JPH0737197U - NO inhalation therapy device - Google Patents

Abstract

(57) [Abstract] [Purpose] When inhaling inspiratory gas mixed with nitric oxide NO, a sufficient therapeutic effect can be obtained and safe treatment can be performed within a range that does not adversely affect the living body. The purpose is to do. [Structure] A therapeutic gas supply device 1 for sending a humidified therapeutic gas by mixing a necessary amount of nitric oxide NO with a necessary amount of oxygen O ₂ for life support, and supplying the therapeutic gas to the patient's respiratory system 2
The sampling tube 11a, which is connected to the inspiratory pipe 3 for delivering to the patient and forcibly sucks a part of the therapeutic gas fed in the inspiratory pipe 3, branches from the vicinity of the patient-side tip of the inspiratory pipe 3. Sensor for detecting NO concentration and NO ₂ concentration
It is connected to the measurement flow path 9 in which S ₁ and S ₂ are arranged, and a moisture impermeable gas permeable filter 12 is interposed between the intake pipe 3 and the measurement flow path 9.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a NO inhalation treatment apparatus for inhaling an inspiratory gas mixed with nitric oxide NO having a gaseous vasodilatory effect to a patient with pulmonary hypertension or severe respiratory failure.

Generally, a normal blood vessel expands and contracts according to changes in blood pressure and blood flow, thereby controlling blood pressure and blood flow. However, for example, in patients with pulmonary hypertension, the blood pressure in the pulmonary artery becomes abnormally high because the pulmonary artery cannot be expanded as it contracts. Insufficient oxygen is not taken into the blood in the lungs, resulting in respiratory failure.

In this case, in a normal living body, since the blood vessels are expanded by nitric oxide NO 2 secreted from the endothelium of blood vessels, if the patient as described above is inhaled with nitric oxide NO 2 from the outside, Similar to that secreted from the endothelium of blood vessels, the pulmonary artery expands and pulmonary blood flow increases, resulting in a high therapeutic effect.

[0004]

[Problems to be solved by the device]

However, when inhaling nitric oxide NO into the lungs, the life span as NO is only about 3 seconds, and after 3 seconds, it binds to hemoglobin in the blood and becomes metahemoglobin, or reacts with oxygen O _2. And it turns into harmful nitrogen dioxide NO ₂ . That, too inhaled nitric oxide NO, or nitrogen NO and hemoglobin monoxide binding, nitrogen monoxide NO is bound nitrogen NO ₂ and hemoglobin dioxide oxidation, because varies in methemoglobin However, the original oxygen carrier function of hemoglobin is lost, oxygen O ₂ cannot be taken into the body, and respiratory failure occurs.

Further, when nitric oxide NO and oxygen O ₂ are mixed and supplied, both react in the intake pipe, and eventually nitric oxide NO, nitrogen dioxide NO ₂ and oxygen O ₂ are contained in the intake gas. However, nitrogen dioxide NO ₂ is more toxic than nitric oxide NO. Therefore, the present invention provides a sufficient therapeutic effect and a safe medical treatment when inhaling an inspiratory gas mixed with nitric oxide NO, within a range that does not adversely affect the living body. It is a technical issue.

[0006]

[Problems to be solved by the device]

In order to solve this problem, the present invention provides a therapeutic gas supply device for delivering a humidified therapeutic gas by mixing a necessary amount of nitric oxide NO with a necessary amount of oxygen O ₂ for life support. Is connected to the patient's respiratory system, and a sampling tube that forcibly sucks a portion of the therapeutic gas delivered in the inspiratory tube branches from the vicinity of the patient-side tip of the inspiratory tube. And is connected to the measurement flow path in which sensors for detecting NO concentration and NO ₂ concentration are arranged, and an impermeable gas-permeable filter is interposed between the intake pipe and the measurement flow path. It is characterized by being

[0007]

[Action]

According to the present invention, when oxygen O ₂ is mixed with nitric oxide NO and humidified therapeutic gas is supplied to the intake pipe, a part of the gas reacts in the intake pipe to produce nitrogen dioxide NO _2. Therefore, oxygen O ₂ , nitric oxide NO and nitrogen dioxide NO ₂ will be supplied to the patient. At this time, part of the inspiratory gas is sucked into the sampling tube from the vicinity of the patient-side end of the inspiratory pipe, and the moisture is removed by the impermeable gas permeable filter, and is introduced into the measurement flow path. The NO concentration and NO ₂ concentration are accurately detected by the sensor arranged in the measurement flow path without causing a measurement error due to moisture.

Further, since the gas in the measurement channel is introduced into the measurement channel via the sampling tube, the reaction progresses in the sampling tube, so that the amount of gas that is supplied to the mouthpiece is larger than that of the inhaled gas supplied to the mouthpiece. Since the NO concentration is low and the NO ₂ concentration is high, the safety of the intake gas supplied to the mouthpiece can be secured by setting the upper limit to a sufficiently safe value in anticipation thereof.

[0009]

【Example】

 Hereinafter, the present invention will be specifically described with reference to the embodiments shown in the drawings. FIG. 1 is a flow sheet showing an example of the NO inhalation treatment apparatus according to the present invention.

In the figure, reference numeral 1 is a therapeutic gas supply device for delivering a humidified therapeutic gas by mixing a necessary amount of oxygen O ₂ with a necessary amount of nitric oxide NO, and supplying the therapeutic gas to a patient. An inspiratory pipe 3 for direct delivery is connected to the airway (respiratory system) 2. In the therapeutic gas supply device 1, the O ₂ cylinder 4 and the NO ₂ cylinder 5 are connected to the artificial respirator 6 via the flow rate adjusting throttle valves 4a and 5a, and are mixed with the artificial respiration air 6 and delivered at a predetermined flow rate. A humidifier 7 is provided to humidify the treatment gas so that the treatment gas does not dry the patient's throat.

Reference numeral 8 denotes a concentration measuring device for measuring the NO concentration and NO ₂ concentration of the therapeutic gas sent through the intake pipe 3, and detects the NO concentration and the sensors S ₁ and NO ₂ for detecting the NO concentration. A measurement channel 9 in which the sensor S ₂ is arranged is formed, and each sensor S ₁ and S ₂ is connected to the control device 10. A sampling tube 11a, which branches from the vicinity of the patient-side end of the intake pipe 3 and sucks a part of the therapeutic gas, is introduced into the inflow port 9a of the measurement flow path 9 through the impermeable gas permeable filter 12. A recirculation tube 11b for recirculating the intake gas introduced into the measurement flow path 9 to the intake pipe 3 is connected to the outflow port 11b. Reference numeral 13 denotes a blower for forcibly sucking a part of the intake gas from the intake pipe 3, which is arranged in, for example, the reflux tube 11b and sucks at a flow rate of about 1% of the flow rate of the intake pipe 3. Is made in.

The sampling tube 11 a and the reflux tube 11 b are connected to branch ports 14 a and 14 b formed in a sampling adapter 14 provided on the front end side of the intake pipe 3. In addition, the intake pipe 3, the sampling adapter 14, the sampling tube 11a, and the reflux tube 11b are all sterilized disposable items, and are used when they are continuously worn by the same patient. However, it is used once a week by replacing it with a new product.

The control device 10 detects the NO concentration and the NO ₂ concentration based on the outputs of the sensors S ₁ and S ₂ and displays the respective concentrations on the display device 15, and one of the respective concentrations is predicted. When the set upper limit is exceeded, an abnormal signal is output, the alarm device 16 issues an alarm, and the throttle valve 5a for supplying nitric oxide NO is emergency closed by the valve closing device 17.

Since the gas in the measurement flow path 9 is introduced through the sampling tube 11a, the reaction progresses in the sampling tube 11a, so that the amount of gas is higher than that of the intake gas sent to the mouthpiece 2. Since NO concentration is low and NO ₂ concentration is high, the upper limit values of NO concentration and NO ₂ concentration are set to predetermined values that provide sufficient therapeutic effect and are sufficiently safe, in anticipation of that. It is set.

The above is an example configuration of the present invention, and its operation will be described below. First, when the concentration measuring device 8 is activated and the blower 13 is moved, and the throttle valves 4a and 5a are opened at a predetermined opening degree, oxygen O _{2 is} supplied from the O ₂ cylinder 4 and the NO cylinder 5 to the artificial respirator 6. ₂ and nitric oxide NO are fed and mixed, and the mixed gas is humidified by the humidifier 7.

Therefore, the therapeutic gas delivered from the therapeutic gas supply device 1 to the intake pipe 3 contains oxygen O ₂ , nitric oxide NO, and water H ₂ O, and the oxygen O ₂ in the intake pipe 3 is contained. Nitrogen monoxide NO reacts with NO to produce nitrogen dioxide NO ₂ , so that the patient is supplied with a mixed gas of oxygen O ₂ , nitric oxide NO, and nitrogen dioxide NO ₂ .

[0017] Then, part of the intake gas is delivered to the patient, through a sampling tube 11a is introduced into the measurement channel 9 of the concentration measuring apparatus 8, the sensor S _1, S ₂ by NO concentration and NO ₂ The concentration is detected, and the measurement result is displayed on the display device 15. At this time, the therapeutic gas sent through the intake pipe 3 is humidified so that the throat of the patient is not dried, but when it is introduced into the measurement flow passage 9, it is inserted into the inlet 9 a thereof. Since the moisture is removed by the impermeable gas permeable filter 12, the measurement error of the sensors S ₁ and S ₂ due to the moisture is prevented.

Then, the NO concentration and the NO₂When either one of the concentrations exceeds a preset concentration, an abnormal signal is output from the control device 10, an alarm is issued from the alarm device 16 to inform the surroundings that the concentration is abnormal, and the valve closing device is also provided. 17 is actuated and the throttle valve 5a of the NO tank 5 is closed urgently. Therefore, if NO is supplied in an appropriate amount, a sufficient therapeutic effect can be obtained, and at the same time, the treatment can be sufficiently safely performed, and at the same time, NO concentration and NO₂If either one of the concentrations exceeds the safe upper limit, the supply of NO is stopped, so O ₂ Only NO will be supplied, so NO and NO NO which are toxic to the patient.₂Never oversupply.

Note that the intake gas is introduced into the measurement flow path 9 through the sampling tube 11a, and the intake gas is returned from the measurement flow path 9 through the reflux tube 11b to the intake pipe 3. While the reaction of O ₂ and NO progresses while passing through the flow path of NO ₂ , the gas with a high NO ₂ concentration will be returned to the intake pipe 3, but originally, the total flow was supplied to the measurement flow path 9. Since only about 1% of the amount is sucked, returning the gas having a slightly higher NO ₂ concentration does not significantly affect the overall concentration.

Further, the case where the intake gas introduced from the intake pipe 3 into the measurement flow path 9 is recirculated to the intake pipe 3 has been described, but the present invention is not limited to this, and the device may be opened to the atmosphere after the measurement. Good. However, since NO and NO ₂ are toxic, the air in the treatment room can be prevented from being polluted by being returned to the intake pipe 3. Further, the filter 12 is not limited to being attached to the concentration measuring device 8, and may be provided at a branch portion of the intake pipe 3 that connects the sampling tube 11a or in the middle of the sampling tube 11a.

[0021]

[Effect of device]

As described above, according to the present invention, when the therapeutic gas mixed with nitric oxide NO is delivered, a part of the therapeutic gas is withdrawn to remove the water content so that the NO concentration and the NO ₂ concentration can be accurately measured. Since it can be measured and the treatment can be performed while monitoring the concentration, it has an excellent effect that a sufficient treatment effect can be obtained and the treatment can be performed safely.

[Brief description of drawings]

FIG. 1 is a flow sheet showing an example of a NO inhalation treatment device according to the present invention.

[Explanation of symbols]

1 ... treatment gas supply device 2 ... patient airway (respiratory) 3 ... intake pipe 5a · · throttle valve 9 ... measurement channel S _1, S ₂ ... sensor 11a · · Sampling Tube 11b ... Recirculation tube 12 ... Impermeable gas-permeable filter 13 ... Blower 15 ... Display device 16 ... Alarm device 17 ... Valve closing device

Claims (4)

[Scope of utility model registration request] 1. A therapeutic gas supply apparatus (1) for delivering a humidified therapeutic gas by mixing a necessary amount of nitric oxide NO with a necessary amount of oxygen O ₂ for life support and breathing the therapeutic gas into a patient's breath. The sampling tube (11a), which is connected to an intake pipe (3) for supplying to the system (2) and forcibly sucks a part of the therapeutic gas supplied through the intake pipe (3), The pipe (3) is branched from the vicinity of the patient-side tip and is connected to a measurement flow path (9) in which sensors (S ₁ , S ₂ ) for detecting NO concentration and NO ₂ concentration are arranged, An impermeable gas-permeable filter (1) between the pipe (3) and the measurement channel (9).
2) An NO inhalation treatment device characterized by being interposed. 2. When the NO concentration and the NO ₂ concentration detected by the sensors (S ₁ , S ₂ ) exceed a preset safety value, an alarm device (16) is provided for notifying the fact. The NO inhalation treatment device according to claim 1. 3. The nitric oxide of the therapeutic gas supply device (1) when the NO concentration and NO ₂ concentration detected by the sensors (S ₁ , S ₂ ) exceed a preset safe value. The NO inhalation treatment device according to claim 1, further comprising a valve closing device (17) for closing a valve (5a) interposed in the NO supply line. 4. Outlet (9b) of said measurement channel (9)
The NO according to claim 1, further comprising a reflux tube (11b) for returning the therapeutic gas used for measurement to the intake pipe (3).
Inhalation therapy device.