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| United States Patent | 4011875 |
| Link to this page | http://www.wikipatents.com/4011875.html |
| Inventor(s) | Lehr; Siegfried R. (Mottlst. 17, D8 Munich 40, DT);
Schaudig; Alfred (Athosstr. 9a, 8 Munich, DT) |
| Abstract | An attachable and detachable medical electrode, e.g. for pacemakers with
hooks, remotely actuable from the end of the electrode by a guide stylet
or a guide catheter, closing by resilient means, opening either by
resilience or by spreading means. |
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Title Information  |
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Drawing from US Patent 4011875 |
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Medical electrodes |
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| Publication Date |
March 15, 1977 |
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| Filing Date |
February 25, 1974 |
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| Priority Data |
Feb 27, 1973[DT]2309749 |
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Title Information |
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References |
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| Market Size |
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| Reasonable Royalty |
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Public's "Guesstimation" of Royalty Value
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Market Review |
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Technical Review |
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Claims |
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I claim:
1. A medical electrode for implantation in a body, comprising a hollow
conductor, 2 forcep-like hooks at the tip of the electrode, having legs
connected together, said hooks opening by resilience of said legs, a
compression coil spring around said legs, forcing said legs into itself,
thus closing said hooks and a guide stylet for remotely opening said
hooks.
2. The invention as defined in claim 1, said guide stylet being centered by
the end of said compression coil spring, said end being stop wound.
3. A medical electrode for implantation in a body, comprising a non-hollow
conductor, 2 forcep-like hooks having legs connected together, said hooks
opening by resilience of said legs, a compression coil spring closing said
hooks and a guide catheter for remotely opening said hooks. |
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Claims |
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Description |
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THE INVENTION
The invention relates to medical electrodes, in particular to pacemaker
electrodes, supplied with a fixation mechanism, which, when actuated,
attaches or detaches the electrode. Such electrodes are used, e.g., in the
therapy of many disorders of the electrical activity of the heart. One
known electrode uses diverging resilient wire tips, supposed to penetrate
the heart muscle as barbs; another one uses synthetic brushes, pushed out
and pulled in through oblique channels in the electrode tip, for fixation.
The inherent disadvantage of such fixations is that the relatively long,
spreaded wire tips or brushes may cause bleeding of the heart muscle by
traumatization and may even lead to perforation. Furthermore the fixation
is not sufficiently secure against strong abrupt movements.
The invention provides a secure fixation of electrodes, using only a small
depth of the muscle in comprising fixation means formed by two hooks,
closeable like jaws; the tips of the hooks are tapered such as to complete
themselves to a full cross sectional area like the round parts of the
hooks. The clawlike closing of the two hooks may be done by their own
resilience, respectively the resilience of their legs and the opening by
moving a spreading means, actuating said legs, while the closing force of
the hooks may be assisted by a coil spring surrounding the legs of the
hooks; or the hooks may open by their own resilience and are closed in
pulling their legs in a preferably cylindrical enclosure which may be a
compression coil spring, pulling the hooks in closing position and
securing them there.
The legs opposite to the hooks are preferably joined together or made in
one part. For raising the resilience, the legs opposite to the hooks,
including their joining, are weakened, e.g. by grinding, as legs and hooks
are made of spring steel.
Actuating means for opening and closing of the hooks may be a guide stylet
or a guide catheter.
THE DRAWING
FIG. 1 is a longitudinal section of an electrode with hooks opening by
resilience, actuated by stylet.
FIG. 2 shows a longitudinal section of an electrode with hooks closing by
resilience, actuated by guide catheter.
FIG. 3 is a half longitudinal section of an electrode with hooks closing by
resilience.
FIG. 4 is also an electrode but with hooks opening by resilience.
FIG. 5 shows another embodiment with hooks opening by resilience.
DESCRIPTION
In the electrode of FIG. 1 the two joined legs 3 of the half-circle shaped
hooks 4 inclusive the surrounding coil spring 5 are inserted in the coiled
cable 2, insulated with the hose 1. The winding sense of the coil spring 5
is opposite to the winding sense of the coiled cable; the stop wound rear
of the coil spring 5 serves as stylet funnel. Stop wound means wound so
that the windings touch each other. Stop wound is used e.g. in Rocky
Mountains dental catalog. As the front end 6 is fastened, e.g. by tucking
in of the first winding of the coiled cable 2 and the rear end of the legs
7 fastened preferably by adhesive to the coil spring 5, the latter tends to
pull the legs 3 of the hooks 4 into the tip of the electrode, thus closing
the hooks 4 clawlike.
In this position the electrode is implanted transvenously in a chamber of
the heart until the tip, with the hooks being the stimulating surface,
touches the muscle. When a satisfactory threshold is measured, a stylet,
is pushed forward, holding the cable 2 fixed; the legs 3 move forward
until the coil spring 5 is compressed completely, opening the hooks 4;
when the stylet is released the hooks close clawlike, their tips piercing
the muscle tissue.
The embodiment of FIG. 2 shows both hooks 8 closed in general by
resilience. To open the hooks, the spreading means 9 is retracted through
the cable 11 against the pressure of the spring 10, keeping the guide
catheter fixed; thereby the rim of the spreading means 9 forces the
oblique legs 12 and legs 13 outward. When released, the hooks close. The
embodiment of FIG. 3 shows hooks, also closing by resilience; the opening
of the hooks is done by relative movement of the tip 15 to the hooks 14,
the bolt 16 in the tip 15 spreading the oblique legs 17, being connected
integral at 18.
FIG. 4 is an electrode with hooks 19, opening by resilience of their legs
20 when said legs are pushed out of the tip through pulling on the cable
21, while the guide catheter 22 is held fast.
FIG. 5 shows the ends 24 opposite to the hooks 23 and their connection 25
weakened by grinding to increase the opening of the hooks by greater
resilience. The coil spring 26 is insulated by a hose 27 analogous to the
hose 28 in FIG. 4. Insulation may also be done by oxidation of metal parts
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Description |
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