Surgery: kinesitherapy – Kinesitherapy – Exercising appliance
Reexamination Certificate
2000-08-10
2003-11-18
Lucchesi, Nicholas D. (Department: 3764)
Surgery: kinesitherapy
Kinesitherapy
Exercising appliance
C601S043000
Reexamination Certificate
active
06648841
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to a device for resuscitating patients with cardiac arrest, having a lifting device, disposed on a carrier, for a ram that can be placed on the chest of the patient and can be moved up and down, or for a suction bell with a ram.
The success of resuscitation after a cardiac arrest is as slight as ever. According to one statistic, fewer than 5% of patients survive long-term after resuscitation outside the hospital. The long-term success rate of resuscitation in the hospital is 10%. A major problem in resuscitation is that large proportions of the population know the technique of resuscitation only inadequately if at all. Even official members of such aid organizations as the German Red Cross (DRK) or the German Rescue Society (DLRG) are often quite unsure about using resuscitation procedures. In view of this, various resuscitation devices of the type defined at the outset have been developed and put on the market in the past. They include devices that are fastened to the patient with a cinch belt, or devices that are not fixed on the patient at all, or devices that have a board for placement under the patient so as to fix the device. A common feature of all these resuscitation devices is that either they are very hard to transport, because they are very large or very heavy, or they have an external energy supply, which sometimes means they are not usable in all locations.
The resuscitation devices known thus far operate by either the CPR method or the ACD method.
CPR is the standard method for resuscitation. A distinction is made between the one-person or-two-person method. In the one-person method, fifteen cardiac massages are performed, followed by two breaths blown in. In the two-person method, five cardiac massages are performed, followed by one breath blown in.
In the ACD method, after the compression of the chest, the chest is raised again with a suction bell. This act of decompression promotes venous return of the blood, which improves the effectiveness of the heart-lung resuscitation.
SUMMARY OF THE INVENTION
The object of the present invention is to improve a device for resuscitating patients with cardiac arrest in such a way that it is flexible and simple to handle.
The invention attains this stated object by means of a device of the type defined at the outset, in which the carrier is embodied as a gantry that can be placed above the chest of the patient, and the gantry is adjustable at least in width. As a result of this design, the resuscitation device can easily be fastened onto patients with different sizes of rib cage and can be used regardless of local conditions. The gantry construction of the carrier is also very stable, since with it it is possible for the device to be symmetrically supported on both sides of the patient.
Advantageously, the device can have an adjusting knob or handle with which the gantry can be adjusted at least in its width. Thus if it is vertically adjustable as well, the gantry can be adjusted in both width and height, with a single knob.
To prevent overly fast delivery of the respiration air in the artificial respiration process, the user-applied force acting on the ram or the suction bell can be increased, in particular by means of a spring and/or a nozzle.
As an abutment for the resuscitation device in actuating the lifting device, the gantry legs can be provided with feet, preferably embodied in wedgelike fashion. These feet are slipped under the patient's rib cage and thus prevent the entire device from being lifted when the chest is compressed by means of the ram or the suction bell.
Adapting the resuscitation device to different widths for different chests can for instance be done in that the traverse support of the gantry is embodied as a telescoping tube. In the telescoping tube and/or in the legs, a spring mechanism or a gear wheel and rack mechanism can be disposed above the patient for automatically centering the lifting device.
Alternatively to embodying the traverse support as a telescoping tube, the left and right traverse supports of the gantry, instead of being aligned in a single line, can be disposed offset from one another. Once again, this makes it possible to adjust the width of the gantry. Furthermore, for transport purposes, because of the offset disposition of the left and right traverse support, the device can be reduced in its external dimensions so sharply that it does not have to be taken apart.
With the offset disposition of the left and right traverse supports, the lifting device can advantageously be centered over the patient by means of a cable or chain mounted on the traverse supports.
To enable adjusting the resuscitation device individually to the height of the chest in different patients, the lifting device can be disposed vertically adjustably on the gantry. A vertical adjustment of the legs of the carrier would also be possible.
To make the resuscitation device independent of any external energy supply and nevertheless require less force of the helper, a step-up mechanism can be used. It can be converted as a lever or gear, or a hydraulic or pneumatic pressure step-up means, or the like. After actuation, the mechanism can return automatically to its basic position.
The lifting device can also have a lifting cylinder, which aspirates air from the environment that can be fed to the patient via a mask or a tube for artificial respiration of the patient. In this way, the resuscitation device can also be used for artificial respiration of the patient, independently of oxygen bottles. To allow both a mask and a tube to be used, the resuscitation device can have an adapter.
To prevent the air during a reciprocating motion from escaping downward toward the aspiration opening out of the cylinder, the lifting device can have a check valve, so that the air can escape only in. the direction of the face mask or the tube.
To prevent mistakes by users, the device can advantageously alternate automatically between cardiac massage and artificial respiration modes. Depending on the particular application, it can be operated by the CPR method and/or the ACD method.
For patients with a large chest, a longer lifting distance has to be traversed than for people with a smaller chest. Furthermore, the tidal volume is equally dependent on the rib cage size. For this reason, the lifting distance for the cardiac massage and the tidal volume of the device can both be adjustable.
To allow even unskilled users of the resuscitation device to operate the device immediately and safely without having to pay attention to whatever size the patient's rib cage is, the lifting distance for the cardiac massage can be established automatically as a function of the vertical position of the lifting device. Mistakes in operation can be practically precluded by this provision.
To provide an indication of the lifting distance and the tidal volume that have been set, the device can have a scale for the lifting distance and the tidal volume. Advantageously, the resuscitation device can have an oxygen connection for an oxygen bottle or an oxygen reservoir placed in between.
To make it easy to transport, the device can expediently be capable of being taken apart.
Depending on the desired application, it can be used purely as a respirator or as a cardiac massage device.
To make the resuscitation device ready for use at all times even after long periods of non-use, it can be maintenance-free.
For hygienic reasons, the device can furthermore be capable of being sterilized by steam.
When the device is used by the ACD method, the suction bell can be extended past the height of the chest in the return stroke, in order to generate the requisite decompression.
To ease the work for users, the decompression force can be exerted by a spring which is prestressed in the compression stroke.
In the case of relatively weak springs, the decompression can be reinforced by a force-amplifying mechanism, such as a lever, or by means of external energy.
As already noted, the lifting device can be operated via a
Lucchesi Nicholas D.
Nguyen Tam
Striker Michael J.
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