KRYON, through Lee Carroll, the Original Kryon Channel
From Kryon Book 14: 'The New Human', Page 94 "Spontaneous, automatic remission of a disease is real, and comes from a place in the biology that is in every single person. Human logic is often funny: there are those who say, “Ah, it’s the Placebo Effect! That’s all it is.” Okay, what is the Placebo Effect? The Placebo Effect is human consciousness creating healing results through expectation. There you are!"
KRYON, through Lee Carroll, the Original Kryon Channel
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From Kryon Live Channelling: "The State of the Earth"
June 2017 in Big Sky, MT "Science is beginning to understand compassion, coherence and the meaning and purpose of the heart. They are finding out that this coherence creates healing, large shifts in thinking, and is responsible for bringing compassion to those who didn't think that was possible. Dear one, this is the start of major benevolent change, not the beginning of doom. I want you to remember that." ~ KRYON, through Lee Carroll, the Original Kryon Channel FREE EXCLUSIVE VIEWING BEGINS: MONDAY, OCTOBER 16 REGISTER FOR LINK:https://dr-tom.lpages.co/betrayal-docu-series/# Must Watch! Free Viewing of Betrayal Documentary
Keep an eye out on your email for the announcement of the Betrayal Docu-Series. Each episode will be available for free viewing for 24 hours. Episode Guide: Episode 1 - Autoimmune Disease Revealed: The Shocking Truth Episode 2 - Leaky Gut: The Gateway to Autoimmunity / Rheumatoid Arthritis Episode 3 - The Microbiome: How to Restore the Good Bacteria Episode 4 - Digestive Diseases: Inflammable Bowel / Gluten Sensitivity / Celiac Episode 5 - Environmental Toxins: Protect your Family Episode 6 - The Brain: Alzheimer’s / Parkinson’s / MS / Dementia / Autism Episode 7 - Success Stories: Reversing MS/Psoriasis/Lupus/Asthma/Chronic Fatigue and more! Episode 8 - Patients Share their Secret Path to Healing Episode 9 - Doctors Unveil WHY They Do What They Do When the earth is ravaged and the animals are dying, a new tribe of people shall come unto the earth from many colors, classes and creeds, and by their actions and deeds shall make the earth green again. They will be known as the Warriors of the Rainbow and will put their faith in actions not words -- Old Native American Prophecy
Rainbow Warriors are people from all walks of life who care about the future of all living things and have an interest in developing a deeper connection to the web of life itself. Great leaders, Warriors and Shamans of many nations will be born and they will cleanse the earth for rebirth. Next will come the Planters sowing seeds of truth, justice and freedom. The Storytellers, Warriors and Planters will live in the way of the Great Spirit and teach ways to keep Mother of the Ground sacred forevermore. They will be called Rainbow Warriors for they will gather the four sacred directions, all distinctly separate but forever connected in the Circle of Life. ~ Lee Standing Bear Moore, Manataka American Indian Council ~ Jessica Boddy : Science : 28 Sep 2016 If you shatter a bone in the future, a 3D printer and some special ink could be your best medicine. Researchers have created what they call "hyperelastic bone" that can be manufactured on demand and works almost as well as the real thing, at least in monkeys and rats. Though not ready to be implanted in humans, bioengineers are optimistic that the material could be a much-needed leap forward in quickly mending injuries ranging from bones wracked by cancer to broken skulls.
"This is a neat way to overcome the challenges we face in generating bone replacements," says Jos Malda, a biomaterials engineer from Utrecht University in the Netherlands who was not involved in the work. "The scaffold is simpler to make than others and it offers more benefits." Surgeons currently replace shattered or missing bones with a number of things. The most common option is an autograft, where a piece of bone is taken from a patient's own body, usually from a hip or a rib, and implanted where it's needed elsewhere in that same patient's skeleton. Surgeons prefer autografts because they're real bone complete with stem cells that give rise to cartilage and bone cells to provide extra support for the new graft. (Humans can't regrow entire skeletons from scratch with stem cells, but existing bone can signal stem cells where to grow and what to grow into.) What's more, because the new bone replacement comes from a patient's own body, there's no risk of immune rejection. But only so much of a person's skeleton is available for grafting, and doing so tacks on another painful surgery and recovery for the patient. Another bone replacement option is creating a scaffold for bone to grow on. These scaffolds, made of both natural and synthetic materials, work like the framing of a building. When inserted into the body, stem cells latch onto the structure and differentiate into cells that start to build bone, much as construction workers assemble walls, floors, and glass around a skyscraper's steel girders. Or, at least, that's how it should work—unlike in an autograft, stem cells don't always turn into the needed bone or cartilage because of the scaffolds' material makeup. Researchers have gotten stem cells to grow on a ceramic material called calcium phosphate (CaP), but this scaffold is stiff and brittle, making it difficult to implant into patients. To make matters worse, the immune system occasionally sees these scaffolds as foreign and attacks them, preventing any bone growth at all. And if a scaffold is to be used to regenerate small bones, such as many of those found in the face, for example, doctors worry that it would take too much time and money to make them from CaP. Researchers at Northwestern University, Evanston, in Illinois are working on a material to remedy all of these issues. Their hyperelastic bone is a type of scaffold made up of hydroxyapatite, a naturally occurring mineral that exists in our bones and teeth, and a biocompatible polymer called polycaprolactone, and a solvent. Hydroxyapatite provides strength and offers chemical cues to stem cells to create bone. The polycaprolactone polymer adds flexibility, and the solvent sticks the 3D-printed layers together as it evaporates during printing. The mixture is blended into an ink that is dispensed by the printer, layer by layer, into exact shapes matching the bone that needs to be replaced. The idea is, a patient would come in with a nasty broken bone—say, a shattered jaw—and instead of going through painful autograft surgeries or waiting for a custom scaffold to be manufactured, he or she could be x-rayed and a 3D-printed hyperelastic bone scaffold could be printed that same day. "We're printing flexible scaffolds that will encourage bone to grow through and around them," says Ramille Shah, a material science engineer and co-author on the study. This article in its entirety can be read here. Phys.org : 14 Sep 2016 [extract] Russian scientists have found that treating cells with cold plasma leads to their regeneration and rejuvenation. This result can be used to develop a plasma therapy program for patients with non-healing wounds. The paper has been published in the Journal of Physics D: Applied Physics.
Non-healing wounds make it more difficult to provide effective treatment to patients and are therefore a serious problem faced by doctors. These wounds can be caused by damage to blood vessels in the case of diabetes, failure of the immune system resulting from an HIV infection or cancers, or slow cell division in elderly people. Treatment of non-healing wounds by conventional methods is very difficult, and in some cases impossible. An earlier study established the bactericidal properties of low-temperature plasma, as well as the relatively high resistance of cells and tissues to its influence. The results of plasma treatment of patients with non-healing wounds varied from positive to neutral. The authors' previous work prompted them to investigate the possibility that the effect of plasma treatment on wound healing could depend on application pattern (the interval between applications and the total number of applications). Two types of cells were used in this study: fibroblasts (connective tissue cells) and keratinocytes (epithelial cells). Both play a central role in wound healing. "The positive response to plasma treatment that we observed could be linked to the activation of a natural destructive mechanism called autophagy, which removes damaged organelles from the cell and reactivates cellular metabolic processes," says Elena Petersen, a co-author of the paper and the head of the Laboratory of Cellular and Molecular Technologies at MIPT. The scientists are planning additional research into the molecular mechanisms underlying the effects of plasma on cells. They also aim to determine the influence of a patient's age on the effectiveness of plasma therapy. This article, with images, can be read in its entirety here. New treatment: Coma patient 'regains full consciousness' following novel ultrasound procedure13/9/2016 RT : 25 Aug 2016 A device developed at UCLA may have been responsible for a barely-conscious patient recovering from a coma and becoming fully able to comprehend language just three days after being the first subject of a novel brain treatment, a new study has found.
The device, which is the size of a coffee cup saucer, focuses acoustic energy on a specific region of the brain, stimulating it. For the new study, it was aimed at the thalamus of a 25-year-old man recovering from a coma. The procedure took 10 minutes, during which the patient received ten 30-second stimulating impulses. The Thalamus is a structure located between the cerebral cortex and the midbrain that acts as a relay for information. It processes signals from all senses, apart from smell, to other regions of the brain. In people suffering from reduced mental function after a coma, the thalamus typically performs worse than in healthy individuals. However, stimulating it with electrodes requires risky surgery, while medications can only target it indirectly. Before undergoing the new procedure, the man showed only minimal signs of consciousness and limited ability to communicate. For example, he could only make small movements when asked. Three days later, he had regained full consciousness and full language comprehension and could reliably indicate "yes" or "no" by nodding or shaking his head. "It's almost as if we were jump-starting the neurons back into function," said Martin Monti, the study's lead author and a UCLA associate professor of psychology and neurosurgery. He said that similar results could previously only be achieved through electrode implantation and no non-invasive procedure had been effective. The authors say they are still cautious about declaring that the treatment, in fact, caused the recovery. "It is possible that we were just very lucky and happened to have stimulated the patient just as he was spontaneously recovering," Monti said. However, they hope that the technique will prove to be effective in other patients as well. The study was conducted by a group of UCLA researchers, including Alexander Bystritsky, who pioneered the technique the device uses, which is called "low-intensity focused ultrasound pulsation." They published their results in the journal Brain Stimulation. From Kryon Book 6: Partnering with God: Page 160 Now here is something that is important but that sounds odd: Healers don’t really heal. What healers do is give the body permission to have temporarily balanced attributes. Those of you who are doing energy work know exactly what I’m saying. Healers don’t heal. Healers are the facilitation for balance. It’s the human on the table that does the work. Did you know that? The human body will balance itself naturally. And all of the facilitators and all of the attributes of the substances used to heal a human being are about FACILITATION FOR SELF-BALANCE. For the biology is miraculous. It seeks balance. It’s what it was designed to do.
~ KRYON : through Lee Carroll, the Original Kryon Channel RT : 26 Nov 2015 A Moscow laboratory has conducted the first successful organ translation [transplant] using a unique Russian 3D-printing technology. The breakthrough could potentially help millions suffering from thyroid disorders - and paves the way for printing other human organs.
The thyroid, a butterfly-shaped gland in the neck, can have a dramatic impact on a huge variety of human bodily functions. The groundbreaking operation, thus far only in rodents, was performed by a team from the 3D Bioprinting Solutions Laboratory in the Russian capital some three months ago. "Then we were monitoring them over eight weeks and the level of the hormone continued growing," said Elena Bulanova, 3D Bioprinting Solutions Laboratory Head. The thyroid glands in mice were first killed by a radioactive iodine injection, before the research team transplanted newly-printed organs into their subjects.Three weeks into the experiment, the team, headed by Vladimir Mironov, observed "higher" levels of the hormone T4, which is responsible for growth and the metabolism, and measured higher body temperatures, Bulanova said. After 11 weeks of monitoring the subjects' 3D printed thyroid glands, they were fully functional with completely restored thyroid function. "All in all we consider experiment to be successfully conducted because we managed to raise the level of hormone T4," Bulanova said. The 3D-printed organ consists of several types of tissues, and features blood vessels to substitute the thyroid gland of a living organism. The lab's undertaking to transplant the thyroid first began in March 2015, when the organ was first printed using the Russian bio printer FABION. In further experiments and in printing other organs, potentially human, researchers are planning to use undifferentiated stem cells taken from an adult organism, which are very similar to embryonary cells. "There are many new and interesting but complicated tasks which need to be completed, but it is another level of the development of the industry," said 3D Bioprinting Solutions Executive Director Youssef Hesuani. The breakthrough of 3D Bioprinting Solutions Laboratory was presented at a scientific conference in the Netherlands earlier this month. During the presentation the head of research, Vladimir Mironov told the scientific community that their 3D-printed organ is able to restore thyroid function in mice suffering from hypothyroidism — a condition where thyroid gland doesn't produce enough hormones. Scientists hope that the new breakthrough will one day help millions of people with different thyroid disorders, as the thyroid gland influences almost all of the metabolic processes in human body. RT : Tue, 16 Feb 2016 © Wake Forest Institute for Regenerative Medicine Scientists have used 3D-printing technology to create first-of-their-kind structures made of living tissue. The bioprinter breakthrough has shown promise with cartilage, bone and muscle, opening the prospect of creating replacement human body parts. Researchers using a bioprinter, described Monday in Nature Biotechnology, say that they've found a way to manufacture living muscle, bone and cartilage. They say that this technology can make unprecedented advances in the healing of battlefield injuries by using a combination of living cells and a plastic-like material. While printed tissue has been accomplished before, scientists have not figured out a way to nourish the tissues by allowing blood vessels to colonize them after they are transplanted. "Cells simply cannot survive without a blood vessel supply that's smaller than 200 microns [0.07 inches], which is extremely small," Atala told Gizmodo. "That's the maximum distance. And that's not just for printing, that's nature." So far, the manufactured body parts have only been tested on laboratory animals, but the transplants were stable enough to be considered successful in those tests. "It can fabricate stable, human-scale tissue of any shape," Anthony Atala, director of the Wake Forest Institute for Regenerative Medicine in North Carolina, said in a statement. "With further development, this technology could potentially be used to print living tissue and organ structures for surgical implantation." The groundbreaking bioprinter creates the custom organs by layering patterns of artificial, biodegradable WHAT? that contains cells from the patient who will receive the implant. Then the device adds a temporary shell that scaffolds the structure together while it is put into the host's body. The artificial materials then slowly degrade while the cells grow strong enough to support themselves. "Our results indicate that the bio-ink combination we used, combined with the microchannels, provides the right environment to keep the cells alive and to support cell and tissue growth," Atala said. To test the body parts, scientists printed human-sized ears and grafted them to mice and witnessed the circulation of blood and formation of cartilage tissue within two months. They also implanted muscle tissue in rats and noted that nerves began to form within two weeks. Bone implants, which were printed using human stem cells and implanted in rats, triggered the formation of a blood vessel system that could be observed after five months. While it has yet to be used in humans, Atala and his colleagues say that the bioprinter's principles are the same in people as they are in animals. Replacement pats can be made to order based on 3D body scans, they said. Preserving traditional medicine knowledge in the Amazon; tribe creates 500-page encyclopedia4/1/2016 White Wolf Pack : 02 Jan 2016 © www.wakingtimes.com In one of the great tragedies of our age, indigenous traditions, stories, cultures and knowledge are winking out across the world. Whole languages and mythologies are vanishing, and in some cases even entire indigenous groups are falling into extinction. This is what makes the news that a tribe in the Amazon—the Matsés peoples of Brazil and Peru—have created a 500-page encyclopedia of their traditional medicine all the more remarkable. The encyclopedia, compiled by five shamans with assistance from conservation group Acaté, details every plant used by Matsés medicine to cure a massive variety of ailments. "The [Matsés Traditional Medicine Encyclopedia] marks the first time shamans of an Amazonian tribe have created a full and complete transcription of their medicinal knowledge written in their own language and words," Christopher Herndon, president and co-founder of Acaté, told Mongabay in an interview . The Matsés have only printed their encyclopedia in their native language to ensure that the medicinal knowledge is not stolen by corporations or researchers as has happened in the past. Instead, the encyclopedia is meant as a guide for training new, young shamans in the tradition and recording the living shamans' knowledge before they pass. "One of the most renowned elder Matsés healers died before his knowledge could be passed on so the time was now. Acaté and the Matsés leadership decided to prioritize the Encyclopedia before more of the elders were lost and their ancestral knowledge taken with them," said Herndon. Acaté has also started a program connecting the remaining Matsés shamans with young students. Through this mentorship program, the indigenous people hope to preserve their way of life as they have for centuries past. "With the medicinal plant knowledge disappearing fast among most indigenous groups and no one to write it down, the true losers in the end are tragically the indigenous stakeholders themselves," said Herndon. "The methodology developed by the Matsés and Acaté can be a template for other indigenous cultures to safeguard their ancestral knowledge." Dog 'walks 200 miles to find woman who nursed her back to health after hit-and-run accident'5/12/2015 Jen Mills : Metro UK : 28 Nov 2015 © CEN : Nina feeds Shavi A dog injured in a hit-and-run accident is believed to have walked almost 200 miles to find the Russian woman who nursed her back to health. Shavi was left to die by the side of the road after the crash, in southern Russia's Rostov Oblast region last winter. She had been living on the streets as a stray when the driver hit her and then just drove away, Russian media reported. He left Shavi to die in agony with two broken legs by the side of the road, where she was shivering and freezing, but luckily, two passersby saw the animal and took her to the vet, before appealing online for someone who could care for her as she recovered. 26-year-old Nina Baranovskaya was the only person who replied to the appeal, it was reported.She picked up Shavi as soon as she'd had an operation on her hind legs and took her back to her small flat in Rostov-on-Don where she lives with her young daughter and several other pets. Then she helped the dog learn to walk again, teaching her basic commands and playing with her every day. Shavi needed a lot of care and attention because of the lasting trauma from the crash, and Nina had to buy nappies for her and comfort her whenever she saw cars in the street or a stranger. But Nina couldn't look after Shavi in the long term because she has a small flat and family commitments so she found her pet a loving home with friends 185 miles away. However, just a few days later the dog went missing and Nina had a phone call from her friends in a panic. Two weeks later, Shavi still hadn't reappeared and Nina was pretty worried. But then, Shavi turned up in an unexpected place. As Nina walked down the road last week she felt something brush her leg. It turns out Shavi had walked almost 200 miles back to Rostov across unfamiliar terrain to be reunited with Nina, who burst into tears when she realised what had happened. Experts think it must have taken more than a week to make the trek, the Komsomolskaya Pravda reported. Nina isn't going to let Shavi go again, and she's now looking for a bigger flat so they can stay together. Source Charles Q. Choi : LiveScience : 01 Dec 2015 © Wei Sun/Drexel University : Researchers have figured out a way to print 3D blocks of living stem cells. Gone are the days when 3D printers merely built plastic trinkets — scientists say 3D-printed structures loaded with embryonic stem cells could one day help doctors print out micro-organs for transplant patients. Embryonic stem cells, obtained from human embryos, can develop into any kind of cell in the body, such as brain tissue, heart cells or bone. This property makes them ideal for use in regenerative medicine — repairing and replacing damaged cells, tissues and organs. Scientists typically experiment with embryonic stem cells by dosing them with biological cues that guide them toward developing into specific tissue types — a process called differentiation. This process begins with the cells forming spherical masses called embryoid bodies — an activity that mimics the early stages of embryonic development. Previous research suggested the best way to grow embryonic stem cells is not in flat lab dishes, but in 3D environments that mimic how these cells might develop in human bodies. Recently, scientists developed 3D printers for embryonic stem cells. A 3D printer works by depositing layers of material, just as ordinary printers lay down ink, except it can also lay down flat layers on top of one another to build 3D objects. Until now, 3D printers for embryonic stem cells just generated flat arrays or simple mounds, called "stalagmites," of cells. Now, researchers say they have, for the first time, developed a way to print 3D structures laden with embryonic stem cells. "We are able to apply a 3D-printing method to grow embryoid bodies in a controlled manner to produce highly uniform blocks of embryonic stem cells," study co-author Wei Sun, a professor of mechanical engineering at Tsinghua University in Beijing and Drexel University in Philadelphia,told Live Science. In principle, these blocks could be used like Lego bricks to build tissues "and potentially even micro-organs," Sun added. To read the entire article, click here. |
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