US3370153A - Electric heating apparatus for warming a parenteral fluid - Google Patents

Electric heating apparatus for warming a parenteral fluid Download PDF

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Publication number
US3370153A
US3370153A US349869A US34986964A US3370153A US 3370153 A US3370153 A US 3370153A US 349869 A US349869 A US 349869A US 34986964 A US34986964 A US 34986964A US 3370153 A US3370153 A US 3370153A
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Prior art keywords
coil
well
block
cavity
blood
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US349869A
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English (en)
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Fresne Armand F Du
Walter H Goodwin
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DUPACO Inc
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DUPACO Inc
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Priority to GB1050364D priority Critical patent/GB1050364A/en
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Priority to US349869A priority patent/US3370153A/en
Priority to DED46725A priority patent/DE1293954B/de
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    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24HFLUID HEATERS, e.g. WATER OR AIR HEATERS, HAVING HEAT-GENERATING MEANS, e.g. HEAT PUMPS, IN GENERAL
    • F24H1/00Water heaters, e.g. boilers, continuous-flow heaters or water-storage heaters
    • F24H1/10Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium
    • F24H1/12Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium
    • F24H1/14Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium by tubes, e.g. bent in serpentine form
    • F24H1/16Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium by tubes, e.g. bent in serpentine form helically or spirally coiled
    • F24H1/162Continuous-flow heaters, i.e. heaters in which heat is generated only while the water is flowing, e.g. with direct contact of the water with the heating medium in which the water is kept separate from the heating medium by tubes, e.g. bent in serpentine form helically or spirally coiled using electrical energy supply
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M5/00Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
    • A61M5/44Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests having means for cooling or heating the devices or media
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61MDEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
    • A61M2205/00General characteristics of the apparatus
    • A61M2205/36General characteristics of the apparatus related to heating or cooling
    • A61M2205/3653General characteristics of the apparatus related to heating or cooling by Joule effect, i.e. electric resistance

Definitions

  • hypothermia is induced when large quantities of cold blood are transfused to a person. Extensive transfusions of blood often are required where a patient hemorrhages during a surgical operation and blood is usually applied substantially directly from a blood bank where blood normally is now stored at a temperature of about 4 C. It is apparent that the blood to be transfused must be warmed to about body temperature if cardiac malfunction is to be prevented.
  • This invention provides a simple, effective, and eflicient apparatus for warming cold blood and other parenteral fluids to approximately body temperature during the process of infusing such fluids into the patient. It is a feature of this invention that the temperature of the fluid leaving the warmer does not fall drastically as the rate of flow of the fluid through the warmer increases and conversely does not increase dangerously if the flow is slowed even to the point of stoppage. This feature is obtained byproviding a maximum amount of contact between the exterior surfaces of a coil of tubing through which the warmed fluid is caused to flow and a metallic heat source, source being used in the thermodynamic sense and being the opposite of a heat sink. Another feature of the invention is that the coil through which the fluid to be warmed is caused to flow is disposable.
  • ' trol means are operatively coupled to the heating means to maintain the block and liquid in the well at a substantially constant predetermined temperature.
  • a coil of flexible tubing, through which the fluid to be warmed is circulated, is removaly disposed in the well and is immersed in the liquid contained in the well. Means cooperate with the coil for urging the coil into intimate contact with the z well walls.
  • the distance transversely of the well is less than the normal transverse dimension of the coil. The coil is forcibly engaged in the well so that the tendency of the coil to return to its normal shape assures intimate contact between the coil and the walls of the well.
  • FIG. 1 is a perspective view of a fluid warmer according to this invention
  • FIG.;2 is apartially cross-sectioned elevation view of a fluid warmer showing the fluid circulating coil engaged "therein;
  • FIG. 3 is an end view of the normal configuration of the fluid circulating coil shown in FIG. 2;
  • FIG. 4 is an elevation view of the coil shown in FIG. 3;
  • FIG. 5 is an enlarged cross-sectional elevation view of a second preferred fluid fluid circulating coil according to this invention.
  • FIG. 6 is a schematic diagram of the electrical circuitry of the fluid warmer.
  • FIG. 7 is a partially cross-sectioned elevation view of a second preferred embodiment of a fluid warmer according to this invention.
  • FIG. 1 shows a fluid Warmer 10 according to this invention.
  • the warmer includes a base 11 which carries an upstanding massive rectangular metallic heat source block 12.
  • the block has an end face 13 in which an upwardly open cavity or well 14 is formed.
  • a second cavity 15 (see FIG. 2) is formed in the opposite end of the heat source block separate from well 14.
  • a three conductor electrical cable 16 is sealed to the interior of cavity 15 and at its end remote from the warmer carries a male-type electrical connector 17.
  • a pair of indicator lamps 18, 19 are mounted in the block adjacent cavity 15.
  • a carrying handle 20 is pivotally mounted to the upper end of the block.
  • the heat source block preferably is fabricated from a lightweight metal such as aluminum or aluminum alloy, although any metal may be used.
  • Well 14 has opposing planar and substantially vertical side wall surfaces 21 and 22 adjacent which the block has substantial thickness.
  • the block as shown in FIG. 1, also has substantial thickness adjacent the ends of the well.
  • a pair of resistance heaters 23 (only one of which is shown in FIG. 2) are embedded in the block, one adjacent each of surfaces 21, 22. Each heater is arranged vertically of the block and has a pair of conductors which extend into cavity 15.
  • An adjustable temperature responsive switch mechanism or thermostat 24 is also embedded in the block adjacent one of surfaces 21, 22 and has conductors which extend into cavity 15. The thick walls of the well assure that heat released from heaters 23 is distributed substantially uniformly over well surfaces 21, 22.
  • a small diameter hole 25 is drilled into block 12 from end surface 13 parallel to the well. Hole 25 is adapted to receive a thermometer 26 (see FIG. 1) which provides a visual check on the temperature of the block atany given moment.
  • a duct 27 extends upwardly from hole 25 into the well adjacent the open end of the well and assures that hole 25 is filled with fluid when the well is filled. This insures efficient heat transfer to the thermometer to insure accurate temperature indication.
  • FIGS. 3 and 4 show a parenteral fluid circulating coil 30 for use in well 14.
  • the coil preferably is fabricated from about 25 feet of flexible and somewhat resilient plastic tubing having an outer diameter of inch and an inner diameter of 4; inch, although any size tubing may be used. A small diameter tubing is preferred, however, so that the internal volume of the coil is minimized.
  • the tubing is formed into a plurality of identical elongated loops 31 having a transverse dimension d which is greater than the distance between opposing well surfaces 21, 22. Adjacent loops of the tubing are abutted against each other, as shown in FIG. 4, and are fused to one another by compressing the loops against each other at an elevated temperature with or without the presence of a solvent. Adjacent ends of the length of tubing are left uncoiled to define inlet and outlet ducts 32 and 33, respectively, for the circulating coil. Male and female connectors 34 and 35 are connected to the inlet and outlet ducts so that the coil may be connected into a blood transfusion circuit, for example. Preferably coil 30 is disposable.
  • Fluid warmer 10 is operated by filling well 14 and hole 25 with water or some other heat transfer liquid having a high specific heat. Circulating coil 30' is then inserted into the well as shown in FIG. 2. Since the distance across the well between wall surfaces 21, 22 is less than the distance d, this dimensional difference provides a mechanism which cooperates with the coil, as the coil is inserted into the well, so that the outer surfaces of the coil are intimately engaged with the walls of the cavity. The inherent resiliency of the coil further ensures intimate physical contact between the coil and the walls of the well. Connector 17 is then coupled to a source of electrical power and the warming device is allowed to stand for approximately 5 minutes.
  • Thermostat 24 operates to supply electrical power to resistance heaters 23 only when the temperature sensed by the thermostat is less than a predetermined temperature which is programmed into the thermostat.
  • the temperature programmed into the thermostat is 40 C. Since the thermostat is disposed closely adjacent the well, the temperature sensed by the thermostat is essentially the temperature of the water in the well. After the temperature of the water has stabilized, this condition be ing indicated by indicator light 19 being OFF while indicator light 18 is lit, the circulating coil is connected into the blood transfusion circuit. Normally the blood supply to which the circulating coil is connected is a bottle of blood just removed from a blood bank. The blood which enters the coil is at approximately 4 C.
  • Prior art devices for warming blood use a water bath in which is disposed a coil through which blood circulates.
  • the water of the Water bath may be heated prior to the time it is poured into the device with no heat being added to the water thereafter, or the water bath may be heated as blood flows through the coil.
  • the heat transfer rate across the coil from the bath to the blood is low in prior art devices because of the two films the heat must traverse to the blood, i.e., the films at the exterior and interior surfaces of the coil tubing. Accordingly, to provide a blood exit temperature of about body temperature, 37 C., it was necessary for prior art warming devices to use a relatively long length of tubing or to use very hot water.
  • the former expedient is not preferred since this means that a large amount of blood remains in the tubing after the transfusion is complete.
  • the latter expedient is not favored since the blood will become too hot in the periods, which are common, when the blood flow is stopped, as when a new bottle of blood is placed in the transfusion circuit.
  • the specific heat conductivity (k) of the plastic is low and this further limits the heat transfer rate across the tube.
  • Plastic tubing is preferred so that the coil can be disposable. In medical applications devices which cannot be easily cleaned are not favored and therefore the disposability of the coil is a decided advantage.
  • the exit temperature of the blood from coil 30 is approximately body temperature although the circulating coil through which the blood flows is fabricated from a short length of plastic tubing and a water bath is used.
  • This feature of the invention centers around the use of a massive container for the water, which container is heated to a temperature which also approximates body temperature, and around intimate thermal contact of the coil with the container.
  • the water container is heat source block 12 with which, as noted above, the exterior surfaces of coil 30 are intimately engaged. Heat flows directly from the block to the walls of the coil tubing and to the blood across the film which exists along the interior of the tubing.
  • the block preferably defines Walls which are as thick around the sides and the ends of well 14 as the well is Wide between wall surfaces 21, 22.
  • This construction assures that the block functions as a substantially infinite source of controlled heat to the well, to coil 30 and to the water in the well.
  • the massive construction and configuration of block 12 assures that heat lost to the space around the heating device has little effect upon the operation of the device. Accordingly, the block can be heated to a temperature only a few degrees above body temperature and still have the temperature of the liquid leaving the coil at substantially body temperature. This means that the device may safely accommodate flow rates through the coil from nothing to the maximum possible flowrate.
  • Fluid warming device 10 was operated for a period of ten minutes with the water in the well at a temperature of 40 C. Water was introduced to the coil at a temperature of 12.5 C. and was flowed through the coil at a rate of cc. per minute. After three minutes the temperature of the water leaving the coil stabilized at 347 C. and remained at this temperature for succeeding minutes. The same coilwas then placed in a conventional water bath which initially had a temperature of 41.5 C. Water at a temperature of 12 C. was flowed through the coil at a rate of 100 cc. per minute. The temperature of the water leaving the coil was 33.4" C. after one minute and at the end of ten minutes had fallen to 31.8 C.
  • FIG. 5 shows that the area of contact between the fluid circulating coil and the adjacent surface of well 14 may be maximized by fabricating coil 30 from a tubing 38 which has a rectangular cross-section. Individual loops of the coil are fused to the adjacent loops as described above.
  • FIG. 2 illustrates a coil biasing device 40 which includes a pair of substantially identical rectangular plates 41 each of which defines a plurality of transverse slots 42. The plates are connected to each other by a plurality of compression springs 43. The plates have a width corresponding substantially to the width of coil 30 as shown in FIG. 4, and a length corresponding to the uncurved length of the legs of the coil when the coil is disposed in cavity 14. The biasing device is positioned inside the coil and the coil is then inserted into cavity 14. As the coil is deformed, plates 41 are moved toward each other against the bias of springs 43.
  • Springs 43 have a low spring constant so that the force with which each plate 41 forces the adjacent leg of the coil into engagement with'well surfaces 21 or 22 is not sufiicient to collapse the tubing. Slots 42 are provided so that warm water in the well may circulate over the opposing surfaces of the coil legs.
  • FIG. 6 is a schematic diagram of the electrical components of warmer 10.
  • Connector 17 is connected to three conductors 45', 46, 47, the latter being grounded to block 12.
  • indicator lamp 18 is connected across conductors 45 and 46 and is lit when power is being supplied to the warmer.
  • Thermostatic switch 24 and heater elements 23 are series connected in parallel with pilot lamp 18.
  • Indicator lamp 19 is connected in parallel with the heater elements and is lit when the heaters are energized.
  • FIG. 7 is a partially cross-sectioned elevation view of a second fluid warmer 50 according to this invention.
  • the warmer includes a cylindrical block 51 fabricated of aluminum or some other lightweight metal.
  • the block defines an upwardly open cylindrical cavity or well 52 in which a helical parenteral fluid circulating coil 53 is disposed.
  • the walls of the well, defined by the block, are thick and have embedded therein a plurality of electrical heaters 23 (one of which is shown) and a thermostatic switch (not shown) for controlling the heaters.
  • Coil 53 has a vertical axis about which the helix of the coil is formed.
  • the walls of the well are vertical and define a helical groove 55 circumferentially of the well.
  • the groove is concave toward the well and has a radius corresponding to the outer radius of the tubing from which coil 53 is fabricated.
  • the pitch of the helical groove and the pitch of the coil helix are identical, and the diameter of the coil corresponds to the diameter of the well as measured in the groove. Accordingly, the coil is snugly engageable in the block so that individual loops of the coil mate with and are disposed in corresponding loops of helical groove 55.
  • the coil is disposed in the well so that the upper end of the coil lies below duct 27 which connects the well with thermometer receptacle 25.
  • warmer 50 is less dependent on heat transfer from the water in well 52 to fluid flowing through the coil than is the case with warmer 10.
  • Warmer 10 is smaller than warmer 50 and is therefore presently preferred since its light weight makes it easier for nurses and the like to handle.
  • Apparatus for Warming a circulating fliud comprising a metallic block defining therein an upwardly open cavity having walls and adapted to receive a quantity of liquid, means for heating the block and liquid received in the cavity, control means disposed inthe block operatively coupled to the heating means for controlling the heating means to maintain the block and liquid disposed in the cavity at a predetermined temperature, a resilient coil of tubing adapted for circulation therethrough of the fluid to be warmed removably disposed in the cavity and immersed in the liquid, and means cooperating with the coil for urging the coil into intimate contact with the walls of the cavity over a substantial portion of the length of the coil.
  • Apparatus for warming cold blood and the like during intravenous infusion thereof comprising a metallic block defining therein an upwardly open cavity bounded by thick walls, the cavity having a closed bottom and being adapted to receive a quantity of heat transfer liquid, electrical heating means embedded in the cavity walls, thermostatic means embedded in the block adjacent the cavity coupled to the heating means for sensing the temperature of the block and for controlling the heating means to maintain the block at a predetermined temperature, means coupled to the heating means and the thermostatic means for connecting said means to a source of electrical power, and a coil of tubing disposed in said cavity for mechanical contact with the cavity walls along a substantial portion of the length of the coil, said coil being configured and arranged relative to the cavity for removable insertion therein, the coil being adapted 6 for the circulation therethrough of cold blood to be heated during passage through the coil, the walls of the cavity being substantially as thick as the width of the cavity.
  • Apparatus for warming a parenteral fluid comprising a metallic block defining therein a rectangular upwardly open well having a pair of opposing wall surfaces spaced apart a predetermined distance, the well being adapted to receive a quantity of water, electrical heating means disposed in the block proximate to the well, thermostatic .control means in the block proximate to the well coupled to the heating means operable for controlling the heating means to maintain the block and water in the well at a predetermined temperature, the block defining thick walls around the well for distributing heat from the heating means substantially uniformly over said well wall surfaces, and a multi-loop coil of inherently resilient plastic tubing through which fluid to be warmed is adapted to be circulated, the loops of the coil normally having a transverse dimension greater than said predetermined distance, the loops having a length corresponding to the depth of the well, the coil being adapted for removable insertion into the well between said well wall surfaces, the coil being deformed transversely of the loops thereof as it is inserted into the well so that
  • Apparatus according to claim 3 wherein the coil is formed from tubing which has a substantially rectangular cross-sectional configuration.
  • Apparatus according to claim 3 including means disposed in the coil when the coil is disposed in the well for urging the portions of the coil which lie adjacent the well wall surfaces into contact with the wall surfaces.
  • Apparatus according to claim 6 wherein the means disposed in the coil comprises a pairjof perforate plates and means carrying the plates operable for biasing the well wall surfaces into contact with the wall surfaces.
  • Apparatus for warming a circulating parenteral fluid comprising a metallic block defining an upwardly open cavity having opposite walls spaced a selected distance apart and adapted to receive a quantity of liquid, means for heating the block and liquid received in the cavity, control means disposed in the block operatively coupled to the heating means for controlling the heating means to maintain the block and liquid disposed in the cavity at a predetermined temperature, a coil of inherently resilient plastic tubing adapted for circulation therethrough of the fluid to be warmed removably disposed in the cavity, the coil having the adjacent turns thereof secured to each other circumferentially of the coil, the coil when removed from the cavity having a maximum transverse dimension a selected amount greater than the selected distance between the opposite walls of the cavity so that each turn of the coil at opposed locations thereof is urged into intimate contact with the opposed walls of the cavity by the inherent resilience of the tubing.
  • Apparatus for warming a parenteral fluid comprising a metallic block defining therein a rectangular upwardly open well having a pair of opposing wall surfaces spaced apart a predetermined distance, the well being adapted to receive a quantity of water, electrical heating means disposed in the block proximate to the well, thermostatic control means in the block proximate to the well coupled to the heating means operable for controlling the heating means to maintain the block and water in the well at a predetermined temperature, the block defining thick walls around the well for distributing heat from the heating means substantially uniformly over said well wall surfaces, and a multiloop coil fabricated of a length of inherently resilient plastic tubing through which fluid to be warmed is adapted to be circulated, tubing fitting means secured to each end of the tubing, adjacent loops of the coil being secured to each other around the extent of the coil, the loops of the coil each having a substantially oval configuration and having a transverse dimension which normally is greater than the predetermined distance between the opposing wall surfaces of the well, the loops having

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  • Biomedical Technology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Combustion & Propulsion (AREA)
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  • General Engineering & Computer Science (AREA)
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US349869A 1964-03-06 1964-03-06 Electric heating apparatus for warming a parenteral fluid Expired - Lifetime US3370153A (en)

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GB1050364D GB1050364A (de) 1964-03-06
US349869A US3370153A (en) 1964-03-06 1964-03-06 Electric heating apparatus for warming a parenteral fluid
DED46725A DE1293954B (de) 1964-03-06 1965-03-06 Vorrichtung zum Erwaermen einer zirkulierenden parenteralen Fluessigkeit

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Cited By (36)

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US3443060A (en) * 1967-02-09 1969-05-06 Gorman Rupp Co Thermostatically controlled electric blood heating apparatus
US3475590A (en) * 1966-10-25 1969-10-28 Thermolyne Corp Thermostatically controlled electrically heated clinical blood warmer
US3485245A (en) * 1967-06-21 1969-12-23 Ibm Portable fluid heater
US3590215A (en) * 1969-03-27 1971-06-29 Thermolyne Corp Clinical fluid warmer
US3614385A (en) * 1968-07-03 1971-10-19 Bevan Graham Horstmann Blood-heating apparatus
US3629552A (en) * 1969-06-25 1971-12-21 John D Edging Heating device for parenteral fluid
DE2910478A1 (de) * 1978-03-16 1979-09-27 Braude E Ltd Tauchfaehige, elektrische heizvorrichtung
EP0122753A1 (de) * 1983-04-08 1984-10-24 Shiley Incorporated Wärmeaustauscher für extrakorporalen Kreislauf
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EP0649665A1 (de) * 1993-10-26 1995-04-26 Microwave Medical Systems, Inc. Einschubeinheit für In-Line-Mikrowellenheizgerät
US5919218A (en) * 1987-06-26 1999-07-06 Microwave Medical Systems Cartridge for in-line microwave warming apparatus
US5960160A (en) * 1992-03-27 1999-09-28 Abbott Laboratories Liquid heater assembly with a pair temperature controlled electric heating elements and a coiled tube therebetween
US6047108A (en) * 1996-10-01 2000-04-04 Baxter International Inc. Blood warming apparatus
US6139528A (en) * 1998-01-13 2000-10-31 Jireh International Corporation Intravenous warming system
US6142974A (en) * 1998-09-18 2000-11-07 Estill Medical Technologies, Incorporated Portable I.V. fluid warming system
US6467953B1 (en) 1999-03-30 2002-10-22 Medical Solutions, Inc. Method and apparatus for monitoring temperature of intravenously delivered fluids and other medical items
US6660028B2 (en) 2000-06-02 2003-12-09 Innercool Therapies, Inc. Method for determining the effective thermal mass of a body or organ using a cooling catheter
US20040199230A1 (en) * 2003-02-24 2004-10-07 Yon Steve A. System and method for inducing hypothermia with control and determination of catheter pressure
US6824528B1 (en) 1997-03-03 2004-11-30 Medical Solutions, Inc. Method and apparatus for pressure infusion and temperature control of infused liquids
US7041941B2 (en) 1997-04-07 2006-05-09 Patented Medical Solutions, Llc Medical item thermal treatment systems and method of monitoring medical items for compliance with prescribed requirements
US7090658B2 (en) 1997-03-03 2006-08-15 Medical Solutions, Inc. Temperature sensing device for selectively measuring temperature at desired locations along an intravenous fluid line
US20060291533A1 (en) * 1997-04-07 2006-12-28 Faries Durward I Jr Medical item thermal treatment systems and method of monitoring medical items for compliance with prescribed requirements
US20070161952A1 (en) * 2004-03-09 2007-07-12 Faries Durward I Jr Method and apparatus for facilitating injection of medication into an intravenous fluid line while maintaining sterility of infused fluids
US7740611B2 (en) 2005-10-27 2010-06-22 Patented Medical Solutions, Llc Method and apparatus to indicate prior use of a medical item
US20110202034A1 (en) * 2010-02-17 2011-08-18 Estill Medical Technologies, Inc. Modular medical fluid heating apparatus
US8226293B2 (en) 2007-02-22 2012-07-24 Medical Solutions, Inc. Method and apparatus for measurement and control of temperature for infused liquids
US8226605B2 (en) 2001-12-17 2012-07-24 Medical Solutions, Inc. Method and apparatus for heating solutions within intravenous lines to desired temperatures during infusion
US8690842B2 (en) 2010-09-27 2014-04-08 Estill Medical Technologies, Inc. Electrical power source for an intravenous fluid heating system
US9119912B2 (en) 2001-03-12 2015-09-01 Medical Solutions, Inc. Method and apparatus for controlling pressurized infusion and temperature of infused liquids
US9211381B2 (en) 2012-01-20 2015-12-15 Medical Solutions, Inc. Method and apparatus for controlling temperature of medical liquids
US9656029B2 (en) 2013-02-15 2017-05-23 Medical Solutions, Inc. Plural medical item warming system and method for warming a plurality of medical items to desired temperatures
US10780258B2 (en) 2015-03-10 2020-09-22 Life Warmer Inc. Thermic infusion system
CN112843395A (zh) * 2021-02-02 2021-05-28 乔艳萍 血液护理加温装置
US11707580B2 (en) 2017-09-08 2023-07-25 Life Warmer Inc. Thermic infusion system dry tube detector

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US301931A (en) * 1884-07-15 Or cooling pad
US311552A (en) * 1885-02-03 Feanz wilhoft
CH17621A (de) * 1898-09-23 1899-07-15 Gaertner Gustav Dr Professor Apparat zur Kühlung von Körperteilen
US1917331A (en) * 1930-09-29 1933-07-11 Porzellanfabrik Kahla Resistance body
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US2524522A (en) * 1948-08-24 1950-10-03 Gen Electric Flexible hose of extrudable elastomeric composition
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Cited By (61)

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EP0122753A1 (de) * 1983-04-08 1984-10-24 Shiley Incorporated Wärmeaustauscher für extrakorporalen Kreislauf
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US5919218A (en) * 1987-06-26 1999-07-06 Microwave Medical Systems Cartridge for in-line microwave warming apparatus
US5960160A (en) * 1992-03-27 1999-09-28 Abbott Laboratories Liquid heater assembly with a pair temperature controlled electric heating elements and a coiled tube therebetween
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US9492624B2 (en) 2001-12-17 2016-11-15 Medical Solutions, Inc. Method and apparatus for heating solutions within intravenous lines to desired temperatures during infusion
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US8444599B2 (en) 2005-10-27 2013-05-21 Patented Medical Solutions, Llc Method and apparatus to indicate prior use of a medical item
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DE1293954B (de) 1969-04-30

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