Persons with limited mobility, such as the elderly or persons confined to a wheelchair, are susceptible to the development of pressure sores. Pressure sores are formed when the tissue is compressed for extended periods of time causing a restriction in the flow of blood. The exchange of nutrients and waste in the compressed tissue cells is slowed, resulting in skin breakdown and the formation of pressure sores. The retention of heat and moisture are two additional factors that contribute to the formation of pressure sores.
U.S. Pat. Nos. 4,175,297, 5,500,965, 5,839,140, 5,963,997, 6,014,784, 6,216,299, 6,560,803, 6,668,405 and 7,392,557 disclose inflatable seat cushions wherein the cushion includes an array of inflatable cells including separate groupings of cells which are alternately inflated and deflated on a predetermined schedule in order to vary the location of contact between the cushion and the posterior of a person seated on the cushion. The disclosure of these United States Patents are incorporated by reference.
While effective for reducing the development of discomfort, numbness, pain and pressure sores resulting from prolonged periods of sitting, such seat cushions are not well adapted for use with an individual who has one or more pressure sores on their buttocks. The cells directly underneath the pressure sore(s) will press against the pressure sore(s) when those cells are inflated, causing pain and aggravating the pressure sore(s).
Accordingly, a need exists for a comfortable inflatable wheelchair seat cushion that accommodates preexisting pressure sores.
A first aspect of the invention is a therapy seat cushion. The cushion includes a planar array of cells and an inflation control system. The array of cells includes (i) a first set of at least two mutually inflatable and deflatable first cells, (ii) a second set of at least two mutually inflatable and deflatable second cells, and (iii) at least one non-inflatable offloading cushioning cell. The first and second set of cells are load bearing cells when inflated. The inflation control system includes (a) a pump, (b) an input valve with accompanying tubing operable to mutually exclusively place the pump in fluid communication with either the first set of cells or the second set of cells, (c) a pressure sensor in selective fluid communication with the first or second set of cells while the set of cells are being inflated, and (d) a microprocessor in electrical communication with the pump, input valve and pressure sensor for periodically alternating inflation and deflation of the first and second set of cells to a predetermined inflation pressure.
A second aspect of the invention is a wheelchair equipped with a therapy seat cushion according to the first aspect of the invention.
A third aspect of the invention is a method of custom manufacturing a therapy seat cushion according to the first aspect of the invention. The method includes the steps of (A) positioning an offloading cushioning cell on the therapy seat cushion to align with a pressure sore or an area prone to development of a pressure sore on the individual client when the individual client is seated upon the therapy seat cushion, and (B) interspersing the first and second sets of cells throughout the balance of the therapy seat cushion.
A fourth aspect of the invention is a method of using a therapy seat cushion according to the first aspect of the invention. The method includes the steps of (1) sitting upon the therapy seat cushion whereby a pressure sore or an area prone to development of a pressure sore rests upon an offloading cushioning cell on the therapy seat cushion, and (2) periodically alternating inflation and deflation of the first and second sets of cells so as to relocate the areas on the body bearing the majority of the seated load bearing weight.
As utilized herein in connection with a therapy seat cushion having both inflatable load bearing cells and at least one offloading cushioning cell, including the claims, the phrase “offloading cushioning cell” means a cell operable and effective for providing cushioning (e.g., a “soft foam”) and which provides minimal load bearing support relative to the inflatable load bearing cells on the seat cushion when they are inflated.
As utilized herein, including the claims, references to “softness and hardness of a foam” refer to IFD measured firmness, with softer foams having a smaller IFD value and harder foams having a larger IFD value.
As utilized herein, including the claims, “soft foam” means foam having an IFD value of less than about 20 lbs.
As utilized herein, including the claims, “balanced foam” means a foam having an IFD value of greater than about 20 lbs and less than about 40 lbs.
As utilized herein, including the claims, a “hard foam” means a foam having an IFD value of greater than about 40 lbs.
As utilized herein, including the claims, the acronym “IFD” refers to Indentation Force Deflection at 25% compression as measured in accordance Method B1 of ASTM D3574.
Nomenclature
631
632
Construction
Referring to
Referring to
Referring to
The non-inflatable offloading cushioning cell(s) 33 is interspersed amongst the first and second inflatable and deflatable cells 31 and 32. The offloading cushioning cell(s) 33 is constructed to provide minimal support to a seated user when one or both of the first and/or second inflatable and deflatable cells 31 and 32 are inflated, while providing at least some modest cushioning in the event the cushion 10 bottoms out for a period of time. The offloading cushioning cell 33 is preferably constructed from a soft foam (i.e., a foam having an IFD value of less than about 20 lbs), but can be constructed from a balanced foam (i.e., a foam having an IFD value of greater than about 20 lbs and less than about 40 lbs).
Each offloading cushioning cell 33 preferably extends through an opening 49 in the top cushioning layer 40 so as to directly contact the buttock of a seated user.
Each offloading cushioning cell 33 is preferably sized, shaped, configured and arranged to present an uppermost exposed surface 33a (i.e., the surface area which will contact the buttock of a seated user) with an area of at least 4 cm2, preferably at least 8 cm2, and an aspect ratio of length to width of at least 0.2, preferably 0.3. An uppermost exposed surface 33a having an area of less than about 4 cm2 or an aspect ratio of length to width of less than about 0.2 imposes significant complications in matching the uppermost exposed surface 33a with a existing pressure sore or an area prone to development of a pressure sore on the buttock of a seated user.
The base layer 20 and the top cushioning layer 40 are preferably constructed of a compliant material, such as open or closed cell foam, with the top cushioning layer 40 constructed from a softer foam than the base layer 20.
The electronic inflation components can be embedded within the base layer 20 such as depicted and described in U.S. Pat. Nos. 6,014,784 and 6,560,803 and schematically in
Persons of skill in the art are capable of constructing selectively inflatable seat cushions as evidenced by the numerous United States Patents directed to such cushions, including U.S. Pat. Nos. 4,175,297, 5,500,965, 5,839,140, 5,963,997, 6,014,784, 6,216,299, 6,560,803, 6,668,405 and 7,392557, the disclosures of which are incorporated by reference.
The electronic inflation components include those typically employed in selectively inflatable seat cushions, including specifically but not exclusively one or more pumps or compressors 61, one or more solenoid valves 62, one or more check valves (not shown), one or more pressure sensors 631 and 632, one or more batteries 64, and a controller 65.
The electronic inflation components periodically alternate inflation and deflation of the first and second set of cells to a predetermined inflation pressure so as to periodically change the area of the buttock supported by the cushion 10.
The seating cushion 10 preferably includes a wired or wireless remote control 70 for allowing a user to set and/or adjust inflation and deflation settings.
The cushion 10 is preferably enclosed within a removable cover 80. The cover 80 can be provided with a zipper (not shown) so that the cover 80 may be removed and laundered or replaced. An opening (not shown), is preferably provided along a seam (not shown) to permit passage of delivery and return tubes 51 and 52 through the cover 80 when the electronic inflation components are retained within a separate housing.
The cushion 10 may be employed as a portable overlay or may be incorporated directly into the seat (not shown).
The seating cushion 10 can be used in connection with any type of seating including standard residential and office chairs, airplane seats, vehicle seating, etc. but is particularly suited for use with a wheelchair 100.
Method of Manufacture
The cushion 10 is preferably custom manufactured for each individual client by (i) positioning an offloading cushioning cell 33 on the therapy seat cushion 10 to align with a pressure sore or an area prone to development of a pressure sore on the individual client when the individual client is seated upon the therapy seat cushion 10, and (ii) interspersing the first and second sets of cells (31 and 32) throughout the balance of the therapy seat cushion 10.
Method of Use
The cushion 10 is best used by (i) sitting upon the therapy seat cushion 10 whereby a pressure sore or an area prone to development of a pressure sore rests upon an offloading cushioning cell 33 on the therapy seat cushion 10, and (ii) periodically alternating inflation and deflation of the first and second sets of cells (31 and 32) so as to relocate the areas on the body bearing the majority of the seated load bearing weight.
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