United States Patent 1 Nicholson et al. v
-11 3,824,992 [451 July 23, 1974 PRESSURE GARMENT [75] Inventors: James E. Nicholson, Quincy; Charles S. Lipson, Newton, both of Mass.
[73] Assignee: Clinical Technology Incorporated, Brighton, Mass.
[22] Filed: Mar. 16, 1973 [21] Appl. No.: 342,098
Primary Examiner-Lawrence W. Trapp Attorney, Agent, or Firm-Thomas N. Tarrant [57 ABSTRACT A garment to provide pulsating pressure to a lower human extremity for aiding blood circulation in the extremity and having an outer nonelastic plastic envelope sealed to an internal relatively soft envelope providing an air space therebetween for the application of pulsating pressure uniformly to a limb inserted within the inner envelope. The inner envelope has a common seam along part of its length with the outer envelope to prevent inflation pressure from displacing the two envelopes. A system of apertures in the inner envelope 5 R f renc s Cited provide for a limited gaseous passage of air from the UNITED STATES PATENTS pressurized space between the two envelopes to the 2 832 336 4/1958 Dav s et a128mm 20 surface of a limb encased within to provide breathing 1 2,834,340 5/1958 Walter l28/DIG. 20 for the 3,083,708 4/1963 Gottfried 128/D1G. 20 6 Claims, 4 Drawing Figures 1 i PRESSURE GARMENT BACKGROUND OF THE INVENTION Field of the Invention The present invention relates to pressure garments for aiding blood circulation and in particular to those for use on animal extremities to provide pulsating pressures urging venous blood from the limb and'thereby encourage introduction of arterial blood.
Description of the Prior Art In the mid s there was some recognition of the fact that thrombotic occlusion sometimes occurs as a result of poor blood circulation in the human extremities. See, for example, U.S. Pat. Nos. 2,134,646 and 2,142,689. However, there was no widespread acceptance of devices for improving the circulation. In the last few years, investigations have shown that an unexpectedly large percentage of post-operative deaths the lower extremities of a confined person is notoriously poor. It is now recognized fact that it is desirable to have a patient up and about as soon as possible after an operation in order to obtain the most favorable prognosis. But only relatively recent studies have demonstrated that the greatest benefit of this is probably due to the'reduction in thrombotic occulsion.
Early pressure garments tended to use a single pressurized envelope'with seals to the skin of the patient at the open end or ends. Since these seals were somewhat tricky in manufacture and usually cause a certain amount of irritation in use, more recent pressure garments have used double envelopes in which pressure between the two envelopes forced the inner envelope against the patients skin. US. Pat. No. 2,747,570 to Jobst and U.S. Pat. No. 3,391,692 to Spielberg describe pressure garments which are designed to provide greater pressure at the lower portion of the enclosed limb graduated to lesser pressure at the upper enclosed portion of the limb. It can be expected that such a pressure gradient would help to promote an ,undirectional flow of blood. It has been demonstrated, however, that even with blood veins in poor condition, such that the undirectional valves of the veins function inadequately, that light pulsating pressure over a large portion of a lower extremity will increase blood flow through the extremity. Accordingly, US. Pat. No. 3,083,708 to Gottfried discloses a pressure garment completely encasing the lower extremity up to the thigh for the application of light pulsating pressures without a gradient.
Most of these prior art devices have used lacings or zippers or some arrangement of air pockets resulting in complexity and increased cost. Another difficulty in prior art devices has been the use of inner envelope material uncomfortable to the skin or producing an air seal against the skin such as to prevent the skin from perspiring freely. Blocking the evaporation of skin vapors hinders the human system from controlling the skin temperature and generally causing discomfort.
SUMMARY OF THE INVENTION Now, in accordance with the present invention, a pressure garment for the animal extremities is provided which has an outer relatively stiff, nonelastic envelope supporting an inlet stem for the application of pulsating gaseous pressure. An inner soft plastic envelope has an open end sealed to the open end of the outer envelope and is further bonded along the longitudinal line to the outer envelope. The inner envelope further has a plurality of breathing pores to provide for the passage of applied gaseous media past the inner envelope and along the skin of the wearer to enable natural breathing of the skin.
Thus it is an object of the invention to provide a novel pressure garment for improving blood circulation in animal extremities.
It is a further object of the invention to provide a double envelope pressure garment carrying breathing pores in its inner envelope for the passage of air along the skin of the wearer.
It is a further object of the invention to provide a novel pressure garment for an animal extremity comprising an outer nonelastic plastic envelope and an inner soft plastic envelope sealed to said outer envelope so as to provide a pressurizable pocket therebetween. 4 i
It is a further object of the invention to provide a pressure garment for the lower limb consisting of inner and outer envelopes, each closed at one end and sealed together at their open end being further bonded together along their length from the open end extending towards the closed end.
Further objects and features of the invention will become apparent upon reading the following description together with the drawing.
BRIEF DESCRIPTION OF THE DRAWING FIG. 1 is a left side elevation of a garment according to the invention with a portion of the outer envelope cut away at the toe.
FIG. 2 is a right side elevation of the garment of FIG. 1.
FIG. 3 is a left side elevation with a portion of the outer envelope cut away of a second embodiment of the invention.
FIG. 4 is a side elevation of a third embodiment of the invention. DESCRIPTION OF THE PREFERRED I EMBODIMENTS A boot-like garment for providing pulsating pressures to the foot and lower leg is depicted in FIG. 1. The garment hasouter envelope 10 made of clear semirigid 8 mil vinyl plastic.Envelope 10 is made offirst sheet 11 and second sheet 12 (FIG. 2) acting as left and right sides thermally bonded together all around their perimeters except at open-end 14. Other materials may be used and may be sealed together by other methods. The material need not be transparent, but it must be impermeable to most fluids and resistant to stretching to permit an internal pressure equal to at least 40 mm of mercury at sea level.
Inner envelope 15 is made of soft elastic 4 mil matte vinyl. Envelope 15 is made ofthird sheet 16 andfourth sheet 17 acting as left and right sides thermally bonded together all around their perimeters except atopen end 14. Again other materials may be used and may be sealed together by other methods. The material should be sufficiently soft and compliant to mold itself under pressure to a foot and lower leg without producing discomfort by way of nonuniformity in contact pressures. Materials that are insufficiently soft and compliant will frequently develop relatively stiff wrinkles and resultant nonuniformity in contact.
. I j 3 a Atopen end 14,sheets 11 and 16 are thermally sealed together andsheets 12 and 17 are thermally sealed together. This forms a completely enclosed space or pocket in between envelopes and 15.
Because the outer envelope is semirigid, there would i be a'loss of free movement of the enclosed limb if the inner and outer envelopes were secured together along their entire perimeters. However, on the application of pressure between the envelopes, inner envelopes is urged 'to extrude from outer envelope '10. This is avoided by bondingenvelopes 10 and 15 together along part of a longitudinal seam. In the boot-like configuration of FIGS. 1 and 2 this is accomplished by thermal bonding of the rear seams ofenvelopes 10 and 15 together fromopen end 14 toheel portion 18. The remainder offoot portion 20 ofenvelope 15 remains free floating inside envelope l0.
Envelope 10 carries port2l for applying and withdrawing fluid or for applying elastic waves to a contained fluid.Port 21, as depicted, consists of a reinforcingelement 22 andstem 24 of tubing supported by and sealingly connected toelement 22.Element 22 andstem 24 may be made of metal, rubber'or'plastic withpores 25 near the closed end allows fluid passing therethrough to effect ventilation along the entire length of the garment. By having port'21 nearpores 25, any significant pressure gradient due to fluid flow throughpores 25 is avoided.
Pores 25 must have a total combined area less than the inside diameter ofport 21. This is necessary so that fluid can be readily provided throughport 21 at a rate faster than itexhauststhrough pores 25.
FIG. 3' depicts a boot-like garment similar to that of FIGS. 1 and 2 except that apertures 25am replaced by a separate source of ventilating gas. A softflexible tube 26 from outside. of the garment, extends through the open end tofoot portion 20.Tube 26 lies inside ofinner envelope 15 and preferably is bonded to the envelope along its length so as to avoid interference with the insertion or withdrawal of a limb.Tube 26 has anopen end 27 in the vicinity offoot portion 20 for releasing ventilating gas.
In order to provide a pressure gradient from the closed end toward the open end of the garment,apertures 28 in eitherinner envelope 15 orouter envelope 10 may be provided.Apertures 28 similar toapertures 25 should have a total combined arealess than that ofport 21. With a continuous pressure maintained betweenenvelopes 10 and 15, flow throughapertures 28 will cause a pressure drop along the length of the garment resulting in a pressure gradient. This gradient can be controlled as desired by the size ofenvelope 10, the relationship between effective areas ofport 21 andapertures 28 and the location ofport 21 andapertures 28.
A garment useful over a fore limb is depicted in FIG. 4.Outer envelope 30 made similar toenvelope 10 of FIG. 1 is generally rectangular in shape and carries 4 inner envelope 3l'much the same asenvelope 15 of FIG. 1 except for shape. The outer envelope is bonded to thein'rier envelope atopen end 32 and alongseams 34 towrist position 35.Port 36 is provided for connection to a source of fluid under pressure and series of apertures 37 near the closed end ofenvelope 31 are provided for ventilation. Means for providing an independent ventilation source or a pressure gradient such as described with relation to FIG. 3 are contemplated.
While the invention has been described with relation to a specific embodiment, various other configurations are contemplated. For example, the boot-like garment of FIGS. 1 through 3 can be made in various lengths covering less or up to the entire length of the limb. Similarly a garment such as in FIG. 4 for a fore limb may be made in various lengths and may have more conformance in shape than that shown. Thus it is intended to cover the invention within the full scope of the following claims.
We clairn:
1. In a garment for an-animal body extremity consisting of inner'and outer envelopes forming a pockettherebetween' for the periodic application of fluid pressure to stimulate flow of vascular fluids, the combination in said inner envelope comprising:
a. A soft compliant envelope material readily moldable to an animal body under light pressure;
b. Anopen-ended proximal portion to said inner envelope; I
c. A closed distal portion to said inner envelope;
.d. A fluid impermeable seam connecting the open end of said proximal portion to said outer envelope; I
e. A longitudinal seam along the length of said proximal portion connected to said outer envelope;,,and,
f. A complete separation between the distal portion of said inner envelope and said outer envelope whereby the distal portion of said inner envelope has freedom of movement within said outer envelope. I
2. In a garment according to claim 1 the combination in which said distal portion is perforated by a plurality of small'apertu'resfor allowing a gaseous flow between said inner envelope and along the surface of said animal body.
3. In a garment according to claim 1 the combination in which said distal portion is shaped to accomodate a foot.
4. In a garment according to claim 1, the combination with said inner envelope of a flexible tube extending from the exterior through said open ended proximal portion and extending into the proximity of said closed distal portion whereby to provide a flow -of ventilating gas between said first envelope and said limb.
5. A garment for enhancing blood circulation in an animal body comprising:
a. A first envelope of soft compliant synthetic resin open at one end and closed at the other for insertion of an animal limb;
b. A second envelope of semirigid synthetic resin exterior to said first envelope and sealed to said first envelope at said open end'to form a pocket therebetween;
c. Port means connected to said second envelope for introducing gas between said second envelope and said first envelope so as to compress said first envelope against said limb; and,
d. A plurality of pores in said first envelope in the proximity of the closed end for providing a ventilating flow of gas between said first envelope and said limb, the total area of said pores being less than the area of said port means.
6. A garment having an open end and a closed end for enhancing blood circulation in an animal body comprising:
a. A first envelope of soft compliant synthetic resin open at one end and closed at the other for insertion of an animal limb;
b. A second envelope of semirigid synthetic resin exterior to said first envelope and sealed to said first envelope at said open end to form a pocket therebetween;
c. Port means connected to said second envelope proximate to said closed end for introducing gas between said second envelope and said first envelope so as to compress said first envelope against said limb; and,
d. A plurality of apertures located in said garment proximate to said open end, whereby on the application of fluid pressure at said port means, fluid flow through said apertures provides a pressure gradient entending from a relatively high pressure at said closed to a relatively low pressure at said open end.