Surgery: kinesitherapy – Kinesitherapy – Ultrasonic
Reexamination Certificate
2002-05-06
2004-05-18
Shaw, Shawna Jeannine (Department: 3737)
Surgery: kinesitherapy
Kinesitherapy
Ultrasonic
C601S004000, C606S128000
Reexamination Certificate
active
06736784
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a medical instrument for treating biological tissue.
Such instruments serve for accelerating or starting the healing process in the case of bone fractures, bone injuries, but also periodontosis by means of pressure or shock waves. Another application is the pain therapy in the case of tendopathies.
In the extracorporeal pressure wave instruments known so far a pulsed pressure or shock wave is generated in the focus of an acoustical reflector, e.g. by means of spark discharge, as described in the German laid open patent application DE 23 51 247 A, the wave being focused via the reflector onto the object to be treated with the waves. It is assumed that the pressure waves produce microlesions in the biological tissue, which induce the body to take regeneration measures.
Known pressure wave instruments have a narrow localized focal area in which only a therapeutical effect is observed. The reason for this is that these pressure wave instruments, so-called extracorporeal lithotriptors, have been developed for crushing body stones. During this application the overall energy is focused in a small area, in this case onto the body stone to be crushed. A satisfactory result of treatment of bone fractures and of pain therapy requires however a larger area to be uniformly treated with waves. This necessitates a complex motion mechanism and is very time-consuming due to the repeated search for the treatment position.
Another drawback of the extracorporeal pressure wave sources is that the focal area is invisible for the user. The focus lies outside the instrument proper. For a treatment the doctor therefore needs a localization system (ultrasonic and/or X-ray system) to bring focus and treatment location to coincidence.
In the German laid open patent application DE 197 25 477 A1 an instrument is described where a transmission element couples unfocused mechanically generated pressure waves into biological tissue. For this purpose the user must direct the blunt transmission element onto the treatment location. However, when this instrument, which is of very simple configuration, is used, motion of the transmission element, even if it is limited to a longitudinal deformation due to the influence exerted by a pressure wave, cannot be prevented. For applications where such an instrument is placed onto the skin surface the effect caused by the excursion of the transmission element, such as reddening and slight swelling, may be acceptable. However, for treatment of periodontosis such an instrument must be placed on the gums which does not withstand such a stress.
SUMMARY OF THE INVENTION
It is therefore the object of the invention to configure a medical instrument and a method for transmitting pressure waves such that uniform distribution of the pressure wave energy to a large spectrum is allowed in a simple and inexpensive way without the biological tissue being damaged during transmission of the pressure wave by means of the instrument onto the biological tissue.
The invention provides in an advantageous manner that the transmission means comprises a liquid-filled pressure chamber, the liquid contained therein transmitting coupled-in pressure waves to a membrane arranged at the outlet end of the pressure chamber, the membrane unfocusedly coupling the pressure waves transmitted by the liquid into the biological tissue.
Since the impedance of the liquid corresponds to a large degree to the impedance of the biological tissue into which the pressure wave is to be coupled, no transmission losses occur during the transmission of the pressure wave from the liquid via the membrane onto the biological tissue. In particular a uniform distribution of the pressure wave energy onto a large spectrum is possible without the biological tissue being damaged during transmission of the pressure wave.
A thin membrane is used as coupling means. On the one hand this membrane closes the pressure chamber at its outlet end and on the other hand does not impede coupling of the pressure waves from the liquid into the biological tissue. Further, the entry surface of the biological tissue is not mechanically stressed when the pressure wave is forwarded through the membrane such that the instrument can be applied to all types of biological tissue. Impedance-matched plastic films can be used as membrane.
The pressure chamber is preferably configured as an elongate duct. The duct form presents the advantage that the pressure wave coupled in by the pressure wave generation device cannot migrate sidewards and can in this way be transported as a plane wave over a longer distance without occurrence of any larger losses. Further, steepening of the pressure wave occurs in this preferably tubular duct due to the running length and the non-linear propagation properties such that the elongate duct operates like a shock wave tube. Due to the steepening of the pressure wave the physical variables of the pressure wave change within a shorter period of time and the crushing qualities of the pressure wave increase—an effect which is of advantage for producing microlesions.
The ratio of the pressure chamber length to the pressure chamber diameter preferably ranges between 2 and 10.
The pressure wave generation means may be arranged inside the pressure chamber. The pressure wave generation means generates an undirected pressure wave which propagates in a globular manner and whose energy thus rapidly decreases with the distance from its point of origin. If the locations of generation and application are not near each other, only a small portion of the energy used reaches its point of destination. To limit these losses, the liquid-filled pressure chamber may be configured such that the pressure wave generation means is arranged inside the tubular duct near its inlet end.
Alternatively it may be provided that the pressure wave generation means is located adjacent to the pressure chamber. In this case the exit interface of the pressure wave generation means is identical with the entry interface.
The pressure wave generation means can generate pressure waves in a piezoelectrical, magnetostrictive, electrostrictive, magnetic, electrical or mechanical manner.
The pressure wave generation means may e. g. comprise an electrohydraulic probe arranged in the pressure chamber, the probe generating a pressure wave by spark-over.
Alternatively, the pressure wave generation means may comprise a piezoelectric element arranged on the inlet end of the duct of the pressure chamber and directly adjacent to the liquid.
Further, the pressure wave generation means may comprise an electromagnetically excited membrane arranged on the inlet end of the pressure chamber and directly adjacent to the liquid.
In a preferred embodiment it is provided that the pressure wave generation means couples the pressure waves mechanically into the pressure chamber, and that an exit interface of a linearly guided transmission element, which is elastically supported in axial direction, is coupled to the liquid in the pressure chamber and transmits mechanically induced pressure waves to the liquid.
Alternatively, an internal membrane, which is elastically supported in axial direction, may be arranged at the inlet end of the pressure chamber, the membrane mechanically transmitting the coupled-in pressure waves to the liquid.
The transmission element or the internal membrane is energized by a linearly reciprocating beater part which, as a result of the impulse, mechanically induces a pressure wave which propagates up to the exit interface of the membrane or the transmission element.
The beater part is guided coaxially to the transmission element.
The pressure wave generation means periodically generates the coupled-in pressure waves. A larger number of successive individual pulsed pressure waves of weaker energy leads to a better healing success in the biological tissue than one individual strong pressure pulse. The pressure wave generation means can thus operate at a frequency of recurrence of individual pressure pulses of between 1 a
Jerger Thomas
Menne Andreas
Diller Ramik & Wight
Ferton Holding S.A.
Shaw Shawna Jeannine
LandOfFree
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