WO2021146766A1 - Medical diagnostic device - Google Patents

Abstract

The present invention relates to a medical diagnostic device. The device includes measurement means for measuring repulsion aberrations of the biomagnetic field of a patient. The repulsion aberrations may be measured in the Pico tesla range of magnetic field strength at room temperature and at normal magnetic earth fields. Accordingly, the preferred embodiment does not require supercooling, operates at room temperature and in normal earth magnetic fields.

Description

MEDICAL DIAGNOSTIC DEVICE

TECHNICAL FIELD

[0001] The present invention relates to a medical diagnostic device. The current device typically measures aberrations in patient bio magnetic fields in the Picotesla (10^{_ 12}T) magnitude of strength. The device of the preferred embodiment changes magnetic biofields repulsions into attractions, hence relieving symptoms of illness associated with the repulsions.

BACKGROUND

[0002] The reference to any prior art in this specification is not, and should not be taken as an acknowledgement or any form of suggestion that the prior art forms part of the common general knowledge.

[0003] Devices which measure magnetic fields at the Picotesla range are known. Such devices include Squid Magnetometers that operate at super cool temperatures of a few degrees near absolute zero or SERF atomic magnetometers that operate in near zero magnetic fields.

[0004] The preferred embodiment does not require supercooling, operates at room temperature and in normal earth magnetic fields.

SUMMARY OF THE INVENTION

[0005] According to one aspect of the present invention, there is provided a medical diagnostic device including: measurement means for measuring repulsion aberrations of the biomagnetic field of a patient.

[0006] The repulsion aberrations may be measured in the Pico tesla range of magnetic field strength at room temperature and at normal magnetic earth fields. The repulsion aberrations may be measured in the negative, positive and neutral health states. [0007] The measurement means may include one or more transistors. The transistors may include bipolar junction transistors (BJTs). The BJTs may include one or more pairs of PNP transistors for measuring negative states, one or more pairs of NPN transistors for measuring positive states and a PNP and NPN transistor in combination for measuring neutral states. The collectors of each pair of transistors may be the inputs for the biomagnetic field.

[0008] The Emitter of one transistor may connect to the Base of another transistor pair. PNP and NPN paired transistors may have opposite direction of flow and states. A PNP and NPN pair may create a bidirectional flow and a neutral state.

[0009] The device may further include treatment means for treating the patient by changing a measured negative health state into a positive state, and/or a positive state into a neutral state. The changing may occur responsive to measuring a small voltage charge applied across transistors. The device may include a laser for applying magnetic waves to the patient. The magnetic waves may be induced from an electrical coil.

[00010] The device may convert the measured repulsion aberrations into electrical voltage charges. The measurement means may measure a RAC pulse.

[00011] According to another aspect of the present invention, there is provided a medical diagnostic method including: measuring repulsion aberrations of the biomagnetic field of a patient.

[00012] The measuring may be conducted using a portable diagnostic device. The method may further include placing the device close to the patient in the region of one or more main bio energetic centres. The method may involve placing the device on or away from the patient during the measuring.

[00013] The method may further involve treating the patient. The step of treating may involve changing a measured negative health state into a positive state, and/or a positive state into a neutral state. The step of treating may involve applying magnetic field therapy. The step of treating may involve applying a charge across a pair of transistors to change a negative state to positive state, or a positive state to a neutral state. The step of treating may involve playing music. The step of treating may include acupuncture. [00014] Any of the features described herein can be combined in any combination with any one or more of the other features described herein within the scope of the invention.

BRIEF DESCRIPTION OF THE DRAWINGS

[00015] Preferred features, embodiments and variations of the invention may be discerned from the following Detailed Description which provides sufficient information for those skilled in the art to perform the invention. The Detailed Description is not to be regarded as limiting the scope of the preceding Summary of the Invention in any way. The Detailed Description will make reference to a number of drawings as follows:

[00016] Figure 1 is a schematic diagram showing repulsion health states.

[00017] Figure 1 a shows three pairs of transistors connected according to an embodiment of the present invention. The PNP pair creates an anti-clockwise flow associated with negative states; the NPN pair creates a clockwise flow associated with positive states and the NPN and PNP combination creates a neutral flow associated with neutral states.

[00018] Figure 2 is a schematic view of a medical diagnostic device in accordance with an embodiment.

[00019] Figure 3 is a close-up of a single vector magnetic circuit, showing how it connects to the laser for reading magnetic aberrations.

[00020] Figure 4 is a picture depicting the four sates of matter, where the first three states are two vectors closely attached and creating matter in the form of Solid, Liquid and Gas. In the fourth state the particles have separated into charges.

[00021] Figure 5 shows the electronic signal generated from the device whilst it is sitting in space with no live bio magnetic source within two-meter distance of the device.

[00022] Figure 6 shows the electronic signal generated from the device whilst the device is held at the heart centre of a patient. [00023] Figure 7 shows the electronic signal generated from the device whilst the device is held at the heart centre and two RAC pulses are detected at 21 .92 seconds to 22 seconds and 22.6 to 23 seconds.

[00024] Figure 8 shows the magnetic and electricity flow in a simple DC circuit. The DC circuit demonstrated the flow of electrons from positive to negative. In this state, magnetic energy flows in the opposite direction: The Positive electrode has a charging magnetic flow and the Negative terminal has a discharging magnetic outflow. The flow of magnetic energy cannot be measured without very sensitive magnetometers. In the diagram if the positive lead is connected to the object then this will induce a positive state. If the negative lead is applied to the object this will induce a negative state. If both leads are applied to the object but are not electrically connected, then this creates a neutral state

[00025] Figure 9 shows the connections for a sensor device created from eight pairs of transistors according to an embodiment of the present invention. A voltage is determined between VO and V1 and data is collected at varying time intervals as determined appropriate to the patient’s heart rate. The data is collected simultaneously as the magnetic only signal of the sample input is provided as a test sample to be analysed.

[00026] Figure 10 is a schematic view of a medical diagnostic device in accordance with another embodiment including sample delivery and data collection.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[00027] The medical diagnostic device of the preferred embodiment detects aberrations in the bio magnetic field, based on the standard model of physics relating to the force of electromagnetism. The electromagnetic force has a principal action of attraction and repulsion, the device detects aberrations of the bio magnetic field in repulsion.

[00028] Illness is associated with repulsion of the following health states in accordance with the Standard model of physics shown in Figure 1 . [00029] The Strong force is associated with Magnetic energy spinning in anti clockwise direction. Ill health is associated with organs of the body repelling electromagnetic signals when the organ is in South pole.

[00030] The Weak force is associated with Electrical energy spinning anticlockwise.

Ill health is associated with organs of the body repelling electromagnetic signals when the organ is Negative.

[00031] The Electromagnetic force is associated with Electro-magnetic energy spinning in clockwise direction (this force counterbalances the previous two forces). Ill health is associated with organs of the body repelling electromagnetic signals when the organ is Negative and in South Pole.

[00032] Symptomatic treatment is to change the Negative or South pole to Positive or North Pole.

[00033] Healing is to change the electromagnetic signal to Neutral - this is state very few people obtain as it is governed by consciousness. Ultimate enlightened consciousness is a non judgmental state that few can achieve.

[00034] The repulsion aberration can be caused by any physical or non-physical electromagnetic signals including:

• Mineral: Na+ Sodium Ion

• Compound: Inorganic e.g. NaCI; Organic e.g. Histidine

• Biological DNA: E Coli genome, Alphavirus genome

• Nonphysical e.g. thought processes creates its own electromagnetic field in the brain. The Mind of the human is made up of the following thought processes:

The above thought process held in place over time create states of consciousness:

[00035] All illnesses are associated with a state of consciousness - Fear and Grief being the most common states associated with the highest amount of illnesses. Illness can be created by both negative and positive states of consciousness.

[00036] The device of the preferred embodiment detailed below detects the repulsion aberrations of the bio magnetic field, and these aberrations are converted into electrical voltage charges which are monitored and analysed into criteria that determine a positive aberration. [00037] The repulsion aberration can be detected by a subjective test, the RAC pulse, as used by many clinicians. RAC is French for Reflexe Auriculo-Cardiaque or Autonomic Circulatory Reaction, corresponding to the English term VAS (Vascular Autonomic Signal). But to date, this subjective test has had no suitable scientific explanation or objective measurement. The preferred embodiment provides objective measurement of the RAC pulse.

[00038] The device present to the patient’s body, a signal of any of the above material and non-material samples and tests if the patient’s biomagnetic field repulses the sample.

[00039] Design of the Device

[00040] A basic design of the device as shown in Figure 1 a is employed, however for each state different electrical component devices are used as follows:

• the Negative state - a pair of PNP transistors 100 are used

• the Positive state - a pair of NPN transistors 100 are used

• the Neutral state - a combination of PNP and NPN transistors 100 are used

[00041] The transistors 100 are organised in a basic design that creates a continuous circle. The transistors 100 are coupled into pairs. The Collectors of each pair of transistors 100 act as the inputs for the collected biomagnetic field. The Emitter of one transistor connects to the Base of the other transistor pair and, is repeated with the remaining Emitter and Base of the pair of transistors 100, hence creating a circle or a continuous circuit. PNP paired transistors create and anticlockwise direction of flow, equaling the negative state. NPN paired transistors 100 creates a clockwise direction of flow, equaling the positive state. A PNP and NPN pair creates a bidirectional flow, equaling the neutral state.

[00042] Turning to Figure 2, the sensor of the device 200 employs any number of transistor pairs. But in this embodiment, eight pairs connected in parallel circuit design arranged in a circle (see. Fig. 9). The one set of Collectors of the eight pairs creates an inner circle, and the other Collectors of the eight pairs creates an outer circle. Voltage measurement is performed across the Collectors of the eight pairs of transistors i.e. the inner circle and the outer circle. [00043] Sample delivery to create an aberration in the biomagnetic field

[00044] The foregoing magnetic sensor measures very low fields of magnetic energy. Accordingly, it is very prone to outside influence of electromagnetic fields. Thus, to reduce noise, the electromagnetic field that is presented to the sensor and the biomagnetic field to be measured must be applied in a way that does not disrupt the measurement of the biomagnetic field aberration. To this effect the electromagnetic signal that is presented, is stripped of its electrical component and only the magnetic component is delivered, creating a single vector signal. Single vector electronics is best explained in relation to a simple circuit 202 as follows.

[00045] In use, the arrangement of Figure 3 approximates the simple circuit shown in Figure 8 includes a DC battery 300 with a circuit to a light 302. When both the negative and positive leads 304a, 304b are attached electricity flows through the circuit and the light 302 glows. In effect for electricity to flow, the circuit requires both leads for the electromagnetic wave, but this is not the case for magnetic wave only circuits (see Fig. 8). If we apply the negative lead 304a we can create a negative magnetic field effect , if we apply the positive lead 304b we can create a positive magnetic field effect and if we apply both negative and positive leads 304a, 304b (but not connecting electrically) we create a neutral magnetic effect.

[00046] The best example of single vectors is in the understanding of the standard model of the four forces shown in Figure 4, where the existence of two vectors creates the existence of particles in the Strong, Weak and Electromagnetic force, whereas single vector as in the force of Gravity no particle can exist. Another example is in the four states of matter where there is a separation of ionic charges in plasma creates positively and negatively charged ions. The four states can be correlated to the four forces: Strong = Solid; Electromagnetic = Liquid ; Weak = Gas; Gravity = Plasma.

[00047] Thus, applying the signal sample in this manner creates no electrical activity in the sensor, and does not influence the result other than if the sample creates an aberration of the bio magnetic field and this will create a voltage deviation and will be objectively measured. Figure 2 shows the location of sample input 204.

[00048] Measurement of the biomag netic field [00049] The device 200 is placed close to the patient’s body in the region of the three main bio energetic centres, these centres are located anatomically where bodily organs intertwine (e.g. Head: Circle of Willis blood vessels and Brainstem, e.g. Heart: major blood vessels Aorta / Veins e.g. Kidney region: where the Duodenum and Large intestine intertwine).

[00050] The device 200 can be placed on the patient (as in Figure 9) or away from the patient and connected to the patient via laser ( as in Figure 10). The biomagnetic field reduces in strength the further away from the body that the device 200 moves. The heart has the strongest magnetic field and has been measured at 15 feet away from the body, using a Squid magnetometer. In other embodiments, the device can spin around the body creating a 3D picture effect of the bio magnetic field, mapping the aberrations and creating a very low field magnetic resonance image.

[00051] Criterion to affect a positive diagnosis of biomagnetic field aberration

[00052] Historically the RAC pulse has been used to mark this biomagnetic field aberration, so this has been used as a subjective benchmark when searching for an objective measurement. An objective standard is created from the observation of the following findings as discussed in relation to the measurement graphs in Figures 5 to 7.

[00053] Figure 5 shows a non-living substance which forms a base line reading.

[00054] Figure 6 shows the heart centre of a person. Heart: HR 56 bpm ie in 5 secs approx. 3 beats of the heart / 50 samples per second - the spikes at 16 secs, 17.5 secs and just before 19.37 secs are heart beats.

[00055] Figure 7 shows the heart centre with a positive two RAC pulses between 21 .92 secs to 22.35 AND 22.35secs to 23.17 seconds on X axis - Figure 7

[00056] The criterion for a positive and a definitive test result include:

1. Only a negative wave or only a positive wave - not negative and positive.

2. Multiple spikes during a period greater than 1 and up to 8 spikes in one period.

3. Amplitude of the spike may increase above the normal 4. Two out three of the above criteria must be obtained to create a positive sample

5. In a 3-5 second measurement, at least two positive samples must be obtained of the above criterion to create a definitive test.

[00057] A definitive test is to say that the sample is affecting the biomagnetic field and thus affecting the health of the patient. The patient may repulse a sample in any of the negative, positive and neutral states, however most illnesses will be in the negative states.

[00058] Treatment with the device

[00059] Once a definitive diagnosis is made, and a list of offending electromagnetic signals is obtained, associated with the illness, treatment can begin. Prime importance is to aid in the transformation of negative states of consciousness to more positive and ultimately into neutral states of consciousness. Beyond this, symptomatic treatment is commenced.

[00060] A negative state diagnosis would employ the use of the device with positive state transistors and apply magnetic field therapy to the main energy centre or organ or channel of the associated illness. A small charge (4.5V) is applied across the pair of transistors 100 to change a negative state to positive (with the NPN transistors) or positive state to neutral (with the NPN and PNP combination transistors).

[00061] The therapy is accompanied by music created in the Neutral state of the same electromagnetic signal set at a frequency equivalent to the organ or channel associated with the illness. A chart of suitable frequencies is as follows:

[00062] The magnetic connection of the signal is generated from a computer via the data acquisition (DAQ) module 206 as a music signal, to avoid any electrical interference. As the magnetic component of the signal 204 is of primary concern, the actual placement of the wires is not critical. The following possibilities are as in Figure 3, with the connection wrapped around the laser making no electrical connection, the connection could be wrapped around the electrically shielded input of the laser and could be in a form of a loop of wire that the laser 302 shines through. The laser light makes contact with the patient. Magnetic waves only need to make contact with the patient to create a connection.

[00063] Acupuncture of the associated organ or channel can then be employed.

[00064] Figure 10 shows a medical diagnostic device 200 in accordance with another embodiment further including sample delivery 1000 as well as data collection 304.

[00065] A person skilled in the art will appreciate that many embodiments and variations can be made without departing from the ambit of the present invention.

[00066] Typically, the sensor of the device 200 includes eight NPN pairs in connection. In other embodiments, the sensor could instead include 16 pairs / 32 / 64 etc. increasing the sensitivity of the sensor.

[00067] The device 200 may include shielding from EMF interference. [00068] In compliance with the statute, the invention has been described in language more or less specific to structural or methodical features. It is to be understood that the invention is not limited to specific features shown or described since the means herein described comprises preferred forms of putting the invention into effect. The invention is, therefore, claimed in any of its forms or modifications within the proper scope of the appended claims appropriately interpreted by those skilled in the art.

[00069] Reference throughout this specification to ‘one embodiment’ or ‘an embodiment’ means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present invention. Thus, the appearance of the phrases ‘in one embodiment’ or ‘in an embodiment’ in various places throughout this specification are not necessarily all referring to the same embodiment. Furthermore, the particular features, structures, or characteristics may be combined in any suitable manner in one or more combinations.

Claims

The claims defining the invention are as follows:

1 . A medical diagnostic device including: measurement means for measuring repulsion aberrations of the biomagnetic field of a patient.

2. A device as claimed in claim 1 , wherein the repulsion aberrations are measured in the Pico tesla range of magnetic field strength at room temperature and at normal magnetic earth fields.

3. A device as claimed in claim 1 , wherein the repulsion aberrations are measured in the negative, positive and neutral health states.

4. A device as claimed in claim 1 , wherein the measurement means includes one or more transistors.

5. A device as claimed in claim 4, wherein the transistors are bipolar junction transistors (BJTs).

6. A device as claimed in claim 5, wherein the BJTs may include one or more pairs of PNP transistors for measuring negative states, one or more pairs of NPN transistors for measuring positive states and/or a PNP and NPN transistor in combination for measuring neutral states.

7. A device as claimed in claim 6, wherein: the collectors of each pair of transistors are the inputs for the biomagnetic field; the Emitter of one transistor connects to the Base of another transistor pair;

PNP and NPN paired transistors provide opposite direction of flow and states; and/or a PNP and NPN pair create a bidirectional flow and a neutral state.

8. A device as claimed in claim 1 , further including treatment means for treating the patient by changing a measured negative health state into a positive state, and/or a positive state into a neutral state.

9. A device as claimed in claim 8, wherein the changing occurs responsive to measuring a voltage charge applied across transistors.

10. A device as claimed in claim 8, further including a laser for applying magnetic waves to the patient.

11. A device as claimed in claim 10, wherein the magnetic waves are induced from an electrical coil.

12. A device as claimed in claim 1 , which converts the measured repulsion aberrations into electrical voltage charges.

13. A device as claimed in claim 1 , wherein the measurement means measures a RAC pulse.

14. A medical diagnostic method including: measuring repulsion aberrations of the biomagnetic field of a patient.

15. A medical diagnostic method as claimed in claim 14, wherein the measuring is conducted using a portable diagnostic device.

16. A medical diagnostic method as claimed in claim 15, further including placing the device close to the patient in a region of one or more main bio energetic centres, the device being placing on or away from the patient during the measuring.

17. A medical diagnostic method as claimed in claim 14, wherein further involving treating the patient.

18. A medical diagnostic method as claimed in claim 17, wherein the step of treating involves changing a measured negative health state into a positive state, and/or a positive state into a neutral state.

19. A medical diagnostic method as claimed in claim 17, wherein the step of treating involves applying magnetic field therapy.

20. A medical diagnostic method as claimed in claim 17, wherein the step of treating involves applying a charge across a pair of transistors to change a negative state to positive state, or a positive state to a neutral state.

21 . A medical diagnostic method as claimed in claim 17, wherein the step of treating involves playing music and/or acupuncture.