DE3038445A1 - Pressure wave generator for diagnosis and therapy - has spark gap in inflatable balloon at end of catheter - Google Patents

Abstract

The pressure wave generator employs a spark gap at the end of a catheter which may be introduced into the oesophagus of a reclining patient to stimulate the heart or into the urinary tract in order to break up kidney stones. At the front end of a catheter (12) is an inflatable balloon (18) which contains a spark gap (16). Fluid from a reservoir (14) is circulated by a pump (28) to inflate the balloon when in situ and to remove gases from the spark gap.

Description

Shock wave generator for medical applications

The invention relates to a shock wave generator for medical use Applications with a spark gap that is located within a housing.

From DE-PS 21 51 247 a device for smashing im Concrements located in the body of a living being with a focusing chamber known, wherein the focusing chamber is part of an ellipsoid of revolution and at one focal point shock waves can be generated by spark discharge. The focusing chamber is closed by means of an elastic membrane and the membrane has no air gap applied to the body in such a way that the stone to be smashed is in the second Focal point. The facility is used, for example, to destroy kidney stones without any surgical intervention. The kidney stone is determined by means of an X-ray localized in its size and its position in the patient's body. Then it will be the stone is acted upon by means of adjustable and focused shock waves, so that it disintegrates into a fine semolina that is easily natural way is washed out. The device is based on the knowledge that shock waves on material with low tensile strength there is always a chipping or destructive effect cause when a transition from a medium with high to a medium with low There is acoustic wave resistance.

It had now been found that the acoustic wave resistance of the human or animal tissue approximately equal to the acoustic wave resistance of the water and the acoustic wave resistance of the calculus differs significantly from it. It has also been shown that shock waves affect other parts of the human body Body does not affect and that the bones of the human body cannot be damaged because of their high tensile strength and the shortness of the impulse. The destruction of calculus depends on the steepness of the flank Increase in pressure of the shock waves. The size of the flaking parts, on the other hand, is determined by the duration of the shock wave pulse is determined. To destroy a large stone it can be advantageous to use a first pulse of longer duration so that the concrement breaks into larger pieces. It can then be used for very short periods of time Pulses the crushing into fragments take place naturally through the ureters can be flushed out.

From DE-PS 24 18 631 an externally applicable cardiac stimulator is known, which consists of a coupling device elliptical in longitudinal section, read on the surface of the body of a patient in the heart area without air gaps can be placed and in which a point-shaped in a focal point of the coupling device Pressure wave generator is present in the form of a spark gap.

This invention is based on the object of a device for heart stimulation to create from the outside in a bloodless way through the chest, in particular can be used in emergency medicine. The should be stimulated electrically and mechanically The heart chamber is stationary or beating too slowly (so-called asystole). the Pressure waves emanating from the pressure wave generator practice mechanical with this device Stimulate the ventricular wall of the heart, which leads to cardiac stimulation. Means of the pressure wave generator can generate impulses without endangering patients and staff generated periodically until either the heart is spontaneously sustained or the stimulation measures with an artificial pacemaker are taken can be.

Also known from DE-PS 12 18 112 is a device for removing of concretions from urinary tract by means of an insertable, electrode-carrying and elastic probe connected to a source of electrical energy. Shock wave catheter of this type are basically functional, but have a fatal error the open spark gap, which often leads to mechanical damage and burns the bladder inner layers came.

The invention is based on the object of a shock wave generator for diagnostic or therapeutic applications to create through body orifices is insertable and in the vicinity of the body part to be acted upon by shock waves or Concrements can be brought about and, nevertheless, the spark gap does not affect the body tissue touched and can also be electrically isolated from this.

According to the invention, this object is achieved in that the spark gap located in a balloon which is arranged at the end of a catheter and the catheter can be introduced into body cavities, the balloon at the point of application of shock waves is expanded by means of a liquid.

According to the invention, it is also advantageous if the spark gap is located in a reflector inside the balloon and the reflector can be centered is.

In a further advantageous embodiment of the invention is the inside and / or the outside of the balloon at least partially electrically Conductively coated and connected to the shield of the catheter.

As already mentioned, the shock wave catheters used up to now which are basically functional because of the open, uncentered spark gap often to mechanical destruction or burns of the tissue, this disadvantage is in the subject matter of the invention by centering the spark gap within of the inflated balloon avoided. About electrical effects To avoid the discharge of the spark gap of the shock wave generator is the inside of the balloon electrically conductive and connected to the shield of the catheter.

Another application of the shock wave generator according to the invention is the use as a heart stimulator for temporary supply in the event of failure of the natural or artificial pacemaker. The shock wave generator is inserted into the esophagus at the tip of a catheter to stimulate the heart. Reach the directed shock wave pulses emitted at the natural beat frequency from the esophagus directly the heart and trigger cardiac actions.

The well-known application of transthoracic electrical stimulation of the heart is poorly efficient and has a number of known side effects, e.g. painful chest wall muscle contractions.

The well-known stimulation by means of an electrocatheter, which is advanced transvenously after percutaneous puncture to the right ventricle and triggers intraventricular systoles there, interrupts tachycardia or ventricular fibrillation, works reliably, requires to control the positioning of the catheter tip however, an X-ray machine and is therefore not very suitable for an emergency situation.

The well-known stimulation by puncture electrodes can be fast Bringing help, but is fraught with a number of complications, e.g. injury to the peri-, epi- and myocardium.

The device according to the invention, which is at the tip of a catheter is inserted into the esophagus, stimulates the heart immediately by moving forward directed pulses. A supine position of the patient contributes to the good mechanical coupling at, as the heart approaches the esophagus in this position The stimulation Due to the precardial structures, pulse energies of 0.04 - 1.5 joules are required.

The close proximity of the heart and esophagus allows a considerable Reduction of the pulse energy so that the risk of a traumatic event is avoided will. The secure coupling of the shock wave generator to the esophagus is according to the invention achieved by a balloon at the tip of the catheter, in the center of which the Spark gap is located.

The balloon is after inserting and positioning the catheter expanded by a liquid and brought to bear. An electrical discharge A shock wave, the ditr wall, is generated in the liquid via the spark gap of the balloon and esophagus and hits the heart directly, causing E.g. a cardiac action is triggered in the event of cardiac arrest.

The stimulation necessary to achieve the desired beat frequency may be required according to the situation of the patient take place via the atrium or the ventricle.

It can work both at a fixed frequency and according to the "demand" principle.

The possible indications for mechanical heart stimulation are after 1. Cardiac emergencies - Adams-Stokes syndrome - resuscitation - tachycardias 2. Prophylactic use - pacemaker change - bradycardias after electrocardioversion 3. Hemodynamic examinations - coronary artery disease - ididpathetic hypertrophic Subaortic stenosis 4. Electrophysiological examinations - initiation and termination of tachycardias - determination of sinus node recovery time - detection of patients with the risk of sudden cardiac death - detection of latent overdigitization.

Further advantages, features and possible uses of the invention result from the following description of an embodiment.

Fig. 1 shows the basic representation of an inventive Catheter and FIGS. 2 and 3 are sectional views of a focusing and a non-focusing Spark gap.

The catheter 2 consists of a coupling 4, a coaxial, flexible one Power supply 6, around which the hoses 8 and 10 are laid and a smooth, elastic cover 12, which for orientation longitudinal and transverse markings (not shown). A liquid supply 14 also serves for degassing a spark gap 16 and for expanding a balloon 18. The mechanical connection 20 of the catheter tip 22 and balloon 18 forms the centering of the spark gap 16. A liquid supply is located in a tight vessel 24, which is a pressure-controlled Includes gas cushion 26. A circulation pump 28 conveys the liquid into the supply hose 8 to the spark chamber 16 and transports the liquid via the return line 10 in the vessel 24. In the return there is a gas separator 30 in which the Discharge evolving gases are removed from the circuit.

The electrical supply of the spark gap 16 takes place by means of the Power supply 6. The stimulation frequency and the triggering of the spark gap 16 is controlled by devices of known design.

The balloon 18 consists of a highly flexible material (e.g.

Polyurethane), its wall thickness is less than one millimeter and its diameter is a few millimeters.

Fig. 2 shows a spark gap 16 in plan view, the impact or pressure waves are reflected from a wall 34 in such a way that they are outside of the balloon 18 meet at a focal point 36. By turning it accordingly the shell 12 can thus bring a focused shock wave to any desired point will.

In the subject of FIG. 3, there is no centering; here occurs the shock or pressure wave freely through a window 38.

Claims (3)

Claims: Shock wave generator for medical applications with a spark gap which is located within a housing, characterized in that, that the housing is a balloon (18) which is located at the end of a catheter (2), which is insertable into body cavities, and that which is inserted into a body cavity The balloon (18) can be expanded by means of a liquid. 2. Shock wave generator according to claim 1, characterized in that the spark gap (16) is in a reflector within the balloon (18) and can be centered. 3. Shock wave generator according to claim 1 or 2, characterized in that that the inside and / or outside of the balloon (18) is at least partially electrical is conductively coated and is connected to the shield of the catheter.