CA2000390C - Apparatus for in situ radiotherapy - Google Patents

Abstract

Apparatus for in situ radiotherapy has a flexible catheter having a proximal end for receiving a radioisotope and a distal end for positioning the flexible catheter within a patient to be treated. An anchor, which is permanently connectable to tissues deep inside the patient, has a sealing collar connected to it which seals the distal end of the catheter. The anchor has a penetration point connected to it to assist a surgeon in implanting the catheter within a tumor. A
threaded fastener is connected to the anchor and screwed into the catheter. The flexible catheter can be released remotely from the anchor by unscrewing it. A suture eye is connected to the anchor. The suture eye may be sutured to healthy tissue within the patient when the apparatus is implanted to secure the anchor to the patient.

Description

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_ 1 _ APPARAI'1JS 7C OR IPd SITU RADIOTHERAPY

BACKGROUND OF THE INVENTION
The invention relates generally to an apparatus for in situ radiotherapy of a patient with a radioisotope and more particularly to a guide tube apparatus wherein the tube has a releasable anchor. The invention also relates to a multiple catheter apparatus wherein the catheters extend through a common bushing.
It has been found that certain malignancies which are inoperable or nonresectable may advantageously be treated through radiotherapy techniques wherein radioactive objects or pellets are implanted within or in the vicinity of a tumor mass or in some cases at a site from which a tumor has been removed and for which there is cancern that malignant cells may hare spread. One of the drawbacks which health care professionals have found with such a treatment modality relates to the fact tkaat in order that they may be left within the patient, the radioisotopes, of necessity, must be relatively low intensity emitters. Anflther drawback is that such radioactive sources must not only be surgically implanted within the patient but also be extracted surgically.
In an improved version of this technique as described in the aforementioned copending application ~d~)~~~~wi~~~~

2 _ localized radioactive sources are positioned in proximity to tumor bodies and the like for brief precise time intervals. Typically a guide tube, such as a hollow needle, a catheter or a lumen, is implanted within a tumor mass and exits through the skin of the patient. A source wire having a radioisotope positioned therein is fed into the guide tube and brought into proximity to the tumor mass. Typically the radioactive portion of the wire is composed of an iridium 192 element about 5 millimeters in length which provides highly localized intense gamma radiation to a relatively small volume of tissue. By positioning a number of such guide tubes within a tumor mass and adjusting the longitudinal positions of the radioactive sources within the guide tubes or catheters the entire tumor mass can be exposed to high intensity radiation for a short period of time with little damage to surrounding tissue.
In order to carry out this type of treatment it is, of course, necessary that the radioactive portions of the wires be precisely positioned in relation to the tumors, and ideally no healthy tissue outside the tumor should be exposed to radiation. As a result, errors in the placement of the radioisotopes within the guide tubes are to be avoided.
One of the prior art methods which has been found to provide the requisite precise positioning employs catheters extending into the patient's body, into a portion of the patient's anatomy which is to be treated and then out of the body at points where the catheters are closed and anchored. zn the prior art treatment , systems typically there are multiple punctures extending into the body, through the organ to be treated and out of body on the other side where anchoring devices hold the exposed catheter ends. The guide tubes extending through the punctures are typically anchored at both ends causing them to be translationally fixed with respect to the _ g _ tumor. As a result, once it is known how far the various portions of the tumor are located from the entry points of the guide tubes, the relatianship between the catheters and the tumor will not change while the catheters remain in the patient. The use of this system, however, suffers from the drawback that multiple openings are made in the patient's body. Each of the openings is a potential site for entry of infectious agents and will remain open for several days while the radioisotope treatment is carried out.
In other instances where tumors of the prostate, bowel and the like are to be treated there is no convenient way of anchoring the proximal ends of the catheters, which typically extend slightly past the tumor site. As a result, due to the patient moving, the guide tubes may slide out of the patient and at the very least the extent to which the guide tubes extend into and out of the tumor mass would have to be recalibrated each time the radioisotopes are replaced in the guide tubes for treatment.
SUMMARY OF THE INVENTION
An apparatus for in situ radiotherapy is disclosed herein and includes a plurality of flexible catheters. Each of the flexible catheters has a proximal end and a distal end. The distal end, which is adapted to be inserted within the patient,is sealed and has an anchor connected thereto. The anchor is connectable in a permanent fashion to tissues of the patient for implantation therein. The anchor is releasably connected to its respective catheter by a screw thread correction.
A tubular bushing having a Dacron cuff surrounding it receives each of the flexible catheters and provides an exit paint for the flexible catheters when ixastalled in the patient's body.
It is a principal aspect of the present invention to provide an apparatus far in situ ~;fi)~~~?~ i;~~~~
radiotherapy which may be implantab7_e deep within a patient's abdominal cavity or other portions of his or her body.
It is another aspect of the present invention to provide an apparatus for in situ radiotherapy having an anchor connected to each of catheters which may be anchored deep within a patient during a surgical procedure.
It is another aspect of the present invention to provide an apparatus for in situ radiotherapy having anchors permanently implanted within the patient but releasably attached to respective catheters so that following the completion of the radiotherapy the anchors may be left within the patient while the catheters may be removed without the necessity of laparascopy or major surgical procedure.
Other aspects of the present invention will become obvious to one skilled in the art upon a perusal of this specification and claims in light of the accompanying drawings.
BRIEF DESCRTPTION OF THE DRAWINGS
Fig. 1 is an elevational view of an apparatus for in situ radiotherapy embodying the present invention;
Fig. 2 is a section taken substantially along line 2--2 of Fig. l and showing details of a bushing through which a plurality of catheters extends;
Fig. 3 is a section taken substantially along line 3--3 of Fig. i showing details of an anchor threadedly connected to one of the catheters of the plurality:
Fig. 4 is a section taken substantially along line 4--4 of Fig. 3 showing further details of the anchor and the catheters and Fig. 5 is a view, partially in section, of the apparatus of FTG. 1 implanted within a patient to be treated by in situ radiotherapy.

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DESCRTPTION OF THE PREFERRED EMBODIMENT
Referring now to the drawings and especially to Fig. 1, an apparatus embodying the present invention and generally identified by reference numeral 10 is shown therein. The apparatus 10 has a plurality of flexible .
guide tubes, catheters or lumens 12. Each of the flexible catheters 12 is composed of plastic, such as polytetrafluoroethylene, and has a stainless steel anchor 14 removably connected thereto.
Sealing means 18 is formed integrally with each of the anchors 14. The anchors 14 and sealing means 18 are disposed in the respective distal ends 20 of the respective flexible catheters 12. The distal ends 20 are to be disposed within the patient. The proximal end 22 of each of the flexible catheters 12 is adapted to receive a radioisotope as will be set forth in detail later. An anchor connector means 24 for releasably connecting each of the anchors 14 to its respective catheter 12 is connected to each of the respective anchors 14. In addition, each of the anchors 14 has connected thereto a patient connection means 26 for connecting the anchors 14 permanently or semi-permanently to tissue deep within the patient.
The multiple flexible catheters Z2 are received by a silastic tubular common bushing 30, as may best be seen in FIGS. 1, 2, and 5. The bushing 30, in addition to receiving the catheters 12 has an interior portion 32 filled with silicone 34 effectively to seal the inside of the bushing 30. However, the flexible catheters 12 are somewhat free to be slid longitudinally through the bushing 30. A Dacron felt cuff 36 surrounds the outside of the bushing 30 and is used to assist in the implant of the bushing 30 into a body wall of the patient.
The apparatus 10 as stated above, is far use in in situ radiotherapy og a patient. In particular, the apparatus l0 is useful far in situ radiotherapy of deep lying tumors, far example within the abdominal cavity or ~~4~~~'~~~~~~~
the thoracic cavity of the patient. As is known from the prior art, certain cancers may be treated by implanting tubes through the tumor mass and periodically placing radioactive substances within the tubes. As described in the above said copending application, the radioactive substances are in the form of a wire having a radioisotope imbedded in a nominally nonradioactive material. The radioisotope is relatively localized and thus the wire may be extended into the guide tube with the isotope being relatively well positioned with respect to the. tumor. However, treating physicians~recognize that the guide tubes must remain relatively immobile in the patient during the entire treatment therapy. In some cases it is desirable for the treatment to last as long as two to three weeks. Tn the past, it has proven impossible to implant a deep dwelling tumor with guide tubes since it has been impossible to find anchor points outside the body for such tumors. Recognizing this drawback, we have developed the apparatus 10 which includes a plurality of anchors 14 for attachment to healthy tissue within the body after the guide tubes 12 are drawn through the tumor. It is also important to seal the ends of the guide tubes to prevent the patient from being infected by any materials within the guide tubes.
As may best be seen in FIGS. 3 and 4, attachment means 26 includes an aperture or suture eye 40 formed integral with each of the anchors 14 and a slotted head portion comprising a first slot 42 and a second slot 44 also formed integral witYa the anchor 14. The apertures are adapted to receive or have threaded through them a suture fox suturing of the anchors l4 to healthy tissue.
Typically a figure eight suture would be used. The slots 42 and 44 are adapted to be engaged by a vascular clip 35 c~hich would also engage healthy tissue and permanently or semi~permanently connect the anchor 14 to the healthy ~~(~~~~~~;~~~"~~~
_~_ tissue. The slots 42, 44 and the aperture 40 are alternative attachment means; the surgeon may take his choice.
Of course, prior to the connection of the anchor it is necessary to introduce the flexible catheters 12 into the body. This is typically done during surgical procedures wherein the surgeon concludes that the tumor which has been examined or partially exposed is nonresectable. such tumors may be in the brain, the pancreas, the bowel and various portions of the thoracic and abdominal cavities. In order to implant the catheters 12 in the tumor, the surgeon typically uses a backbone stylet. He places it in one of the catheters 12 with a respective anchor 14 attached and drives the stylet through a tumor mass 50, as may best be seen in FIG. 5, to the other side and positions the anchor 14 in proximity to healthy tissue 52. It may be appreciated that a penetrant point 53 connected to the anchor 14 and referably integral therewith aids in forcing the flexible catheter 12 , stiffened by the stylet, through the tumor 50. A suture 54 may then be drawn through the aperture 40 and stitched into place in the healthy tissue 52 thereby anchoring the anchor 14 or permanently connecting it to the healthy tissue 52.
If the surgeon daes not wish to use sutures as an alternative he may clip a vascular clip to the healthy tissue and to the slots 42 and 44 connected to the anchor 14. In either case the anchor 14 is fixed with respect to the healthy tissue 52 thereby fixing the catheter 12 with respect to the tumor bady 50.
Tt may be appreciated that the multiple catheters l2 may be flexed, although it is desirable from the standpoint of the surgical procedures to make sure that the radius of curvature of the guide tubes is kept large as to permit insertion of the radioactive source.
The catheters 12 may be implanted in three dimensional patterns throughout the tumor 50 in conformity with ~~~~t.~; ~~~~~
_8_ well-known therapeutic regimens. Such regimens provide the maximum radiation flux within the tumor body 50 and lower radiation flux outside the tumor body 50.
Once the distal ends 20 of the catheters 12 have been so anchored it may be appreciated that because each catheter 12 is to remain in the body for a length of time, it is important that the catheter ends are sealed to prevent infection. The sealing means 18 consists of a collar 60 which is formed integrally with the anchor 14.
l0 The collar 60 receives the distal end 20 of the catheter 12 thereon and slightly expands an opening 62 in the distal end 20 to form a tight seal therewith to prevent the entry into the body of any materials or contaminants from within a bore 64 of the catheter 12. It may also be appreciated that each of the anchors 24 is connected removably to the distal end 20 of its respective catheter 12 by a thread 70 connected to the anchor 14, preferably formed integrally therewith. The thread 70 is the means for removably connecting the anchor to the distal end 20 of the catheter l2. This removable connection feature is important for reasons which will become apparent hereinafter. Although the thread 70 was employed as the removable connection, other releasable connecting means might alsa be employed by one skilled in the art.
It may also be appreciated that although the attachment of the anchars l4 to the healthy tissue 52 has been described herein as a permanent attachment, the attachment is permanent in the sense that during the period for which the catheter 12 is to remain in the body and for a period thereafter the anchors 14 will remain implanted: This may be for the life of the patient, however, should the treating physician so desire he or she is always free to perform another surgical procedure on the patient and remove the vascular clips or sutures 3r 54 hereby releasing the anchors 14 from the healthy tissue 52. ~Iowever, since such a procedure will involve _ g _ risk to the patient who has already been weakened by the malignancy, the primary advantage of this invention lies in the fact that the anchors 14 may be released remotely from the catheters 12 to which they are connected after the radiotherapy regimen is completed. The anchors 14 may be removed, if at all, after the patient has recovered.
Returning to the problems faced by the physician as he implants the apparatus 10, the bushing 30 is positioned so that approximately one quarter inch to one inch will be free to extend outside a skin surface 80 of the patient to be treated. The Oacron felt cuff is positioned so that it is slightly below the level of the skin 80 of the patient and in proximity with the subcutaneous fat layer and the dermis. The surgeon attaches the bushing 30 to the patient's body by looping a suture around the bushing 30 and attaching it to the underlying tissue layers. The surgeon may also wrap a suture around the bushing 30 on the opposite side of the Dacron felt cuff 36 to secure the proximal side of the bushing 30 to the dermis of the patient. Tha surgeon then trims the catheters 12 to a length of about twelve centimeters from the proximal end of the bushing 30: The surgeon then seals the open ends of the catheters l2. At this point, because the surgical procedure is being completed and radiotherapy will not be stared until the patient recovers from his or her surgery typically the distal portions of the catheters l2 are coiled and a skin flap is pulled over the bushing 30 and the proximal ends of the catheters 12 thereby completely enclosing the apparatus l0 within the patient's body while recovery takes place.
Once the physician elects to begin the radiotherapy treatment, the catheters 12 and the bushing 30 will be freed partially from the skin 80 so that the bushing nraw protrudes a short distance outside the skin surface 80 as may be seen in FIG. 5. The catheters 22, ~~)~)~~~ ~~~~
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which were previously sealed, for instance with machine screws after having been trimmed by the surgeon are connected to a radioisotope source afterloader such as that described in the aforementioned application of Spako et al. via quick°connects of the type normally used in the medical art. The afterloader then feeds source wires down each of the catheters 12. Because the catheters 12 are immobilized with respect to the tumor 50 by the anchors 14, the treating physician may easily select the axial points within the catheters 12 at which he wishes the iridium 192 in the source wire to be positioned during treatment.
Because only a single opening is made in the patient's body, and the Dacron felt cuff 36 allows inward growth of tissue into contact with the bushing 30 to take place, the risk of infection is drastically reduced.
This will allow the catheters 12 to remain in place for several weeks during which time a sequenoe of treatments may be carried out on the patient exposing the patient to relatively high doses of radiation in the tumor region several times, a regimen that provides better therapeutic results.
The pribr art methods were more prone to infection, the catheters could be implanted only for shorter periods of time, for instance, two to three days. Although the patient received the same total dosage of radiation, not all the cancer cells could be killed. This resulted from the fact that the sources were left in the patent for the entire two or three day period. The present invention alloys the patient to be exposed to radiation for brief intervals. Multiple exposures are employed which are spread over several weeks. The treatment destroys more of the tumor:
Once the physician has completed the radiotherapy treatment after two or three weeks, the bushing 30, Dacron cuff 36 and the catheters 12 may be withdrawn from the patient's body. The surgeon dissects ~f~~~~I~3~~~~

away the tissue from the Dacron cuff 36 under local anesthetic and using aseptic procedures using a buttonhole incision. The sutures securing the bushing 30 are removed and the bushing 30 is elevated away from the tissue. The catheters 12 are then each clamped with a hemostat and cut away from the bushing 30. At that point, the guide tubes 12 are each rotated causing the distal ends to be unthreaded from the threads 70 connected to the anchors 1.4. The catheters 12 may then be withdrawn from the body while the anchors are left in. Then the patient has the benefit of long-term radiotherapy on deep-lying tumor without many of the surgical risks.
while there has been illustrated and described a particular embodiment of the present invention, it would be appreciated that numerous changes arid modifications will occur to those skilled in the art, and it is intended in the appended claims to cover all those changes and modifications which fall within the true spirit and scope of the present invention.

Claims (12)

1. Apparatus for in situ radiotherapy of a patient, comprising:
a flexible guide tube having a proximal end for receiving a radioisotope and a distal end for positioning the guide tube within a patient to be treated;
an anchor;
sealing means for sealing the distal end of the guide tube;
anchor connector means for releasably connecting the anchor to the flexible guide tube; and patient connection means connected to the anchor for connecting the anchor permanently to the patient.

2. Apparatus according to Claim 1 wherein said sealing means is integral with said anchor.

3. Apparatus according to Claim 1, wherein the flexible guide tube comprises a catheter.

4. Apparatus according to Claim 1, wherein the connector means comprises a screw thread affixed to the anchor which engages the guide tube.

5. Apparatus according to Claim 1, further comprising a bushing for engagement with a body wall of the patient and through which the flexible guide tube extends.

6. Apparatus according to Claim 4, further comprising a cuff engaging the bushing and adapted to promote growth of tissues in the body wall into proximity with the bushing.

7. Apparatus according to Claim 1, wherein the patient connection means comprises an aperture in the anchor adapted to receive a suture for connection by the suture to a region of tissue internal to the patient and proximal to an area of the patient to be treated.

8. An apparatus according to claim 1, wherein the patient connection means comprises a slotted head portion on the anchor adapted to receive a vascular clip in engagement therewith.

9. Apparatus according to Claim 1, further comprising penetration means connected to the anchor for penetrating a portion of the patient's body to be treated.

10. Apparatus according to Claim 9 wherein said penetration means comprises a sharp point integral with said anchor.

11. Apparatus for in situ radiotherapy of a patient, comprising:
a bushing adapted for engagement with a body wall of the patient;
a plurality of catheters extending through the bushing, each catheter of said plurality having a proximal end for receiving a radioisotope and a distal end for positioning the catheter within a patient to be treated; and sealing means connected to each of the distal ends of the catheters for sealing the distal ends of the catheters.

12. Apparatus according to Claim 11, further comprising a cuff connected to the bushing for promoting tissue growth from the body wall of the patient into engagement with the bushing.