• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Apparatus for cooling a body or body part for medical or performance enhancing purposes consisting of one or more cooling elements (11), said cooling element (11) having a shell (1) filled with a fusible heat sink (2), said shell (1) an additional device (4, 6) for displacing the already molten portion (8) of the heat sink (2) from the contact surface (7) to the body is provided.
    公开号:AT515080A4
    申请号:T68/2014
    申请日:2014-01-30
    公开日:2015-06-15
    发明作者:Rudolf Faworka;Jakob Dr Vogel;Friedrich Ing Mag Vogel
    申请人:Friedrich Ing Mag Vogel;
    IPC主号:
    专利说明:

    The invention relates to a device for cooling a body or a body part by a heat-withdrawing support.
    Such devices are preferably for temperature management of humans or animals during or after cardiac arrest, myocardial infarction, stroke, septic shock, apoplexy, spinal cord injury, or trauma / brain trauma, requiring body core temperature to cool to below 36 ° C (therapeutic hypothermia).
    Even after successful cardiac arrest recovery, the long-term survival and quality of survival is often low. Around 55% of patients die even after successful resuscitation of the long-term consequences of cardiac arrest within 12 months. Much of the survivor suffers severe damage to the brain and nervous system, severely affecting quality of life. Not only does the injury arise during cardiac arrest, it progresses even after successful resuscitation. This injury is called post-resuscitation syndrome. Studies have shown that the survival and survival quality of cardiac arrest patients can be markedly improved after successful resuscitation by rapidly lowering body temperature to around 33 ° C for 24 to 48 hours. This cooling, known in medicine as therapeutic hypothermia, not only reduces the oxygen consumption in the patient's brain but also suppresses or slows down various cellular decay processes. This gives time to the body's own repair processes. As a result, the survival probability and survival quality are significantly higher.
    Other fields of application of such an efficient cooling pad can be found in the field of orthopedics, dentistry and whenever swelling is to be avoided after injury or in the post-operative area.
    Studies indicate that use in patients following a seizure may also result in a better disease course. The use of cold also takes place in herbal and other inflammatory processes.
    The application of cooling to humans before or during sports can also be used to increase performance, according to a study by the University of Münster.
    Currently available, non-invasive cooling devices typically require refrigeration units to treat the refrigeration energy, producing refrigeration during refrigeration, mostly from electrical energy, and distributing the cold medium fluidly or gaseously throughout the body or parts of the body to dissipate energy via mats or sprinklers.
    Invasive methods also require, during or prior to use, large amounts of energy provided by conversion of most of the electrical energy into refrigeration units.
    US Patent Application 11 / 432,285 presents a semi-invasive cooling system. In this process, a highly volatile gas, in particular perfluorocarbon, is injected into the nasal cavity.
    The evaporative cold created by the expansion of the gas deprives the nasal mucosa of energy and thereby cools the blood stream. However, the direct exposure of the gas to the vessels and nasal mucosa presents a great risk of facial frostbite.
    Known cooling devices without external device for the flow with. Liquid or gas are carried out as cooling mats. Individual parts of a cooling mat used for energy storage are hereinafter referred to as heat sinks. The heat sinks are with cold liquid,
    Gel or ice filled and provided with adhesive films, belts or Velcro strips to ensure good contact and thus a good heat transfer between the heat sink and the patient to be cooled. When the individual cooling bodies are heated, the respective boundary layer of the cooling body is heated. As a result, the cooling performance decreases significantly over time due to the sinking heat transfer, even if sufficient cooling capacity would still be available in the heat sink itself.
    For example, since water has a low thermal conductivity of 0.597 W / (m * K) (at 20 ° C), the heat transfer between the solid portion of an ice-shaped heat sink and the patient surface by the liquid barrier arising at the boundary layer decreases in a very short time and thus becomes inefficient. US Patent US 2010211143 Al describes a device for pressing heat sinks by means of overlapping pressure chambers which via a
    Pressure adjustment unit has. This and all known devices in common is the disadvantage that the heat sink is in its entirety pressed against the surface to be cooled, but the formation of an insulating layer as described above can not be prevented. US Pat. No. 2009036960 describes a coating of ice whose liquid fraction is absorbed by polymer crystal when melted. Disadvantage of this device, even if an insulating liquid layer is discharged by gravity, that the filling of the support must already be done with frozen material, otherwise the introduced liquid is immediately absorbed by the polymer crystals. Such a device is therefore unsuitable for medical use in the clinical field, since the filling of an overlay with ice is very labor-intensive and, even temporary heating, destroys the device,
    A further disadvantage of this device is that the ice must be introduced in the milled form to allow flexibility to conform to the body shape. As a result, the heat sink inevitably contains a large proportion of air, which in turn reduces the efficiency of the cooling by means of insulation. A further disadvantage of the device described in this patent is that the removal of the liquid layer is position-dependent and does not occur independently of the direction of gravity. Thus, this device is not suitable for whole body cooling in which the. Arrangement of the heat sink in relation to the collecting device for the liquid should be arbitrary.
    Patent AT 414 094 B describes a pad that is cooled before application below freezing and that uses the released melting energy to rapidly cool the patient when cooled. Incidentally, in order to prevent the heat conduction between the patient and the still-solid body from being reduced by the molten liquid, the conductivity of the liquid is improved by introducing heat-conductive materials. The incorporation of these materials, however, is complex in terms of production or is highly polluting to materials such as graphite upon leakage of the liquid from the heat sink as a result of damage to the envelope. In addition to the irritation of the medical staff due to the strong coloring effect of the material used, graphite, material leakage also involves the risk of influencing the electrical conductivity and thus influencing medical instruments, such as the ECG. Also, these admixtures or supplements increase specific gravity relative to the cooling performance.
    Another important feature of cooling pads is to indicate the particular temperature of the cooling pad. Thus, the treating medical personnel or the other user is signaled that the cooling pad still needs to be sufficiently cooled or replaced. Conventional cooling pads have mostly positioned the indicators in the form of thermochromic paints on the surface. Especially with heatsinks that use the melt energy for cooling are the
    Temperature differences within a heat sink itself very high. Outer layers can already reach room or body temperature although there is still sufficient melt energy in the solid components. Positioning of the temperature indicator on the surface of a cooling or heating body or at an undefined location in the liquid-ice mixture therefore leads, depending on the situation, to premature or delayed removal and replacement of the cooling supports. Because cooling pads for medical applications cause high costs, a more accurate temperature indication can provide significant savings and improved patient safety. US557S812 Patent describes a cooling or heat pad with temperature indicator positioned on the outer skin of the heat sink on the surface in the form of a font of thermochromic paints. This type of temperature indication on the surface is usually sufficiently accurate for gel-like or liquid heat sinks of small size. However, for heatsinks with higher storage capacity / which also use the melting energy, it is very inaccurate. The temperature indicated by the indicator may deviate from the temperature of the still solid part of the heat sink by up to 10 degrees in each direction. Thus, a cooling element removed from the freezer can already signal a temperature range which is safe for cooling on the surface even though the side facing the patient still has a skin-damaging temperature. This misstatement can result in serious injury to the patient, who is usually unconscious and therefore painless in therapy. Conversely, the temperature displayed by a thermo-indicator attached to the surface may already indicate room temperature and thus inefficiency for purposes of cooling, while the still solid components still provide active cooling to the patient. However, early replacement of the cooling mat, both in terms of workload of the medical staff, as well as in terms of the cost of an additional cooling mat a major disadvantage.
    Starting from the prior art, the object of the present invention is to provide a support for cooling at least parts of the body of humans and animals, with which high cooling rates can be achieved simply, environmentally and efficiently. The cooling system should be as small and lightweight as possible and be usable during the application without an external power source, so that use is also possible on a mobile basis. Furthermore, the cooling pad should work without the addition of materials to increase the thermal conductivity to overcome the disadvantages described above. The temperature indication should reliably and with high accuracy reflect the temperature of the remaining solid portion of a heatsink at the patient-to-heatsink interface. The stated disadvantages of known systems should be avoided or reduced.
    The objects of the invention are solved by the characterizing features of claims 1 to 3.
    The pad according to the invention preferably serves to regulate the temperature of at least parts of the body of humans or animals whenever necessary for medical, therapeutic, performance-enhancing or korafortverbessernden purposes. The cooling is carried out with heat sinks in the form of a meltable material, such as preferably water, which is placed in a cooling pad consisting of preferably small air-free single cells in still liquid form and frozen before use in a freezer, preferably at temperatures of around - 6 ° C. For use, the cooling pad is applied to the body or body part by means of an adhesive layer or a mechanical device. In this case, the melt energy is effective for the cooling process. Now, if this cooling pad is brought into connection with the body or body part to be cooled, the heat sink begins to melt. Without a particular device, the cooling power would drop significantly after a few minutes, because at the boundary layer between the body and the still solid portion in the cooling pad, a liquid layer is formed, which forms a thermal insulator due to the poor thermal conductivity of most liquids or water. As a result, the energy at the contact surface can only be transferred very slowly and the desired rapid cooling of the body and therefore of the patient does not take place. The "negative" stored in the heatsinks Energy as an energy sink would then extract the energy needed for the melting process from the environment.
    The inventive device for cooling a body or a body part for medical or performance-enhancing purposes by means of a heat of fusion of a cooling mass heat-withdrawing support is characterized in that the already molten portion of the cooling mass between the still solid portion of the cooling mass and the contact surface to Körperbzw. Body part is constantly active and dissipated regardless of location.
    With a heat of fusion of the water of 0.334 MJ / kg and a specific human heat capacity of 0.035 MJ / kg, the cooling of a body of 80kg can be done by about 3 ° C assuming a 70¾ efficiency of the whole system for cooling with 3.6kg of ice. The temperature decrease of 3 ° C is recommended in therapeutic hypothermia.
    In order to maintain the good thermal conductivity between the solid heat sink and the skin surface during the entire melting process, a device for selectively pressing the still fixed portion of a heat sink on a body part to be cooled and for displacing the liquid portions of the boundary layer to be cooled body part, characterized in that in one Preferably, a cuboid-shaped cooling unit preferably a centrally positioned expansion element exerts a directed pressure on the still solid portions of the heat sink attached. In order to allow a good fit of the heat sinks connected to a cooling mat to the body surface and to avoid a breakage of the fixed parts within a single heat sink, the individual heat sinks are preferably made in a size of about 30 × 30 mm base area. During freezing, the cooling pad is stored in a form-stable overwrap, which preferably also serves as a package. If nundas water or the other cooling liquid expands during freezing, the expansion elements according to the invention are compressed. If now the cooling pad on the body part by gluing or other mechanical devices applied so the solid heat sink melts. The resulting liquid is displaced by the pressure exerted by the compressed expansion elements on the still-solid portion of the heat sink from the contact surface between the solid portion of the heat sink and the body part to be cooled. Thus, the cooling performance during the entire melting process can be kept substantially constant.
    In this case, the expansion body can be formed either in gaseous form or else as a solid body, for example in the form of paraffins.
    Another feature of the device for removing the insulating liquid layer is the use of a stretched body in the form of a small feathered or durable elastic material such as foam.
    The outer shell of the heat sink and overlying expansion body is preferably made of thermoplastic resin, which can meet both the tear strength, processability, and the imperviousness and biocompatibility requirements of the material.
    According to the invention, the device for temperature indication on thermochrome color base is positioned on the underside of the expansion body according to the invention, in contrast to conventional temperature indicators in the interior of the heat sink. The expansion body is, if one
    Temperature Indicator used is made of translucent folio whereby the review by the Dehnkörper is possible. The attachment in this area in connection with the use of an expansion body allows, in contrast to conventional temperature indicators, an accurate determination of a threshold temperature of the still solid heat sink, which in turn substantially coincides with the temperature of the boundary layer to the body. As a result, the user can easily identify during the treatment whether the cooling pad should still provide sufficient cooling power or should be replaced. This temperature sensing device provides significant cost savings and increased patient safety.
    The present invention will be further described by way of example with reference to the accompanying drawings, in which:
    Figures 1, 2 and 3 each show a schematic section through an element of a cooling pad. Each of these elements is formed by a sheath 1 and a heat sink 2 consisting of a liquid, preferably water. The liquid should change to the solid state at a temperature of around + 1Q ° C to -10 ° C. The elements are hereinafter referred to as cooling elements.
    FIG. 2 shows a cooling element with a gaseous or solid expansion element 4 integrated in the cooling element 1 according to the invention, which is enveloped by an elastic film 3. FIG. 3 shows a mechanical device according to the invention in the form of a spring or other elastic material 6, which is also separated from the heat sink 1 by an elastic sheath 5.
    Figures 4, 5, and 6 show the cooling elements of Figures 1, 2 and 3 in the frozen state. The sheath 1 is in all cases so elastic that you can absorb the expansion of the heat sink 2 during freezing without tearing, but it creates a tension that compresses the stretchers 4 in Figure 5 or the elastic material such as a spring 6 in F.ig6. The sheaths of the expansion bodies in FIGS. 5 and 6 are more elastic than sheath 1.
    FIGS. 7, 8 and 9 show the cooling elements from FIGS. 1 to 3 and 4 to 6 after application to a body or body part on the skin surface 7, which is shown schematically in section.
    FIG. 7 shows that in cooling elements which do not have a device according to the invention, a liquid layer 8 is formed which significantly reduces the heat transfer between the solid heat sink 2 and the skin surface 7 even after a short time.
    Figures 8 and 9 show two different forms of the device according to the invention.
    In Fig. 8 it is shown that after the heating of the heat sink, by the expansion of the expansion body 4, the still solid portion of the heat sink 2 is pressed against the skin and the already molten liquid. 8 is thereby displaced upward. FIG. 9 shows an expansion of the mechanical expansion body 6, which exerts selective and targeted pressure on a still fixed portion of the heat sink 2 and displaces the already molten portion 8 of the heat sink to the side facing away from the skin surface 7. As a result, in both cases the direct contact of the still fixed portion of the heat sinks to the surface of the carcass and thus the heat conduction and the efficiency of the cooling support can be maintained.
    Fig. 10 shows in plan view an example of how a plurality of cooling elements 11, in this case in a square shape, can be combined to form a cooling pad 10.
    Figure II shows the forces in a heat sink during the venting process. The arrow 13 symbolizes the force which presses the still solid portion of the heat sink to the counter wall and thereby displaces the already liquid portion of the heat sink at the Kontaktf.läche to the skin 7 according to the arrows 12 upwards.
    Fig. 2 shows a positioning example where the cooling pad 10 can be applied to a body or body part 14 by means of an adhesive film or by mechanical means such as bandages.
    Fig. 3 shows, in section, the positioning of a thermochrome ink layer 16 which provides an accurate indication of the temperature of the cooling pad inside. The attachment according to the invention to the underside of the expansion body ensures long-term contact with the still-solid portion of the cooling body, whereby the achievement of a temperature limit value, which signals the drop in performance, can be indicated very accurately by color indicators. By using a transparent shell of the expansion body, this limit can be determined from the outside by the sight window 15 given thereby.
    Fig. 4 shows a dimensionally stable shell 17 in which the cooling pad is stored during the freezing process to avoid uncontrolled stretching. This envelope can simultaneously serve as a package. The lower class. 18 can be removed to remove the cooling pad as with a blister pack.
    权利要求:
    Claims (3)
    [1]
    A device for cooling a body or body part for medical or performance enhancing purposes, comprising one or more cooling elements (11), the cooling element (11) having a shell (1) filled with a fusible heat sink (2), characterized in that in the shell (1) an additional device is provided for displacing the already molten portion (8) of the cooling body (2) from the contact surface (7) to the body.
    [2]
    2. Device according to claim 1, characterized in that the additional device as an expansion body (4,6), preferably in the form of a gas-filled body (4) of a spring element (6) or a foam body is formed.
    [3]
    Device according to claim 1, characterized in that the exceeding of a temperature threshold value is indicated by a thermochromic layer (16) applied to the underside of the expansion body and thus pressed against the remaining solid portion of the heat sink, the envelope (1) in this case is carried out transparently.
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    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
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    DE202009007604U1|2008-11-20|2009-08-06|Lu, Nan Chih, Pingzhen City|Long-acting cold pack device|
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    法律状态:
    2019-09-15| MM01| Lapse because of not paying annual fees|Effective date: 20190130 |
    优先权:
    申请号 | 申请日 | 专利标题
    ATA68/2014A|AT515080B1|2014-01-30|2014-01-30|Apparatus for cooling a body or body part for medical or performance enhancing purposes|ATA68/2014A| AT515080B1|2014-01-30|2014-01-30|Apparatus for cooling a body or body part for medical or performance enhancing purposes|
    EP15710092.6A| EP3099277B1|2014-01-30|2015-01-26|Cooling mat comprising expandable elements for cooling a body or body part for medical or performance-enhancing purposes |
    PCT/AT2015/000007| WO2015113079A1|2014-01-30|2015-01-26|Cooling mat comprising expandable elements for cooling a body or body part for medical or performance-enhancing purposes |
    US15/115,817| US10675177B2|2014-01-30|2015-01-26|Cooling mat comprising expandable elements for cooling a body or body part for medical or performance-enhancing purposes |
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