Transcript from 1st Health Teaching Workshop held September 12, 2014
(v2 2016-03-05) DRAFT (Transcription has not been verified. Double check info with video)
Transcription courtesy of Keshe Foundation New Zealand (KfNZ)
Video link: https://www.youtube.com/watch?v=iep81CUKQT0
Magrav Skeleton Anatomy
Skeletal Basics from Dr. Eliya
Mr. Keshe – I try to start from somewhere.
The structure of the bone is dictated by the emotional part of the brain
In Keshe foundation we treat the body of man as a galaxy
Man will live 2000 years
Approach to Health moving from physical interaction to plasmatic interaction
A question on Osteoporosis
What is the difference between molecular calcium and magrav calcium?
A question on Sodium and the ability of the human body to handle radioactivity
What is the effect of Zero Gravity Environment?
The Beginning of the Life Form
(00:00:00)
Rick: I am just here for the sound check and I am going to turn it over to Eliya Kostova, doctor Eliya Kostova, and she will introduce and host the Health Workshop for the Keshe Foundation. OK, Eliya, are you there?
Eliya: Yes, hello to everyone. I am just sorry for the delay of the workshop. It’s because of my Internet connection, I apologize to everyone. So, we start from the first part of the workshop. This is the normal skeleton anatomy of the human body. And, now because of my technical problems I will try to share my screen and to show you a 3-D model of the skeleton. Just one second. OK, I just ask you to tell me if it is visible for you.
MK: It’s coming up.
E: It’s OK?
MK: Yeah, it started, yeah.
E: So, it is your skeleton, it is the skeleton of the adult person. It is not so different between the female and the male. It is your base structure of your body. Actually, your skeleton is made from 270 bones, from your birth, and when you get 30 years old, some of these bones, they stick together and, actually, you have finally 206. You may separate the bones of the body in different criteria. So, the first group in the human skeleton can be divided in the axial skeleton and the appendicular skeleton.
MK: Hm, Eliya, you are cutting off. We hear you in bits.
E: OK, now, can you hear me now?
MK: Now, it’s OK
Skeletal Basics from Dr. Eliya
Eliya: The skeleton you divide into 2 parts. This is the axial skeleton and appendicular skeleton. What is the meaning of that? Because they have a different function. The axial skeleton is formed by you may see on this model, this is the vertebra column. Then, when you go in front, this is your ribs, all the ribs of your body, and the skull. I will try to make it visible for you. These are all your bones from your skull. Yeah, this is the base of your skeleton. I think it’s a really good 3-D model to understand how it is built out of…
MK: We can’t see any pictures. We cannot see any pictures whatsoever.
Eliya: So, can you see? And all the bones, they are connected, yeah. So, I told you about the axial skeleton. I want to repeat, because it’s important.
The Axial skeleton is formed by the vertebral column, you can see it. It is formed from your ribs, and it makes something like a box, you see, here, actually, this is your chest part, and the other part of the axial skeleton, this is your skull. The Appendicular skeleton is formed from pectoral, regard; this is the bone in the middle of your chest. These are the pelvic bones, they are formed in your bottom on your body, and these are upper and lower limbs. All the bones, they are connected to each other with ligaments and with; we call this in Latin, sutura. (Sutures of the skull)
They just stick to each other like in puzzle, they have no stable connection. Everything in your body is flexible and removable, it depends on what function you have to do at the moment, about your movement or to handle some weight or gravity or whatever. It means the connection between all your bones is just adjustable of the needs of your body and to, how is in in English, trying to adjust your body to that environment. (homeostasis) That means, if you change the gravity or electromagnetic field everything that you see on this 3-D model probably will be changed, like the function, and like a place where they connect to each other.
OK, then, what I want to show you, it’s more visible like this. What is the function of your skeleton? So, the first function, that is your support, all the internal organs, they are filling places inside of this structure. Your brain is inside of the structure of skull, so means the skull protects your brain. All the internal organs are inside of this box, made from ribs, and they protect the internal organs of chest, to not be harmed, and actually, the density of the bones and the weight that they are able to handle is more than the steel, that much they are stronger, and made in a way to protect your internal organs and functions.
Other function of your skeleton is, it is a movement, so actually when you make only one gesture of your hand, you use more than 50 bones. If you want to write or if you want to make a point with a finger you use 20, 25, 30 bones, organized with muscles and ligaments to make this movement. So, other function is of the bones is to make blood. Actually, in the old age, inside of the trabecular bones, which are the large bones in your body, inside of them, you start to make and to produce blood cells from the bone marrow. In the childhood, you have this function also in the pelvic bone, part of your vertebra bones and some part of your chest bone. This is on the middle. But, when you go further in your life and reach your thirty, you just produce the blood from the trabecular bone, in bone marrow.
Also, our skeleton has the endocrine regulation. Bone cells release a hormone called the osteocalcin, which contributes to the regulation of the blood sugar, glucose, and the fat disposition. Osteocalcin increase both the insulin suppression and sensitivity, in addition to boosting the number of insulin-producing cells and reducing stores of the fat. Actually, in your bones, you are able to storage in the bone matrix calcium and the bone matrix is related actually with calcium metabolism, and in the bone marrow can store iron in ferritin, like a formation of ferritin, and is involved in iron metabolism.
However, bones are not entirely made of calcium, but a mixture of chondroiton sulphate and hydroxy apatite. Seventy percent of the bones is made from calcium, from iron, from chondroiton sulphate and hydroxy apatite. Hydroxy apatite is, in turn, composed of 39, or 40 percent of calcium, 31 percent of oxygen, 18 percent of phosphorus and 0.2 percent of hydrogen by mass. Chondroiton sulphate is the sugar made up of primarily oxygen and carbon.
So, when you have all this knowledge about the molecular and chemical structure of the bones, now it’s easy for you to understand when Mr. Keshe described about the calcium impact, the iron impact, or the impact of oxygen and phosphorus in our body, and different kinds of storage of the packages of electromagnetic gravitational fields of each chemical element has meaning for you, because like a molecule, a calcium is calcium, but like a magrav, field as magrav package, calcium separates in different, different, how is in English, in different models. So, different energy magrav models, they are stored in different parts of the body and they are related with different functions in the body. So, now, I will ask Rick to show you pictures of the bone, and what is actually the structure of the bone.
So, this is inside your long trabecular bone. You separate your long bone of epiphysis, this is your upper part or your bone, and also you have the middle part, and this is shaft, and next corner of, your next end of your bone is other one epiphysis. Through the epiphysis you connect each bone to another one, in conjunction. Then, in the top of the epiphysis, you may see, you have cartilage. Then, you have a spongy bone, and then starts the hole in your trabecular bone, which is actually placed your marrow, your bone marrow. This bone marrow, as I have told you, is the producer of your blood cells. Actually, all the transportation of the chemical elements is started from your spongy bone, and the spongy bone is made, actually, to when, how is it in English, when you, for example, if you jump and all your bones just crash to each other, because they are connected. It cannot be broken, it is somehow, it is, how is it in English, just to make less the weight of your movement to all the bones, just to make it less, and to not crush and to reach the bone marrow, what is in the middle of the bone. And in that way, all the empty spaces, it is similar structure as what Armen and Mr. Keshe show in the magnetic when he built the magnetic line, gap, magnet, gap, magnet, gap. This is the same thing, if you see, they have a cell between all the spongy bone. They have one cell, gap, one cell, gap, one cell, gap.
MK: Eliya, we are still seeing the skeleton.
E: Yeah, the skeleton is…
MK: We are just seeing the picture of the skeleton, we don’t see the bone.
E: The bone marrow you are able to see on the live stream that just Rick showed us. If you want, I will show on my screen, just one second. So, this is the one picture, but I don’t know if you are able to see, here, like this.
Yeah, this is the natural bone, this is not a picture, this is just your normal, natural bone, just cut up, and now you are able to see the same thing, like a spongy part, and then the hollow, empty place, where is placed your bone marrow. Would you, please, other one, Rick? Just show all the pictures what I send to you, I will explain it. Yeah, it’s not a problem, whatever, just, you just put some…because it’s important to see how between the cells there are gaps, in the same model what Armen shows with the magnets. You know, magnet, gap, magnet, gap. It is just important to have, to make a relation, between the structure of the human body, and what Armen and Mr. Keshe described in the, with magnets, because this is the same thing, just when you know anatomy and you replace the knowledge from anatomy to the knowledge of Mr. Keshe, everything is related and perfectly matched. That’s why I just wanted to make that match visible to everyone to understand. Just put some one picture.
Yeah, this is the same thing. This is the bone structure, so you see again the spongy part, what is actually the more important part, and all the wall of the bone is also spongy, it is full of holes, and during this hole, as you see, in the wall of the bone, it’s not only because you have to part the blood vessels, nerves or lymph. They are made for purpose, it is not only because of the vessels. And, again, this is the hole places in the middle of the bone, it is replaced with the bone marrow, yes, and actually, up to the bone marrow and all the verges which conceal the bone marrow, they have, how did Mr. Keshe call them, the skin. Actually, this is some kind of a solid, teeny, teeny, largely connective tissue, which covers the bone marrow, and then comes spongy part of the wall, and after the spongy part of the wall of the bone, we have again the skin, which covers all the bone and, in Latin, this is periosteum.
Periosteum, this is again a connective tissue, which is skinny, but is full of nerves, endings of the nerves around the bone. And, actually, your bone, like anatomically, anatomical structure, if you compare with the reactor, which this guy made it, they have the same structure. You have the core, what is the bone marrow, and then you have the wall, what is the covering of the core, and you have two parts, an upper part, like a spongy, and the second part, which is the hole, which conceals the core. And if you remember what I showed you in the skeleton, I will share my screen again, because… Share my screen, OK, OK. Actually, Mr. Keshe is more able to explain it to you what I want you to see now. Please, Rick, share my screen. Just I wanted to describe…
MK: Wait, we don’t see… We only got the skeleton from the beginning; we don’t get any pictures of the bone, what you’ve been explaining…
E: You have the pictures, Mr. Keshe, in the live stream; they are visible on the live stream.
MK: Live stream is not loading up, OK, we are there now. Can you go back to where you talk about the skin of the bone, please?
E: Yeah, we have to share again the pictures. This is my screen, but can I finish, and then I will put all the pictures? And then… OK.
This is the skin screen, periosteum, this is the skin, can you see? this is the connective tissue which is so teeny, and fragile, and covers the bone. This is the skin, periosteum.