DE2609365A1 - Heart pacemaker with frequency increasing with body's demands - is controlled by changes in blood temp. measured at heart region - Google Patents

Abstract

An electric heart pacemaker has variable frequency, controlled in dependence on the blood temp. measured deep in the body, pref. at the heart itself. Ergometer tests have shown a 1 deg.C temp. rise for 125 watts of work output. The temp. sensor is pref. combined with the existing electrodes in a single heart catheter. It can be used as a base resistor in a transistorised blocking oscialltor circuit. The variable frequency is desired to make the heart adaptable to a greater range of work loads since with fixed frequency, only the heart stroke vol. is variable for this purpose. The frequency can rise with measured temp.

Description

Electric pacemaker

The subject of the present invention is an electrical pacemaker, its stimulation pulse repetition rate depending on the body temperature or the central blood temperature is controlled automatically. With the claims are his inventive features.

Since the first successful electrical stimulation of the human Heart more than 70 years ago (Zoll, P.M .: Historical Development of Cardiac Paeemakers. Progr. Cardiovsc. Dis. 14 (1972): 421) has become the electrical pacemaker an indispensable aid in the treatment of stimulation and especially developed excitation propagation disorders of the heart.

Today most of the initially apply to the implantation of cardiac pacemakers related difficulties as solved, so now reliable, for several years functional pacemakers of small dimensions, light weight and with Implantation with extensive physiological tolerance to the doctor for stimulation are available for cardiac activity. The conditions that are relevant for the treatment, namely, with respect to the frequency, shape and width of the pacemaker pulses as well as in relation to the trigger properties, stand for the different therapy requirements largely solid. One has the possibility of a fixed-frequency cardiac stimulation (stimulation) or atrial-triggered stimulation. Finally, there are also so-called QRS-inhibiting ones or i) emand pacemaker available. With them the stimulation is by means of controlled by an intracardiac electrode probe, the pacemaker impulses are automatically generated as long as the spontaneous electrical activity of the chambers is still suppressed occurs. However, if the natural excitement of the heart is for a certain pacemaker pulses, preferably frequency-locked, are missing for a selectable time delivered at about 70 beats per minute. By the other kind, namely that of Natural stimulation controlled by actions is once the energy consumption of the pacemaker, which is particularly great with implanted pacemakers is important, and on the other hand, there will be unnecessary or even harmful irritation of the Heartily avoided when interfering with natural actions.

The vast majority of those used today for long-term therapy Pacemaker has the disadvantage that the stimulation rate before implantation must be set permanently, so that an increase in cardiac output only can be achieved by increasing the heartbeat volume. However, this is with moderate to high physical exertion and especially with myocardial Insufficiency is insufficient and can impair the performance of the pacemaker significantly affect.

The ones necessary for the best efficiency of the cardiovascular system Heart rate is generated in a healthy heart by the sinus node. If the disorder to be treated by the artificial electrical pacemaker at its heart is the class of the electrical nodes produced by the natural Sinds node Impulse is not directed from the atrial to the ventricular area of the heart, it is Obviously, the stimulation frequency of the artificial pacemaker to steer the impulses of the sinus node. Such so-called P-wave controlled Pacemakers are available and were introduced as early as 1962 by Nathan, Center and Employees implanted (Nathan, D.A., Conter, S., Wu, C.Y., Keller, W: An imp; antable synchronous pacemaker for the long-term correction of complete heart block.

American J. Cardiol. 11 (1963): 362). The practical disadvantages of the pacemaker systems controlled by the P-wave are not yet available has been fixed, so that only a part of the implanted pacemaker from ihror The main defect is that the electrical voltage of the P wave over a separate electrode anchored in the atrial area must be derived and fed to the pacemaker. The anchoring of such However, the atrial electrode is in the atrium by inserting a catheter through a Vein not reliably possible (Büchner, Ch., Drägert, W .: Pacemaker Therapy of the heart, Forum cardiologicum 14, Boehringer Mannheim GmbH 1973). The reliable one Fixation of an atrial electrode is only possible through a surgical procedure with opening of the thorax and the associated obvious disadvantages and risks are possible.

The disadvantages of the P-wave controlled pacemaker have encouraged for other possibilities of load-dependent frequency control of the pacemaker to search. For example, H.D. Spark suggested the pacing pulse rate to change automatically depending on the breathing rate (H.D. Funke: On Cardiac pacemaker with load-dependent frequency regulation.

Biomedical Engineering 20 (1975): 225).

However, it is disadvantageous on the one hand that breathing is arbitrary can be influenced and, on the other hand, that the reliable recording of breathing activity requires considerable effort.

The present invention is based on the finding that it is in physiological Respect would be very favorable to the frequency of stimulation by pacemakers and so that the heart rate adjusts to the physical strain of the pacemaker wearer, According to the invention, this is achieved in that the core body temperature, and Although the central blood temperature is preferred as a manipulated variable for controlling the pacemaker pulse rate, is used. Intracardiac blood temperature measurements made by the inventor have the well-known fact of the dependence of the central blood temperature on the physical stress confirmed. For example, when stressing patients With the help of the bicycle ergometer an increase in the central blood temperature of approx. 1 ° C when the load was 125 W. The stimulation pulse frequency should increase demanch as a function of the core core temperature regulate, generally in the same direction, with no linear dependence in sub-areas is to be excluded. The frequency change is mainly at a higher Blood temperature must be more wavy than at a lower temperature. For example, the temperature range from 37 ° to 390 ° C could be a frequency range from 70 to 100 pulses, a maximum of 110 pulses per minute.

The physiological significance of the invention lies in particular in that at high temperatures there is also a higher need for oxygen in the heart and in the body arises, to which only by enlarging the blood flow and thus by increasing the Heart rate can be met. There are already pacemakers, namely fixed-frequency and demand devices, in which the stimulus intensity and the Frequency can be adapted to certain existing physiological conditions. However, this adjustment always had to be done on a case-by-case basis by land control more than two or three frequency values were not available for selection. In contrast, the idea of the invention provides an automatic, preferably continuous one Control of the stimulation frequency as a function of the blood temperature before.

Figures are used for the further description of the inventive concept used.

Figure 1 illustrates the basic principle of the invention with a circuit diagram. FIG. 2 serves to illustrate a possible application of a cardiac pacemaker. FIG. 3 shows a possible embodiment of the tip of a stimulation catheter and FIG. 4 shows the circuit diagram of a pacemaker based on the blocking oscillator principle represents, with measures that characterize the invention.

For a more detailed description of the inventive concept, battery-operated Based on pacemakers, which are currently regarded as the ideal form of pacemakers and ensure undisturbed stimulation for at least several weeks. The patient remains unhindered and able to move. Such a pacemaker comprises the electrical pulse generator 2, the supply voltage battery, as the main part 1, which parts are usually installed in a capsule 10 (see Figure 2), furthermore the leads 5a and 5b for those to be laid in or on the heart 4 Stimulation electrodes 3a and 3b. For the implementation of the inventive idea is Finally, an electrical temperature filler that can be placed in a chamber of the heart 6 provided, which is connected to the pulse generator 2 of the pacemaker via the electrical Lines 7a and 7b are connected in such a way that the stimulation frequency is in the same direction is automatically controlled with temperature changes in the heart. Basically can the control of the pacing rate in the case of endocardial or epicaidial unipolar or bipolar and finally also with intramural type of irritation of the To be applied with the heart. Their electrodes correspond to these possibilities and to design their feed lines, which are preferably laid in catheter tubes. It should be noted that it is less the electronic part than the design the application electrodes and their leads as well as their laying or application in the heart the main technological difficulties in artificial cardiac stimulation raise. Above all, the constant movement of the electrodes and their leads with the heartbeats require a high flexural strength of the material, namely not only the conductive cables and the electrodes, but also the insulating tubes. By and large, however, these problems can be regarded as resolved, but are not the subject of the present invention.

The automatic control provided according to the concept of the invention the pulse frequency of the pacemaker can also be used independently of whether a frequency-fixed stimulation is provided and the impulse generator is designed accordingly or whether the artificial stimulation only when necessary (Demand principle) should use. In contrast, the idea of the invention is not with so-called atrial-controlled pacemakers can be used, in which the impulses from the Cardiac action, triggered by the P-wave of the atria, synchronized. For the latter, a special feeler for the natural heart action is required with corresponding leads to the impulse generator, in order to avoid them when a certain phase (mainly the P-wave) of the. Trigger heart action.

The measure according to the invention can finally be applied to extracorporeal Arrangement of the pacemaker or when implanted in the body of the patient 8 Pacemakers 10 are applied. With bipolar stimulation, two small-area, adjacent electrodes of the same size brought into contact with the myocardium. In the case of unipolar stimulation, on the other hand, the actual stimulation electrode is proportionate over a small area and is preferably attached to the inner wall of the by means of a catheter Heart chamber anchored, as Figure 2 illustrates, while the indifferent counter electrode 3b should be large and at any point on the heart, preferably can be attached to the outer wall. The actual stimulation electrode 3a should be connected to the negative pole of the battery, as this causes tissue irritation on the Stimulus location is particularly small and only a minimum of pulse voltage is required.

The idea of the invention is further based on a bipolar intercardiac Electrode according to Figure 3 explained. It is at the head of an intracardiac Catheter 9, a hose made of insulating material, the stimulus electrode 3a arranged, while at some distance behind it, the indifferent electrode 3b is located. Their feed cables are 5a and 5b at the inside of the catheter tube 9 relocated. The arrangement is now characteristic of the invention a temperature sensor 6 also at the tip of the catheter, e.g. between the both electrodes. Its supply lines 7a and 7b are also laid in the catheter tube, however, a lead 7a in a special electronic control circuit could coincide with the lead 5b for the indifferent electrode 3b.

Passive or active temperature sensors can be used as temperature sensors Elements are used, so hot conductors (thermistors), PTC thermistors, diodes, transistors or thermocouples.

According to their task they have depending on the ambient temperature to control the pulse frequency of the pulse generator 2. In one embodiment according to the blocking oscillator principle of pacemakers, which is the circuit diagram of Figure 4 is based, therefore the temperature sensor 6 expediently forms the series resistor in the base circuit of a transistor 11 of the blocking oscillator. The basic preparation is therefore changed with the temperature, the frequency of the blocking oscillator becomes accordingly controlled via the transistors 11 and 12. When using multivibrators as In pulse generating elements, frequency control is achieved in a similar manner.

The frequency of the stimulator is mainly in the same direction as the Temperature controlled, i.e. if the temperature increases, the frequency should also increase the stimulation impulses increase. In general, it should be a temperature interval between 3700 and 3900 a frequency interval of 70 pulses per minute to 110 per minute.

Pacemaker according to the concept of the invention with an automatic Control of the pacemaker rate depending on the temperature come the counteracts physiological requirements better and more appropriately than previous forms of dentistry, which do not have a constant frequency adjustment. Laugh at crotch according to the invention but the favorable property also remains, that only a single catheter, which also contains the temperature sensor, after the to be inserted transvenously needs. In addition, it is advantageous that there are some disorders in the pacemaker system this can indicate that the pacemaker rate is no longer within the prescribed range Wise changes in the ambient temperature ensues, especially in the case of non-physiological ' rapid temperature increase. So you can use the temperature-controlled frequency change can also be used to check the function of the pacemaker system.

Claims (9)

A N S P R Ü C H E 1. Electric pacemaker, marked by circuit measures for the automatic control of the frequencies of the pacemaker impulses by the body core temperature acting as a manipulated variable, preferably by the central blood temperature of the heart 2. pacemaker according to claim 1, characterized by an electrical one that can be moved into a chamber of the heart (4) of the patient (8) Temperature sensor (6), the electronic one with which the stimulation pulses are generated Organs of the pacemaker (2) are connected via lines (7a, 7b) in such a way that that the stimulation frequency as a function of the core body temperature. in particular the central blood temperature is controlled automatically will. 3. pacemaker according to claim 2, characterized in that into the tip of the heart catheter (9) on which at least the stimulus electrode (3a) is located for the application of the pacemaker pulse is an electrical temperature sensor (6) is installed, which is connected to the control line (7as 7b) is connected to the electrical pulse generator (2) of the pacemaker (Figure 3). 4. pacemaker according to claims 1 to 3, characterized in that that a lead (7al) for the temperature sensor (6) with an electrode lead, preferably the supply line (5b) for the indifferent application electrode (3b) of the writer is united. 5. pacemaker according to one of claims 1 to 4, characterized in that that one of the following electrical components serves as a temperature guide: passive temperature-dependent elements such as thermistors, PTC thermistors, diodes, Transistors and active temperature-dependent elements such as thermocouples. 6. Cardiac pacemaker according to one of Claims 1 to 5 in combination with unipolar or bipolar, endocardial or epicardial and intramural Electrode catheters. 7. pacemaker according to one of claims 1 to 6 with extracorporeal or implantable arrangement of the pulse generator and the supply voltage source. 8. pacemaker according to one of claims 1 to 7, characterized in the application or combination with heart rate independent or frequency fixed Excitation of the pacemaker impulses. 9. pacemaker according to one of claims 1 to 8, characterized by a transistorized blocking oscillator as a pulse generator, its control electrode (via) in connection with the temperature sensor (6) via the control line (7a, 7b) stands, preferably in such a way that the 'temperature-dependent sensor (6) has the base resistance one of the Schwingiransistoren (11, 12) forms (Figure 4).