Surgery: kinesitherapy – Kinesitherapy – Exercising appliance
Reexamination Certificate
1999-03-16
2002-10-08
DeMille, Danton D. (Department: 3764)
Surgery: kinesitherapy
Kinesitherapy
Exercising appliance
C601S044000, C601S152000, C128S204210
Reexamination Certificate
active
06461315
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention is directed to an apparatus for improving the distribution of gas in the lungs of a patient during respiratory treatment.
2. Description of the Prior Art
Respiratory treatment is vital for many patients and has saved many lives over the years. The equipment, i.e. ventilators and respirators, has been developed to be able to supply a number of different respiration modes with a high accuracy of the supplied pressure and volume of breathing gas.
When treating patients with severely ill (through sickness or injury) lungs, there is often the problem of providing a life sustaining treatment without risking damage to the lungs caused by the treatment itself.
For many of these patients physicians are reluctant in providing pressures higher than 35 cmH
2
O, as this was a limit proposed at a consensus conference in 1994. This pressure limit is intended for transmural pressure, but is sometimes misinterpreted as the peak inspiratory pressure.
The tidal volume for patients with severely sick or injured lungs is often very small, and may for an adult be as low as the tidal volume of a baby (hence the expression baby lung syndrome)
Due to the condition of the lung, the pressure within different compartments of the lung may vary considerably and some compartments or clusters of alveoli may be collapsed.
A collapsed alveolus can be compared to a balloon. It requires a high pressure even to make it begin to inflate (open up), but once its been opened up, a lower pressure is sufficient for further inflation. If the required pressure is supplied from a ventilator, other parts of the lung may be exposed to pressures that might cause overdistention (disrupting the important exchange of gas between the lungs and the circulatory system) or even barotrauma.
When supplying breathing gas to the patient at a pressure which will not damage the lung, the gas will most likely be distributed only to healthy parts of the lungs. This may cause the sick or injured parts of the lungs to deteriorate further.
The gas exchange between the lungs and the circulatory system is better at the lower part of the lungs, close to the diaphragm. This is due to a better blood perfusion in these parts of the lungs. Since these parts are the most remote from the ventilator (or trachea) it takes more time for the gases in these lower parts to be transported out of the lungs and replaced with fresh gas. It would be beneficial to the patient, if the lower parts of the lungs could receive sufficient ventilation.
It is therefore important to obtain an even distribution of supplied breathing gas in the lungs.
Most patients are placed in a supine position during treatment. Visual monitoring of the patients condition by the staff, as well as access for other equipment, such as infusion apparatus, EGG apparatus, EEC apparatus, etc. is much better when the patient is in the supine position.
Experiments have shown that as many as 70% of patients with acute lung injury have improved gas exchange if they are placed in a prone position. The reason for this is believed to be an improved distribution of gas from the upper part of the lungs to the lower parts of the lungs, due to a decrease in chest wall compliance.
As already stated, placing patients in a prone position is very impractical and may even impede other treatment.
SUMMARY OF THE INVENTION
An object of the present invention is to provide an apparatus which can be used for obtaining a more even distribution of gas in the lungs.
The above object is achieved in accordance with the principles of the present invention in an apparatus including a respiratory assist device connected to the airways of a patient for supplying gas to the airways, and an extracorporeal gas distribution arrangement which directs a controllable pressure to one or more selected extracorporeal positions on the patient's thorax synchronized with the supply of respiratory gas from the respiratory assist device.
The extracorporeal gas distribution arrangement can include one or more pressure-applying elements adapted for placement at selected positions on the patient's thorax, a force generating unit which generates a controllable force, and a force-directing arrangement, connected between the force generating unit and the force applying elements, for conveying or directing the force generated by the force generating unit to one or more of the force applying elements.
Basically, the apparatus according to the invention needs only be adapted to provide a pressure, or a force on one or several specific positions on the patient's chest, preferably on the upper part of the chest, on each side of the sternum (breastbone). Naturally, the patient should be in a position which provides access to the chest. In its simplest construction, the apparatus may even consist of a weight, shaped to be securely placed on the patient's chest. This would, however, require more staff for handling the apparatus. The more preferred embodiments, described below, do not need the same supervision from the staff.
By providing a sufficient pressure of the chest wall by means of the apparatus, the transmural pressure gradient in the lungs can be decreased, indicating that higher peak inspiratory pressures can be used. Thus, not only will the distribution of gas be improved, but higher peak pressures can also be supplied from a ventilator or respirator without increasing the risk of damaging the lungs.
It should be noted that the apparatus according to the invention is different from known CPR-apparatus, which include some kind of means for providing heart massage by applying force on or near the sternum, above the heart. CPR is used when the heart has stopped and thus presents a completely different situation. The CPR systems are therefore not suitable for improving the distribution of gas in the lungs.
In U.S. Pat. No. 4,676,232 a system for promoting blood circulation is described. This system basically comprises a device which encloses the patient's chest and abdomen. The device prevents the chest and abdomen from expanding during respiration, thereby forcing the lungs to expand “inwardly”, in particular against the heart. By correlating respiration phases with heart beats, the pressure on the heart will increase, resulting in an increase in stroke volume of the heart.
In similarity with systems for providing respiration by enclosures around chest and abdomen, this known system is not suitable for improving the distribution of gas in the lungs.
For the apparatus according to the invention, it is most beneficial to supply the pressure synchronized with inspiration phases, during which the pressure applied on the chest could be varied according to predetermined patterns. Any such pattern could be set by a physician before onset of inspiration, or be controlled by the physician during inspiration. Automation is also possible, if the gas pressure within the lung is measured at several locations within the lungs, or by obtaining measurements reflecting the transmural pressure.
During expiration, the pressure is preferably removed to allow normal exhalation from the patient. It should be noted, however, that for some disease groups it might be beneficial if pressure were delivered during expiration as well, e. g. as a continuous positive pressure.
It is not necessary to apply the pressure during each respiratory cycle.
The preferred embodiments of the apparatus according to the invention can have numerous shapes, all suitable for applying the pressure in a controlled and safe manner.
In one embodiment of the invention, an arm is arranged over the bed, holding one or several mechanical actuators which can be brought into contact with the chest for supplying the pressure. The actuators could be bellows-shaped and pneumatically controlled, or telescopic and hydraulically controlled, or even a combination. The force can also be produced by means of springs, pistons, gears or any other mechanical means. A very simple but effective alternative, is to us
DeMille Danton D.
Schiff & Hardin & Waite
Siemens-Elema AB
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