Patent Abstract:
A patient cooling system comprises a patient enclosure or tent having a coaxial hose connection to a re-circulating air-cooling system. The hose comprises an inner tube to introduce air into the enclosure and an outer tube for the return air. The patient cooling system further comprises a patient-supporting mattress comprising a plurality of inflatable compartments extending transversely across the width of the mattress, which can also be supplied with cooled air. The compartments can be alternately pressurized for pressure relief therapy. Moreover, the compartments can be pressurized either with relatively low pressure cold air from the air cooling system, or with higher pressure air which acts to support the patient, but provides relatively less cooling effect. Radially collapsible, sleeved openings in the tent panel enable connection of conduits or patient care lines to the patient.

Full Description:
FIELD OF THE INVENTION  
         [0001]    This invention relates generally to systems for cooling a person for therapeutic purposes. More particularly, this invention relates to an enclosure or tent and support system for a patient who is to be cooled to a temperature below normal body temperature.  
         BACKGROUND  
         [0002]    International patent applications published under WO 97/42919 and WO 00/27323, which are incorporated herein by reference for all purposes, describe systems for rapidly cooling a patient to a temperature a few degrees below normal blood temperature, e.g. in the range of about 32 to 34 degrees Celsius. This clinical procedure has been used with some success in reducing brain damage to cardiac or stroke patients as a result of reduced flow of oxygenated blood.  
         SUMMARY OF THE INVENTION  
         [0003]    The present invention provides an improved patient cooling system, which, according to a first feature of the invention, comprises an enclosure or tent having an inlet connected to an air cooling system, and an outlet which is connected to re-circulate exhaust air back to the inlet of the cooling system in order to minimize energy losses. Preferably, the enclosure is arranged so that it can be used on a variety of patient support devices such as mattresses, including support devices mounted in an ambulance fitted with a suitable source of cold air.  
           [0004]    Preferably, the enclosure is connected to a cooling system that includes an inlet for ambient air, a main blower that supplies air to the enclosure via the cooling section of a refrigeration system, and a re-circulation duct that connects an outlet from the air tent to the inlet side of the main blower.  
           [0005]    Preferably the air inlet, main blower, and cooling section are all embodied in a single housing that is connected to the air tent through a dedicated hose set. Preferably the hose set is coaxial, and includes an inner tube for the inlet air to the enclosure surrounded by an outer tube for the return air. In this way, the outer air jacket advantageously isolates and insulates the colder inner tube from the ambient temperature.  
           [0006]    Preferably, a valve is included in the return path to enable the proportion of re-circulated air to be varied, in accordance with operational requirements.  
           [0007]    Preferably, the air tent is also provided with a separate outlet to the atmosphere, including a vane type valve to control the exhaust flow, which allows independent control of the pressure inside the enclosure. In this way it is possible to maintain the pressure within the preset limits even if the enclosure is subject to variable leakage.  
           [0008]    Preferably, the patient is supported on a mattress system comprising a plurality of inflatable compartments, which can also be supplied with cooled air. Preferably, the compartments comprise elongate members that extend transversely across the width of the mattress, and can be alternately inflated to avoid any particular regions of the patient&#39;s body from being subjected to high pressure continuously.  
           [0009]    According to a further feature of the invention, there is provided a patient support mattress comprising a plurality of transversely extending inflatable compartments, which are so arranged that each compartment can be alternately pressurized, either with relatively low pressure cold air, which assists in cooling the patient but provides relatively little support, or with higher pressure air which acts to support the patient, but provides relatively less cooling effect.  
           [0010]    Preferably the mattress is connected into the re-circulating air supply system of the cooling enclosure, and may be provided with an additional blower to boost the pressure, for its high pressure supply.  
           [0011]    According to a still further feature of the invention there is provided an air tent or enclosure for enclosing a patient in a controlled environment, comprising a plurality of panels of flexible material, and having an opening with releasable fastener means to enable a patient to be enclosed, at least one panel including an aperture or apertures to allow the passage of a duct or pipe to communicate with the interior of the enclosure, the aperture comprising a radially collapsible sleeved opening having a split along the side of the sleeve which communicates with a further split in the panel for introduction of the conduit, the sleeve being flexible and being adapted to be tightened around the conduit.  
           [0012]    Preferably the outer edge of the sleeve is provided with a ring of hook or loop covered attachment material, which is adapted to cooperate with inter-engageable loop or hook material on the panel around the base of the sleeve, whereby the sleeve can be secured tightly around the conduit after it has been placed in position, by twisting the sleeve around the conduit and pressing the ring of material against the co-operating material on the panel.  
           [0013]    Preferably the outer edge of the sleeve is also reinforced with a “split ring” of a resilient material such as aluminum. The split ring maintains the sleeve in a generally circular configuration as it is closed around the conduit and maintains the edge of the sleeve in continuous contact with the surface of the conduit.  
       
    
    
       [0014]    These and other aspects and features of the present invention will be readily apparent to those skilled in the art from the following detailed description taken in conjunction with the annexed sheets of drawings, which illustrate the invention.  
       BRIEF DESCRIPTION OF THE DRAWINGS  
       [0015]    [0015]FIG. 1 is a schematic diagram of a patient cooling system according to the invention.  
         [0016]    [0016]FIG. 2 is a schematic diagram of a patient support mattress having an air flow control system.  
         [0017]    [0017]FIG. 3 a  is a side elevation of a first type of patient enclosure.  
         [0018]    [0018]FIG. 3 b  is a plan view of the patient enclosure of FIG. 3 a.    
         [0019]    [0019]FIG. 3 c  is an end elevation of the enclosure of FIG. 3 a.    
         [0020]    [0020]FIG. 4 a  is a side elevation of a second type of patient enclosure.  
         [0021]    [0021]FIG. 4 b  is a plan view of the enclosure of FIG. 4 a.    
         [0022]    [0022]FIG. 4 c  is an end elevation of the enclosure of FIG. 4 a.    
         [0023]    [0023]FIG. 5 a  is an enlarged view of the end panel of FIG. 4 c.    
         [0024]    [0024]FIG. 5 b  is a plan view of the end panel of FIG. 5 a.    
         [0025]    [0025]FIG. 5 c  is a detailed view of a cross-section through part of the structure of FIG. 5 a.   
     
    
     DETAILED DESCRIPTION  
       [0026]    Based on the description and illustrations provided herein, the many benefits provided by the invented structure and methods of utilization are apparent. These described benefits, as well as those that are inherent to those skilled in the art, fall within the scope of the invention of the present patent application as limited only by the claims appended hereto.  
         [0027]    Referring to the drawings, FIG. 1 illustrates the general layout of a patient cooling system in accordance with the invention, comprising an air tent  2  forming an enclosure with an air inlet duct  4  and an outlet duct  6 . The tent is preferably constructed from panels of fabric material, as described in more detail below.  
         [0028]    The tent is supplied with cool air through an air inlet duct  8 , with an intake filter  10  and an intake valve  12  comprising a movable vane that communicates with a main blower  14 . This pressurizes the air, and it then passed through a heat exchanger  16 , which comprises the evaporator section of a refrigeration circuit. The refrigeration circuit further comprises a compressor  18  and a condenser  24 , which is provided in a conventional fashion with a condenser fan having an intake filter  20 , a wick  26  for absorbing condensate drain from the evaporator section, and an outlet air filter  28 .  
         [0029]    Having passed through the heat exchanger  16  and thus being cooled, the air passes into the patient enclosure via the inlet  4 , circulates past the patient, and leaves the enclosure via the outlet  6 . The outlet is connected by means of a re-circulation filter  30  to a re-circulation flow sensor  32  and a re-circulation valve  34  comprising a vane that can be moved in order to control the proportion of re-circulated air.  
         [0030]    The enclosure  2  is also provided with a vane type exhaust valve  36  that enables the pressure inside the enclosure to be independently controlled. In this way, the proportion of re-circulated air and the internal temperature of the enclosure can be controlled without unduly increasing or decreasing the total pressure inside the enclosure.  
         [0031]    The apparatus also includes a patient-supporting mattress, indicated generally at  42  in FIG. 1, which comprises a plurality of inflatable compartments or cells to which air is supplied through an arrangement of valves  44  which are connected to the cooling circuit by a conduit  46  containing a further blower  48 . As illustrated, the conduit  46  is also incorporated in the coaxial hose set, forming a central core  50 , so that the air passing through the conduit is insulated from the ambient temperature by the outer coaxial passageways  38  and  40 .  
         [0032]    [0032]FIG. 2 illustrates in more detail bow air is supplied to the mattress, so that alternate cells are pressurized with high and low pressure air in successive cycles. As shown, there are two interleaved sets of cells or compartments A and B, both of which are connected continuously to a source of cold air at low pressure by means of non-return valves  54  and  56  respectively. In the general arrangement of FIG. 1, these will normally be connected via line  52  to the conduit  4  which supplies the air tent, and will therefore provide little supporting effect for the patient (being at low pressure) but will have fairly substantial cooling capacity.  
         [0033]    The high pressure air supply  46  driven by the blower  48  (as described above with reference to FIG. 1) is connected to each set of cells A or B, by a respective servo valve  44 , and these are activated alternately so that during a first cycle, all cells A are inflated to a high pressure so as to support the patient while cells B are connected to the re-circulation line  6 . A controlled amount of leakage is of course permitted through the fabric of each cell, as indicated by arrow C, since the high pressure air cannot escape via the non-return valves  54 ,  56 . Since the air supply  46  has been subjected to greater pressurization, it is, of course, at a somewhat higher temperature than the low pressure supply, and thus, primarily performs a supporting function rather than a cooling function for the patient&#39;s body.  
         [0034]    At the same time, however, the cells B are receiving the supply of colder air  52  at relatively low pressure, so these cells primarily provide a cooling function rather than a supporting function.  
         [0035]    At the next cycle, the high pressure air supply is shut off from the cells A, by operating their respective servo valve  44  and instead, they are connected to the re-circulation line so that they now act primarily to provide cooling, as passageways for the cold air supply  52 . At the same time, the cells B are connected to the high pressure supply, so as take over the patient supporting function, in the same way, as described above for the cells A in the previous cycle.  
         [0036]    In this way, each region of the patient&#39;s body is alternately supported by the high pressure, or subjected to cooling, rather than being continuously subjected to high pressure.  
         [0037]    [0037]FIG. 3 illustrates the patient enclosure system in more detail, and as shown, this comprises a generally semi-cylindrical fabric structure, having a base portion (not visible in the Figure) that is supported on a mattress cover  62  enclosing a mattress structure of the kind described above with reference to FIG. 2.  
         [0038]    As can be seen from the plan view of FIG. 3 b,  the upper or covering portion of the enclosure comprises a pair of elongate flaps  64  whose adjoining edges can be connected with a “Velcro” seal (i.e., separable complementary hook and loop fasteners) or similar seal  66 , each flap being formed with a flexible, transparent inspection panel  68 . A “head end” panel  70  (FIG. 3 c ) is formed with an aperture  72  for the neck of the patient, to allow the patient&#39;s head to protrude from the enclosure, and this aperture  72  is connected to the circular edge of the panel  70 , by means of a slit  74  to facilitate the process of positioning the patient&#39;s neck. The slit is also provided with Velcro along its adjacent edges, for subsequent closure.  
         [0039]    The enclosure is also provided with a series of specially adapted apertures  76 , for the entry of various conduits and connectors, as will be described in more detail below while the foot end (FIG. 3 d ) is provided with a pair of ports  78  for air input ducts, as well as an aperture  80  for connection to re-circulation and pressure relief valves.  
         [0040]    [0040]FIG. 4 illustrates a “full enclosure” version of the system of FIG. 3, in which, as depicted in FIGS. 4 a  and  4   b,  the enclosure is longer so as to enclose the patient&#39;s head. This version includes additional transparent panels  68  in the head region to allow the patient external vision. In this case, of course, the end panel  70  does not include a neck aperture.  
         [0041]    [0041]FIGS. 5 a  and  5   b  illustrate the arrangement by which pipes and conduits are passed through the walls of the tent, with minimum air leakage. Each conduit aperture  76  is provided with a radially collapsible tubular sleeve  78  made of flexible material such as fabric. The tubular sleeve  78  is stitched into the head end wall  70  in the arrangement shown and projects from the wall. The outer edge of the tubular sleeve  78  is reinforced with a split aluminum anchor ring  82  (FIG. 5 c ) having a covering of Velcro material stitched around it. Thus the Velcro-covered ring  82  forms a rim at the outer end of the tube to maintain the sleeve in a generally circular configuration as it is closed around the conduit. This rim, as well as the sleeve  78  itself, are formed with corresponding slits  84  which enable the sleeve to be closed around a conduit, as explained in more detail below.  
         [0042]    Four Velcro “loop” pads  86  stitched to the wall of the enclosure surround the sleeve  78 . The wall itself includes a slit  88  that extends from the split  84  of the sleeve to the outer edge  90  of the wall. In this way, a pipe or conduit (which may for example already be connected to the patient) can be passed into the enclosure, so as to exit through the sleeve  78 , without disconnecting either end.  
         [0043]    After the conduit has been properly positioned, the reinforced end  82  of the sleeve is twisted around and squeezed into engagement with the conduit, and pressed against the Velcro pads  86 . The rim is then attached to the pads, locating the conduit tightly in position. It will be appreciated that this closure system works equally well for a wide range of conduit sizes. In addition, if any particular aperture is not needed, the sleeve can be twisted up more tightly to close the aperture completely (as indicated schematically in FIGS. 3 and 4).  
         [0044]    It will be appreciated that the slit  88  is also provided with suitable Velcro or similar closure means along its adjacent edges, so that the entire closure can be made substantially leak proof, thus reducing significantly the overall re-circulation losses in the system.  
         [0045]    Although the foregoing specific details describe various embodiments of the invention, persons reasonably skilled in the art will recognize that various changes may be made in the details of the method and apparatus of this invention without departing from the spirit and scope of the invention as defined in the appended claims. Therefore, it should be understood that, unless otherwise specified, this invention is not to be limited to the specific details shown and described herein.

Technology Classification (CPC): 0