US3492996A - Ventriculo-atrial shunt - Google Patents

Description

1970 E. M. FOUNTAIN 3,492,996

VENTRICULO-ATRIAL SHUNT Filed Feb. 9, 1966 2 Sheets-Sheet l TEZFJCUPfl/VG JECT/O/V awn/a1? Vf/VA ('14 V4 ATE/AL AL L Am/AL W EJ070170 M Faun av/7 INVENTOR.

BY Mam Feb. 3, 1970 E. M. FOUNTAIN 3,492,996

VENTRICULO-ATRIAL SHUNT Filed Feb. 9, 1966 I 2 Sheets-Sheet 2 504 /0/70 l7. fbwrfa/n INVENTOR.

United States Patent 3,492,996 VENTRICULO-ATRIAL SHUNT Edmund M. Fountain, Houston, Tex., assignor to Dow Corning Corporation, Midland, Mich., a corporation of Michigan Filed Feb. 9, 1966, Ser. No. 526,294 Int. Cl. A61m 27/00 US. Cl. 128-350 Claims ABSTRACT OF THE DISCLOSURE This application describes a surgically implantable device for relieving fluid pressure on the brain. The device comprises a ventricular conduit adapted for introduction into the brain, a pumping device attached to the ventricular conduit and an outlet conduit attached to the pumping device and adapted to be inserted into the atrium. The pumping device is a substantially flat, flexible plate adapted to overlie the skull and has a pair of bubble-shaped chambers positioned thereon and adapted for finger manipulation to provide pumping action to clear the conduits of obstructions. The outlet end of the device is provided with flexible wings adapted to hold the device within the atrium or center it in the vein entering the atrium in the event that the end is pulled from the atrium. Oneway valves are provided to prevent blood back-flow into the brain.

This invention concerns a new and improved device for treating hydrocephalics, i.e., those persons, usually infants or children being afflicted with, as commonly described, water on the brain. Also, this condition may exist in certain adults whose circulation or absorption of cerebro-spinal fluid is impaired by various inflammatory or tumor processes.

More particularly this invention contemplates a means whereby secreted cerebro-spinal fluid may be directed into the blood stream and thereby throughout the normal course of the body system.

Normally, cerebro-spinal fluid is secreted by the choroid plexus and ventricular lining within the cranial ventricles. Such fluid may enter the vascular system by a route pproximated by passing out of the lateral ventricles, through the third ventricle, out the formaina of Magendie and Lushka, into the cisterna magna whenceforth into the subarrachnoid spaces and absorbed by the blood system. Such fluids may be absorbed and recycled several times daily.

With hydro-cephalics'the cerebro-spinal fluid is unable to be absorbed adequately. Thus, on continued secretion, pressure increases greatly, causing the ventricles to swell or expand. As expansion occurs the wall material becomes thinned. Expansion occurs at the expense of brain substance, and fluids. Thus, in essence, the head becomes a box, closed save for incoming material.

Previous attempts to relieve the extreme pressures and return such cerebr-o-spinal fluid to the circulation have been fraught with numerous difliculties. For example, flushing of such earlier devices has-proved diflicult or frequently impossible, and the cardiac portion has not been permitted to lengthen with normal growth of the patient.

Thus, this invention has as its purpose the permitting of relieving of increased intra-cranialpressure by reintroducing cerebro-spinal fluid into the vascular system.

A further object is the provision of a device which may longitudinally extend so as to permit continuous utilization in a growing human.

Yet another object is the provision of means whereby the ventricular end may be flushed.

These and still other objects and benefits will become "ice apparent on considering the following appended description and drawings in which:

FIGURE 1 is a schematic representation of the relative positioning of the shunt ventricular and atrial ends, pump and telescoping portions;

FIGURE 2 is a section through a skull showing positioning of the pump mechanism and ventricular shunt relative thereto;

FIGURE 3 is an elevation of the pump mechanisms and connections thereto;

FIGURE 4 is a section through one end of the ventricular-atrial conduit.

FIGURE 5 is an enlarged elevation of the end of the ventricular portion of the shunt;

FIGURE 6 is an elevation of the telescoping portion and atrial end of the shunt;

FIGURE 7 is an end view of the shunt atrial end, taken along lines 6-6 of FIGURE 5, and

FIGURE 7a is a section taken along lines 7a7a of FIGURE 7; and

FIGURE 8 is a section showing the placement of the shunt atrial end relative to the superior vena cava.

Looking first at FIG. 1, for an overall view of the operation of the device, the venticular end of a shunt device is positioned within a cranial ventricle. Said shunt ventricular end is connected to a pump mechanism, later described, which may be inserted under the scalp. Said pump leads subcutaneously to a telescoping section of a conduit, and thereafter to the atrial end of a shunt, which atrial end is positioned within the atrium of the heart. Said atrial end may be inserted in the jugular vein, through an incision therein, pass therethrough and be prevented from being dislodged from the atrium through or to the superior vena cava by reason of projections near the terminal end of said atrial end.

Look now at FIGURE 2 which depicts the pump and the ventricular portion of the shunt. Said shunt refers to the conduits from either end of the pump. The skull of a person is indicated by thenumeral 10, and the scalp by 12. An aperture is shown by 14, which may be a burr hole or even a perforator opening which is substantially smaller.

Aventricular shunt 20, which consists generally of thin flexible hollow conduit, preferably of silicone rubber, has oneend 21 inserted within a cranial ventricle, which ventricle is under excessive pressure due to the buildup of cerebro-spinal fluid. Said one end possesses a number of perforations, with the perforations closely bunched and arranged preferably with each grouping being rotated 90 from the adjacent grouping and vertically spaced therefrom, as indicated bygroups 22, 23, and 24, respectively (FIG. 5).

Theother end 25 may pass through said skull opening 14, to be joined byconnector 30, to theventricular end 41, ofpump 40. Said connector may be made of polyethylene, silicone rubber, nylon or other suitable material, and would have an aperture therethrough, communicating both with the ventricular shunt and with conduit-like end 41 of said pump.

Thepump 40, actually would perform as a dual pumping mechanism in the .following manner. Aflexible base portion 43 possessessuture holes 44 for aflixing said base to periosteum ofskull 10. Spaced toward opposite ends of said base are hemisphere-like bubble portions 50 and 60, which definechambers 51 and 61, respectively, between said bubbles and said base. Actually, said bubbles serve as individual pumps in that each may be compressed so as to eject fluids present within their respective cavities outwardly thereof. Saidconduit end 41 is shown to communicate both withventricular pump 50 and withventricular shunt 20, by virtue ofconnector 30. Also,pump 50 communicates withatrial pump 60 by virtue of ventricular-atrial conduit 70. Theatrial end 71 of said conduit terminates within chamber 61 ofpump 60-. Said atrial end may have aslit 72 formed therein which, in the absence of suflicient pressure against the adjacent walls, would normally be closed. Thus said conduit and slit would function as a one way valve preventing fluids from returning from chamber '61 tochamber 51, i.e., from the atrial shunt through the ventricular shunt thence back into the ventricle.

Atrial pump 60 is linked by conduit '81,.by virtue ofconnector 89, similar to member 30', to theupper member 91 of atrial shunt 90 and communicates therewith by virtue of said conduit, connector and shunt being cylindrically conformed.

Saidupper portion 91 will have a larger internal diameter than, and telescopingly receivelower portion 92, both portions consisting of tubing, preferably, again of silicone rubber. The telescoping portion ofmember 92 may be prevented from sticking by properly coatingmembers 91 and 92.

FIGURES 6, 7, 7a and 8 depict said lower portion of the atrial shunt. The lower oratrial end 93 ofmember 92, includes one ormore slits 94, again functioning as a one-way valve. Positioned closely adjacent thereto are a plurality of slightly upwardly directed, wing-like projections 100. Preferably there are three such projections spaced radially 120 degrees apart around the periphery of theend 93 of the atrial shunt.

It woud be beneficial for the device to be substantially treated with a barium-containing substance so that on X- rays being taken, theexact location of all the parts thereof may be determined.

In actual use, ventricular shunt 20' would be inserted throughcranial perforation 14 into a cranial ventricle, the brain being under considerable internal pressure. Cerebrospinal fluid would pass throughapertures 22, 23 and 24 into the interior ofventricular shunt 20, therethrough, intocavity 51 ofpump 50, thence throughconduit 70, out one-way valve 72 into chamber 61 ofpump 60. Saidpump 60 may, by pressing down on the adjacent scalp, and thereby compressing thepump 60, cause such fluids to pass downwardly throughconduit 81,connector 89 and into theupper member 91 of atrial shunt 90, from Where it would pass through theatrial end 92 of said atrial shunt, out one-way valve 94, into the atrium from which location said fluids may eventually be absorbed into the blood system. Pressure onpump 50 would normally have the same effect. Normally, in the absence of obstructions or occlusions, said pumps would not need to be utilized, in that said fluids would follow the described route without needing assistance.

Normally the linkage from the pumping mechanism to the atrial end of the atrial shunt may be inserted underneath the skin. Thelower member 92 of said atrial shunt 90 would be inserted within the jugular vein and course through the superior vena cava, pass downwardly therethrough into the atrium. By virtue of projections 100', which may readily bend upwardly, so as to permit downward passage through saidsuperior vena cava 110, said atrial end of said atrial shunt, may not return upwardly throughvein 110, in that saidprojections 1 00 would rest adjacentatrial wall 120. This would tend to prevent scarring of the superior vena cava wall as well as thrombosis which might occur shouldmember 92 be pulled back withinvein 110, and be bound to the wall thereof by a membrane or clot. Even should said atrial end be pulled back withinvein 110, saidprojections 100* would keep said atrial end centered in the stream of blood flowing through said vein, keeping the device operative. Positioning ofatrial end 93 is permitted, even in growing children by virtue of the telescoping nature ofmembers 91 and 92.

A further advantage permitted by this device is the flushing of the ventricular end of the shunt. Inasmuch asconduit 70 has a one-way valve 72 at one end, ifpump 60 is depressed so as to close said valve, then pressure onvalve 50 will tend to force fluids contained incavity 51 and theventricular shunt 20 back through the perforations inend 21. Thus, stoppages resulting from occlusion of the ventricular end, perhaps bits of brain matter, debris or clumped leukocytes may be overcome.

Although only a single embodiment of this invention has been described it should be apparent that numerous modifications would be possible by one skilled in the art without departing from the spirit of the invention. The scope of which is.intended to be limited only by the following appended claims.

What is claimed is: 1. In a surgically implantable device for relieving excess pressure within the brain comprising a first fluid conduit means adapted for introduction of at least a portion thereof into a brain ventricle, a second fluid conduit means for fluid outlet, a pumping device positioned between said first and second conduit means and interconnecting the same, and a one-way valve positioned in the system to prevent fluid back-flow into the brain, the improvement which comprises:

said pumping device comprising a pair of hemispherelike, bubble-shaped, thin-walled resilient chamber portions positioned in spaced relationship on a substantially flat, flexible base member, said base member defining the lower boundary of each of said chamber portions, each portion being adjacent to one of said conduits and intercommunicating therewith,

said bubble-shaped chamber portions being interconnected by third conduit means including a one-way valve whereby when said pumping device is manipulated, the first conduit can be flushed to clear it of obstructions.

2. The improvement as defined inclaim 1 wherein said third conduit means terminates within said chamber adjacent to said secondconduit means.

3. The improvement as defined inclaim 2 wherein said one-way valve in said third conduit means is provided with a slit which acts as a one-way valve.

3 4. The improvement as defined inclaim 1 wherein: the terminal portion of said second conduit means, which is opposite the end to which said pumping device is connected, is provided with a plurality of wing-like, flexible projections adapted to rest against blood vessel walls of the patient and center the conduit in the flow of the blood.

5. The improvement as defined inclaim 1 wherein: said flexible base member is provided with means for attachment of sutures thereto.

References Cited UNITED STATES PATENTS 2,616,429 11/ 1952 Merenlender I28350 2,969,066 1/1961 Holter et al 128350 3,020,913 2/1962 Heyer 128350 3,111,125 11/1963 Schulte 128-350 3,108,595 10/1963 Overment 128-350 3,233,610 2/1966 Wade 128-350 3,288,142 11/1966 Hakim 128-35O OTHER REFERENCES Lancet: vol. 2 (63), No. 7315, Nov. 9, 1963, pp. 983- 984.

Rickham: Brit. Med. Jour., July 1964, p. 173.

Hakim Valve System for Ventriculo-Atriostomy, Cords Corp. Publication dated Oct. 5, 1965, pp. 3 and 6- 8 relied on.

DALTON L. TRULUCK, Primary Examiner

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