BLOOD COUNT: PLATELET
ANATOMY: Manthei: So the platelet count we said should be about four hundred thousand, is actually a smaller RBC. Now, can a large RBC become a platelet? Reams: Of course, it [a platelet] is a baby RBC.
ANATOMY: Manthei: The RBC carries oxygen also, but the platelet is the one primarily responsible for taking it to the brain. They’re much smaller. Are not the capillaries in the brain smaller than the capillaries in the feet? Students: Yes.
ANATOMY: Manthei: All you have to do is to remember five million [5,000,000] for RBC; five to ten thousand [5,000-10,000] for WBC; and about four hundred thousand [400,000] for platelets. Those are the values that we should try to reach. REAMS: Yes.
ANATOMY: Manthei: The platelet is primarily responsible for carrying oxygen and potassium to the brain.
ANATOMY: Manthei: Do you remember Carol Hason, she had an extremely high platelet count. You’re saying that even if it’s a very high platelet count, that’s not a form of leukemia? Reams: That’s right. Manthei: It’s a dietary deficiency. Reams: Right.
ANATOMY: Platelets are all red blood cells. It is any cell that will carry oxygen.
ARM: The shape of the carbon atom is a tetragonal. The two carbon atoms join together to form a “V.” These V-shaped double carbon atoms go into a whole series of platelets, stacked up. Shape of these carbon atoms is important; it's at the stole.
CLASS 1-5: If they've not been on insulin too long and they're lucky, when their body starts to release this stored insulin then many times they begin vomiting and start to dehydrate, and in the mean time the insulin is still pouring into their system, released from their body actions, and then their platelets begin to drop because the insulin salt is too high in their blood and then you have to get them into a hospital where they can have IV solutions in order to cut it down so it can pass out through the kidneys.
CLASS 1-5: The doctors among you should do blood tests. Blood tests are certainly needed because when I say a person has leukemia I just passed a note that they have leukemia, I would also like to know what their WBC is. I need to know, and also a person starts vomiting and you can't stop it, they begin dehydrating, you need to know what the platelets are. There are certain things that you need to know that'll let you know how quickly you have to work or whether you have time to spare, whether death is imminent or not. You can find this out by stepping it by the hour, so I'm not against blood chemistry tests at all.
CLASS 1-5: ...in the blood stream a platelet is any cell that will carry oxygen, and all red blood cells are platelets.
CLASS 1-5: A platelet is any cell that will carry oxygen and the platelets are all red blood cells. Note: Reams was specific that red
blood "cells" are corpuscles and therefore multiply by dividing. Regular body cells attached by nerves to the brain are built by ionization.
JESSE: Sulphasalazine produces toxic effects such as neutropenia and a reduction in platelets.
MANTHEI: Student: Dr. Reams, one more question pertaining to blood. Can you really classify leukemia as cancer---which we are not doing in this class? Reams: Let me say this. Dead cells in the body are a result of what? Student: Mineral deficiency? Reams: Right. Mineral deficiency. lf the blood is not suiflcient in platelets. then what happens? The amino acids don't have enough wagons to ride on. The white corpuscles. which are the basis by which---let's go back a little further. A white corpttscle still has to have a protein molecule for it to start with. From there on. it is governed strictly by ionization—the line of least resistance. The greater the variety of foods we have. the more harmony it will have. If the marrow of our bones does not manufacture enough red corpuscles then our flesh is going to start to decay, which is cancer. It's indirect, but it is still cancer.
Manthei: What is the actual "wagon" for the sugar in the blood? Student: The platelets? Manthei: The platelet is correct. The platelet is the actual wagon that is carrying the sugar, which is responsible for taking the carbohydrate and the oxygen to the brain. What happens when you have a high sugar reading, and you have an oxygen deficiency? Why do you have an oxygen deficiency with a high sugar reading? Student: Because the sugar is filling up the platelets, so the platelets cannot get cations to the brain? Manthei: Right. It can't unload it, so they also tend to become too sticky sometimes, and they don‟t perform the unloading as they should. What about with the low sugar in the blood? Why is that an oxygen deficiency? Student: There‟s not enough carbohydrate to carry. Manthei: Not enough to carry is exactly right. So, so there is a point where things are ideal. And when you have too much or not enough, it decreases the oxygen that can be taken to the brain.
MANTHEI: A platelet is a red blood cell, and they are red. If you get enough of them, you can see them.
MANTHEI: If there is a deficiency in calcium, iron, phosphates, and if the body chemistry is not accepting vitamin A, then the bone marrow will not be able to produce enough RBCs or platelets in the blood stream.
BLOOD COUNT: RBC
ANATOMY: Manthei: Let’s talk about the blood. There are three main groups of corpuscles in the blood that we can talk about: the red and the white. Most people think about the platelets as being something different. The platelets belong to the red group. We will talk about RBC and WBC, and the platelets.
ANATOMY: Manthei: All you have to do is to remember five million [5,000,000] for RBC; five to ten thousand [5,000-10,000] for WBC; and about four hundred thousand [400,000] for platelets. Those are the values that we should try to reach. REAMS: Yes.
ANATOMY: Student: Did we come to a conclusion that corpuscles actually carry the amino acids? Manthei: No. We said that the red blood – the RBC and the WBC and the platelet count are not the amino acid. Reams: Neither one of them carry the amino acids. Amino acids are just as free as the other corpuscles. They are just caught, like something flowing in the stream.
BEDDOE: The body has to destroy carbon monoxide damaged RBC’s and build new ones in order to keep sufficient capabilities for moving oxygen and carbon dioxide in the body.
C.H.E.M: Vitamin A is needed by the body to help manufacture red blood corpuscle whether the RBC count is decreased or WBC count is increased.
MANTHEI: So what are the platelets in the body? Are they red blood cells or are they white blood cells? They are baby RBCs, and they are the cell that are responsible for taking oxygen to the brain. NOTE: Manthei says "cells," while meaning to say corpuscles.
MANTHEI: Which bones are responsible for producing red blood cells, red, RBCs, blood corpuscles, besides the leg bones? Any bone with marrow. Any bone with marrow – fingers, arms, ribs.
MOSES: In this article I also stated that a low white blood count could cause leukemia, the same as the high blood count, because leukemia resulted from a deficiency in vitamin A not being available to the system, and, therefore, the blood could not manufacture the blood that would fit that particular body chemistry. Obviously the RBC (red blood count) would outnumber the WBC (white blood count) instead of staying in ratio.
REAMS/BLACK: Just because they are anemic, or have a high WBC or a low WBC, giving the vitamin A, it will not become available. The body will reject it. You can’t put it in there. You can’t force the body to take it. What you have to do is to get the liver to accept the vitamin A and manufacture it into a quality molecule of energy that will replace the old cell that is no longer functioning and decrease the WBC to bring it in ratio with the RBC.
BLOOD COUNT: WBC
ANATOMY: Manthei: Let’s talk about the blood. There’s three main groups of cells in the blood that we could talk about this morning. Actually, there’s only two – the red and the white. Student: Corpuscles. Manthei: Thank you for helping me. [Laughter] Thank you. It’s hard to change how you’ve been taught. OK, there are three main groups of corpuscles...
ANATOMY: Manthei: Here’s another thing we haven't told you about the WBC. They can reproduce themselves. They can divide; they can multiply. And therefore, you can go from a low-normal count to a very high count very quickly because they are producing themselves.
ARM: There is no difference between anemia and leukemia. WBC [White Blood Count] out of ratio. This means a vitamin A deficiency. If this body condition existed and you gave vitamin A by the pound, it would not be available to the system. Cucumber is one of the richest sources of vitamin A, skin and all, juiced.
ARM: An anemic person will accept carrot juice quicker and faster, and increase the WBC, than any other substance.
BEDDOE: Carrot juice is especially good for persons who may have been told that they have a low white blood count. It works better than vitamin A by itself.
BEDDOE: Reams indicates that cold sweats are a result of a large temporary decrease in white blood count count due to their break down. The immune system then reacts and causes the body to produce large numbers of them again.
CHALLEN: Anemic - Too many white and not enough red blood cells [corpuscles?]. B-12 for this plus Ferro-tonic.
CHALLEN: Leukemia---cancer of bone marrow - inability of body to accept Vitamin A - White Blood Count (WBC) either too high or too low - high WBC dropping towards normal means picking up energy
C.H.E.M: Vitamin A is needed by the body to help manufacture red blood corpuscle whether the RBC count is decreased or WBC count is increased.
CLASS 1-5: You may be taking it [Vitamin A] by the pound and doing yourself damage, so what you need to do is to find out why the body is not assimilating Vitamin A and set the body chemistry in position to accept Vitamin A. I have not found one single case of leukemia or anemia where there was a high or low WBC that did not have the lack of Vitamin A.
DUNLAP: With acid saliva, the ability to absorb vitamin A decreases. The lack of vitamin A causes a decline m the red blood count and a rise in the white blood cells.
JESSE: However, if undigested food proteins (peptides) do enter the blood-stream, the immune system activates specific white blood cells to engulf, digest and destroy the undigested food substances.
KIRBAN: What about leukemia? I know it is a cancer of the white blood cells and that the acute form of leukemia is seen most frequently in children and young people under 15. In fact it kills approximately 1500 young people annually in the United States. A total of 34,000 people, including children, die of leukemia each year. It is a very sad thing when you see children dying of leukemia. Has your urine/sputum analysis been able to detect leukemia and have people responded to your diet? Reams then made some shocking claims. Reams: Yes! We have had children come here with leukemia and we have had 100% success! I repeat, young people and adults have come here with leukemia and we have had 100% success. I don't know whether we can do that in all cases, but so far, we have had 100% success. Leukemia is one of the easiest things to correct.
MOSES: In this [circa 1940] article I also stated that a low white blood count could cause leukemia, the same as the high blood count, because leukemia resulted from a deficiency in vitamin A not being available to the system, and, therefore, the blood could not manufacture the blood that would fit that particular body chemistry. Obviously the RBC (red blood count) would outnumber the WBC (white blood count) instead of staying in ratio.
REAMS/BLACK: Without vitamin A, the WBC either goes too high or too low. And that is Leukemia or Anemia. Anemia and Leukemia is the same thing only a different stage.
REAMS/BLACK: Just because they are anemic, or have a high WBC or a low WBC, giving the vitamin A, it will not become available. The body will reject it. You can’t put it in there. You can’t force the body to take it. What you have to do is to get the liver to accept the vitamin A and manufacture it into a quality molecule of energy that will replace the old cell that is no longer functioning and decrease the WBC to bring it in ratio with the RBC.
NOTE: Reams claimed great success dealing with anemia and leukemia with one caveat: he insisted no two cases were alike. The serious student should consult with various practitioners to fully understand this subject.
ANATOMY: Manthei: So the platelet count we said should be about four hundred thousand, is actually a smaller RBC. Now, can a large RBC become a platelet? Reams: Of course, it [a platelet] is a baby RBC.
ANATOMY: Manthei: The RBC carries oxygen also, but the platelet is the one primarily responsible for taking it to the brain. They’re much smaller. Are not the capillaries in the brain smaller than the capillaries in the feet? Students: Yes.
ANATOMY: Manthei: All you have to do is to remember five million [5,000,000] for RBC; five to ten thousand [5,000-10,000] for WBC; and about four hundred thousand [400,000] for platelets. Those are the values that we should try to reach. REAMS: Yes.
ANATOMY: Manthei: The platelet is primarily responsible for carrying oxygen and potassium to the brain.
ANATOMY: Manthei: Do you remember Carol Hason, she had an extremely high platelet count. You’re saying that even if it’s a very high platelet count, that’s not a form of leukemia? Reams: That’s right. Manthei: It’s a dietary deficiency. Reams: Right.
ANATOMY: Platelets are all red blood cells. It is any cell that will carry oxygen.
ARM: The shape of the carbon atom is a tetragonal. The two carbon atoms join together to form a “V.” These V-shaped double carbon atoms go into a whole series of platelets, stacked up. Shape of these carbon atoms is important; it's at the stole.
CLASS 1-5: If they've not been on insulin too long and they're lucky, when their body starts to release this stored insulin then many times they begin vomiting and start to dehydrate, and in the mean time the insulin is still pouring into their system, released from their body actions, and then their platelets begin to drop because the insulin salt is too high in their blood and then you have to get them into a hospital where they can have IV solutions in order to cut it down so it can pass out through the kidneys.
CLASS 1-5: The doctors among you should do blood tests. Blood tests are certainly needed because when I say a person has leukemia I just passed a note that they have leukemia, I would also like to know what their WBC is. I need to know, and also a person starts vomiting and you can't stop it, they begin dehydrating, you need to know what the platelets are. There are certain things that you need to know that'll let you know how quickly you have to work or whether you have time to spare, whether death is imminent or not. You can find this out by stepping it by the hour, so I'm not against blood chemistry tests at all.
CLASS 1-5: ...in the blood stream a platelet is any cell that will carry oxygen, and all red blood cells are platelets.
CLASS 1-5: A platelet is any cell that will carry oxygen and the platelets are all red blood cells. Note: Reams was specific that red
blood "cells" are corpuscles and therefore multiply by dividing. Regular body cells attached by nerves to the brain are built by ionization.
JESSE: Sulphasalazine produces toxic effects such as neutropenia and a reduction in platelets.
MANTHEI: Student: Dr. Reams, one more question pertaining to blood. Can you really classify leukemia as cancer---which we are not doing in this class? Reams: Let me say this. Dead cells in the body are a result of what? Student: Mineral deficiency? Reams: Right. Mineral deficiency. lf the blood is not suiflcient in platelets. then what happens? The amino acids don't have enough wagons to ride on. The white corpuscles. which are the basis by which---let's go back a little further. A white corpttscle still has to have a protein molecule for it to start with. From there on. it is governed strictly by ionization—the line of least resistance. The greater the variety of foods we have. the more harmony it will have. If the marrow of our bones does not manufacture enough red corpuscles then our flesh is going to start to decay, which is cancer. It's indirect, but it is still cancer.
Manthei: What is the actual "wagon" for the sugar in the blood? Student: The platelets? Manthei: The platelet is correct. The platelet is the actual wagon that is carrying the sugar, which is responsible for taking the carbohydrate and the oxygen to the brain. What happens when you have a high sugar reading, and you have an oxygen deficiency? Why do you have an oxygen deficiency with a high sugar reading? Student: Because the sugar is filling up the platelets, so the platelets cannot get cations to the brain? Manthei: Right. It can't unload it, so they also tend to become too sticky sometimes, and they don‟t perform the unloading as they should. What about with the low sugar in the blood? Why is that an oxygen deficiency? Student: There‟s not enough carbohydrate to carry. Manthei: Not enough to carry is exactly right. So, so there is a point where things are ideal. And when you have too much or not enough, it decreases the oxygen that can be taken to the brain.
MANTHEI: A platelet is a red blood cell, and they are red. If you get enough of them, you can see them.
MANTHEI: If there is a deficiency in calcium, iron, phosphates, and if the body chemistry is not accepting vitamin A, then the bone marrow will not be able to produce enough RBCs or platelets in the blood stream.
BLOOD COUNT: RBC
ANATOMY: Manthei: Let’s talk about the blood. There are three main groups of corpuscles in the blood that we can talk about: the red and the white. Most people think about the platelets as being something different. The platelets belong to the red group. We will talk about RBC and WBC, and the platelets.
ANATOMY: Manthei: All you have to do is to remember five million [5,000,000] for RBC; five to ten thousand [5,000-10,000] for WBC; and about four hundred thousand [400,000] for platelets. Those are the values that we should try to reach. REAMS: Yes.
ANATOMY: Student: Did we come to a conclusion that corpuscles actually carry the amino acids? Manthei: No. We said that the red blood – the RBC and the WBC and the platelet count are not the amino acid. Reams: Neither one of them carry the amino acids. Amino acids are just as free as the other corpuscles. They are just caught, like something flowing in the stream.
BEDDOE: The body has to destroy carbon monoxide damaged RBC’s and build new ones in order to keep sufficient capabilities for moving oxygen and carbon dioxide in the body.
C.H.E.M: Vitamin A is needed by the body to help manufacture red blood corpuscle whether the RBC count is decreased or WBC count is increased.
MANTHEI: So what are the platelets in the body? Are they red blood cells or are they white blood cells? They are baby RBCs, and they are the cell that are responsible for taking oxygen to the brain. NOTE: Manthei says "cells," while meaning to say corpuscles.
MANTHEI: Which bones are responsible for producing red blood cells, red, RBCs, blood corpuscles, besides the leg bones? Any bone with marrow. Any bone with marrow – fingers, arms, ribs.
MOSES: In this article I also stated that a low white blood count could cause leukemia, the same as the high blood count, because leukemia resulted from a deficiency in vitamin A not being available to the system, and, therefore, the blood could not manufacture the blood that would fit that particular body chemistry. Obviously the RBC (red blood count) would outnumber the WBC (white blood count) instead of staying in ratio.
REAMS/BLACK: Just because they are anemic, or have a high WBC or a low WBC, giving the vitamin A, it will not become available. The body will reject it. You can’t put it in there. You can’t force the body to take it. What you have to do is to get the liver to accept the vitamin A and manufacture it into a quality molecule of energy that will replace the old cell that is no longer functioning and decrease the WBC to bring it in ratio with the RBC.
BLOOD COUNT: WBC
ANATOMY: Manthei: Let’s talk about the blood. There’s three main groups of cells in the blood that we could talk about this morning. Actually, there’s only two – the red and the white. Student: Corpuscles. Manthei: Thank you for helping me. [Laughter] Thank you. It’s hard to change how you’ve been taught. OK, there are three main groups of corpuscles...
ANATOMY: Manthei: Here’s another thing we haven't told you about the WBC. They can reproduce themselves. They can divide; they can multiply. And therefore, you can go from a low-normal count to a very high count very quickly because they are producing themselves.
ARM: There is no difference between anemia and leukemia. WBC [White Blood Count] out of ratio. This means a vitamin A deficiency. If this body condition existed and you gave vitamin A by the pound, it would not be available to the system. Cucumber is one of the richest sources of vitamin A, skin and all, juiced.
ARM: An anemic person will accept carrot juice quicker and faster, and increase the WBC, than any other substance.
BEDDOE: Carrot juice is especially good for persons who may have been told that they have a low white blood count. It works better than vitamin A by itself.
BEDDOE: Reams indicates that cold sweats are a result of a large temporary decrease in white blood count count due to their break down. The immune system then reacts and causes the body to produce large numbers of them again.
CHALLEN: Anemic - Too many white and not enough red blood cells [corpuscles?]. B-12 for this plus Ferro-tonic.
CHALLEN: Leukemia---cancer of bone marrow - inability of body to accept Vitamin A - White Blood Count (WBC) either too high or too low - high WBC dropping towards normal means picking up energy
C.H.E.M: Vitamin A is needed by the body to help manufacture red blood corpuscle whether the RBC count is decreased or WBC count is increased.
CLASS 1-5: You may be taking it [Vitamin A] by the pound and doing yourself damage, so what you need to do is to find out why the body is not assimilating Vitamin A and set the body chemistry in position to accept Vitamin A. I have not found one single case of leukemia or anemia where there was a high or low WBC that did not have the lack of Vitamin A.
DUNLAP: With acid saliva, the ability to absorb vitamin A decreases. The lack of vitamin A causes a decline m the red blood count and a rise in the white blood cells.
JESSE: However, if undigested food proteins (peptides) do enter the blood-stream, the immune system activates specific white blood cells to engulf, digest and destroy the undigested food substances.
KIRBAN: What about leukemia? I know it is a cancer of the white blood cells and that the acute form of leukemia is seen most frequently in children and young people under 15. In fact it kills approximately 1500 young people annually in the United States. A total of 34,000 people, including children, die of leukemia each year. It is a very sad thing when you see children dying of leukemia. Has your urine/sputum analysis been able to detect leukemia and have people responded to your diet? Reams then made some shocking claims. Reams: Yes! We have had children come here with leukemia and we have had 100% success! I repeat, young people and adults have come here with leukemia and we have had 100% success. I don't know whether we can do that in all cases, but so far, we have had 100% success. Leukemia is one of the easiest things to correct.
MOSES: In this [circa 1940] article I also stated that a low white blood count could cause leukemia, the same as the high blood count, because leukemia resulted from a deficiency in vitamin A not being available to the system, and, therefore, the blood could not manufacture the blood that would fit that particular body chemistry. Obviously the RBC (red blood count) would outnumber the WBC (white blood count) instead of staying in ratio.
REAMS/BLACK: Without vitamin A, the WBC either goes too high or too low. And that is Leukemia or Anemia. Anemia and Leukemia is the same thing only a different stage.
REAMS/BLACK: Just because they are anemic, or have a high WBC or a low WBC, giving the vitamin A, it will not become available. The body will reject it. You can’t put it in there. You can’t force the body to take it. What you have to do is to get the liver to accept the vitamin A and manufacture it into a quality molecule of energy that will replace the old cell that is no longer functioning and decrease the WBC to bring it in ratio with the RBC.
NOTE: Reams claimed great success dealing with anemia and leukemia with one caveat: he insisted no two cases were alike. The serious student should consult with various practitioners to fully understand this subject.