PORTABLE DEEP VEIN THROMBOSIS COMPRESSION DEVICE HAVING AN INTEGRATED PRESSURE CUFF AND UTILIZING A DISPOSABLE CUFF BARRIER

Abstract

A portable compression system for preventing deep vein thrombosis is provided. The portable compression system includes an inflatable apparatus comprising a monitor unit and at least one inflatable air cell. The portable compression system further includes an outer cuff comprising a pocket configured to receive the inflatable apparatus, the outer cuff configured to be wrapped around a portion of a patient's body where prevention of deep vein thrombosis is desired. The portable compression system further includes a disposable sleeve barrier configured to provide a physical barrier between the outer cuff and the portion of the patient's body.

Claims

1-20. (canceled)

21. A portable compression system for preventing deep vein thrombosis, the system comprising: a cuff comprising: a pocket configured to hold an inflatable apparatus therein, and a securing mechanism configured to secure the cuff around a portion of a patient's body where prevention of deep vein thrombosis is desired; and an inflatable apparatus disposed in the pocket, the inflatable apparatus comprising: a first inflatable air cell, a second inflatable air cell, a pump pneumatically coupled to each of the first and second inflatable air cells and configured to: provide a pressurized fluid to the first inflatable air cell, and provide a pressurized fluid to the second inflatable air cell, thereby providing a desired level of compression to the portion of the patient's body, and a monitor unit configured to provide single-button control of the pump providing the desired level of compression to the portion of the patient's body;

22. The portable compression system of claim 21, wherein the securing mechanism comprises: a first portion disposed at a first end of the cuff, and a second portion disposed at a second end of the cuff and configured to couple to the first end, thereby securing the cuff around the portion of the patient's body where prevention of deep vein thrombosis is desired.

23. The portable compression system of claim 21, wherein the pressurized fluid comprises a gas.

24. The portable compression system of claim 21, wherein the monitor unit further comprises a single button configured to provide the single-button control of the pump providing the desired level of compression to the portion of the patient's body.

25. The portable compression system of claim 21, wherein the monitor unit further comprises a display configured to display at least one of: an indication of the level of compression provided to the portion of the patient's body; and an amount of time the level of compression has been provided to the portion of the patient's body.

26. The portable compression system of claim 21, wherein the pocket of the cuff further comprises a window configured to provide visibility of the monitor unit.

27. The portable compression system of claim 26, wherein the window comprises an aperture.

28. The portable compression system of claim 21, wherein the cuff further comprises at least one elastic portion configured to stretch when the cuff is wrapped around the portion of the patient's body.

29. A method of utilizing a portable compression system configured to prevent deep vein thrombosis, the method comprising: utilizing a securing mechanism of a cuff of the portable compression system to secure the cuff around a portion of a patient's body where prevention of deep vein thrombosis is desired, wherein the cuff comprises a pocket configured to hold an inflatable apparatus therein, and utilizing a monitor unit of the inflatable apparatus to initiate single-button control of a pump of the inflatable apparatus to, thereby, provide a desired level of compression to the portion of the patient's body, wherein the inflatable apparatus comprises: a first inflatable air cell, a second inflatable air cell, the pump, pneumatically coupled to each of the first and second inflatable air cells, and configured to: provide a pressurized fluid to the first inflatable air cell, and provide a pressurized fluid to the second inflatable air cell, thereby providing the desired level of compression to the portion of the patient's body, and the monitor unit.

30. The method of claim 29, wherein the securing mechanism comprises: a first portion disposed at a first end of the cuff, and a second portion disposed at a second end of the cuff and configured to couple to the first end, thereby securing the cuff around the portion of the patient's body where prevention of deep vein thrombosis is desired.

31. The method of claim 29, wherein the pressurized fluid comprises a gas.

32. The method of claim 29, wherein the monitor unit further comprises a single button configured to provide the single-button control of the pump providing the desired level of compression to the portion of the patient's body.

33. The method of claim 29, wherein the monitor unit further comprises a display configured to display at least one of: an indication of the level of compression provided to the portion of the patient's body; and an amount of time the level of compression has been provided to the portion of the patient's body.

34. The method of claim 29, wherein the pocket of the cuff further comprises a window configured to provide visibility of the monitor unit.

35. The method of claim 34, wherein the window comprises an aperture.

36. A method for manufacturing a portable compression system for preventing deep vein thrombosis, the method comprising: assembling a cuff comprising: a pocket configured to hold an inflatable apparatus therein, and a securing mechanism configured to secure the cuff around a portion of a patient's body where prevention of deep vein thrombosis is desired; and disposing the inflatable apparatus disposed in the pocket, the inflatable apparatus comprising: a first inflatable air cell, a second inflatable air cell, a pump pneumatically coupled to each of the first and second inflatable air cells and configured to: provide a pressurized fluid to the first inflatable air cell, and provide a pressurized fluid to the second inflatable air cell, thereby providing a desired level of compression to the portion of the patient's body, and a monitor unit configured to provide single-button control of the pump providing the desired level of compression to the portion of the patient's body;

37. The method of claim 36, wherein the securing mechanism comprises: a first portion disposed at a first end of the cuff, and a second portion disposed at a second end of the cuff and configured to couple to the first end, thereby securing the cuff around the portion of the patient's body where prevention of deep vein thrombosis is desired.

38. The method of claim 36, wherein the monitor unit further comprises a single button configured to provide the single-button control of the pump providing the desired level of compression to the portion of the patient's body.

39. The method of claim 36, wherein the monitor unit further comprises a display configured to display at least one of: an indication of the level of compression provided to the portion of the patient's body; and an amount of time the level of compression has been provided to the portion of the patient's body.

40. The method of claim 36, wherein the pocket of the cuff further comprises a window configured to provide visibility of the monitor unit.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0010] FIG. 1 provides a view of a portable pneumatic DVT compression device including an inflatable apparatus having a monitor unit and at least one inflatable air cell, an outer cuff, and a disposable sleeve barrier, in accordance with some embodiments.

[0011] FIG. 2 provides a view of the portable pneumatic DVT compression device of FIG. 1, where the inflatable apparatus is partially inserted into the outer cuff, in accordance with some embodiments.

[0012] FIG. 3 provides a view of the portable pneumatic DVT compression device of FIG. 1 with the inflatable apparatus fully inserted into the outer cuff and the outer cuff inserted in the disposable sleeve barrier, in accordance with some embodiments.

[0013] FIG. 4 illustrates a flowchart for a method of utilizing the portable pneumatic DVT compression device of FIG. 1, in accordance with some embodiments.

[0014] FIG. 5 illustrates a flowchart for a method of manufacturing the portable pneumatic DVT compression device of FIG. 1, in accordance with some embodiments.

DETAILED DESCRIPTION

[0015] The following detailed description and the appended figures are provided to describe and illustrate exemplary embodiments for the purpose of enabling one of ordinary skill in the relevant art. The description and figures are exemplary and not intended to limit the scope of the invention, or its protection, in any manner.

[0016] As used herein the term attached refers to the fixed, releasable, or integrated association of two or more elements, components, and/or devices. The term attached includes releasably attaching or fixedly attaching two or more elements, components, and/or devices. The singular forms a, an, and the include plural referents unless the context clearly dictates otherwise.

[0017] FIG. 1 provides a view 100 of a portable pneumatic DVT compression device 100 including an inflatable apparatus 100 having a monitor unit 112 and at least one inflatable air cell 122, an outer cuff 140, and a disposable sleeve barrier 180, in accordance with some embodiments.

[0018] In some embodiments, the monitor unit 112 further comprises one or more of a power indicator 114, a power switch 116, a pump 118, and a battery 120. In some embodiments, power indicator 114 is configured to indicate when monitor unit 112 is in operation, e.g., the ON/OFF state of monitor unit 112. In some embodiments, power indicator 114 may be mechanical, e.g., a colored tab that is exposed when the monitor unit 112 is in operation, or alternatively electronic, e.g., an indicator that is illuminated when the monitor unit 112 is in operation. In some other embodiments, power indicator 114 may be a part of a larger display (not shown in FIG. 1) configured to display at least one of compliance data and use data corresponding to the compression system. For example, compliance data may include data indicating the level of compliance with known or prescribed DVT prevention regiments that the compression system 100 has operated under, has already complied with, or has yet to comply with for one or more particular patient(s). Use data may correspond to any data indicating or logging past usage and/or the characteristics of that usage for one or more patients (e.g., compression level, time under compression, number of cycles under compression, number of patients treated or uses of the device). In one embodiment, the compression device comprises an outer sleeve, which can function as both a barrier and an anti-migration wrap. Advantageously, the inner pump unit is configured to fit into the outer sleeve. In some other embodiments, the display and power indicator 114 may be separate components.

[0019] In some embodiments, power switch 116 is configured to turn monitor unit 112 ON and/or OFF. Power switch 116 may comprise a push-button, a switch, or any other structure configured to turn monitor 112 and/or pump 118 ON and/or OFF.

[0020] In some embodiments, pump 118 may be pneumatic, e.g., configured to provide a pressurized fluid to the at least one inflatable air cell 122. In some embodiments, the pressurized fluid comprises a gas, e.g., air, or alternatively a liquid, e.g., water. In some embodiments, pump 118 may be configured to provide the pressurized fluid at a pressure of 45-50 millimeters of Mercury (mmHg), although any other desired pressure range is also contemplated. In some embodiments, pump 118 may be configured to provide such a desired pressure range relatively slowly, for example, taking 5 seconds to achieve the desired level of compression upon activation and under regulation by monitor unit 112. In addition, in some embodiments, pump 118 may operate relatively quietly, for example, operating at a sound level of 45 decibels or less. Such quiet operation provides an environment to facilitate sleep and/or rest. To ensure durability, the at least one inflatable air cell 122 may comprise a cryo-cuff material or any other suitable material providing sufficient longevity to be utilized on multiple patients, daily for at least one year, for example, polyurethane, PVC, or a blend of the same.

[0021] In some embodiments, battery 120 may be configured to provide power to at least pump 118 and monitor unit 112. In some embodiments, battery 120 may have an energy capacity sufficient to continuously power compression device 100 for at least 8 hours. In some embodiments, battery 120 may be rechargeable. In other embodiments, battery 120 may not be chargeable and may instead be easily replaceable.

[0022] Monitor unit 112 may be configured to control the operation of compression device 100 and may monitor the pressure and/or level of inflation of the at least one air cell 122 to ensure compliance with an intended DVT prevention protocol and/or to prevent tissue injury, for example, caused by tourniquetting of the treated portion of the patient's body. For example, monitor unit 112 may control pump 118 thereby inflating the inflatable air cell and providing a desired level of compression to a portion of the patient's body when inflatable apparatus 110 is disposed in a pocket 142 of outer cuff 140. In some embodiments, monitor 112 may be configured to hold a desired level of compression for a predetermined and/or selectable interval of time. In some embodiments, monitor unit 112 is configured to provide protection against tourniquet, for example, by ensuring the compression provided by the at least one air cell 122 does not exceed a particular peak threshold, or does not exceed a particular average threshold for a predetermined interval of time. In some embodiments, monitor unit 112 may provide for a relatively slow inflation of air cell 122 to a desired target pressure and/or compression, e.g., 5 seconds.

[0023] Outer cuff 140 is configured to be wrapped around a portion of a patient's body where prevention of DVT is desired, e.g., a calf, arm, upper leg, etc. Outer cuff 140 comprises an air cell pocket 142 configured to receive inflatable apparatus 110, a relatively inelastic portion 150, at least one elastic portion 148 configured to stretch when outer cuff 140 is wrapped around the desired portion of a patient's body, and at least one securing mechanism (e.g., 152, 154) configure to secure outer cuff 140 around the portion of the patient's body. As shown in FIG. 1, the at least one securing mechanism may comprise a first portion 152 disposed at a first end of outer cuff 140 and configured to couple to a second portion 154 of the at least one securing mechanism disposed at a second end of outer cuff 140, thereby securing outer cuff 140 around the portion of the patient's body for which DVT prevention is desired. In some embodiments, outer cuff 140 may comprise an anti-migration mechanism, for example, a patch of high friction material that prevents outer cuff 140 from creeping or moving from an initial desired position or alignment during operation.

[0024] In some embodiments, pocket 142 of outer cuff 140 further comprises a window 144 configured to provide visibility of monitor unit 112 when inflatable apparatus 110 is disposed in pocket 142 of outer cuff 140. In some embodiments, window 144 and/or pocket 142 further comprises an aperture 146 configured to allow a power cable (not shown in FIG. 1) to pass through. In such embodiments, monitor unit 112 may be configured to receive charging power from such a power cable for powering compression system 100 or for recharging battery 120. By virtue of at least the integrated nature of air cell 122 and monitor unit 112 within inflatable apparatus 110, inclusion of battery 120 within monitor unit 120, and the disposability of inflatable apparatus 110 in pocket 142 of outer cuff 140, compression system 100 is truly portable, does not require a corded connection for operation, and does not include lengthy pneumatic tubes for connecting a pressure cuff to a disparate pump and/or control station. Such advantages provide tangible benefits for both hospitals offering care to patients and to those patients themselves.

[0025] Disposable sleeve barrier 180 is configured to provide a physical barrier between outer cuff 140 and the portion of the patient's body around which outer cuff 140 is wrapped. Whereas outer cuff 140 and inflatable apparatus 110 are configured to be reusable, for example being manufactured to provide at least one year of daily operation for multiple patients, disposable sleeve barrier 180 is configured to be a single-use sleeve for discarding and replacement after each use. As such, disposable sleeve barrier 180 may comprise at least one of paper, plastic, or fabric. In some embodiments, disposable sleeve barrier 180 may simply comprise a sheet of disposable material configured to be placed between the outer cuff 140 and the patient's body. In some other embodiments, disposable sleeve barrier 180 may comprise an actual sleeve having an opening 182 disposed on at least one end such that disposable sleeve barrier 180 is configured to slip over outer cuff 140 like a sheath or garment and provide a disposable barrier substantially around outer cuff 140. In some such embodiments, disposable sleeve barrier 180 may comprise a window or cutout 184 configured to provide visibility of monitor unit 112 when inflatable apparatus 110 is disposed in pocket 142 of outer cuff 140. In other such embodiments, disposable sleeve barrier 180 may not comprise window or cutout 184. The disposable nature of disposable sleeve barrier 180 additionally provides the benefit of being green, e.g., eco-friendly.

[0026] Thus, the portable, lightweight nature of compression system 100, as previously described, as well as the low cost associated with utilizing disposable sleeve barriers 180 in conjunction with outer cuff 140 and inflatable apparatus 110 provide a DVT prevention solution that is less expensive, less cumbersome, and more portable than current non-portable solutions not offering disposable sleeve barriers available to hospitals.

[0027] FIG. 2 provides a view 200 of portable pneumatic DVT compression device 100 of FIG. 1, where inflatable apparatus 110 is partially inserted into outer cuff 140, in accordance with some embodiments. As shown by the arrows, inflatable apparatus 110, comprising inflatable air cell 122 and monitor unit 112, is configured to be inserted into pocket 142 of outer cuff 140. Window 144 of pocket 142 is shown as providing visibility of monitor unit 112 when inserted into pocket 142. Disposable sleeve barrier 180 is shown behind outer cuff 140.

[0028] FIG. 3 provides a view 300 of portable pneumatic DVT compression device 100 of FIG. 1 with inflatable apparatus 110 fully inserted into outer cuff 140 and outer cuff 140 inserted in disposable sleeve barrier 180, in accordance with some embodiments. Inflatable apparatus 110 is full inserted in pocket 142 of outer cuff 140. Window 144 provides a view of monitor unit 112 of inflatable apparatus 110 once inflatable apparatus 110 is fully inserted in pocket 142. FIG. 3 simultaneously illustrates two embodiments of disposable sleeve barrier 180 as previously described in connection with FIGS. 1 and 2. In a first embodiment, disposable sleeve barrier 180 of FIGS. 1 and 2 is shown as disposable sleeve barrier 180a, a sheet of disposable material to be disposed between the patient's body and outer cuff 140. In a second embodiment, disposable sleeve barrier 180 of FIGS. 1 and 2 is shown as disposable sleeve barrier 180b, a sleeve of disposable material into which outer cuff 140 is configured to be inserted, and which is configured to substantially surround outer cuff 140. In the second embodiment shown, disposable sleeve barrier 180b does not cover first portion 152 and second portion 154 of securing mechanism of outer cuff 140. However, in other embodiments, disposable sleeve barrier 180b may cover a portion of all of first portion 152 and second portion 154 of securing mechanism of outer cuff 140.

[0029] FIG. 4 illustrates a flowchart 400 for a method of utilizing the portable pneumatic DVT compression device 100 of FIG. 1, in accordance with some embodiments. Although blocks, steps or actions are shown in a particular order, the present application is not so limited and more or fewer actions in the same or different order than those described are also contemplated.

[0030] Flowchart 400 includes block 402, which recites inserting an inflatable apparatus comprising a monitor unit and at least one inflatable air cell into a pocket of an outer cuff configured to receive the inflatable apparatus. For example, a patient or health care professional may insert inflatable apparatus 110 comprising monitor unit 112 and at least one inflatable air cell 122 into pocket 142 of outer cuff 140 configured to receive inflatable apparatus 110.

[0031] Flowchart 400 includes block 404, which recites disposing a disposable sleeve barrier on the outer cuff, providing a sleeved outer cuff. For example, a patient or health care professional may dispose disposable sleeve barrier 180 on outer cuff 140, providing a sleeved outer cuff.

[0032] Flowchart 400 includes block 406, which recites wrapping the sleeved outer cuff around the portion of the patient's body. For example, a patient or health care professional may wrap the sleeved outer cuff 140+180 around the portion of the patient's body. In some embodiments, flowchart 400 further includes securing outer cuff 140 around the portion of the patient's body utilizing at least one securing mechanism 152, 154 of outer cuff 140.

[0033] Flowchart 400 includes block 408, which recites activating the monitor unit to provide a pressurized fluid to the at least one inflatable air cell thereby inflating the inflatable air cell, thereby providing a desired level of compression to the portion of the patient's body via the sleeved outer cuff. For example, the patient or health care professional may activate monitor unit 112 to provide a pressurized fluid to the inflatable air cell 122 thereby inflating inflatable air cell 122, thereby providing a desired level of compression to the portion of the patient's body via sleeved outer cuff 140+180. In some embodiments, activating monitor unit 112 comprises activating power switch 116 of monitor unit 112.

[0034] In some embodiments, flowchart 400 may additionally include viewing at least one of compliance data and data corresponding to the compression system on a display of the monitor unit. In some embodiments, flowchart 400 may additionally include connecting a power cable to the monitor unit through an aperture in a window of the pocket of the outer cuff thereby providing the monitor unit with charging power from the power cable.

[0035] FIG. 5 illustrates a flowchart 500 for a method of manufacturing portable pneumatic DVT compression device 100 of FIG. 1, in accordance with some embodiments. Although blocks, steps or actions are shown in a particular order, the present application is not so limited and more or fewer actions in the same or different order than those described are also contemplated.

[0036] Flowchart 500 includes block 502, which recites assembling an inflatable apparatus comprising a monitor unit and at least one inflatable air cell. For example, inflatable apparatus 110 comprising monitor unit 112 and at least one inflatable air cell 122 may be assembled.

[0037] Flowchart 500 includes block 504, which recites forming an outer cuff comprising a pocket configured to receive the inflatable apparatus, the outer cuff configured to be wrapped around a portion of a patient's body where prevention of deep vein thrombosis is desired. For example, outer cuff 140 comprising pocket 142 configured to receive inflatable apparatus 110 may be formed. Outer cuff 140 is configured to be wrapped around a portion of a patient's body where prevention of deep vein thrombosis is desired.

[0038] Flowchart 500 includes block 506, which recites forming a disposable sleeve barrier configured to provide a physical barrier between the outer cuff and the portion of the patient's body during utilization of the compression system to prevent deep vein thrombosis. For example, disposable sleeve barrier 180, configured to provide a physical barrier between outer cuff 140 and the portion of the patient's body during utilization of compression system 100 to prevent deep vein thrombosis, may be formed.

[0039] The foregoing disclosure includes the best mode for practicing the claimed invention(s). It is apparent, however, that those skilled in the relevant art will recognize variations that are not described herein. While the application includes the appended claims, the present disclosure is not limited to the literal meaning of the claims, but also includes these variations.