NASOGASTRIC PROBE

Abstract

A nasogastric probe comprises at least one substantially flexible tubular element of elongated shape, provided with at least one main channel communicating with at least one feeding mouth of nutritive substances or the like, which is arranged at a first end stretch of the tubular element itself, and with at least one delivery mouth of nutritive substances or the like, which is arranged at a second end stretch opposed to the first end stretch and intended to be inserted into the patient's stomach passing through the esophagus; and it comprises pressure detecting means inside the esophagus comprising at least one pressure sensor associated with the tubular element and interposed between the feeding mouth and the delivery mouth.

Claims

1) A nasogastric probe comprising: at least one substantially flexible tubular element of elongated shape, provided with at least one main channel communicating with at least one feeding mouth of nutritive substances or the like, which is arranged at a first end stretch of the at least one substantially flexible tubular element itself, and with at least one delivery mouth of nutritive substances or the like, which is arranged at a second end stretch opposed to said first end stretch and intended to be inserted into the patient's stomach passing through the esophagus; and pressure detecting means inside the esophagus comprising at least one pressure sensor associated with said at least one substantially flexible tubular element and interposed between said at least one feeding mouth and said at least one delivery mouth.

2) The nasogastric probe according to claim 1, wherein said at least one pressure sensor is associated with said at least one substantially flexible tubular element on top of said at least one delivery mouth.

3) The nasogastric probe according to claim 2, wherein said at least one pressure sensor is arranged at a distance from said at least one feeding mouth equal to about ⅔ of the length of said at least one substantially flexible tubular element.

4) The nasogastric probe according to claim 2, wherein said at least one pressure sensor is the type of a pressure transducer.

5) The nasogastric probe according to claim 2, wherein said at least one pressure sensor is arranged externally to said at least one main channel.

6) The nasogastric probe according to claim 1, wherein said pressure detecting means comprise a plurality of said at least one pressure sensors arranged mutually spaced apart along the longitudinal extension of said at least one substantially flexible tubular element.

7) The nasogastric probe according to claim 1, wherein said pressure detecting means comprise electric/electrical connection means of said at least one pressure sensor to reading means of the pressure, and said at least one substantially flexible tubular element comprises at least one connection channel, separate from said at least one main channel and adapted to contain said electric/electrical connection means.

8) The nasogastric probe according to claim 7, wherein said at least one pressure sensor is arranged externally to said at least one connection channel.

9) The nasogastric probe according to claim 1, further comprising: at least an additional pressure sensor associated with said at least one substantially flexible tubular element at said second end stretch to detect the pressure at said at least one delivery mouth.

10) An equipment for the forced breathing of a patient, the equipment comprising: said nasogastric probe according to claim 1; assisted ventilation means connectable to a respiratory apparatus of a patient and adapted to convey a working gas; and at least one control and command unit operatively connected to said assisted ventilation means and to said nasogastric probe and programmed to regulate an amount of the working gas conveyed according to the pressure detected by said at least one pressure sensor.

11) The equipment according to claim 10, wherein said control and command unit is programmed to reduce the amount of the working gas delivered by the ventilation means when the pressure detected by said at least one pressure sensor exceeds a predefined value.

12) The nasogastric probe according to claim 3, wherein said at least one pressure sensor is the type of a pressure transducer.

13) The nasogastric probe according to claim 3, wherein said at least one pressure sensor is arranged externally to said at least one main channel.

14) The nasogastric probe according to claim 4, wherein said at least one pressure sensor is arranged externally to said at least one main channel.

15) The nasogastric probe according to claim 12, wherein said at least one pressure sensor is arranged externally to said at least one main channel.

16) The nasogastric probe according to claim 2, wherein said pressure detecting means comprise a plurality of said at least one pressure sensors arranged mutually spaced apart along the longitudinal extension of said at least one substantially flexible tubular element.

17) The nasogastric probe according to claim 3, wherein said pressure detecting means comprise a plurality of said at least one pressure sensors arranged mutually spaced apart along the longitudinal extension of said at least one substantially flexible tubular element.

18) The nasogastric probe according to claim 4, wherein said pressure detecting means comprise a plurality of said at least one pressure sensors arranged mutually spaced apart along the longitudinal extension of said at least one substantially flexible tubular element.

19) The nasogastric probe according to claim 5, wherein said pressure detecting means comprise a plurality of said at least one pressure sensors arranged mutually spaced apart along the longitudinal extension of said at least one substantially flexible tubular element.

20. A nasogastric probe comprising: at least one substantially flexible tubular element of elongated shape, provided with at least one main channel configured to communicate with at least one feeding mouth of nutritive substances, which is arranged at a first end stretch of the at least one substantially flexible tubular element, and with at least one delivery mouth of nutritive substances, which is arranged at a second end stretch opposed to said first end stretch; and pressure detecting means comprising at least one pressure sensor associated with said at least one substantially flexible tubular element and interposed between said at least one feeding mouth and said at least one delivery mouth.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0019] Other characteristics and advantages of the present invention will be more evident from the description of a preferred, but not exclusive, embodiment of a nasogastric probe, illustrated as an indication, but not limited to, in the attached tables of drawings in which:

[0020] FIG. 1 is a schematic view in lateral elevation of a probe according to the invention;

[0021] FIG. 2 is a cross-sectional view along a longitudinal plane of the probe in FIG. 1;

[0022] FIG. 2a is a magnification of a detail of the probe in FIG. 2;

[0023] FIG. 3 is a cross-sectional view along a transverse plane of the probe in FIG. 1;

[0024] FIG. 4 is a schematic representation of a piece of equipment according to the invention.

EMBODIMENTS OF THE INVENTION

[0025] With particular reference to these figures, reference numeral 1 globally indicates a nasogastric probe.

[0026] The probe 1 comprises at least one substantially flexible tubular element 2 of elongated shape, made e.g. of silicone or polyurethane.

[0027] More particularly, the cross section and length of the tubular element 2 may vary depending on the type of application and the age of the patient.

[0028] The tubular element 2 is provided with at least one feeding mouth 3 for the administration of nutritive substances, drugs or the like, which is arranged at a first end stretch 4 of the tubular element itself and with one or more delivery mouths 5 of the substances introduced through the feeding mouth 3, located at a second end stretch 6 opposite the first end stretch 4 and intended to be inserted into the patient's stomach passing through the esophagus.

[0029] The feeding mouth 3 and the delivery mouths 5 are placed in communication with each other by means of a main channel 7 which crosses the tubular element 2 longitudinally.

[0030] The probe 1 also comprises pressure detecting means 8 at the point where the patient's esophagus is located.

[0031] According to the invention, the pressure detecting means 8 comprise at least one pressure sensor 9 associated with the tubular element 2 and placed between the feeding mouth 3 and the delivery mouths 5. In particular, the pressure sensor 9 is placed between the feeding mouth 3 and the delivery mouth 5 closest to the feeding mouth itself.

[0032] The pressure sensor 9 is then placed on top of the delivery mouths 5.

[0033] Advantageously, the pressure sensor 9 is arranged at a distance from the feeding mouth 3 equal to about ⅔ of the length of the tubular element 2 (a margin of tolerance is provided to allow placement within the esophagus after the probe 1 has been correctly inserted in the patient).

[0034] The pressure sensor 9 is preferably arranged externally to the main channel 7, so it does not interfere with the passage of fluids or substances inside it.

[0035] More in detail, in the embodiment shown in the figures, the pressure sensor 9 is associated with the external surface of the tubular element 2.

[0036] Advantageously, the pressure sensor 9 is the type of a pressure transducer, thus adapted to convert a pressure signal into an electrical signal.

[0037] The pressure transducer 9 is fixed e.g. to the tubular element 2 by means of gluing means such as, e.g., of the type of a resin.

[0038] In a particular embodiment, not shown in the figures, the pressure detecting means 8 comprise a plurality of pressure sensors 9 arranged mutually spaced apart along the longitudinal extension of the tubular element 2 in order to detect the pressure inside the patient in a plurality of points which are separate from each other.

[0039] The pressure detecting means 8 therefore also comprise electric connection means 10 of the pressure sensor 9 to pressure reading means 11, of the type of a monitor or the like.

[0040] The connection means 10 can therefore be, e.g., of the type of electrical cables or of the type of an optical fiber.

[0041] Appropriately, the tubular element 2 also comprises one connection channel 12, separate from the main channel 7 and adapted to contain the connection means 10.

[0042] More particularly, the connection channel 12 is defined at the outer wall of the tubular element 2 which delimits the main channel 7. In the embodiment shown in the figures, the connection channel 12 extends substantially parallel to the main channel 7.

[0043] It should be noticed that the diameter of the connection channel 12 is significantly smaller than that of the main channel 7; therefore, the presence of the connection channel 12 does not substantially alter the overall dimensions of the tubular element 2 and therefore does not adversely affect the method of insertion into the patient's body.

[0044] The pressure sensor 9 is advantageously arranged externally to the connection channel 12 so that it is immersed in the environment where the tubular element 2 is located.

[0045] Alternative embodiments cannot however be ruled out wherein the pressure sensor 9 is arranged internally to the main channel 7. In this alternative embodiment, not shown in the figures, the connection channel 12 and the connection means 10 are arranged externally to the main channel 7 and the wall of the tubular element 2 which delimits the main channel 7 has a through hole for the insertion of the pressure sensor 9 internally to the main channel itself.

[0046] In a particular embodiment, not shown in the figures, the probe 1 comprises an additional pressure sensor associated with the tubular element 2 at the second end stretch 6 in order to detect the pressure at the delivery mouths 5.

[0047] The present invention also relates to a piece of equipment, identified in FIG. 4 with reference numeral 20, for the forced breathing of a patient, comprising the probe 1 according to what has been described above, assisted ventilation means 21, of the type of a lung ventilator that can be connected to the respiratory apparatus of a patient, and adapted to convey a working gas (e.g. air and oxygen or oxygen only) and at least one control and command unit 22 operatively connected to the ventilation means 21 and to the probe 1, where this control and command unit 22 is programmed to regulate the conveyed amount of working gas according to the pressure detected by the pressure sensor 9.

[0048] The control and command unit 22, of the type of an electronic control unit provided with a microprocessor, is preferably programmed to reduce the amount of the working gas delivered by the ventilation means 21 when the pressure detected by the pressure sensor 9 exceeds a predefined value.

[0049] The operation of the present invention is as follows.

[0050] The probe 1 is inserted into the patient's digestive system utilizing the common methods used today. Following the insertion into the patient, the pressure sensor 9 is positioned along the esophagus, thus allowing almost continuous monitoring of the pressure inside the esophagus.

[0051] The data provided by the pressure sensor 9 and read by the medical staff through the reading means 11 allow monitoring the pressure inside the esophagus in order to verify the presence of any overpressure exerted by the lungs and due to the forced ventilation applied to the patient. The pressure values “read” by the pressure sensor 9 may indicate excessive or insufficient ventilation. For example, if the detected pressure exceeds a predefined reference value, it is likely that the lung ventilator 21 connected to the patient is providing an excess of air compared to the patient's real needs, who may then experience lung trauma. The control and command unit 22 then intervenes retroactively on the lung ventilator 21, e.g. by reducing the amount of air it introduces into the patient's lungs.

[0052] The pressure values provided by the pressure sensor 9 also allow medical staff to understand if the probe itself has been correctly inserted into the digestive system or if it has been incorrectly introduced along the airway, so it must be extracted and perform the operation again.

[0053] It has in practice been ascertained that the described invention achieves the intended objects and, in particular, it is underlined that the probe, to which the present invention relates, allows the pressure inside the patient's esophagus to be detected in a simple and effective way.

[0054] The probe according to the invention thus allows medical staff to identify promptly the risk of barotrauma and to regulate the forced ventilation of the patient in a practical and effective way.

[0055] In addition, the probe in question allows quickly identifying any incorrect insertion of the probe itself into the respiratory apparatus.