JP2013017789A - Nonlinear diagnosis and pressure regulated oxygen therapy joint examination system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a nonlinear diagnosis and a pressure regulated oxygen therapy joint examination system which analyzes intracellular information by vibration resonance at a molecular level through human bioelectric current in particular, displays a diagnosed part onto a display screen, and executes pressure regulated oxygen therapy corresponding to discovery of an ahead sickness and its prevention, as regards the nonlinear diagnosis and the pressure regulated oxygen therapy joint examination system.SOLUTION: A nonlinear diagnosis method is performed via a cloud, and the nonlinear diagnosis method constituting a joint examination system is implemented by a molecular resonance imaging technology. A nonlinear diagnosis apparatus 1 comprises a head scanner 15, a CPU unit 14, an image display unit 10, an operation part 13, and a detection evaluation unit 16. The evaluation signal of the detection evaluation unit is stored in a CPU unit or a memory on the cloud again as a bio-feedbacck signal. A user wearing the head scanner receives the pressure regulated oxygen therapy in a state in which the user is seated on a reclining chair placed in a pressure regulated oxygen chamber 2.

Description

  The present invention relates to a non-linear diagnosis and controlled oxygen therapy combined medical treatment system, and in particular, analyzes intracellular information through biological current of a human body by vibration resonance at a molecular level, displays a diagnosis site on a display screen, and thereby finds a non-disease And a non-linear diagnosis and control oxygen therapy combined medical treatment system that performs controlled oxygen therapy according to prevention.

  Furthermore, the non-linear diagnostic apparatus has a therapeutic function as well as a diagnostic function, and these two functions produce a synergistic effect in correlation with the therapeutic function of the pressure-controlled oxygen chamber. The oxygen therapy combined medical care system is an invention that is the best medical care system for the human body.

  Conventionally, hyperbaric oxygen therapy, which is effective by putting the patient in a hyperbaric oxygen chamber and raising the pressure and increasing the concentration of oxygen in the blood, has been widely used, oxygen deficiency, headache, nausea, hangover, carbon monoxide It is used for the treatment of patients who are aware of poisoning, cyanosis, myocardial infarction, angina pectoris, psychotic disorder, depression, numbness, palpitation, shortness of breath, dizziness, reduced thinking ability, fatigue, strangulation (angina), etc. ing.

  Further, a patent publication relating to a high-pressure oxygen chamber as found in the following patent documents is disclosed.

  In recent years, these hyperbaric oxygen treatment chambers are mainly installed in sports facilities and massage treatment clinics, etc., along with massage treatment, improve blood circulation, restore muscle and nerve functions, relieve tension and relieve fatigue. The treatment is taken and is also used for health and beauty purposes.

  In addition, as a decompression training device, a device or facility that simulates a low pressure or low oxygen environment similar to a highland has been proposed.

  JP 2010-88535 A   JP 2010-207412 A   JP-A-57-180947

  Japanese Patent Application Laid-Open No. 2010-88535 of Patent Document 1 described above is a high-pressure air chamber with an air conditioner, and includes an air supply mechanism that supplies high-pressure air into a main body portion of a high-pressure chamber that can accommodate a human body. A heat exchange device equipped with a thermo module is arranged in the air supply path connecting the inside of the main body, and the control unit controls the output of the thermo module according to the output of the temperature sensor provided in the main body, and supplies it to the main body The temperature of the high-pressure air was adjusted.

  Japanese Patent Application Laid-Open No. 2010-207212 of Patent Document 2 described above is a high-pressure air chamber, and a high-pressure air chamber including a main body portion made of a hard material and a door that is openably and closably attached to the main body portion. The main body is configured so that it can be divided into a base part and an intermediate part obliquely when viewed from the side, and the door is mounted on the main body part so that it can be opened upward from the front, so that a user can sit in the main body part. Were arranged.

  Japanese Patent Application Laid-Open No. 57-180947 of Patent Document 3 described above is a diagnostic nuclear magnetic resonance apparatus, which uses the nuclear magnetic resonance (NMR) phenomenon to determine the hydrogen nucleus density of each tissue in a living body. The present invention relates to a diagnostic NMR apparatus for obtaining more information for medical diagnosis.

  However, this is a system that performs the optimal pressure-controlled oxygen therapy according to the detection and prevention of non-illness by reliably grasping human body signals before, during, or during the execution of hyperbaric oxygen therapy using the technologies described above. Did not exist until.

  Similarly, for decompression training facilities, there has never been a system that reliably grasps human body signals and performs optimal decompression oxygen therapy.

  The subject of the present invention relates to a non-linear diagnosis and controlled oxygen therapy combined medical care system, and in particular, analyzes intracellular information through a biological current of a human body by vibration resonance at a molecular level and displays a diagnostic site on a display screen, thereby preventing a diseased state. It is to provide a non-linear diagnosis and controlled oxygen therapy combined medical treatment system capable of performing controlled oxygen therapy according to discovery and prevention.

  Regulated oxygen therapy disclosed in the present invention is a general term for hyperbaric oxygen therapy and decompressed oxygen therapy, and the combined oxygen therapy combined medical care system is a system that can handle both hyperbaric oxygen therapy and decompressed oxygen therapy. Is shown.

  The non-linear diagnostic system that constitutes the union system of the present invention is a non-invasive diagnostic method in which the living body is not subjected to an external stimulus that may disturb the homeostasis in the living body. This is a diagnostic method for finding a disease, and an apparatus for carrying out this nonlinear diagnostic method will be described in detail later in the form for carrying out the invention.

  The non-linear diagnostic apparatus has a diagnostic function and a therapeutic function. The non-linear diagnostic apparatus correlates with the therapeutic function of the pressure-controlled oxygen chamber, and these two functions produce a synergistic effect and become the best medical system for the human body. It is the most important subject of the present invention to provide a combined diagnosis and control oxygen therapy system.

  The present inventor reliably grasps human body signals before, during, or during controlled oxygen therapy, and it is extremely effective for the human body to perform controlled oxygen therapy according to the detection and prevention of non-disease. With the knowledge that there is, it was possible to provide the non-linear diagnosis and control oxygen therapy combined medical treatment system of the present invention.

  That is, the present invention analyzes intracellular information through molecular body vibration resonance through the bioelectric current of the human body, displays the diagnostic site on the display screen, and thereby performs pressure-controlled oxygen therapy according to the detection and prevention of non-disease In addition, this non-linear diagnostic method can also be implemented via the cloud.

  The non-linear diagnostic method constituting the combined medical care system is implemented by molecular resonance imaging technology, and the non-linear diagnostic device constituting the combined medical care system includes a head scanner, a CPU unit, an image display unit, an operation unit, and a detection evaluation unit. The evaluation signal of the detection evaluation unit is stored again in the CPU unit or the memory on the cloud as a biofeedback signal.

  It is configured so that a user wearing a head scanner equipped with a non-linear diagnostic device can receive pressure-controlled oxygen therapy while sitting on a reclining chair installed in the pressure-controlled oxygen chamber, or outside the pressure-controlled oxygen chamber However, it is configured to receive a non-linear diagnosis.

  It has large and small pressure-controlled oxygen chambers, and multiple users can enter the large pressure-controlled oxygen chamber at the same time. The entire nonlinear diagnostic device can be used outside the pressure-controlled oxygen chamber, or the entire nonlinear diagnostic device can be adjusted. It is configured so that it can be used in a pressurized oxygen chamber.

  As described above, according to the non-linear diagnosis and the controlled oxygen therapy combined medical care system of the present invention, it is possible to carry out the controlled oxygen therapy according to the detection and prevention of non-disease by the non-linear diagnosis. Headache, nausea, hangover, carbon monoxide poisoning, cyanide poisoning, myocardial infarction, angina, psychotic disorder, depression, numbness, palpitation, shortness of breath, dizziness, reduced thinking ability, fatigue, strangulation (angina) It was possible to improve human bodies such as patients who were aware of it very effectively.

  In addition, the nonlinear diagnostic apparatus has a therapeutic function as well as a diagnostic function, and these two functions produce a synergistic effect in correlation with the therapeutic function of the pressure-controlled oxygen chamber. Oxygen therapy combined medical care system has become the best medical care system for human body.

  It is a perspective view of the whole non-linear diagnosis and conditioned oxygen therapy combined medical treatment apparatus.   It is a see-through | perspective perspective view which shows an example of the chamber for pressure regulation oxygen treatment.   It is a block diagram which shows the component of a nonlinear diagnostic apparatus, and those mutual relationship.   It is a block diagram which shows the component of a nonlinear diagnostic apparatus, and those mutual relationship.

DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention will be specifically described with reference to the drawings.
First, a non-linear diagnostic method and apparatus which are components of the present invention will be described.

  This non-linear diagnostic method is a non-invasive biofeedback diagnostic system based on patient images that is obtained from an operator viewing images of the patient and target area to reveal the patient's pathology. The method uses a non-invasive biofeedback signal.

  At present, various medical diagnosis systems based on biofeedback are used for clarifying general pathophysiological states of patients and diagnosing various diseases or conditions of specific organs.

  In more sophisticated systems, the patient's electrical electroencephalogram is detected via an electroencephalogram (EEG) measured from a number of electrodes attached to the patient's scalp. Of the many such systems described in the prior art, there are some examples of EEG-based biofeedback devices.

  These prior art diagnostic systems require visual information to observe visual data in order to diagnose a specific organ of a patient, in addition to individual diagnoses for a specific organ and many organs of the patient, A diagnostic system that enables a wide range of diagnosis of the entire human body is desired.

  Accordingly, one object of the present invention is to overcome these and other deficiencies in the prior art by providing a new non-invasive diagnostic system based on collected biofeedback.

  The biofeedback is collected by the system to the CPU when the operator's operation concentrates on both the main part of a specific target area (for example, the main part of a specific organ) and the patient image.

  Yet another object of the present invention is to provide a diagnostic system that can objectively reveal a patient's general medical condition as well as a patient's specific organs (and parts of organs and tissues).

  Yet another object of the present invention is to construct a reference database for evaluating and analyzing signals obtained through operator guidance.

  The diagnostic system of the present invention is based on the discovery that "when the operator's consciousness or intuition is properly guided to concentrate on a specific object (eg, a specific organ of a patient), a change in the biofeedback signal occurs". Is based.

  The diagnostic system of the present invention includes a central processing unit (CPU) 14, an image display unit 10, and a detection evaluation unit 16.

  In the most preferred configuration, in order to diagnose the condition of a particular organ or tissue of the patient, the image display unit 10 can provide two comparative display images 11, 12 so that an appropriate visual judgment can be given to the operator. Can be displayed.

  Although it is known to display two different images on the display, in the diagnostic system of the present invention, the two comparison display images 11 and 12 are an evaluation image and a verification image, or the display image 11 is a digital photograph of a patient. The display image 12 can be configured to display the main part of the diagnosis target area.

  The detection evaluation unit 16 converts the induced diagnostic result into an electrical signal, and the CPU 14 controls and coordinates the operation of these two devices, and also stores a signal database from the detection evaluation unit 16 for future analysis. Accumulate and store the obtained digital data.

  When using cloud computing, the biofeedback signal from the detection evaluation unit 16 is stored in a memory on the cloud 17.

  The image display unit 10 is composed of a display image 11 and a display image 12 for image display, and both images can be displayed side by side on one image display unit 10 as shown in FIG.

  As an advantage of the image display unit 10, many digital images can be displayed quickly and continuously, and several diagnoses can be performed in a short time.

  For example, the display image 11 may be configured to display a digital photograph of the patient, and the display image 12 may be configured to display a main part of the diagnosis target area.

  Such a main part may be a general image or sketch of an organ / tissue to be diagnosed. This essential part requires that the operator can recognize the target area. Instead of a specific organ of a specific patient, here a representation of only the general part of that organ is sufficient.

  The CPU unit 14 can transmit graphic data capable of displaying the two display images 11 and 12 via the video cable. In the patient diagnosis process, the display image 11 continuously displays an image of a digital photograph of the patient, and the display image 12 continues to change the display content from one target organ / tissue to another organ / tissue. Can be displayed.

  It is also possible to perform a diagnosis while various parts of a particular organ are highlighted in a series of images. For example, when diagnosing the function of a patient's liver and lungs, the display image 11 displays a digital photograph of the patient, and the display image 12 first displays an actual photograph of the liver. Initially, a portion of the liver (eg, the right lobe) is highlighted. Next, it proceeds as if other parts of the liver (eg, the left lobe) are highlighted.

  In this way, every part of the liver is highlighted in turn. When all parts of the liver are highlighted, the display image 12 switches its contents to an actual lung image. Similarly, a portion of the lung (eg, the upper right lobe) is highlighted, followed by other portions (eg, the lower right lobe) and so on.

  In the diagnostic process, while operating the operation board 13, the operator concentrates and stares at a highlight portion that periodically changes with time in the digital photograph of the patient and the image of the target organ / tissue. The functional state of the target organ / tissue corresponding to a specific patient can be intensively diagnosed.

  The function of the detection evaluation unit 16 is to detect biofeedback reactions and convert them into digital signals so that they can be fed back to the CPU unit 14.

  For the operator's diagnosis, both a digital photograph of the patient and a real image of a human organ / tissue are required, but it is not always necessary to use a new photograph. However, the shorter the time interval between photography and diagnosis, the more accurate the diagnosis result.

  According to the embodiment, images of human organs / tissues look real and are easy for the operator to recognize, and even use the images of biomolecules and DNA examples for the state of the biomolecules and even the genetic material of the patient. Can be evaluated.

  In the operation of the diagnostic system of the present invention, the role of the operator is important, and depending on the ability and knowledge of each operator, the operator understands the process of operation and completes a short session of appropriate training. , That dependency becomes almost negligible.

  The diagnostic system of the present invention operates as follows. The CPU unit 14 provides graphic data of a photograph of a patient and a real photograph of an organ / tissue to be diagnosed. The graphic data is transmitted to the image display unit 10 and displayed as a diagnostic image of the display image 11 or a verification image of the display image 12 of the image display unit 10.

  The operator 40 must concentrate on these images. The biofeedback signal is detected by the detection evaluation unit, converted into an electric signal to the CPU unit 14, and stored in the database system of the CPU unit 14.

  These signals reflect the functional state of the organ / tissue of the patient. By comparing the received signals with the appropriate reference data, these signals can be used in diagnosing the functional state of a particular organ / tissue of the patient exactly when the screening is performed.

  As a result of the operation of the diagnostic system of the present invention, various organ / tissue states of the patient are stored in the CPU unit 14 as digital signals. By comparing them with signals obtained from healthy organs / tissues, it is possible to evaluate the functional state of each organ / tissue of the patient.

  In addition, by comparing these biofeedback appropriate signals with reference signals obtained from any donor who has been diagnosed with a specific disease in an organ or tissue, these signals can be used to identify the pathophysiological state of the patient's organ. Can be used for Such comparison also makes it possible to clarify the degree of pathology and the progress of the disease of the organ / tissue.

  In this way, various body tissue conditions can be monitored, and if a lesion is identified, it can act on the body by transmitting an electromagnetic signal formulated from the detection evaluation unit to balance it, and pain management Very effective for detoxification, skin rejuvenation, lymphatic drainage, etc.

  The blood flow of the capillary blood vessels can be performed continuously or periodically according to the knowledge of the detection and prevention of non-disease based on the data obtained by the non-linear diagnosis method and apparatus as described above. It has been shown that when used in combination with a non-linear diagnostic method, it leads to further enhancement of capillary blood flow and results in very good results for the body, such as a rejuvenation effect.

  Hereinafter, the outline of the operation procedure of the nonlinear diagnostic method which is a component of the present invention will be described based on examples.

  First, the connection state of the nonlinear diagnostic apparatus 1 is confirmed, and the patient 3 wears the head scanner 15 so as to cover both ears.

  Click the icon of the device program on the image display unit 10 (disc top) to start the program.

  Enter patient data in the form of patient 3, click a point on the navigation image for analysis, and check the box in the pathology list.

  Clicking on the diagnosis icon on the desktop displays the list of medical conditions / diagnosis from the previous screen, and creates a new disease name list for diagnosis.

  Next, when the type of survey is selected, the automated survey of the location checked earlier is performed.

  Different dot colors are displayed on the image and an analysis chart is displayed, and the weakness of the energy flow is displayed in numbers.

  Since all organs and cells are vibrating, all their pathological individual graphs can be observed.

  The natural frequency generated from the pathological environment is stored in various storage medium materials, and the medical condition is improved by taking this storage medium material.

  Further, a pressure-controlled oxygen treatment chamber corresponding to the result of the nonlinear diagnostic method as described above will be described below.

  As described above, since the hyperbaric oxygen therapy and the decompression oxygen therapy can be applied to the controlled oxygen therapy, first, the hyperbaric oxygen therapy will be described.

  The effectiveness of continuous or regular application of appropriate hyperbaric oxygen therapy will become apparent from the following explanation.

  With the development of civilization, the oxygen concentration in the atmosphere is decreasing, and even though the optimal oxygen concentration for human beings is around 30%, it now decreases to an average of nearly 20%.

  Air pollution is a serious problem, and not only massive logging of trees, which are oxygen generation sources, but also mass consumption of oxygen accompanying the increase in automobiles, etc. and air pollution due to exhaust gas, modern people are becoming oxygen deficient. .

  As a result, there is a shortage of oxygen in each cell of the human body. In particular, the human brain consumes 25% of the amount of oxygen consumed by the human body.

  Chronic brain oxygen deficiency is especially likely to cause dementia and depressive symptoms, and when the oxygen concentration in the body decreases, limb numbness, palpitation, shortness of breath, dizziness, poor thinking ability, chronic fatigue, etc. .

  It is extremely important to grasp these symptoms in advance and perform hyperbaric oxygen therapy, and the hyperbaric oxygen treatment chamber 2 which is a component of the non-linear diagnosis and control oxygen therapy combined medical treatment system of the present invention is shown in FIG. As shown in FIG. 2, a recliner chair 24 is provided in the hyperbaric oxygen treatment chamber 2 so that the user 3 can sit down as shown in the figure and lie on his back to relax and receive treatment. It is configured.

  The high-pressure oxygen treatment chamber 2 has an overhead door 21 and can be opened and closed with a handle 23, so that the user 3 can easily enter and exit the high-pressure oxygen treatment chamber 2.

  Further, the overhead door 21 is provided with a window 22, and the user does not receive a sealing sensation. Although not shown, the hyperbaric oxygen treatment chamber 2 is provided with air conditioning and a communication phone with the outside. The user 3 can wear the head scanner 15 as a part of the non-linear diagnostic apparatus so that the non-linear diagnosis can be performed even during high-pressure oxygen therapy.

  Moreover, although the pressure-controlled oxygen treatment chamber 2 shown in FIGS. 1 to 3 shows an embodiment, a large-size pressure-controlled oxygen treatment chamber 20 that can accommodate a plurality of persons as shown in FIG. 4 may be used. it can.

  When a plurality of users having similar symptoms use the same high-pressure oxygen treatment chamber at the same time, the oxygen concentration, pressure, temperature, humidity, and the like can be adjusted.

  Contrary to the hyperbaric oxygen treatment chamber described above, a hypobaric hypoxic chamber capable of reproducing an environment suitable for athlete training can also be incorporated into the non-linear diagnostic and pressure-controlled oxygen therapy combined medical care system of the present invention.

  As described above, the nonlinear diagnostic apparatus has a therapeutic function as well as a diagnostic function, and these two functions produce a synergistic effect in correlation with the therapeutic function of the regulated oxygen chamber. Regulated oxygen therapy combined medical care system is the best medical care system for human body.

  According to the non-linear diagnosis and controlled oxygen therapy combined medical treatment system based on the present invention, the intracellular information is analyzed by vibration resonance at the molecular level, particularly through the bioelectric current of the human body, and the diagnosis site is displayed on the display screen. It is an extremely effective system, especially for modern people with chronic oxygen deficiency, because it can carry out optimal hyperbaric oxygen therapy according to disease detection and prevention.

  In addition, a low-pressure hypoxic chamber capable of reproducing an environment suitable for athlete training can also be incorporated into the non-linear diagnosis and control oxygen therapy combined medical treatment system of the present invention, so that a system used by more people As such, the industrial applicability is high.

DESCRIPTION OF SYMBOLS 1 Nonlinear diagnostic apparatus 10 Image display unit 11 Display image 12 Display image 13 Operation board 14 CPU
15 Head Scanner 16 Detection Evaluation Unit 17 Cloud 18 Connector 2 Hyperbaric Oxygen Therapy Chamber 20 Large Hyperbaric Oxygen Therapy Chamber 21 Overhead Door 22 Window 23 Handle 24 Reclining Chair 3 User or Patient

Claims (6)

  It is characterized by analyzing intracellular information through vibrational vibration at the molecular level through the bioelectric current of the human body, displaying the diagnostic site on the display screen, and performing pressure-controlled oxygen therapy according to the detection and prevention of non-disease Non-linear diagnosis, controlled oxygen therapy combined medical care system.   The non-linear diagnosis and conditioned oxygen therapy combined medical treatment system according to claim 1, wherein the non-linear diagnosis method is implemented via a cloud.   The non-linear diagnosis / pressure-adjusted oxygen therapy combined medical system according to claim 1, wherein the non-linear diagnostic method constituting the combined medical system is performed by a molecular resonance imaging technique.   The non-linear diagnostic apparatus constituting the combined medical care system is composed of a head scanner, a CPU unit, an image display unit, an operation unit, and a detection evaluation unit, and the evaluation signal of the detection evaluation unit is again a biofeedback signal as a memory on the CPU unit or cloud The combined diagnosis system for non-linear diagnosis and conditioned oxygen therapy according to claim 1, wherein   The head scanner provided in the non-linear diagnostic device can be worn while the user is seated on the reclining chair in the pressure-controlled oxygen chamber via a connector provided in the pressure-controlled oxygen chamber. The non-linear diagnosis / pressure-controlled oxygen therapy combined medical treatment system according to claim 1, wherein the non-diagnosis / pressure-controlled oxygen therapy combined medical care system is configured to be able to receive the non-linear diagnosis even outside the pressure-controlled oxygen chamber.   It has large and small pressure-controlled oxygen chambers, and multiple users can enter the large pressure-controlled oxygen chamber at the same time. The entire nonlinear diagnostic device can be used outside the pressure-controlled oxygen chamber, or the entire nonlinear diagnostic device can be adjusted. The combined diagnosis and treatment system for non-linear diagnosis and conditioned oxygen therapy according to claim 1, wherein the system is configured to be used in a pressure oxygen chamber.

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