Thermographic comparison of an avian
Pet Bird Body taking Ormus
By: Chris M. Emmons RPh
Co-Author: Lazaro Michael Gonzalez
Ormus: Some essential minerals can occur in a highly bio-available state only recently known to modern science and are identified by this name. Ormus appears to cause life to attain more of its potential perhaps by assisting communication between cells in biological systems and between the body and spirit.
[Authors Note: This is a report of pioneering research to observe the effects of Ormus on a bird body using thermographic comparison before and after Ormus. The results reveal distinct differences, which the researchers believe warrants further study.]
Awareness of Ormus covers the globe. Many first hear of it while surfing the Internet, reading Forums on the Internet or listening to specific radio programming and become intrigued. A learning process often begins with self-study and includes the basic elements of examination, reflection, knowledge, understanding and sometimes progresses to a more guided study. After the trail of discovery many describe an enjoyment in the knowledge and some describe a life-change. Some have the more exceptional feelings of a shift in the level of conscious [L.O.C] where a type of clarity in thought occurs which affects the reaction to routine events in a positive way. When this occurs they describe how life seems to have lost the "bad" and gained the "good".
The feelings that have been described by these people include a realization of how they occupy a place within "universal energy". This is energy postulated to surround “all” which some have called God, the God Force, the Zero Point, Super light, Ether, Tachyons, the ever-present, ever-changing, always in motion All or simply It. The results from this realization include sensations of spiritual connectedness or "oneness" with the universe, feelings of peace, the state of contentment and that their lives appear more workable or easier.
"Ormus in a Companion Bird" is a study performed on a Lory parrot.
The bird is a Duyvenbode parrot born Aug 22, 2009. A decision was made to offer it the Ormus material. Two small containers of approximately 45ml drinking water, one with 5ml of Ormus added were placed side-by-side in the cage. The Ormus chosen for the bird had been collected from dissolved sea salt. This form of Ormus is liquid droplets in suspension (versus solid particles such as earth particles held in a suspension of water.) An Ormus collection process produces this form of liquid suspension1.
For the first few days the bird was observed for its reaction to the containers of water. She promptly, actively and energetically chose the Ormus-infused water. The bird preferred the Ormus-infused water over plain water.
It was desirable to feed the Ormus directly without dilution in drinking water so that the amount consumed could be more accurately known. However the diet of a Lory comprises nectar and fruit which tastes sweet and it was unknown whether the bird could freely ingest a substance which tastes salty and a bit like thinned Milk of Magnesia.
An oral baby syringe filled with 2.5ml of Ormus was presented to the bird with a large droplet dangling from the tip. Her long bottle-brushed tongue inquisitively reached out to the droplet and then ate it.
The bird continued to ingest the Ormus as the plunger was depressed and once the barrel emptied began to lap at the end with expressive behavior. Body language suggested she wanted more however common opinion regarding Ormus dosage in animal is eight drops per five pounds of body weight.
BIRD EATING ORMUS
Thereafter the bird eagerly consumes 2.5ml to 3ml of Ormus per day procured from www.oceanalchemy.com. When the barrel is empty the bird always energetically laps at and bites the end of the tip.
The bird’s behavior is observed to change when the owner says the phrase: “I want Ormus”. Regardless of where she is situated: kitchen counter, shoulder or cage she stops what she is doing and watches the activity of procuring the Ormus. If she is outside the cage she may crouch low with partially spread wings, fluff the feathers on them and slowly trundle about in small circles. She may fly to the shoulder, extend fluffed wings and shake her cheek against the caregiver or reach around and touch the human's lip.
The bird quickly approaches the bottle that contains Ormus and when the cap is removed grabs it from the fingers to lap at liquid that coats the inside. Next she reaches to the top of the uncapped bottle and laps inside the collar. [Note: Not hygienic—do not do this with your bottle of Ormus.] When the oral baby syringe is presented to the bird she bites and laps at its end. The body language is direct: She wants the Ormus and 2.5ml-3ml has yet to satisfy. Once the syringe is emptied the bird laps/bites its tip and when it is clear to her that there is no more, turns her attention to inside the collar of the uncapped stock bottle….
After taking Ormus, the bird/human interaction rises dramatically. The bird immediately begins to play with the cords of a drawstring hood—first the left cord then the right, then marches to the writing paper folding the pages with her beak followed by a climb to the human's chin, now the shoulder, next she shakes her head into the owner's hair, marches down to the hand, nibbles at the thumb, again bends the edges of the paper, crosses to the other side of the notebook, plays with the spiral binding, performs a quick preen job on feathers, crawls back up to the drawstrings of the hood, then down to play with the clicker on the pen. Thirteen rapid-paced bird/human interactions are observed within 7-8 minutes. The level of activity displays passionate bird/human open-lines of communication.
Many believe the presence of Ormus facilitates positive effects and enables life to reach a fuller measure of biological potential. It may also strengthen the physical mind and allow it to expand towards full potential. Left and right brain coherence tests on human after Ormus have been performed by various researchers and display increased coherence. Increased brain coherence is associated with intelligence and other positive effects.
The change observed in the bird after Ormus includes a major increase in physical vibrancy and a shift in the mind that cause a desire to interact. Interaction between biological entities is a form of communication which at the highest level promotes the feeling of connectedness. It may be that after Ormus the bird displays through its thirteen interactive actions the sensation of connectedness as explained earlier. Thus in a visually observable manner the birds physical and mental life appears to benefit and reach a fuller measure of its potential.
As a result of the increased activity caused by Ormus a study was begun using an infrared thermal imager. The working hypothesis was that energy signature in a bird body may change after ingestion of the Ormus material and record as change in heat [temperature].
Infrared [IR] technology was discovered in 1800 by British astronomer Sir William Herschel. Advances in the use of the technology include infrared sensors that do not require a direct contact with the subject. The new technique of infrared imaging offers equipment with High Resolution, Digital conversion, Color visible images, Improved Sensitivity and the units are affordable, smaller and fully mobile. Medical infrared technology (MIT) has been recognized by the American Medical Association council as a feasible diagnostic tool since 1987 and recently acknowledged by the American Academy of Medical Infrared Imaging. Infrared thermography is a non-invasive, non-radiating detection tool that provides real-time information with instant feedback.
This technology, also called thermal imaging, thermography or D.I.T.I. [Digital Infrared Thermal Imaging] detects and then records energy signatures caused by heat patterns or temperature changes in objects. All objects in the universe emit radiation in the infrared region as a function of their temperature. As an object becomes hotter [warmer] it emits more intense infrared radiation and it radiates at a shorter wavelength. In biological systems the thermal images are based on the amount of energy [heat] emitted from tissues then dissipated at the surface by infrared radiation energy. We cannot visually detect infrared rays [radiation] but infrared detectors do.
The equipment is called a thermal imager also referred to as infrared imager, thermal camera, or infrared camera. This equipment scans and receives information within a particular window of the electromagnetic radiation spectrum and converts it into electrical signals. These signals display in either gray shades or colors which represent temperature values that relate back to the infrared radiation energy signature of the subject. Images that are displayed with color correlate to a color-based scale that ranges from blue to red and provide a visual link with the temperature distributed in that defined region. Detailed specifications of the infrared imaging equipment used in this study follow the report.
Thermal imaging is one of several imaging modalities within the electromagnetic spectrum. The majority of these records the electromagnetic radiation frequencies and provides images that detail anatomical information. In addition to infrared these modalities include MRI Imaging, Ultrasound, Arthroscopy, UV-Radiation, X-Ray and Scintigraphy.
Infrared technology graphically maps and displays thermal patterns in cutaneous skin surface temperature and can show with reliable, sensitive and objective means even subtle changes in physiological and metabolic processes. These include change in blood flow, which in turn can affect skin temperature. This may in some manner suggest psychological changes as well.
Changes in physiological and metabolic processes show as asymmetries in temperature distribution on the surface of the body. Consequently, if temperature fluctuation occurs after Ormus its presence serves as an indicator of altered biological activity. Displayed below is a color-based scale utilized in the report. The bottom of the scale begins with the coolest temperature which presents as violet and rises to the top of the scale with the color white which signifies the highest heat recorded. In between these two end-point colors are observed shades of blue, green, yellow and red. Each color has a temperature range associated with it. The range of recorded temperature in this study is 72°F to 96°F. A temperature can be displayed at any point in the thermal image once the area is flagged.
The images that display using thermography are evaluated on parameters which include Pixel Resolution, Thermal sensitivity, Accuracy and Repeatability. Pixel Resolution in the imager used in the study is considered high at 640x480 (307,200). This allows an ability to zoom into the scene and maintain good image quality.
Thermal sensitivity is the sensitivity of the thermal imager to record the results pixel by pixel and this parameter defines how well the camera will image as you increase image contrast. Thermal sensitivity allows the ability to review information in one section in an image and compare the results in a different section in the image. The thermal sensitivity of the imager used in this study is excellent.
Repeatability in this thermal imager is excellent. The imager displays little or no variation in image if the test is repeated for the same operating conditions. It is when repeatability is excellent that the ability to analyze the change between thermal images is allowed.
Accuracy in a thermal camera refers to the imager's ability to provide an absolute temperature value of specific areas within an object. The temperature value that records in the image is dependent on a number of factors. First the display of an accurate temperature is affected by the distance the object is from the imager. Precision in the temperature value decreases as distance between the camera and object increases. Secondly interference caused by reflections from other surfaces can affect the recorded temperature value. In addition an absolute temperature value may be hindered by the objects ability to emit thermal radiation. This is called the emissivity coefficient [thermal radiation] of an object and it can affect the absolute temperature value recorded in the image. For example Silver has a low ability to emit thermal radiation and asphalt emits a great amount of thermal radiation. The accuracy of many thermal imagers including the one used in this study is +/- 3.5°F.
The thermal imager used in this study as well as thermography in general has excellent thermal sensitivity and repeatability. The color-based images display asymmetries in temperature distribution and temperature fluctuation that find use in many commercial and industrial applications.
An investigation began to determine if quantitative change in energy signature and pattern within the bird body after Ormus could be detected by comparing the variation of response using infrared detecting equipment. If there is a measurable change in the image, the data can be analyzed. Thermographic images were taken of the bird before Ormus and 20 minutes after Ormus with infrared detecting equipment.
The thermal images that follow display the back of the bird before and after Ormus. Observe
the infrared changes before Ormus [Fig 1] and after Ormus [Fig 2]. A review of the thermal images shows that energy signatures in the bird did change. [Authors Note: Thermographic images of bird before and after Ormus were taken 30 days later and display the same general results.]