SE516383C2 - Microdialysis probe comprises dialysis membrane with plug inside and space for perfusion liquid exit - Google Patents

Abstract

Microdialysis probe comprises a dialysis membrane (115) of tubular configuration with glue to hold and seal a plug (130), as an indicating object within. A space (118) is at the proximal end for a perfusion liquid exit.

Description

E- [gzs I ll. ... .l'30,. . . . . 516 see 2 As microdialysis use becomes more common, other problems arise such as monitoring and control of the probe during insertion and use. It is a fact that microdialysis provides a unique opportunity to determine the equilibria of substances and / or the present amounts or missing amounts of substances or to monitor special changes in the status of the substances in connection with e.g. with the use of medicines, during surgery, etc. Monitoring and controlling the position of the probe during insertion and extraction and use has been a problem because the smallness of the probe and the material do not make it possible to use common methods to detect the probe or the insertion has begun. This becomes more difficult the deeper into the tissue the microdialysis is to take place.

It is thus an object of the invention to provide a microdialysis probe, the location of which can be monitored and controlled using means such as X-rays or the like during insertion / extraction or during dialysis to facilitate the placement of the probe at a specific location and to control the placement. of the probe.

It is also an invention to provide a microdialysis probe suitable for general use in living tissue when sampled for diagnostic purposes.

In accordance with the invention, these and other objects set forth in the description of the invention are achieved using a microdialysis probe, which is characterized by the presence of position indicating means which provide such characteristics to the distal end of the probe that non-invasive examination of the location of the probe is performed. distal part of the probe is made possible.

The invention will now be described with reference to, for example, and with reference to the accompanying drawings, in which: Fig. 1 shows, partly in section, a first embodiment of a microdialysis probe according to the invention.

Fig. 2 shows a detailed view of the front part of the probe according to the embodiment as shown in fi g. 1.

Fig. 3 a-c show in detail the sealing of the distal part of the first tube according to the form of erosion shown in fi g. 1 and 2.

Fig. 4 shows a second embodiment of a microdialysis probe according to the invention.

A first embodiment of the microdialysis probe according to the invention is shown in Figs. 1 and fi g. The probe has a distal end piece 110 consisting of glue, which holds and seals a stopper 130 within the distal part of the diaphragm 115. This forms the front part of the probe. The membrane 115 is preferably tubular. A proximal tubular socket 111 and a proximal end piece 113 include the other end of the probe as such. The proximal tubular socket 111 is permanently attached to the proximal end of the end piece 113. The proximal end of the diaphragm 115 is attached to the proximal tubular socket 111.

In the proximal end piece 113, two tubes 107 and 108 constituting the inlet of the probe and the outlet of the probe are connected to the probe, to allow the perfusion fluid to pass through it. Note the definitions above regarding the possibility of inverse fl desolation.

Within the diaphragm 115, which has the shape of a tube made of sernipermeable material, and likewise disposed within the proximal tubular barrel 111, a first tube 116 extends substantially from the proximal end of the probe to the distal end. The first tube 116 is closed at the most distal end by a position indicating object, a plug 130, and has at least one opening 117 at or near the distal end. The opening 117 is a passage for perfusion fluid entering the space 118 defined by the first tube 116 and the dialysis membrane 115 in combination with the proximal tubular socket. 111 and the distal tubular socket 112. To retract the perfusion fluid, a second tube 119 extends from the proximal end of the probe and opens in the same space 118 somewhere near the proximal end of the probe, thereby forming an outlet for the perfusion fluid. The perfusion fluid has now become a dialysate, which has taken up the enzyme exchanged across the sernipennial membrane.

The distal end piece 110 of the probe may e.g. be permanently attached to the distal end of the first tube 116.

To give a correct understanding of the invention, in the form of examples, dimensions are given below. The length of the probe may be about 5 cm from the most distal end thereof to the proximal portion of the proximal tubular socket 111. The length of the tubular socket may be about 2 cm, thus the length of the membrane may be about 3 cm. The diameter of the proximal tubular socket may be about 1 mm and the outer diameter of the membrane may be about 0.6 mm.

The plug 130 shown in fi g. 2 can preferably be made of gold. Other materials can of course be used, but the reason for using gold is the ductility and the relative X-ray density of X-rays and also the chemical and physiological inertness shown by gold.

In a second embodiment, the plug 130 may be configured to form the distal end of the niilcodialysis probe, which is visible during the examination using NMR Quclear Magnetic ßesonance).

This plug can e.g. have the shape of a hollow glass-shaped plug filled with air or the like, which would give the plug such properties that it becomes possible to locate the plug using NMR. 10 15 20 š.'a ': 25 »i I,; n n .H30, s 1 i 1. A way to achieve the sealing of the distal end of the first tube 316 is shown in g. 3 a-c.

I fi g. 3a shows the design of a first pipe 316 according to the invention. The pipe has been subjected to cantilevering to widen its diameter sufficiently to make room for the sealing plug 330.

I fi g. 3b shows a preferred design of the sealing plug 330 and in fi g. 3c shows the first tube 316 with the sealing plug 330 in place.

A second embodiment of the microdialysis probe according to the invention is shown in fi g. 4.

The probe has a distal end piece 410 and a distal tubular socket 412. The distal tubular socket 412 in combination with the end piece 410 comprises the front part of the probe. A proximal tubular socket 411 and a proximal end piece 413 form the other end of the probe as such. The proximal tubular socket 411 is permanently attached to a proximal end piece 413. A diaphragm 415 is attached to the distal tubular socket 412, the diaphragm 415 having a smaller diameter than the socket. The membrane is preferably tubular. The fattening itself is closed at its most distal end e.g. using glue or the like, thereby constituting the distal end 410. The other end of the membrane 415 is attached to the proximal tubular socket 411.

To provide X-ray density at the forward end of the probe, its distal end may be formed as a hemisphere or the like of a material which is X-ray dense or where X-ray-creating materials have been included in the adhesive as such.

In the proximal end piece 413, two tubes 407 and 408 constituting the inlet of the probe and the outlet of the probe are connected to the probe, to allow the passage of perfusion fluid therethrough. Note the above possibility of reverse fate. 20 15: Éyzs 516 sas 6 In this embodiment, the dimensions of the probe will be approximately the same as in the embodiment described in connection with fi g. 1.

Within the membrane 415, which is in the form of a tube made of sernipermeable material, a first tube 416 extends substantially from the proximal end of the probe to the distal end. The first tube 416 has a closed distal end and has at least one opening 417 at or near its distal end. The opening 417 is a passage for perfusion fluid entering the space 416, which is formed by the first tube 416 and the dialysis membrane 415 in combination with the proximal tubular socket 411 and the distal tubular socket 412. To remove the perfusion fluid 4, a second tube 4 extends from the proximal end of the probe and opens in the same space 418 somewhere near the proximal end of the probe, thereby forming an outlet for the perfusion fluid.

In the same manner as described in connection with the first embodiment, the end piece 410 which adjoins the distal end of the probe can be designed so that it is made visible during examination using Nlv fl ï (Nuclear Magnetic ßesonance). This would e.g. could be done by incorporating in the sealing adhesive a hollow glass-shaped stopper filled with air or the like, which would give such properties to the distal end of the probe that it would be possible to locate the probe end using NMR.

The entry has been described with reference to embodiments thereof. It is to be understood that the above-described exemplary embodiment of the distal end of the probe itself and the structural details thereof may vary within the scope of the claims or be independent of the structural details of the distal end of the probe depending on various embodiments of the invention. The framework for the listing is described in the appended requirements.

Claims (8)

5167 383 Patent claims A microdialysis probe, comprising a dialysis membrane (115) disposed and supported between a closed distal end of the probe, and a proximal end thereof, the membrane (115) substantially surrounding a first tube (11) arranged so that between the first tube and the membrane is formed a space (118) for the passage of perfusion fluid; the first tube having at least one passage opening for the passage of perfusion fluid adjacent the distal end of the first tube, and the probe having inlet and outlet means (10,108) for perfusion fluid, characterized in that the space (118) between the membrane (115) and the the first tube (116) is sealed with adhesive in the presence of a position indicating means (130) intended to provide such characteristics to the distal portion of the probe that a non-invasive examination of the location of the distal portion of the microdialysis probe is enabled. Microdialysis probe according to Claim 1, characterized in that the position-indicating agent is an agent which causes an X-ray density. Microdialysis probe according to Claim 1, characterized in that the position-indicating means consists of gold. Microdialysis probe according to Claim 1, characterized in that the position-indicating agent is an agent visible when using NMR (Nuclear Magnetic Resonance). A microdialysis probe according to any one of the preceding claims, characterized in that the distal end of the first tube (116) is closed by means of glue which holds and seals a plug (130) comprising the position indicating means. Microdialysis probe according to claims 1-3 or 5, characterized in that the position-indicating agent comprises a plug made of a biocompatible metal, alloy or amorphous compound which provides the necessary X-ray density. 5316 383 Microdialysis probe according to claims 1-3 or 5, characterized in that the position-indicating means comprises a plug, wherein a compound dispersed in the adhesive sealing adhesive causes the necessary X-ray density of the plug. Microdialysis probe according to Claim 1 or 4, characterized in that the position-indicating means is a hollow object filled with air or the like.