DD149610A1 - BIPOLAR OESOPHAGUS ELECTRODE END - Google Patents

Abstract

The invention relates to a bipolar Oesophaguselektrodensonde for elektischen stimulation of the heart, especially in emergency situations. The object of the object is to provide a device with a means for positioning and fixation, e.g. To improve an oesophageal electrode probe equipped with an inflatable gastric balloon such that a rapid placement of the probe in the esophagus, simultaneously with the fixation guarantees the optimal stimulation position of the electrodes, reliably precludes anodal stimulation and minimizes the patient's stimulation-related stress. This is achieved according to the invention in that the electrode surface is at least approximately cylindrical surfaces and the generatrices of the cylindrical surface of the cathode 2 are at least 40 mm long. It is favorable if the effective area of the cathode 2 is smaller than that of the anode 11. Unwanted stimulation effects are also advantageously reduced by isolating part of the circumference of at least one of the electrodes over their entire length, with means being provided which exclude axial rotation of the probe when it is inserted into the esophagus.

Description

Paliege, Ekkehard Dresden, on March 14, 1980

Volkmann, Hans-Jürgen TNP / Bey / Ro

Paliege, Roland Schneider, Eckhard

VEB transformers and X-ray machine "Hermann Matern"

TuR file 1727

IPK: A 61 N 1/04.

21975t

Bipolar Osophaguselektrodensonde

Field of application of the invention

The invention relates to a bipolar esophageal electrode probe for temporary electrical stimulation of the heart, especially in emergency situations, wherein at the aboral end of the probe means for positioning and fixation of the same in the esophagus, e.g. an inflatable gastric balloon, and above this means the electrodes are arranged on the probe.

Characteristics of the Known Technical Solutions It is known, especially in emergency situations, to perform electrical stimulation of the heart via esophageal placed stepping electrodes. The electrodes are attached to the tip of a gastric tube known as a feeding tube and communicate with the pacemaker via insulated wires. Usually, two electrodes are used at a distance of 4 to 5 cm. Monopolar probes or the monopolar use of bipolar electrode probes are also known, in which case a subcutaneously placed needle or an epicutaneous plate electrode is used as counterelectrode. The probe is inserted through the mouth or nose into the esophagus. In this case, the electrode or the electrodes for stimulation in a near-heart situation

TuR-Äkte 1727 - 2 - <£

(Rath, F., C. Salzmann and HPGurtner; Electrical stimulation of the heart via an esophageal electrode, Schweiz, Med. Wochenschr., 99 (1969), 1661; Rath, F. and C. Salzmann, Vygon-Information, Issue 2 (1973).

Such D'esophagus electrode probes have the disadvantage that after insertion of the probe into the mouth or nose, only the outer end of the probe can be fixed to the nose or the mouth. No statement is possible with regard to the position of the aboral end of the probe without X-ray control or a positive stimulation result »In the absence of a stimulus response of the heart, a primary malposition or secondary dislocation of the probe can not be ruled out. The correct stimulation position must be sought by pushing the probe back and forth, which in any case is associated with a loss of time. Positional changes of the electrodes carrying the electrodes are relatively frequent. In this case, even a slight displacement of the electrodes can lead to a significant deterioration of the stimulation conditions.

To control the position of the esophagus, even without X-ray examination, and to facilitate finding a favorable stimulation position and provide secure fixation of the probe in this position, that is, to avoid dislocation of the probe during stimulation, it is known at the aboral end of a customary gastric tube to provide an inflatable gastric balloon and above this gastric balloon at the .Sonde at regular intervals to arrange a plurality of annular electrodes (DD-PS 133 400). These ring electrodes, which have a center-to-center distance of approximately 20 mm, are connected to a switching element via insulated wires running in the probe and connected to a pacemaker. The Sohaltglled allows within predetermined limits, the free choice of the desired stimulation level on the gastric balloon by switching corresponding electrodes, wherein a bipolar stimulation is performed by pairwise switching of the electrodes. Although, in this type of esophageal electrode probe, searching for a favorable stimulation level

TuR file 1727 - 3 - 2197

Ben the probe is omitted, so here is a precious time consuming search process required and that after the best placed to the heart pair of electrodes. Another disadvantage of the previously known esophageal electrode probes is to be seen in the fact that they do not preclude anodal stimulation and thus there is an increased risk of the occurrence of ventricular fibrillation in the patient. Furthermore, the stimulation with the help of this known probe is associated with a considerable Schraerzbelästigung, which makes the use of pain relief drugs required.

Object of the invention

The invention aims to improve the design of a bipolar esophageal electrode probe in order to achieve a more effective stimulation of the heart.

Explanation of the essence of the invention

The invention has for its object to provide a bipolar esophaguselektrodensonde of the type mentioned above, on the one hand allows rapid placement in the esophagus and simultaneously guaranteed with their fixation in the esophagus without additional control measures the optimal stimulation position of the electrodes and excluded on the other hand, anodal stimulation safely as well as the stimulation-related annoyance of the patient is minimized.

This object is achieved in that the electrode surfaces at least approximately cylindrical surfaces and the generatrices of the cylindrical surface of the cathode are at least 40 mm long. Due to the relatively large length of the cathode is guaranteed that despite anatomical differences of the patient at least a portion of the cathode and thus also the anode are in the optimal stimulation position, i. in the position in which a minimum stimulation energy is required. It has proved to be advantageous when the cathode is closer to the aboral end of the probe than the anode. A possible embodiment of the invention sees

TuR file 1727 - 4 - «ί

In order to avoid anodal stimulation, it is also advantageous that the effective area of the cathode for forming the electric field is smaller than that of the anode In another embodiment, the probe is provided by dividing the electrodes into segments with each edge of the segments being covered in an insulative manner.The possibility of optional continuability of the individual segments of the cathode also has the advantage that unwanted stimulation effects can be reduced When the emergency situation itself is over, eg the patient regains consciousness Unintentional stimulation effects are also advantageously reduced by isolating part of the circumference of at least one of the electrodes over its entire length and providing means are that exclude axial rotation of the probe during insertion into the esophagus.

Although it is known in a multi-ring electrode!) Equipped esophagus probe in bipolar stimulation pairs in such a way that the negative pole is always closer to the aboral probe end, but this is not excluded that the switched anode in larger Near the heart as the cathode is located, which can lead to anodal stimulation.

exemplary

The invention is explained below with reference to an example and an accompanying drawing. 1 shows the basic structure of a bipolar Osophaguselektrodensonde according to the invention,

2 shows the cathode of the probe according to FIG. 1 in cross-section, FIG. 3 shows a single electrode segment and FIG. 4 shows another possible cross-sectional shape of an electrode. FIG. 1 shows a bipolar esophageal electrode probe having an inflatable stomach at its aboral end.

TuR file 1727 - 5

219751

balloon 1 carries. Above this gastric balloon 1, which serves for positioning and fixing and can be inflated by an air hose located inside the probe, cylindrical electrodes are arranged. To increase the flexibility of the probe lying closer to the aboral end of the probe, serving as the cathode 2 electrode is divided into four mutually isolated segments 3 to 6. Likewise consisting of four segments 7 to 10, the serving as anodes 11 electrode, which is separated by an insulating, at least 40 mm long spacer 12 from the cathode 2. The overall length of the cathode 2 is significantly larger compared to conventional oesophageal electrodes. It is expediently at least 40 mm. The diameter of the cathode 2 should be at least 6 mm. The individual segments 3 to 6 of the cathode 2 and the electrically interconnected segments 7 to 10 of the anode 11 are connected via inside the probe extending insulated wires and a connecting cable 13 to the pacemaker in combination, with the individual segments 3 to 6 of Cathode 2 with the help of a switching element, not shown in the drawing, either individually or together to turn on. In order to avoid an undesirable increase in the electric field strength at the edges of the segments 3 to 10, these are covered with an insulating layer 14. In Fi ^c g. 3, for example, the segment 7 is shown. Another insulating layer 15, which covers the cathode 2 over its entire length to two-thirds of the circumference insulating serves to avoid unwanted stimulation effects in the direction away from the heart. The arrow in Fig. 2 points in the direction of stimulation. In order to ensure a correct lateral insertion of the probe and an axial rotation of the same in the esophagus is excluded, the probe in the region of the cathode 2 has a curvature and the connecting cable 13 has a flat shape. That when inserting the probe always the bare side of the cathode 2 remains facing the heart, can also be achieved by constructive measures v / earth, which allow only a preferred bending direction of Sotü e. The insulation of the connecting wires is designed so that even for the

TuR file 1727 - 6 - £

Defibrillation or cardioversion required voltages can be transmitted. Of course, it is conceivable to form the electrodes also with a cross section deviating from the circular shape, e.g. in the form of a circle segment, as illustrated in Fig. 4, a designated 16 electrode, all edges are rounded.

Due to the relatively large length of the cathode 2 is achieved that coincides with the fixation of the probe layer to the heart, i. after inflation of the gastric balloon 1, despite anatomical differences of the patient at least a portion of the cathode 2 and thus also the anode 11 are in the optimal stimulation position, so that eliminates any search for this position. Finally, in addition to the particularly favorable dimensions and the cylindrical shape of the electrodes and their arrangement contribute to optimal stimulation in emergency situations. Moreover, the possibility of the turnable connectability of the individual segments 3 to 6 of the cathode 2 offers the advantage of further reducing unwanted stimulation effects on the patient when the emergency situation is past.

Claims (5)

Invention claim. 1. Bipolar oesophageal electrode probe for temporary electrical stimulation of the heart, especially in emergency situations, wherein at the aboral end of the probe means for positioning and fixation of the same in the esophagus, such as an inflatable gastric balloon, mounted and above this means the electrodes are arranged on the probe, characterized in that the surface of the electrode at least approximately cylindrical surfaces and the generatrices of the cylindrical surface of the cathode (2) are at least 40 mm long. 2. Bipolar Osophaguselektrodensonde according to item 1, characterized in that in a known manner, the cathode (2) is closer to the aboral end of the probe than the anode (11). 3 · Bipolar esophageal electrode probe according to item 1, characterized in that the cross section of at least one of the electrodes comes close to the shape of a circular segment. 4. Bipolar Osophaguselektrodensonde according to item 1, characterized in that the effective area of the cathode (2) is smaller than that of the anode (11). 5 · Bipolar oesophageal electrode probe according to item 1, characterized in that the electrodes are subdivided into segments (3 to 10) and the segments (3 to 6) of the cathode (2) which are isolated from one another are selectively connectable individually or jointly, wherein any edges of the segments ( 3 to 10) are covered in an insulating manner. TuR file 1727 -8- 219751 Bipolar esophageal electrode probe according to item 1,
characterized in that a part of the circumference of at least one of the electrodes is covered over its entire length insulating and means are provided, the axial rotation of the probe during insertion into
exclude the esophagus. For this 2 sheets of drawings