The present invention relates to a securing device for transport of a neonatal patient in a temperature-controlled incubator.
In recent years, medical developments have enabled more and more prematurely born babies to be saved. They must then often spend their first weeks of life in an incubator. The medical expertise which is required to deal with the complications which can arise after the birth is often centralized within specialist units in larger hospitals, so that prematurely born incubator babies sometimes need to be transported. The transport is carried out in a transport incubator adapted for its purpose, which can be provided with systems for, for example, maintaining a desired air temperature and air humidity, life-support systems, etc. A shorter or less urgent transport can be realized as a ground transport, for example in an ambulance; over longer distances and in more urgent cases, it can be carried out by air, for example in a helicopter.
Known transport incubators are marketed, inter alia, by Mansell Neonatal Transport Equipment and Atom Medical International.
Unfortunately, incubator babies within the size range 500-2500 g have difficulty in surviving a crash or shock and can be seriously injured even under heavy braking. This is due, inter alia, to the fact that neither the skeleton nor the skin of an incubator baby is fully developed. A further aggravating factor is that the skin of the incubator baby cannot tolerate load, so that it can injure the baby to clamp it in place with a safety belt or the like.
WO 2006/134363 describes a securing device for transport of neonatal patients. The securing device comprises a plurality of velcroed securing straps, which are intended to hold an incubator baby against a base plate. A plurality of supporting elements see to it that the pressure from the securing straps is alleviated, so that the delicate skin of the baby is not subjected to excessively high pressure from the straps.
There is a need, however, for a more practical securing device which reduces the risk of injury to the baby during transport.
One object of the present invention is to provide safer transport facilities for neonatal patients. This object is achieved by means of a securing device for transport of a neonatal patient in a temperature-controlled incubator, which securing device comprises a vacuum mattress comprising a gas-tight mattress case enclosing a granular filler material, which vacuum mattress is arranged to be brought from a flexible state into a rigid state by evacuation of gas from the same, the vacuum mattress comprising a first side portion arranged to be folded up around a first side of the patient, a second side portion arranged to be folded up around a second side of the patient, and a bottom portion arranged to be fastened in an incubator. Such a securing device can protect the patient against shocks and, by being able to be fastened in an incubator, can also prevent the patient from being thrown around inside the incubator under fierce acceleration or heavy braking.
According to one embodiment, the bottom portion is provided with a rigid plate for securement of the bottom portion in an incubator. The plate distributes the forces to which the vacuum mattress is subjected over a large part of the bottom portion and thereby reduces the risk of the patient being subjected to harmful point loads. Moreover, the plate helps the vacuum mattress to maintain its shape under heavy braking. According to one embodiment, the said rigid plate is provided with a fastening device for fixing the securing device to an insert base for an incubator. As a result, an incubator can be quickly and easily furnished with a securing device upon requirement.
According to one embodiment, the mattress case comprises a PVC-based plastics sheeting which is non-toxic at 38° C.
According to one embodiment, the mattress case is enclosed by a purpose-sewn mattress cover made of gas-permeable and moisture-permeable fabric. This produces a soft surface which has low friction in contact with skin and which allows the skin to be ventilated. Moreover, such a cover can be removed from the vacuum mattress and be washed with other fabrics.
According to one embodiment, the vacuum mattress comprises a leg portion arranged to be folded up around the feet and legs of the patient transversely to the longitudinal direction of the patient. A more stable transport securement of the patient can thereby be achieved.
According to one embodiment, each of the said first and second side portions is provided with a respective row of tensioning strap through holes for fastening of a safety harness. A more stable transport securement of the patient can thereby be achieved. Preferably, a shortest distance between the said respective rows of tensioning strap through holes is between 20 cm and 35 cm when the vacuum mattress is in the flat state. This distance gives a suitable size of vertical component of the contact force of the safety harness against the patient when the securing device is in the evacuated position, so that a good balance between securing capacity and pressure relief is achieved.
According to one embodiment, the securing device comprises a safety harness comprising an integrally joined transparent cloth, which, during use, is arranged to cover at least 50% of the trunk and head of the patient. Such a harness gives a more stable transport securement of the patient, at the same time as it allows the condition of the patient to be monitored since it is possible to see through the cloth. Preferably, the whole of the head and at least 50% of the trunk are covered.
The invention will now be described in detail with reference to the appended drawings, in which:
a is a schematic perspective view, with broken-off parts, of a securing device for transport of neonatal patients;
b is a schematic perspective view of the securing device in
c is a schematic side view of the securing device in
a illustrates a securing device 10 comprising a vacuum mattress 12. The vacuum mattress 12, which in
The securing device 12 is arranged to be fitted around a neonatal patient 22 in the manner illustrated in
In
In
The cloth 36 is anchored in the vacuum mattress 12 by means of a plurality of tensioning straps 38, which are fastened in the cloth 36 and run through respective through holes 40 in the vacuum mattress 12 and the mattress cover 20. The holes 40 are arranged in two rows running in the longitudinal direction of the vacuum mattress 12, with a row being situated in each of the side portions 28, 30. Preferably, the two rows are placed at a mutual distance apart of between 20 cm and 35 cm, and most preferably approximately 27 cm.
In a first step, the patient 22 is secured by the said first side portion 28 being folded up around a first side of the patient 22, as shown with an arrow P1; the said second side portion 30 is folded up around a second side of the patient 22, which in
The securing device 10 has now assumed the folded-up shape shown in
After the first securing step, the vacuum mattress 12 has formed a rigid, protective shell, which encloses the patient 22 (
The capacity of the vacuum mattress 12 to be shaped to the body of the patient 22 also means that the securing device 10 is well constituted to absorb shearing forces upon the patient 22 during braking. This is desirable, since the non-fully developed skin of the patient 22 is especially sensitive to shearing forces.
The side pieces are provided with recesses 46, which facilitate shaping of the vacuum mattress 12 to the body and head of the patient 22. The recesses 46 also facilitate the running of tubes to and from the patient 22, for example CPAP, when the vacuum mattress 12 is evacuated. Similar recesses are also arranged in the leg portion 32.
After the side portions 28, 30 of the vacuum mattress 12 have been folded up, the rows of through holes 40 of the vacuum mattress 12 are located on both sides of the patient 22.
In a second step, the patient 22 is secured by careful tightening of each of the tensioning straps 38 by means of a respective cord lock 44, so that the safety harness 34 is brought into contact with the patient 22. The securement of the patient in the vertical direction is thereby reinforced, so that she is not at risk of being thrown out of the shaped, rigidified vacuum mattress 12. At the same time, the safety harness 34 affords the patient 22 a certain mobility.
In order to produce better wear resistance of the tensioning belt through holes 40 in the mattress cover, these can be provided with eyelets or can have edges sewn with buttonhole seams. The corresponding tensioning strap through holes 40 of the vacuum mattress 12 can also be provided with eyelets; over and above their wear-resistance-enhancing effect, they can also in the vacuum mattress 12 help to distribute the tensile stress of the tensioning straps 38 within the vacuum mattress 12, which can lessen the mechanical load upon the patient during braking. The eyelets of the vacuum mattress 12 are preferably made of plastic, which reduces the risk of wear and tear which might jeopardize the gas-tightness of the vacuum mattress 12.
The incubator 48, which can be, for example, any transport incubator found on the market, comprises an incubator sub-frame 50 and a transparent incubator lid 52. The transport incubator 48 is connected in a non-illustrated manner to apparatus for maintaining a well-defined incubator environment, such as devices for regulating temperature, air humidity and oxygen content. The interior of the incubator 48 is preferably arranged to maintain a temperature close to the body temperature of the patient 22, so that the patient 22 shall not suffer either hypothermia or hyperthermia during lengthy transports. By the term temperature-controlled incubator is meant an incubator in which a temperature within the range 32-39° C. is actively maintained by heating or cooling. For the majority of transports, depending on the medical condition of the patient, a temperature within the range of approximately 34-38° C. is especially preferred, with a temperature of approximately 38° C. generally being most preferred.
Many transport incubators 48 are also provided with medical apparatus, such as equipment for CPAP, infusions, ventilator, monitoring and measuring of SpO2 (oxygen saturation of haemoglobin).
The bottom portion 27 of the vacuum mattress 12 is provided with a rigid, rectangular plate 54 (in dashed representation in
A transport incubator 48 can represent a substantial investment cost and it is therefore desirable that the same transport incubator 48 can be furnished for different applications according to requirement. The insert base 58 is therefore arranged to be detachably mounted in the sub-frame 50 of the incubator 48, so that a patient 22 (
That the securing device 10 is fixed to the sub-frame 50 of the transport incubator 48 reduces the risk of injury to the patient 22 should the incubator 48 be subjected to external influence, such as air pockets or braking actions. Furthermore, in the transport of an unsecured patient, tubes, intubations and other equipment are at risk during braking, for example, of rupturing internal blood vessels or of otherwise injuring the patient. By virtue of the fact that the securing device 10 is fixed in the incubator 48, this risk is also reduced, since the movement of the patient under heavy braking is minimized. By fixing any intubations in the recesses 46, the risks of such injuries can be further reduced.
The insert base 58 can be given a different configuration in order to fit in the transport incubators of different manufacturers.
Preferably, the mattress case 14a-b of the vacuum mattress 12 (
PVC sheeting can also be washed with medical spirit, which makes it possible to reuse the securing device 10 without increased risk of infection.
It will be appreciated that a number of variants of the above-described embodiments are possible within the scope of the appended patent claims. For example, above a securing device 10 mounted in a transport incubator 48 has been described, which securing device is provided with a safety harness 34 and a mattress cover 20. It will be appreciated that the securing device can be used with or without the safety harness, with or without the mattress cover, and can be used, moreover, for transport in other types of incubators than purpose-built transport incubators. In this respect, all sorts of incubators which are used for transport can be regarded as transport incubators.
Furthermore, the vacuum mattress 12 has been described as comprising a first side portion 28 and a second side portion 30. The vacuum mattress 12 can, of course, comprise further side portions, for example by each of the above-described side portions 28, 30 being divided into a plurality of smaller side portions.
This application can come to constitute a basis for spin-off patent applications; especially as it will be appreciated that the securing device 10 can also be used to transport infants who are not born prematurely, and can also be used in the transport of children with no incubator or care requirements, for example by the securing device 10 instead being clamped in a conventional child car seat or a so-called “baby protector”, i.e. a child car seat for very small infants. In these cases, of course, no incubator is needed.
Number | Date | Country | Kind |
---|---|---|---|
1050740-8 | Jul 2010 | SE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/SE2011/050810 | 6/21/2011 | WO | 00 | 12/14/2012 |