure. The dressing of the wound requires frequent replacement. According to the Food and Drug Administration, NPWT is proven to provide aid to chronic wounds, burns, diabetic and pressure ulcers, acute wounds, traumatic wounds and dehisced wounds. In addition negative pressure can locally induce or mimic the therapeutic effects of massage.
A special case of wounds are diabetic foot ulcers (DFUs). DFUs are a leading cause of lower limb amputations. Diabetes affects hundreds of millions of people worldwide, including tens of millions of patients in US, and are projected to double by 2030. DFUs are a primary cause of hospital admissions in the developed world and one of the most impaired conditions associated with diabetes, often leading to pain, suffering, and a poor quality of life for patients. DFUs precede a significant majority of all diabetes-related lower-leg amputations and are characterized by impaired healing.
Portable NPWT devices have been proposed in the art, however many require an external power supply for creating negative or positive air pressure. Another disadvantage of the devices described in the art is that patients cannot wear them for natural walking. Some of the prior art devices that can be worn while walking require the entire foot and lower leg to be sealed and covered, resulting in comfort issues. Further still, other devices in the prior art require a hand powered device that is to be used at developing areas, but the operation requires active patient activity and attention.
Therefore, there is a need for a NPWT system that overcomes one or more of the aforementioned drawbacks of NPWT devices known in the art. In particular, there is a need for a NPWT system and method that generates low pressure by introducing means under a foot of the user configured to be actuated by walking and the area treated is specific to an area slightly larger than one or more DFU's positioned on a lower extremity of the user.
A negative pressure wound treatment system includes a bandage portion and a negative pressure portion. The bandage portion includes a dressing portion in contact with a wound and a sealing layer positioned in contact with the dressing portion. The sealing layer creates a seal around the wound. The negative pressure portion is in fluid communication with the bandage portion and includes a first valve and a second valve. The first valve is in fluid communication with the bandage portion and the negative pressure portion. The second valve is in fluid communication with the negative pressure portion and the surrounding environment. The negative pressure wound treatment system is configured to provide negative pressure to an area sealed by the bandage portion upon the actuation of the negative pressure portion. The negative pressure portion is configured to be actuated by compressing the negative pressure portion while walking. The sealing layer may include an adhesive creating the seal around the wound.
According to another aspect of the negative pressure wound treatment system, the bandage portion and the negative pressure portion are configured as an innersole device that is positioned within a shoe of the user.
According to another aspect of the negative pressure wound treatment system, the bandage portion is sized to seal an area that is substantially the entire bottom of a user's foot.
According to another aspect of the negative pressure wound treatment system, the negative pressure portion comprises a collapsible hollow bulb.
According to another aspect of the negative pressure wound treatment system, the dressing portion comprises at least one of gauze, porous foam, and a therapeutic scaffold.
According to another aspect of the negative pressure wound treatment system, the bandage portion is sized to seal a portion of the bottom of a user's foot surrounding the wound and the negative pressure portion is positioned under an adjacent portion of the user's foot.
According to another aspect of the negative pressure wound treatment system, the bandage portion is positionable to seal an area located on a lower extremity of a user and the negative pressure portion is positionable below the user's foot.
According to another aspect of the negative pressure wound treatment system, the system includes at least one sensor.
According to another aspect of the negative pressure wound treatment system, the sensor is at least one of a pedometer and a pressure sensor.
According to another aspect of the negative pressure wound treatment system, the information collected by the sensor is at least one of recorded and broadcasted to an external device.
According to another aspect of the negative pressure wound treatment system, the valve includes a release mechanism, trigger or switch.
A wound healing device includes a first chamber and a second chamber. The first chamber includes a dressing and is configured to form a seal around a wound of a user. The dressing is in contact with the wound. The seal is around the perimeter of the first chamber. The second chamber includes at least one valve. The second chamber is in fluid communication with the first chamber through the at least one valve. Actuation of the second chamber creates a negative pressure environment in the first chamber. The second chamber is configured and positioned to be actuated by a user while walking. The seal may be formed by an adhesive around the perimeter of the first chamber.
According to another aspect of the wound healing device, the first chamber collects liquid from the wound.
According to another aspect of the wound healing device, the second chamber includes a reservoir configured to collect liquid from the wound.
According to another aspect of the wound healing device, the reservoir comprises an absorbent material.
According to another aspect of the wound healing device, the first chamber includes a reservoir configured to collect fluid from the wound.
According to another aspect of the wound healing device, the first chamber includes a reservoir configured to collect fluid from the wound and the reservoir comprises an absorbent material.
According to another aspect of the wound healing device, the second chamber is in fluid communication with the first chamber through the at least one valve, and the second chamber is in fluid communication with the surrounding environment through a second valve.
According to another aspect of the wound healing device, the at least one valve and the second valve are one-way valves.
According to another aspect of the wound healing device, the first chamber and the second chamber are configured as part of a shoe insole and the second chamber is configured to form a seal around a portion of a bottom of the user's foot and the portion includes the wound.
According to another aspect of the wound healing device, the first chamber is configured to form a seal around a wound on a portion of a user's lower extremity away from a bottom of the user's foot and the second chamber is configured to be position under a user's foot within a shoe.
According to another aspect of the wound healing device, the first chamber and the second chamber are connected via a flexible tube.
According to another aspect of the wound healing device, the second chamber is part of a shoe insole.
According to another aspect of the wound healing device, wherein any of the valves include a release mechanism, trigger or switch.
A method of treating a wound on a lower body extremity with negative pressure wound therapy includes the following steps. A first chamber is positioned over a wound on the lower body extremity and the first chamber includes a dressing configured to contact the wound. A seal is formed around the perimeter of the first chamber. A second chamber is positioned below the lower body extremity and the second chamber is configured to be actuated by the lower body extremity during walking. The first chamber is fluidly coupled to the second chamber through a first valve. The second chamber is fluidly coupled to the surrounding environment through a second valve. Actuation of the second chamber causes a negative pressure environment to be formed within the first chamber over the wound. The seal may be formed around the perimeter of the first chamber with an adhesive. However, a seal can be made without adhesives, for example, using a rubber or plastic piece as sealing and holding and pressing the perimeter with a bandage.
According to another aspect of the therapy, the method includes the second chamber positioned within a shoe and the first and second chambers are configured as an insole device sized to fit with the shoe.
According to another aspect of the therapy, the method includes the second chamber positioned within the shoe of the user and the first chamber positioned away from the shoe of the user. The first chamber is connected to the second chamber through a flexible tube.
According to another aspect of the therapy, the method includes collecting fluid from the wound in the first chamber, wherein the first chamber includes an absorbent reservoir.
According to another aspect of the therapy, the method includes collecting fluid from the wound in the second chamber, wherein the second chamber includes an absorbent reservoir.
According to another aspect of the therapy, the method includes positioning the first chamber adjacent the second chamber and the first chamber is configured to seal around the wound located on the bottom of a foot of a user. The first chamber and the second chamber are configured as components of a self-adhesive bandage.
According to another aspect of the therapy, the method includes the negative pressure environment formed within the first chamber is in the range from about 40 millimeters of mercury to about 200 mm of mercury.
According to another aspect of the therapy, the method includes that any of the valves include a release mechanism, trigger or switch.
According to another aspect of the wound healing device, a wound healing device comprises a first chamber, a second chamber and at least one valve wherein the first chamber is in contact with a wound and the second chamber exchanges fluids in care of the pressure applied by the lower extremity of a subject and the valve regulates the pressure between any of the first chamber, the second chamber, and external surroundings of the wound healing device.
According to another aspect of the wound healing device, the first chamber collects fluids from the wound.
According to a further aspect, the wound healing device includes a reservoir that collects and stores fluids from the wound.
According to another aspect of the wound healing device, the reservoir is positioned within the second chamber.
According to another aspect of the wound healing device, the reservoir includes an absorbent material.
According to another aspect of the wound healing device, the reservoir is positioned within one of the first chamber, or a duct or passage between the first chamber and the second chamber.
According to another aspect of the wound healing device, the device lacks the reservoir that collects or store fluids from the wound
According to another aspect of the wound healing device, the first chamber and the second chamber are combined into one chamber for providing NPWT.
According to another aspect of the wound healing device, the first chamber and the second chamber are in fluid communication through at least one of a valve, a duct, and a flexible tube.
According to another aspect of the wound healing device, the second chamber further includes a valve in fluid communication with the surrounding environment.
According to another aspect of the wound healing device, the whole device is sized to fit within footwear of the user.
According to another aspect of the wound healing device, the first chamber is affixed to a lower extremity of a user with a mesh outside of the user's footwear.
According to another aspect any of the above devices can be applied over non wounded skin to induce therapeutic effects different from the wound healing
These and other features, aspects, and advantages of the present invention will become better understood upon consideration of the following detailed description, drawings and appended claims.
Like reference numerals will be used to refer to like parts from Figure to Figure in the following description of the drawings.
Patients affected by chronic wounds are often bed-ridden due to the presence of bulky dressings and equipment which impair their ability to move and walk. This condition worsens the quality of life of the patients as well as their ability to heal since walking has a beneficial effect on lower limb microcirculation. A portable and wearable NPWT device may provide enhanced quality of life and healing benefits to patients suffering from DFU and other wounds located on the lower extremities and other parts of the body. In the embodiments disclosed hereinafter, patients may produce the low pressure or vacuum needed for NPWT just by walking with at least a portion of the wearable NPWT device under a foot. This would give patients the improved ability to maintain a healthy and improved quality of life over traditional systems. Further, no external power supply is needed and the patient's ability or capacity to move and walk during treatment would not be limited as compared to traditional methods. It has been show that negative pressure can induce therapeutic effects when applied to healthy skin. It can create a suction effect that increases blood and lymphatic circulation systemically and to the local area, relaxes muscle tissue and support, draws stagnation, pathogenic factors and toxins out of the body and releases a myriad of pain causing factors. A common application of these effects are known from several years in techniques as cupping that can even being combined with massage along with the movements performed and areas treated by a therapist will produce stimulating (toning) or sedating (draining) effects. Conditions as chronic venous insufficiency (CVI) or plantar fasciitis, the present invention can be employed in addition to other physiotherapy surgery, drug treatment and sclerotherapy, with both prophylactic and curative intent. Apart from improving the hemodynamic situation, localized negative pressure therapy aims in particular to preserve or reactivate the active and passive pump mechanisms of the lower limbs, for example, the calf muscle pump and the ankle pump. In addition, localized negative pressure can help desensitize those areas affected by neurogenic pain as foot neuropathy as a complement or in replacement of traditional massage. In lymphedema, tissue fluid steadily accumulates in the subcutaneous space containing loose connective tissue. Since there is no force that could mobilize and propel stagnant fluid to the regions where lymphatics absorb and contract, this task should be taken over by external massage or forces. In one embodiment, negative pressure can be applied one the skin surface of the affected region redirecting fluids and restoring lymphatic function. In a similar manner some of the devices described can be used to treat edema.
In one embodiment at least one of the valves can be activated or deactivated by a release mechanism, trigger or switch, thus creating different cycles of presence or absence of negative pressure over the interest area. The release mechanism, trigger or switch can be electric or mechanic and even can be activated remotely or triggered by an external device or timer. In a more specific embodiment, the release mechanism, trigger or switch includes a pressure sensor that enables the application of negative pressure can be regulated or determined by a threshold.
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The second chamber 108 is in fluid communication with the first chamber 106 through a first valve 118. The first valve 118 may be positioned within the first chamber 106, within the second chamber 108, or in a tube 120 that connects the first chamber 106 to the second chamber 108. In some embodiments, the tube 120 may be just a duct and the first chamber 106 and the second chamber 108 may be in very close proximity and or contact with each other. In other embodiments, the tube 120 may be longer allowing the first chamber 106 to be spaced a distance away from the second chamber 108. It is contemplated that the distance between the first chamber 106 and the second chamber 108 can vary based on the application and the location of the wound 102 to be treated. As will be shown in later embodiments, the first chamber 106 may be placed adjacent to the second chamber 108 or the first chamber 106 may be placed away from the second chamber 108.
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The second chamber 108 also includes a second valve 128 that may be placed in a duct 130 that provides fluid communication between the second chamber 108 and the surrounding environment. It is also contemplated that the second chamber 108 is constructed of a resilient but compressible material. As will be detailed later, the actuation (i.e., the application and removal of a compressive force) of the second chamber creates the low pressure environment in the first chamber 106 for the NPWT. It is contemplated that the actuation of the second chamber 108 will result in a low pressure environment in the first chamber 106 that is in the range from about 40 millimeters of mercury (mm of Hg) to about 200 mm of Hg, or in the range from about 80 millimeters of mercury (mm of Hg) to about 140 mm of Hg. It is contemplated that the low pressure created within the first chamber 106 may be tuned or adjusted by the use of different second chambers 108, first valves 118, or second valves 128. The treatment system 100 may include an outer cover 132. It is contemplated that the outer cover 132 may take different forms in the different embodiments disclosed below. The outer cover 132 may assist in retaining the treatment system 100 or portions of the treatment system 100 in place on the patient. The outer cover 132 may include adhesive for securing portions of the treatment system 100 in place or may comprise a wrap that would wrap around a foot or lower extremity portion of a patient.
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It is also contemplated that the first valve 118 and the second valve 128 may include a release mechanism that is accessible by the user. In this way the user can create different cycles of the presence or absence of negative pressure over the area of interest. It is further contemplated that the release mechanism may be a trigger or a switch.
It is contemplated that the duration of time that the treatment system 100 may be used to treat a wound 102 depends on numerous variables. In some embodiments, all of the components may be sized such that any absorbent materials within the first chamber 106 and the second chamber 108 may become saturated from fluids from the wound 102 in a few hours. In some embodiments the time period may be between about 3 hours to about 6 hours, or about 3 hours to about 12 hours, or about 3 hours to about 24 hours. Alternatively, the time period may be extended to multiple days depending on the size of the components and the nature and condition of the wound.
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The operation of the treatment system 200 is similar to that of treatment system 100 as described above. After a seal is created, the patient would insert the foot into footwear that is configured to receive the treatment system 200. Upon the commencement of walking, the second chamber 208 would be repeatedly compressed by the foot pressing down and create a low pressure environment within the first chamber 206. One of the advantages of the treatment system 200 would be the ability to treat multiple DFUs on the bottom of a patient's foot while providing a high level of comfort along with ease of use to the patient. Treatment system 200 may be configured to work with any footwear that includes removable innersoles, thus allowing a patient to treat wounds on the bottom of the foot while still using footwear of their own choosing.
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It is also contemplated that the negative pressure portion 308 may be configured in multiple ways. In some embodiments, the negative pressure portion may be configured to sit under a patient's foot within footwear of the patient's choosing. In other embodiments, the negative pressure portion 308 may be included in an innersole device or built into a footwear item. Further still, in other embodiments, the negative pressure portion 308 may be configured to be in fluid communication with multiple bandage portions 306, wherein each bandage portion 306 is located over a different wound on a different location of the body. It is contemplated that the negative pressure portion 308 may be adhesively attached to the bottom of the patient's foot or a wrap may hold it in place such that the patient is not required to wear footwear during use.
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It is contemplated that one or more aspects of the treatment system 500 provide unique advantages to a patient. Walking while wearing the treatment system 500 is easy and comfortable because of the small size. Further, the ability to only treat a single wound as opposed to the entire foot or lower leg is a significant improvement over the prior art. Treatment system 500 requires no special footwear and is easily applied by the user over a wound. The comfort and quality of life improvements provided by a patient being able to easily treat a wound located on the bottom surface of a foot is a significant advantage that should lead to better and faster healing.
In a different embodiment, any of the systems described herein may be applied wherein no wound is present to locally induce or mimic the therapeutic effects of massage.
Any of the embodiments described herein may be modified to include any of the structures or methodologies disclosed in connection with different embodiments. Further, the present disclosure is not limited to negative pressure wound treatment systems of the type specifically shown.
A negative pressure wound treatment system is presented that provides negative pressure wound therapy to a wound. Thus, a user may experience the benefit provided of improved quality of life as the wound heals while the treatment system helps prevent infection and increases blood flow to the area of the wound.
In a different embodiment, a negative pressure treatment system is presented wherein a wound or ulcer is present or not, to treat conditions as seroma plantar fasciitis, foot pain including form circulatory problems, lymphedema and neurogenic origins as foot neuropathy.
Numerous modifications to the present invention will be apparent to those skilled in the art in view of the foregoing description. Accordingly, this description is to be construed as illustrative only and is presented for the purpose of enabling those skilled in the art to make and use the invention and to teach the best mode of carrying out same. The exclusive rights to all modifications which come within the scope of the appended claims are reserved.
This application is a continuation of U.S. application Ser. No. 15/761,659 filed Mar. 20, 2018, which represents the national stage entry of PCT International Application PCT/US2016/052817 filed Sep. 21, 2016, which claims benefit of U.S. Provisional Application 62/221,342 filed Sep. 21, 2015, all of which are incorporated herein in its entirety by reference
Number | Date | Country | |
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62221342 | Sep 2015 | US |
Number | Date | Country | |
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Parent | 15761659 | Mar 2018 | US |
Child | 17716129 | US |