US2140898A - Method of and apparatus for producing intermittent venous occlusion - Google Patents

Method of and apparatus for producing intermittent venous occlusion Download PDF

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US2140898A
US2140898A US48748A US4874835A US2140898A US 2140898 A US2140898 A US 2140898A US 48748 A US48748 A US 48748A US 4874835 A US4874835 A US 4874835A US 2140898 A US2140898 A US 2140898A
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pressure
venous
extremity
period
cuff
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William S Collens
Nathan D Wilensky
Stanley A Kroll
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U M A Inc
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U M A Inc
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    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61HPHYSICAL THERAPY APPARATUS, e.g. DEVICES FOR LOCATING OR STIMULATING REFLEX POINTS IN THE BODY; ARTIFICIAL RESPIRATION; MASSAGE; BATHING DEVICES FOR SPECIAL THERAPEUTIC OR HYGIENIC PURPOSES OR SPECIFIC PARTS OF THE BODY
    • A61H9/00Pneumatic or hydraulic massage
    • A61H9/005Pneumatic massage
    • A61H9/0078Pneumatic massage with intermittent or alternately inflated bladders or cuffs
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10TECHNICAL SUBJECTS COVERED BY FORMER USPC
    • Y10STECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y10S128/00Surgery
    • Y10S128/20Inflatable splint

Definitions

  • Our present invention relates generally toA a method of increasing collateral circulation in the treatment of peripheral vascular disease, and more particularly it relates to a novel method of, and apparatus for, producing intermittent venous occlusion in an extremity wherein there exists deficient circulation.
  • Another object of this invention is to provide,
  • a method of, and means for, obstructing the returning venous blood in the diseased extremity in peripheral vascular disease Without in any manner interfering with thev marked arterial ow through the collateral arterial network of the diseased and blocked artery; and then repeating this cycle of alternate venous obstruction and release over a period of 1 time'suiilcient to produce alleviation of pain and 5 increase vascular capacity as determined by functional. tests.
  • Still another object of our present invention is to provide an apparatus for automatically producing alternate venous obstruction and release 10 in an extremity, the apparatus, in its broadest aspect, comprising a means for obstructing the flow of venous blood; a device for positively maintaining the said obstruction means operative for l a predetermined period of time; the obstruction l5 means being rendered inoperative at the end ofthe period whereby the venous flow is resumed; the aforesaid device being further constructed to prevent actuation of the obstruction means for a predetermined period of time, and there being provided a time-responsive mechanism for permitting repetition of this cycle as many times as is required.
  • Still other objects of the invention maybe stated to reside in the general improvement of mechanical devices for treating peripheral vascular diseases, and more especially to provide a device which is not only mechanically reliable, ⁇ durable and vefficient in operation, but is further characterized by its relative simplicity of assembly and manipulation.
  • FIG. 3 shows schematically an apparatus adapt-"yA ed to perform the functions provided bythis in""h vention, A v
  • Fig. 4 shows a sectional detailof the-,timing device. M
  • Fig. 1 which ⁇ rl matically illustrates the relationbetwee ⁇ venous and arterial networksV inanv extremit whose circulation is impaired by peripheral vaslextremity, but creates a dangerous vulnerability to a gangrenous condition. Regardless of the pathological cause of the deficient circulation, the
  • Fig. l illustrates a general state of obstruction in the popliteal artery.
  • the shaded portion within the popliteal artery designates a thickening of the vessel wall, or perhaps a deposit on the inner walls; the normal ow of arterial blood (in the direction of the arrows) has been obstructed.
  • the main artery is shown dividing into the anterior and posterior tibial arteries; the anterior and posterior tibial veins are seen joining to form the deep saphenous vein which subsequently empties into the general circulation.
  • the sense of venous flow is shown by the arrows directed upwards.
  • the small arteries branching off from the main trunks are not shown in detail; it is to be understood, however, that the reference letter C denotes the condition existent when the small arteries unite, or anastomose, with others near them very freely. This condition is well known to occur to such an extent, that when even a large artery is blocked a certain degree of collateral circulation iscarried on by the communications between the arterial branches above and below the obstruction in the normal channel. In peripheral vascular diseases, however, this collateral circulation is inadequate to provide sufficient circulation to replace the normal arterial flow. The problem, then, is to restore circulation, and, if possible, to utilize the collateral circulation, thus by-passing the obstructed main artery.
  • a pneumatic cuff is applied at mid-thigh position; the cuff is there positioned so that when inflated it prevents the returning ow of venous blood.
  • the cuff is inflated to a pressure above intravenous pressure, for example 40 mm. of mercury pressure and maintained at this pressure for a period of time, an increase in arterial circulation occurs in the extremity, and more extensively during the release of this pressure.
  • the pressure employed during occlusion is preferably below the normal arterial pressure mm. mercury), and is above the venous pressure (10 mm).
  • the 11:: of venous occlusion pressure above arterial pressure is encompassed within the scope of this invention. It has been found that during the release of the venous occlusion there occurs an active vaso-dilatation of the arteries and an increase in arterial flow of as much as 600 per cent, depending upon the degree and duration of the applied venous congestion.
  • plethysmographic methods show an increase in the volume of the extremity upon application of a cuff for venous occlusion; the degree of increase in volume being directly proportional to the pressure increase.
  • release of the pressure results in a fall of volume followed by a secondary rise.
  • the secondary rise, followed by a nal decrease in extremity volume represents an actual increase in arterial flow far above normal flow.
  • Fig. 2 graphically portrays the increase in extremity volume as the cuif pressure is maintained; the initial drop of volume upon release of the pressure; and the hump with its increased amplitude of arterial oscillation thereby showing a greatly increased arterial flow.
  • the technique consists in applying venous compression with a pneumatic cuff, at mid-thigh or mid-arm, at a pressure of 40 mm. of mercury, alternating with release at two minutes each over periods as long as 12 hours a day continuously.
  • the pressure employed in the cuff, the duration of the treatment, as Well as the period of alternation, isvariable; it will depend to a great extent upon the clinical picture presented by the patient prior to treatment.
  • This routine not only produces alleviation of pain in the diseased extremity and increase of vascular capacity, but is performed by an apparatus, to be hereinafter disclosed, imposing a minimum of discomfort and inconvenience to the patient. Further, consistent'use of the method is followed by restoration of the impaired circulation to a point where normal activities may be resumed. In cases where a gangrenous condition exists, the latter is arrested thereby limiting surgical treatment.
  • This method of applying intermittent venous occlusion to provide a substitute for the obstructed main artery is accomplished in an automatic manner by employing the mechanism schematically shown in Fig. 3.
  • the apparatus shown in Fig. 3 comprises a means for rendering operative a venous occlusion device, the pressure applied to produce occlusion being substantially above normal venous pressure; a time-controlled mechanism functioning to render the occlusion device inoperative upon the elapse of a predetermined period of time and operative again upon the passage of a predetermined period of time, and the timing mechanism being constructed and arranged to repeat the cycle of occlusion and release over a desired treatment period.
  • the system shown in Fig. 3 comprises a pneumatic, or balloon, cuif I of usual design.
  • the cuff is customarily a hollow body of rubber, or other suitable elastic material, and is band-like in design.
  • the cuff is usually provided with a binder (not shown) for securing the cuil in operative encircling position (see Fig. 1) on the extremity under treatment.
  • 'Ihe cuiT is provided with a pair of ports 2 and 3, the port 2 being coupled, through rubber tubing 4, to an arm 5' of the three way coupling 5.
  • the port 2 of the cuff is the intake, or' inflation, port, inflation of the cuff being accomplished through the agency of an air pump, or compressor, 6.
  • the latter is shown arranged to be operated by a motor 1.
  • the dotted line 8 is to be understood as designating the mechanical drive between the motor and pump 6.
  • the pumpitself need only be of conventional design, provided with air inlet 9 and outlet I0.
  • the air outlet I0 is coupled to the arm
  • a rubber tubing I5 couples the outlet of the check valve to arm II; rubber tubing I6 connects the pump outlet I0 toval've seat I2.
  • the third arm I1 is coupled, through rubber tubing I8, to the inlet end of the air pressure release valve.
  • the latter may be of any desired conventional type, the type shown being usually employed in automobile tires, is well known to those skilled in the art. It comprises, as usually constructed, a tubular casing 2
  • the end of the spring 23 opposite to valve member 22 is ilxedly secured to a sleeve, or bushing, and the latter is ⁇ provided with an opening through which stem 24 extends to be guided thereby.
  • the valve member 22 is provided with a stem 25 terminating in a head 26, which stem extends through a bore in the valve seat 2
  • the head 26 is urged into air pressure release position by the arm 30 of and the bore in the seat per- 32 the arm 3
  • the armature 32 is pulled into its pressurerelease position by an electro-magnet 40, the
  • of the electro-magnet is connected to one side of the 60 cycle A. C. source through a path including lead 42, fuse 43, an on-off switch, lead 45.
  • the 60 cycle A. C. source isthe usual lighting mains, but it is to be clearly understood that any other current source may be utilized in this connection.
  • a direct current source may be used; and the source maybe of the power line or battery type.
  • the on-ofi switch 44 may be of any conventional snap, or toggle, switch construction. For the purposes of the present disclosure it is sufficient to point out that it comprises a pair of contacts 46 and 41, and a contactor 48. The latter element is mechanically coupled to a manually manipulable member 49 in a manner such that adjustment of member 49 in the direction of the arrow resultsvin electrical connection between contacts 46 and 41.
  • the mechanical coupling between member 49 and contactor 48 is represented by a dotted line. This coupling is extended to simultaneously actuate a pin, or lever arm, 5
  • is rigidly afxed to coupling 50, (which may, for example, be a rod extending from the contactor adjusting stub and flxedly carrying the member 5
  • is constructed and arranged so that as the on-off switch-is moved to open position, the member 5
  • the alternating current source is connected to terminal 60 of the magnet through a path including lead 6
  • the disc 63 has aflixed toa face thereof a conof each opening. Further, the width of each opening 66, along the circle of rotation is so chosen as to permit the contactor 66 to be in electrical connection with contactor 62, through disc 63, for the predetermined period of time desired for venous occlusion, and the latter may be, for example, two minutes. To break the electrical connection between the contactors 62 and 66, the discs 66 and 65 are simultaneously rotated until the contactor 66 is out of a given opening 66 and rests on the insulation disc between the last opening and the succeeding one.
  • this release period may be, by way of example, two minutes in duration.
  • discs 63 and 65 function as a timing mechanism to control the ination and deflation of balloon cuff l. Again, the control is carried out in a periodic manner by rotation of the discs. This is most effectively accomplished by means of a synchronous motor 61 which is operated from the A. C. source. Any other type of constant speed device, as a spring clock movement, may be used. 'Ihe synchronous motor may be of any well known type employed in clocks of the type energized from a 60 cycle A. C. source. For example, such a clock is known by the trade-mark Telechron; the synchronous motor of this type of clock is self-starting. The motor 61 rotates the discs 63, 65 one complete revolution in 60 minutes; a mechanical coupling indicated by dotted line 68 between the discs and the motor 61 serves to produce this rotation.
  • the motor 61 is not energized to rotate the discs 63, 65 until the contactor 48 is in electrical contact with elements 46 and 41.
  • the insulation disc 65 can be fabricated of paper 0f good wearing resistance, a phenol condensation product, hard rubber or any other suitable material; it may be cemented to the metallic disc 63, or anixed thereto in any other desired manner.
  • the disc 63 is, of course, very much thicker than the insulation disc so as to furnish a rigid foundation.
  • the composition of the disc 65 should be such that it withstands wear due to sliding contact with contactor rE54, and is electrically non-conductive.
  • the disc 63 should be electrically conductive, and be composed of a metal such as copper in order to have good electrical and wearing qualities, and be rigid.
  • the motor 1 adapted to be operated from an A. C. source, has one terminal 10 thereof connected to one side of the A. C. source through a path including lead 1l, lead 12, lead 5i.
  • the terminal 13 of the motor connects to the other side of the A. C. source through the following path: lead 14, pig-tail connection 15, pivotal contactor 16, contact 11, lead 18, lead I9, lead 80, and to lead 45 through the on-off switch.
  • the contactor 16 is adjusted to motor-energizing position when the metallic armature 8
  • the magnetic relay 62-81 may be of the'same type as relay 46-32; normally the pivoted armature rests against stop 6
  • the dotted line 83 designates the mechanical coupling between contactor 16 and armature 8i; that is, the contactor moves in unison with armature 6I, but is not in electrical connection therewith. Electro-magnetic relay constructions of this type are well known to those skilled in the art, and therefore no further description is believed necessary. v
  • the energization of electro-magnet 82 depends in turn upon armature 32, and whether or not it has been attracted by coil 40.
  • the circuit including electro-magnet 82 may be traced in the following manner: terminal 84 connects to one side of the A. C. source through a path including lead 80, the .”on-off switch and lead 45, Terminal 85 of the magnet connects to the other side of the A. C. source through a path including lead 86, contact 81, contactor 88, flexible pig-tail connection 89, lead 9
  • the contactor 88 is constructed, as in the case of contactor ⁇ 16, to be movable in unison with armature 32.
  • the dotted line 94 denotes the mechanical coupling between armature 22 and contactor 88; the construction is such that when armature 32 is attracted towards electro-magnet 50, by energization of the latter, the contactor 88 is pulled away from contact 81. Therefore, it will be seen that when the release valve is actuated to deflate the cuff, then the pump motor circuit is automatically maintained in de-energized state.
  • the venous occlusion pressure is ofthe order of 40 mm. of mercury. That is, the cu is inflated
  • wire, 93 has one end thereof disposed below the surface of the mercury column, the opposite end of conductor 93 protruding through aperture 96, and being electrically connected to leads 1
  • the other leg of the U tube is coupled to the port 3'of the balloon cuff.
  • a rubber tubing 91 has one end thereof coupled to port 3, 'the opposite end being coupled to a short, tubular, metallic connector 98.
  • the outlet end of connector 98 is coupled, by rubber tubing 99, to the pressure leg of the'U tube.
  • has one end
  • the opposite end of the wire is gripped between an adjustable tap screw and the inner surface of connector 98 as shown.
  • is in threaded engagement with the connector 98, and
  • the indicator and maximum pressure mercury limiter switch can be omitted, if it is desired, or any other type of pressure indicating device, as a diaphragm type of gauge, may be used.
  • the pump motor, or pump'itself could be provided with any well known type of governing mechanism to keep the inflation pressure from exceeding a desired maximum occlusion pressure.
  • An additional visual indicator device which may be employed, if desired, is shown in the system.
  • 08 has one terminal thereof connected, in common, to one side of each of lamps
  • the contactar cooperates with contacts
  • the contactor 64 leaves an opening 66 and breaks the magnetic pull on armature 32, the contacter 88 falls therewith and closes the circuit through electro-magnet 82 thereby attracting armature 8
  • 04 is, as a consequence, energized through a path which is traced from contact
  • 03 of course, is de-energlzed; hence the operator is informed that the pump motor circuit is closed and the cuff is inflating.
  • a method of increasing the blood circulation through an extremity whose arterial flow is insufficient which includes the steps of obstructing the venous flow solely at a relatively narrow zone of the proximal portion of said extremity for a relatively short period of time without interfering with the arterial flow therethrough, removing the obstruction at the end of said period, restoring the said venous flow obstruction at said zone after the expiration of a audace relatively short period of time, and alternating lileompressing action being performed at a pressure the said obstruction removal and restoration at said zone at a predetermined frequency over a relatively long period of time.
  • a method of increasing the collateral arterial circulation in an extremity Whose main arterial flow is impaired which consists in applying pressure of between l0 and 120 mm. oi mercury solely at a narrow zone of the proximal portion of the extremity thereby to produce only venous occlusion in the extremity, withdrawing said pressure at the end of a predetermined time interval which has a duration sumciently long to cause substantial hyperemia when the pressure is released, permitting normal venous flow in the extremity for a predetermined time interval after said pressure withdrawal, and repeating said cycle of pressure application and withdrawal for a period of time sumcient to produce said increased collateral circulation.
  • a method which includes the steps of applying a narrow inflatable cuff across the proximal portion of an extremity, inflating the cuil' to a pressure Well above the venous pressure but substantially below the arterial pressure and in the regio-n of 40 to 60 mm. of mercury thereby obstructing the venous now through the extremity, maintaining the cuil ⁇ inated at said obstruction pressure for a relatively short period of time, then deating the culi' for a corresponding time period, and continuously repeating the said cycle of cui ⁇ inflation and deflation a*L said frequency for a relatively long period of time.
  • a method of producing an increased arterial circulation in a leg having decient arterial circulation which includes the steps of compressing the extremity at the mid-thigh section only and to an extent sufficient substantially to prevent only venous flow, maintaining the section com pressed for a substantial period of time, ending the compressing action at the termination of said period, and continuously and periodically repeating the aforesaid cycle of compression and compression-withdrawal over a period of time which is relatively long compared to said rst period.
  • a method of operating an intermittent venous occlusion apparatus toincrease the collateral blood circulation in an extremity of the human body including an inflatable narrow cuff which is adapted to encircle solely a proximal portion of the extremity, the apparatus including an inflatable narrow cuff which is adapted to encircle solely a proximal portion of the extremity, the apparatus including an inflatable narrow cuff which is adapted to encircle solely a proximal portion of the extremity
  • a method of operating an intermittent venous occlusion apparatus to increase the collateral blood circulation in an extremity of the human body including an inflatable cuff which is adapted to encircle a proximal portion of the extremity, the method comprising periodically inflating and defiating said cuiT at predetermined short time intervals, maintaining the cuff inated with air under a pressure of approximately 40 to 60 mm.

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  • Health & Medical Sciences (AREA)
  • Epidemiology (AREA)
  • Pain & Pain Management (AREA)
  • Physical Education & Sports Medicine (AREA)
  • Rehabilitation Therapy (AREA)
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Description

Dec. 20, 1938.
W. S. COLLENS ET AL.
METHOD OF AND APPARATUS FOR P RODUCING INTERMITTENT VENOUS OCCLUSION 2 sheets-sheet 1 Filed Nov. '7, 1935 uP-POSTERIOR rma/xe. ARTERY Y R Wm E R AV .L L mm Bmw WT.. R R mm. Rm ET TN NA A PVENOUS OCCLUSIDN-LVENOUS RELEASE TlM-P FIG.
WILLIAM 5. COLLENS NATHAN 1D. WILENSKY STANLEY A. mou.
YNVENTORS MMM/M@ ATTORNEY 2,140,&98
W. S. COLLENS ET AL Dec. 20, 193s.
METHOD OF AND APARATUS FOR PRODUCING INTERMITTENT VENOUS OCCLUSION 2 Sheets-Sheet 2 Filed Nov., 7, 1935 WILLIAM s. coLLENs NATHAN D. WILENsKY .L L m.
KM E Aw m YNPAW EE T .NLM A A,\|. T 5
Cnl
Patented Dec. 20, 1938 ME'rnoD' lor AND APPARATUS FOR PRO- DUCING INTERM'ITTENT VENOUS OCCLU- sToN William S. Collens, Nathan D. Wilensky, and Stanley A. Kroll, Brooklyn, N. Y., assirnors to U. M. A. Inc., New York, N. Y., a corporation of New York Application November' .7, 193s. `sei-lai Nn. 48,748
8 Claims.
Our present invention relates generally toA a method of increasing collateral circulation in the treatment of peripheral vascular disease, and more particularly it relates to a novel method of, and apparatus for, producing intermittent venous occlusion in an extremity wherein there exists deficient circulation.
In the past it has been proposed to treat peripheral vascular disease in a wide variety of ways. The treatments have all sought this common goal: to stimulate the circulation in the diseased extremity in such a manner that tl`e effect of obstructed arterial ow is compensated for. Such prior procedures not only utilize drugs and surgery, but also employ postural exercises; physiotherapy; and mechanical methods. It cannot be said that any of these earlier proposals is adequate.
It is self-evident that for any treatment to be adequate and offer relief, it must be consistent in action when repeated with different patients; it should, additionally, impose a minimum amount of danger, discomfort or pain upon the patient; it should be productive of a substantial improvement in the collateral circulation of the diseased extremity over a usefully wide period of time. The various measures proposed in the past have failed toaccomplish one or more of these objects.
It may, therefore, be stated that it is one of the main objects of the present invention to adequately meet the above requirements in the treatment of peripheral vascular diseases of the type wherein deficient circulation. either temporary or permanent, is the offending factor, the present treatment employing a novel mechanical method of stimulating and increasing collateral circulation in the `diseased extremity. Another important object of the invention may be stated to reside in the provision of a method of, and apparatus for, producing 'intermittent venous occlusion in an extremity and consequent active. vaso-dilatation of the arterioles, thereby achieving marked increase in collateral circulation. Y
Another object of this invention is to provide,
from a generic viewpoint, a method of, and means for, obstructing the returning venous blood in the diseased extremity in peripheral vascular disease Without in any manner interfering with thev marked arterial ow through the collateral arterial network of the diseased and blocked artery; and then repeating this cycle of alternate venous obstruction and release over a period of 1 time'suiilcient to produce alleviation of pain and 5 increase vascular capacity as determined by functional. tests.
Still another object of our present invention is to provide an apparatus for automatically producing alternate venous obstruction and release 10 in an extremity, the apparatus, in its broadest aspect, comprising a means for obstructing the flow of venous blood; a device for positively maintaining the said obstruction means operative for l a predetermined period of time; the obstruction l5 means being rendered inoperative at the end ofthe period whereby the venous flow is resumed; the aforesaid device being further constructed to prevent actuation of the obstruction means for a predetermined period of time, and there being provided a time-responsive mechanism for permitting repetition of this cycle as many times as is required. l
Still other objects of the invention maybe stated to reside in the general improvement of mechanical devices for treating peripheral vascular diseases, and more especially to provide a device which is not only mechanically reliable,` durable and vefficient in operation, but is further characterized by its relative simplicity of assembly and manipulation. f
AThe novel features which we believe to be characteristic of. our invention are set forth particularly in the appended claims; the invention it self, however, as'toboth its organization and' method of operation will best be understoodby reference to the following description taken in connection with the drawings in which we have indicated diagrammatically a construction whereby our' invention may be carried into effect. y In the drawingst- '1 Fig. 1 is a schematic representation of a dis-k eased extremity under treatment,` l Fig. 2 is a graphic analysis of the effect of the4 l present apparatus on the arterial iiovv, ,Y
Fig. 3 shows schematically an apparatus adapt-"yA ed to perform the functions provided bythis in""h vention, A v
Fig. 4 shows a sectional detailof the-,timing device. M Referring now to the accompanying draw attention is first directed to Fig. 1=which`rl matically illustrates the relationbetwee` venous and arterial networksV inanv extremit whose circulation is impaired by peripheral vaslextremity, but creates a dangerous vulnerability to a gangrenous condition. Regardless of the pathological cause of the deficient circulation, the
latter condition results from the development in the main'artery of an obstruction to normal flow. Without in any way intending to show any particular case, the representation in Fig. l illustrates a general state of obstruction in the popliteal artery. The shaded portion within the popliteal artery designates a thickening of the vessel wall, or perhaps a deposit on the inner walls; the normal ow of arterial blood (in the direction of the arrows) has been obstructed. As a result of this obstruction, the disturbances mentioned above follow. The main artery is shown dividing into the anterior and posterior tibial arteries; the anterior and posterior tibial veins are seen joining to form the deep saphenous vein which subsequently empties into the general circulation. The sense of venous flow is shown by the arrows directed upwards.
The small arteries branching off from the main trunks are not shown in detail; it is to be understood, however, that the reference letter C denotes the condition existent when the small arteries unite, or anastomose, with others near them very freely. This condition is well known to occur to such an extent, that when even a large artery is blocked a certain degree of collateral circulation iscarried on by the communications between the arterial branches above and below the obstruction in the normal channel. In peripheral vascular diseases, however, this collateral circulation is inadequate to provide sufficient circulation to replace the normal arterial flow. The problem, then, is to restore circulation, and, if possible, to utilize the collateral circulation, thus by-passing the obstructed main artery.
In the past various expedients have been proposed and tried to solve the problem. For example, and without detailed discussion, there have been proposed bed rest; physiotherapy'of different types; postural exercises; elimination of spasm-producing substances, such as ergot foods and tobacco; vaso-dilatation by drugs, heat and surgery; fluid injections of different types; mechanical methods of improving circulation through the obstructed artery itself by alternate suction and pressure; femoral vein ligation.
To appreciate the functioning of the present method of treatment, let it rst be assumed that a pneumatic cuff is applied at mid-thigh position; the cuff is there positioned so that when inflated it prevents the returning ow of venous blood. If, now, the cuff is inflated to a pressure above intravenous pressure, for example 40 mm. of mercury pressure and maintained at this pressure for a period of time, an increase in arterial circulation occurs in the extremity, and more extensively during the release of this pressure. The pressure employed during occlusion is preferably below the normal arterial pressure mm. mercury), and is above the venous pressure (10 mm).` It is to be understood that since reactive hyperemia can also be produced at the release of pressures above arterial pressure.,`
therefore, the 11:: of venous occlusion pressure above arterial pressure is encompassed within the scope of this invention. It has been found that during the release of the venous occlusion there occurs an active vaso-dilatation of the arteries and an increase in arterial flow of as much as 600 per cent, depending upon the degree and duration of the applied venous congestion.
Observation shows an increase in arterial flow, during release of the venous occlusion, in the collateral circulation C from 10 c. c. per 100 c. c. tissue per minute to a value of 60 c. c. per 100 c. c. tissue per minute. This action results in a highly satisfactory improvement in circulation of the extremity when utilized in the manner to be further described.
It is not thought necessary for the purposes of this application to enter into a detailed discussion, or analysis, of the physiological relation between the venous occlusion and release, and increase in the collateral circulation C. It is believed sufficient to point out that plethysmographic methods show an increase in the volume of the extremity upon application of a cuff for venous occlusion; the degree of increase in volume being directly proportional to the pressure increase. After maintaining the pressure for a period of time, release of the pressure results in a fall of volume followed by a secondary rise. The secondary rise, followed by a nal decrease in extremity volume, represents an actual increase in arterial flow far above normal flow. Fig. 2 graphically portrays the increase in extremity volume as the cuif pressure is maintained; the initial drop of volume upon release of the pressure; and the hump with its increased amplitude of arterial oscillation thereby showing a greatly increased arterial flow.
This cycle of venous occlusion and release is repeated over and over again with the result that an arterial flow is developed in the collateral circulation C, see Fig..1, suiilcient to compensate for the effects of the obstructed main artery. We have found that sustained venous compression at 30 to 60 mm. of mercury for two minutes, followed by a release of this pressure for another two minutes, resulted in highly satisfactory clinical reports. Preferably, the technique consists in applying venous compression with a pneumatic cuff, at mid-thigh or mid-arm, at a pressure of 40 mm. of mercury, alternating with release at two minutes each over periods as long as 12 hours a day continuously. Of course, the pressure employed in the cuff, the duration of the treatment, as Well as the period of alternation, isvariable; it will depend to a great extent upon the clinical picture presented by the patient prior to treatment.
This routine not only produces alleviation of pain in the diseased extremity and increase of vascular capacity, but is performed by an apparatus, to be hereinafter disclosed, imposing a minimum of discomfort and inconvenience to the patient. Further, consistent'use of the method is followed by restoration of the impaired circulation to a point where normal activities may be resumed. In cases where a gangrenous condition exists, the latter is arrested thereby limiting surgical treatment. This method of applying intermittent venous occlusion to provide a substitute for the obstructed main artery, is accomplished in an automatic manner by employing the mechanism schematically shown in Fig. 3.
Since the system employed is purely illustrative in nature, the various mechanical, as well as electrical circuit, elements are conventionally represented. It is to be clearly understood, furthermore, that many variations of the different components of the system are possible. What is essential in the construction of the present .apparatus is that the elements of the system cooperate to perform, in a continuous and automatic manner, the successive steps of the method described above. l*
From a generic aspect the apparatus shown in Fig. 3 comprises a means for rendering operative a venous occlusion device, the pressure applied to produce occlusion being substantially above normal venous pressure; a time-controlled mechanism functioning to render the occlusion device inoperative upon the elapse of a predetermined period of time and operative again upon the passage of a predetermined period of time, and the timing mechanism being constructed and arranged to repeat the cycle of occlusion and release over a desired treatment period.
More specifically the system shown in Fig. 3 comprises a pneumatic, or balloon, cuif I of usual design. The cuff is customarily a hollow body of rubber, or other suitable elastic material, and is band-like in design. Asis the case when employed in connection with blood pressure measuring apparatus, the cuff is usually provided with a binder (not shown) for securing the cuil in operative encircling position (see Fig. 1) on the extremity under treatment. 'Ihe cuiT is provided with a pair of ports 2 and 3, the port 2 being coupled, through rubber tubing 4, to an arm 5' of the three way coupling 5. The port 2 of the cuff is the intake, or' inflation, port, inflation of the cuff being accomplished through the agency of an air pump, or compressor, 6.
The latter is shown arranged to be operated by a motor 1. The dotted line 8 is to be understood as designating the mechanical drive between the motor and pump 6. The pumpitself need only be of conventional design, provided with air inlet 9 and outlet I0. The air outlet I0 is coupled to the arm |I of coupling 5 through a check valve vdevice comprising a valve seat I2, ball valve I3 and guard cage I4. A rubber tubing I5 couples the outlet of the check valve to arm II; rubber tubing I6 connects the pump outlet I0 toval've seat I2. i
The third arm I1 is coupled, through rubber tubing I8, to the inlet end of the air pressure release valve. The latter may be of any desired conventional type, the type shown being usually employed in automobile tires, is well known to those skilled in the art. It comprises, as usually constructed, a tubular casing 2|) having a valve seat 2| at one end thereof; a valve member 22 is normally biased into engagement with the seat 2| by spring 23. The end of the spring 23 opposite to valve member 22 is ilxedly secured to a sleeve, or bushing, and the latter is` provided with an opening through which stem 24 extends to be guided thereby. The valve member 22 is provided with a stem 25 terminating in a head 26, which stem extends through a bore in the valve seat 2|. Thus, when the head 26 is pushed towards the spring 23, the valve member 22 is moved out of contact with seat 2| mits the air in the cuff to escape. Normally, that is, with no pressure on head 26, the member 22 is in bore-closure position `on seat 2|. Of course, all rubber tubing may be replaced by metal or glass tubing, or any other material. l
As shown in Fig. 3, the head 26 is urged into air pressure release position by the arm 30 of and the bore in the seat per- 32 the arm 3|) is pulled away from contact with head 26. Conversely, when the armature 32 is in its uppermost position, it forces arm 30 against head 26 and causes the pressure release 4action to take place.
The armature 32 is pulled into its pressurerelease position by an electro-magnet 40, the
latter being energized for this purpose by current derived from an electrical circuit now to be described. Terminal 4| of the electro-magnet is connected to one side of the 60 cycle A. C. source through a path including lead 42, fuse 43, an on-off switch, lead 45. The 60 cycle A. C. source isthe usual lighting mains, but it is to be clearly understood that any other current source may be utilized in this connection. For example, a direct current source may be used; and the source maybe of the power line or battery type.
The on-ofi switch 44 may be of any conventional snap, or toggle, switch construction. For the purposes of the present disclosure it is sufficient to point out that it comprises a pair of contacts 46 and 41, and a contactor 48. The latter element is mechanically coupled to a manually manipulable member 49 in a manner such that adjustment of member 49 in the direction of the arrow resultsvin electrical connection between contacts 46 and 41.
The mechanical coupling between member 49 and contactor 48 is represented by a dotted line. This coupling is extended to simultaneously actuate a pin, or lever arm, 5|. The-arm 5| is rigidly afxed to coupling 50, (which may, for example, be a rod extending from the contactor adjusting stub and flxedly carrying the member 5|), but is movable in unison therewith. Further, the member 5| is constructed and arranged so that as the on-off switch-is moved to open position, the member 5| is adjusted to push the element 30 against head 26 and thus unseat valve member 22.
In other words, when the adjusting knob 49 is actuated (as by rotation) in the direction of the arrow (adjacent contact 46) to close the circuit, the pin 5| is simultaneously moved, (in the direction of the arrow adjacent arm 30) out of contact with arm 36. Hence, there is provided a device for insuring actuation of the release valve to release position whenever the on-01T switch is in open-circuit position.
Returning now to the remainder of the circuit which includes magnet 40, the alternating current source is connected to terminal 60 of the magnet through a path including lead 6|, contact blade 62, metallic disc 63, contact blade 64.
The disc 63 has aflixed toa face thereof a conof each opening. Further, the width of each opening 66, along the circle of rotation is so chosen as to permit the contactor 66 to be in electrical connection with contactor 62, through disc 63, for the predetermined period of time desired for venous occlusion, and the latter may be, for example, two minutes. To break the electrical connection between the contactors 62 and 66, the discs 66 and 65 are simultaneously rotated until the contactor 66 is out of a given opening 66 and rests on the insulation disc between the last opening and the succeeding one. rI'he spaces between openings are dimensioned so as to keep the electrical connection between contactors 62 and 64 open for a period of time equal to the occlusion release period. As stated previously', this release period may be, by way of example, two minutes in duration.
Accordingly, it will be seen that discs 63 and 65, with flexible slldaole contactors 62 and 64, function as a timing mechanism to control the ination and deflation of balloon cuff l. Again, the control is carried out in a periodic manner by rotation of the discs. This is most effectively accomplished by means of a synchronous motor 61 which is operated from the A. C. source. Any other type of constant speed device, as a spring clock movement, may be used. 'Ihe synchronous motor may be of any well known type employed in clocks of the type energized from a 60 cycle A. C. source. For example, such a clock is known by the trade-mark Telechron; the synchronous motor of this type of clock is self-starting. The motor 61 rotates the discs 63, 65 one complete revolution in 60 minutes; a mechanical coupling indicated by dotted line 68 between the discs and the motor 61 serves to produce this rotation.
It will be seen that synchronous motor 61 produces relative movement between contactors 62,
connected to contact 41 of the on-off switch.
Thus, the motor 61 is not energized to rotate the discs 63, 65 until the contactor 48 is in electrical contact with elements 46 and 41.
Fig. 4 shows in a sectional View, the details of the timing mechanism. The insulation disc 65 can be fabricated of paper 0f good wearing resistance, a phenol condensation product, hard rubber or any other suitable material; it may be cemented to the metallic disc 63, or anixed thereto in any other desired manner. The disc 63 is, of course, very much thicker than the insulation disc so as to furnish a rigid foundation. In general, the composition of the disc 65 should be such that it withstands wear due to sliding contact with contactor rE54, and is electrically non-conductive. The disc 63 should be electrically conductive, and be composed of a metal such as copper in order to have good electrical and wearing qualities, and be rigid. For a four minute cycle of occlusion and release, and a, period of rotation of discs 63, 65 of 1' R. P. H., there will be provided fifteen spaced openings 66 in the disc 65. The contactor 64, which is sufciently flexible to readily ride intoand out of an opening 66, will then be in contact with disc 63 for a period of two minutes in every four minute cycle.
Assuming, now, that the member 49 has been actuated to on position, synchronous motor 61 will begin to rotate the timer discs. If the contactor 66 is positioned in the space between two openings 66, the magnet 46 remains unenergized. Hence, metallic armature 32 is not attracted and the arm 36 remains out of contact with head 26, thereby leaving the release valve closed; (Of course, the pin 5i has been moved out of contact with arm 36, leaving arm 36 solely under control of magnet 66.) In the meanwhile, and upon adjustment of the on-off switch to on position, the pump motor 'l has been energized to actuate the air pump 6 for the purpose of inating cuil i.
The motor 1, adapted to be operated from an A. C. source, has one terminal 10 thereof connected to one side of the A. C. source through a path including lead 1l, lead 12, lead 5i. The terminal 13 of the motor connects to the other side of the A. C. source through the following path: lead 14, pig-tail connection 15, pivotal contactor 16, contact 11, lead 18, lead I9, lead 80, and to lead 45 through the on-off switch. The contactor 16 is adjusted to motor-energizing position when the metallic armature 8| of electromagnet 82 is attracted towards the latter. The magnetic relay 62-81 may be of the'same type as relay 46-32; normally the pivoted armature rests against stop 6| due to the force of gravity. The dotted line 83 designates the mechanical coupling between contactor 16 and armature 8i; that is, the contactor moves in unison with armature 6I, but is not in electrical connection therewith. Electro-magnetic relay constructions of this type are well known to those skilled in the art, and therefore no further description is believed necessary. v
The energization of electro-magnet 82 depends in turn upon armature 32, and whether or not it has been attracted by coil 40. The circuit including electro-magnet 82 may be traced in the following manner: terminal 84 connects to one side of the A. C. source through a path including lead 80, the ."on-off switch and lead 45, Terminal 85 of the magnet connects to the other side of the A. C. source through a path including lead 86, contact 81, contactor 88, flexible pig-tail connection 89, lead 9|),y adjustable lead 9|, mercury column 92, lead 93, lead 12, leadf6l. The contactor 88 is constructed, as in the case of contactor` 16, to be movable in unison with armature 32. The dotted line 94 denotes the mechanical coupling between armature 22 and contactor 88; the construction is such that when armature 32 is attracted towards electro-magnet 50, by energization of the latter, the contactor 88 is pulled away from contact 81. Therefore, it will be seen that when the release valve is actuated to deflate the cuff, then the pump motor circuit is automatically maintained in de-energized state.
Assoon as the member 64 leaves an opening 66 in disc 65, however, the coil 40 is de-energized. I'his results in a falling of the armature 32, and a simultaneous closing of the pump motor circuit. The pump 6 is rendered operative, and inflation of the balloon cuff commences. In this state of connections the valve head 22 is seated against the valve seat 2|, thereby preventing lescape of air through tubing I8. 'I'he motor 1 is maintained energized until the contactor 64 slides into an opening 66whereupon the pump motor circuit is broken at 88-81.
It has been previously explained that the venous occlusion pressure is ofthe order of 40 mm. of mercury. That is, the cu is inflated,
Cil
'the other surface rises.
while in treatment position as shown in Fig. 1, to a point such that the desired pressure is exerted on the vein. In order to visually indicate this pressure during inilatin, and also to positively prevent the inflation from exceeding this maximum pressure, there is provided the usual glass U tube 94 in the legs of which is disposed the mercmy column 92. One leg of the U tube.
terminates in a bulb 95 provided with an aperture 96 thus establishing the bulb interior at atmospheric pressure. wire, 93 has one end thereof disposed below the surface of the mercury column, the opposite end of conductor 93 protruding through aperture 96, and being electrically connected to leads 1| and 12.
y The other leg of the U tube is coupled to the port 3'of the balloon cuff. A rubber tubing 91 has one end thereof coupled to port 3, 'the opposite end being coupled to a short, tubular, metallic connector 98. The outlet end of connector 98 is coupled, by rubber tubing 99, to the pressure leg of the'U tube. The lead, or conductor wire, 9| has one end |00 thereof disposed below the mercury surface a predetermined distance. The opposite end of the wire is gripped between an adjustable tap screw and the inner surface of connector 98 as shown. The screw |0| is in threaded engagement with the connector 98, and
is electrically connected to lead 90. By releasing the pressure of screw |0| on wire 9|, and moving the exposed end of the wire, the submersion distance of end 00 may be readily adjusted. The diameter of screw |0| is not, of course, sufficiently great to obstruct the air ow through connector 98. Also, the shank portion of the screw |0| disposed in the connector bore could be provided with a transverse air passage.
It will now be seen that as the cuff is inflated, the column of mercury is shifted in position. The mercury surface above terminal |00 falls; A scale, calibrated in mm. of mercury pressure is disposed in parallel relation to the leg containing wire 93; thus the pressure in the cul can be readily determined. Assuming that the dotted line |02 represents the height to which the mercury surface rises at 40 mm. pressure, the operator of apparatus will, therefore, initially adjust wire 9| in such a manner that the mercury-breaks contact with terminal |00 when the mercury surface in the other leg rises to height |02. This results in immediate opening of the pump motor circuit, since the latter must be completed through terminal |00. It is to be clearly understood, however, that the indicator and maximum pressure mercury limiter switch can be omitted, if it is desired, or any other type of pressure indicating device, as a diaphragm type of gauge, may be used. In that case the pump motor, or pump'itself, could be provided with any well known type of governing mechanism to keep the inflation pressure from exceeding a desired maximum occlusion pressure.
An additional visual indicator device which may be employed, if desired, is shown in the system. Three illumination devices, such as incandescent lamps, are'connected into the different circuits at proper times. To energize the lamps there is provided a step-down transformer |06; the primary winding |01 of the latter is connected across the A. C. sourcev between leads 19-V and 12. The secondary winding |08 has one terminal thereof connected, in common, to one side of each of lamps |03, |04 and |05, each lamp being arranged, when :in circuit, in series with The lead, or conductor pled with amature 8| so as to be movable in unison therewith; the dotted line 83 is extended v through contacter ||4 to denote the fact that the latter is pulled into position to close the electrical circuit through lamp |04 when the pump motor circuit is closed.
The contactar cooperates with contacts ||0 and ||1; the contacter ||4 cooperates with contacts |I8 and ||9. When the contactor 64 leaves an opening 66 and breaks the magnetic pull on armature 32, the contacter 88 falls therewith and closes the circuit through electro-magnet 82 thereby attracting armature 8| and closing the pump motor circuit through contacter Simultaneously the lcontacter engages contact ||1, and contactar ||4 ispulled up to engage contact H8. Lamp |04 is, as a consequence, energized through a path which is traced from contact ||8 through contactor ||4, through exible pig-tail H5, lead ||1, contact ||1, contactor pig-tail ||2, lead H3, winding |08. The lamp |03, of course, is de-energlzed; hence the operator is informed that the pump motor circuit is closed and the cuff is inflating.
Should, now, the pump motor circuit be opened, as when the mercury surface falls below terminal |00, and the release valve still be closed, (the electro-magnet 82 is de-energized and armature 8| causes contactor 16 to disengage contact 11) then contacter ||4 would be'mo-ved into engagement with contact I9. In this case the lamp is energized, and it informs the operator that the pump is not operating, the cuff is infiated, and mercury limiter switch has operated to open the pump motor circuit. Lamps |03, |04 and |05 could be colored, as for example green, yellow and red respectively. Of course, glow lamps emitting different colored lights (as neon, argon, helium, mercury gas filled) may be employed.
While this auxiliary indicating mechanism f is highly desirable because of its utility when treatment is applied by non-technical operators, yet it may be dispensed with if an economical type of apparatus is the object.
While we have indicated and described a construction for carrying our invention into effect, it will be apparent to one skilled in the art that our invention is by no means limited to the particular construction sho-wn and described, but that many modifications may be made without departing from the scope of our invention, as set forth inthe appended claims.
What is claimed is:
l. A method of increasing the blood circulation through an extremity whose arterial flow is insufficient, which includes the steps of obstructing the venous flow solely at a relatively narrow zone of the proximal portion of said extremity for a relatively short period of time without interfering with the arterial flow therethrough, removing the obstruction at the end of said period, restoring the said venous flow obstruction at said zone after the expiration of a audace relatively short period of time, and alternating lileompressing action being performed at a pressure the said obstruction removal and restoration at said zone at a predetermined frequency over a relatively long period of time.
2. A method of increasing the collateral arterial circulation in an extremity Whose main arterial flow is impaired, which consists in applying pressure of between l0 and 120 mm. oi mercury solely at a narrow zone of the proximal portion of the extremity thereby to produce only venous occlusion in the extremity, withdrawing said pressure at the end of a predetermined time interval which has a duration sumciently long to cause substantial hyperemia when the pressure is released, permitting normal venous flow in the extremity for a predetermined time interval after said pressure withdrawal, and repeating said cycle of pressure application and withdrawal for a period of time sumcient to produce said increased collateral circulation.
3. A method which includes the steps of applying a narrow inflatable cuff across the proximal portion of an extremity, inflating the cuil' to a pressure Well above the venous pressure but substantially below the arterial pressure and in the regio-n of 40 to 60 mm. of mercury thereby obstructing the venous now through the extremity, maintaining the cuil` inated at said obstruction pressure for a relatively short period of time, then deating the culi' for a corresponding time period, and continuously repeating the said cycle of cui` inflation and deflation a*L said frequency for a relatively long period of time.
4. A method of producing an increased arterial circulation in a leg having decient arterial circulation which includes the steps of compressing the extremity at the mid-thigh section only and to an extent sufficient substantially to prevent only venous flow, maintaining the section com pressed for a substantial period of time, ending the compressing action at the termination of said period, and continuously and periodically repeating the aforesaid cycle of compression and compression-withdrawal over a period of time which is relatively long compared to said rst period.
5. In a. method as described in claim 4, said which is intermediate the arterial and `venous pressures, and said rst period of time being of the order of two minutes.
6. In a method as defined in claim 4, said first period of time being of the order of two minutes, and said second period being of theorder of twelve hours.
7. A method of operating an intermittent venous occlusion apparatus toincrease the collateral blood circulation in an extremity of the human body, the apparatus including an inflatable narrow cuff which is adapted to encircle solely a proximal portion of the extremity, the
method comprising periodically inlating and defiating said cuff at predetermined short time intervals, maintaining the cuff inflated with air under a pressure suirlcient to cut oi solely the venous blood return through proximal portion and without aecting the arterial flow therethrough, alternately deflating the cui at all times to atmospheric pressure, and automatically carrying on said deflation and inflation cycles over a relatively long period of time as compared to said short time intervals.
8. A method of operating an intermittent venous occlusion apparatus to increase the collateral blood circulation in an extremity of the human body, the apparatus including an inflatable cuff which is adapted to encircle a proximal portion of the extremity, the method comprising periodically inflating and defiating said cuiT at predetermined short time intervals, maintaining the cuff inated with air under a pressure of approximately 40 to 60 mm. of mercury and which is suflicient to cut off solely the venous blood return through said proximal portion and Without affecting the arterial flow therethrough, alternately deating the cuff at all times to at- 1 mospheric pressure, and automatically carrying on said deflation and ination cycles over a relatively long ieriod of time as compared to said short time intervals.
WILLIAM S. COLLENS. NATHAN D. WILENSKY. STANLEY A. KROLL.
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Cited By (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415659A (en) * 1941-09-30 1947-02-11 Van H Steel Therapeutic method and means
US2449217A (en) * 1944-06-14 1948-09-14 Republic Flow Meters Co Regulating apparatus
US2528843A (en) * 1945-12-05 1950-11-07 Philip Sampson J Apparatus for the treatment of intermittent claudication
US2614565A (en) * 1951-05-17 1952-10-21 John K Packer Automatic tourniquet
US2626601A (en) * 1950-07-28 1953-01-27 John P Riley Vacuum pulsating exercising apparatus
US2699165A (en) * 1950-06-29 1955-01-11 Ferrier Andre Pierre Suzanne Means for treating diseases of the circulatory system
US3880149A (en) * 1973-01-25 1975-04-29 Mamoru Kawaguchi Blood circulation stimulating apparatus
US3896794A (en) * 1973-12-14 1975-07-29 British Oxygen Co Ltd Venous flow stimulator
US4186732A (en) * 1977-12-05 1980-02-05 American Hospital Supply Corporation Method and apparatus for pulsing a blood flow stimulator
US4206751A (en) * 1978-03-31 1980-06-10 Minnesota Mining And Manufacturing Company Intermittent compression device
US4738249A (en) * 1985-03-01 1988-04-19 The Procter & Gamble Company Method and apparatus for augmenting blood circulation
FR2840812A1 (en) * 2002-06-12 2003-12-19 Antoine Klotz Vascular disorder treatment device comprises a constraining element in which electrodes are mounted for application of electric pulses to an area to be treated
US7207959B1 (en) 2002-11-13 2007-04-24 George Chandran Thrombus prevention apparatus and methods

Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2415659A (en) * 1941-09-30 1947-02-11 Van H Steel Therapeutic method and means
US2449217A (en) * 1944-06-14 1948-09-14 Republic Flow Meters Co Regulating apparatus
US2528843A (en) * 1945-12-05 1950-11-07 Philip Sampson J Apparatus for the treatment of intermittent claudication
US2699165A (en) * 1950-06-29 1955-01-11 Ferrier Andre Pierre Suzanne Means for treating diseases of the circulatory system
US2626601A (en) * 1950-07-28 1953-01-27 John P Riley Vacuum pulsating exercising apparatus
US2614565A (en) * 1951-05-17 1952-10-21 John K Packer Automatic tourniquet
US3880149A (en) * 1973-01-25 1975-04-29 Mamoru Kawaguchi Blood circulation stimulating apparatus
US3896794A (en) * 1973-12-14 1975-07-29 British Oxygen Co Ltd Venous flow stimulator
US4186732A (en) * 1977-12-05 1980-02-05 American Hospital Supply Corporation Method and apparatus for pulsing a blood flow stimulator
US4206751A (en) * 1978-03-31 1980-06-10 Minnesota Mining And Manufacturing Company Intermittent compression device
US4738249A (en) * 1985-03-01 1988-04-19 The Procter & Gamble Company Method and apparatus for augmenting blood circulation
FR2840812A1 (en) * 2002-06-12 2003-12-19 Antoine Klotz Vascular disorder treatment device comprises a constraining element in which electrodes are mounted for application of electric pulses to an area to be treated
WO2003105950A1 (en) * 2002-06-12 2003-12-24 Antoine Klotz Device for prevention and treatment of vascular disorders
US7207959B1 (en) 2002-11-13 2007-04-24 George Chandran Thrombus prevention apparatus and methods

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