The philosophical guide (The domain stem cells

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03. The Gallbladder Model Of the-human-domain-stem-cell
The human gallbladder has the 33 domains:
01
02
04
32
24
06
17
15
03
05
08
16
14
09
20
13
22
26
29
10
12
21
31
28
30
18
19
11
25
23
07
27
33
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
Phorocyte
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Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Lymph
Epithelia
Epithelia
Muscle
Vascular Muscle
Vascular Muscle
Vascular
Vascular Muscle
Vascular Muscle
Vascular Muscle
Vascular Nerve
Vascular Nerve
Vascular Nerve
Vascular Nerve
Vascular Muscle
Vascular Muscle
Epithelia Muscle
Epithelia Muscle
Epithelia
Epithelia
The 14-domain renewals built my gallbladder:
[01]: The 14-step domain renewal works to the gallbladder #01 domain (gallbladder growth-point) as the specific domain. When
it finished its work, there are the gallbladder #02 domain and the gallbladder #03 domain are formed be-inside the gallbladder
#01 domain.
[02]: The 14-step domain renewal works to the gallbladder #02 domain as the specific domain. When it finished its work, there
are the gallbladder #04 domain and the gallbladder #06 domain are formed be-inside the gallbladder #02 domain.
…
[28]: The 14-step domain renewal works to the gallbladder #28 domain as the specific domain. When it finished its work, there
are the phorocyte, lymph, vascular and nerve (automatic nerve) are formed be-inside the gallbladder #28 domain.
[29]: The 14-step domain renewal works to the gallbladder #29 domain as the specific domain. When it finished its work, there
are the phorocyte, lymph, vascular and nerve (Semi-nerve 经络) are formed be-inside the gallbladder #31 domain.
[30]: The 14-step domain renewal works to the gallbaldder #30 domain as the specific domain. When it finished its work, there
are the phorocyte, lymph, vascular and nerve (parasympathetic nerve) are formed be-inside the gallbladder #30 domain.
[31]: The 14-step domain renewal works to the gallbladder #31 domain as the specific domain. When it finished its work, there
are the phorocyte, lymph, vascular and nerve (Sympathetic nerve) are formed be-inside the gallbladder #31 domain.
[32]: The 14-step domain renewal works to the gallbladder #32 domain (the gallbladder’s outer layer) as the specific domain.
When it finished its work, there are the phorocyte, lymph, epithelia are formed be-inside the gallbladder #32 domain.
[33]: The 14-step domain renewal works to the gallbladder #33 domain (the gallbladder’s inner layer) as the specific domain.
When it finished its work, there are the phorocyte, lymph, epithelia are formed be-inside the gallbladder #33 domain.
03. The Gallbladder Model Of the-human-domain-stem-cell
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The advantaged 14-step domain renewal:
Step 01. Start. Work in a specific domain.
Step 02. Work in pituitary gland.
Step 03. Work in death informatin zone.
Step 04. Work in pituitary gland.
Step 05. Work in the domain.
Step 06. Work in pituitary gland.
Step 07. Work in pineal gland.
Step 08. Work in pituitary gland.
Step 09. Work in the domain.
Step 10. Work in pituitary gland.
Step 11. Work in spine zone. Order an advantaged domain stem cell for the domain.
Step 12. Work in pituitary gland.
Step 13. Work in the domain. Install the advantaged domain stem cell.
Step 14. The domain stem cell makes change inside the domain. Finish.
The conservative 14-step domain renewal:
Step 01. Start. Work in a specific domain.
Step 02. Work in pituitary gland.
Step 03. Work in pineal gland.
Step 04. Work in pituitary gland.
Step 05. Work in the domain.
Step 06. Work in pituitary gland
Step 07. Work in death informatin zone.
Step 08. Work in pituitary gland.
Step 09. Work in the domain.
Step 10. Work in pituitary gland.
Step 11. Work in spine zone. Order a conservative domain stem cell for the domain.
Step 12. Work in pituitary gland.
Step 13. Work in the domain. Install the conservative domain stem cell.
Step 14. The domain stem cell makes change inside the domain. Finish.
If a conservative domain stem cell is too week to perform its duty, the advantaged 14-step
domain renewal can renew the conservative by an advantaged domain stem cell.
If an advantaged domain stem cell is too strong to be out of order, the conservative 14-step
domain renewal can renew the advantaged by a conservative domain stem cell.
03. The Gallbladder Model Of the-human-domain-stem-cell
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When the 14-step domain renewal finished its work of step 1st, the second logic function turned
on in the specific domain, the first logic function turned off in the specific domain and turned on
in pituitary gland zone, the renewal does its work of step 2nd.
If the second logic function turned on in the specific domain before the 14-step domain renewal
finish its work of step 1st, the autoimmune self-attack takes place in the domain or the renewal
work is interrupted.
The second logic function doesn’t turn on in the specific domain when the 14-step domain
renewal finished its work of step 1st, the first logic function can’t turn off in the specific domain,
and the 14-step domain renewal can’t do its work of step 2nd.
When the 14-step domain renewal finished its work of step 13th and the second logic function
turned on in the specific domain, need to turn off the work-power immediately, otherwise, the
installed domain stem cell can be destroyed soon.
The third logic function does the switch between the first logic and the second logic functions.
Human brain’s autonomic nerve system center supports the first logic.
Human brain’s semi-nerve system center supports the third logic.
Human brain’s the second logic center includes brain’s sex center, brain’s the representation area of thymus gland, and brain’s
the representation area of death informatin zone.
About the death-informatin zone:
(http://www.mindfully.org/GE/2005/DNA-Transfer-To-Gut1jul05.htm): In July 2002, the Food Standards Agency (FSA) put the
results of new research on its website which showed that… These were the result of the first known human trial of GM food,
carried out by the University of Newcastle… The research was published in Nature Biotechnology in January 2004… Nineteen
volunteers were used, of which seven had had their lower intestine removed … From all seven of those without a lower intestine,
they found… that "a relatively large portion" of GM DNA passed through the small intestine… No transgenic DNA was found in
the feces from those with a complete intestine.
A similar research should show that:
The seven volunteers had had their death informatin zone system damaged (their lower intestine removed), “a relatively large
portion” of GM DNA passed through the small intestine. Others 12 volunteers those with a complete death informatin zone
system (those with complete healthy), none survivor of GM DNA passed through the small intestine.
There is the death-informatin zone system function. Human have the capacity to destroy GM DNA.
03. The Gallbladder Model Of the-human-domain-stem-cell
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2002, Dr. Piero Anversa of New York Medical College in Valhalla and his colleagues reported
their findings in the January 3rd issue of The New England Journal of Medicine. The study
looked at autopsied tissue from eight men who died sometime after receiving a half of heart from
a woman donor. The patients had lived with their new hearts for anywhere from 4 to 552 days.
Patient
Age
Yr.
Interval Between
Congestive Heart
Failure and
Transplantation
Months
1
53
6
67
1
63
5
35
26
48
3
68
1
55
6
61
2
2
3
4
5
6
Primary Disease
Graft Failure After
Previous Heart
Transplantation
Days
Ischemic
Cardiomyopathy
Ischemic
Cardiomyopathy
Ischemic
Cardiomyopathy
Idiopathic Dilated
Cardiomyopathy
Graft Failure After
Previous Heart
Transplantation
Ischemic
Cardiomyopathy
7
8
Cause of Death
Valvular Disease
Ischemic
Cardiomyopathy
Graft Failure
4
Graft Failure
9
Sepsis
28
Graft Failure
46
Acute Cardiac
Rejection
60
Sepsis
Transplant
Vasculopathy
245
Graft Failure
552
396
Anversa’s team found that a plenty of Y chromosome (man’s chromosome) in the woman’s half
heart part of the new heart (a half woman’s with a half man’s) even the patient who died 4 days
after his transplant.
The woman patient who died after receiving a half of heart from a man donor, no found Y
chromosome in the woman’s half heart part of the new heart (a half woman’s with a half man’s).
The eight new hearts went to the failure, no any man’s multi-nucleate muscle cell was found in
the eight women’s heart part of the eight new hearts.
Why?
03. The Gallbladder Model Of the-human-domain-stem-cell
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For the example I
If a man patient receiving a half of gallbladder from a woman donor,
In the new gallbladder,
The woman half gallbladder has the gallbladder’s #1 domain, #2 domain, #4 domain, #6 domain,
#15 domain, #17 domain, #24 domain and # 32 domain, without the gallbladder’s #3 domain, #5
domain, #7 domain, #8 domain, #9 domain, #10 domain, #11 domain, #12 domain, #13 domain,
#14 domain, #16 domain, #18 domain, #19 domain, #20 domain, #21 domain, #22 domain, #23
domain, #25 domain, #26 domain, #27 domain, #28 domain, #29 domain, #30 domain, #31
domain and #33 domain;
The man half gallbladder has the gallbladder’s #1 domain, #3 domain, #5 domain, #7 domain, #8
domain, #9 domain, #10 domain, #11 domain, #12 domain, #13 domain, #14 domain, #16
domain, #18 domain, #19 domain, #20 domain, #21 domain, #22 domain, #23 domain, #25
domain, #26 domain, #27 domain, #28 domain, #29 domain, #30 domain, #31 domain and #33
domain, without the gallbladder’s #2 domain, #4 domain, #6 domain, #15 domain, #17 domain,
#24 domain and # 32 domain;
The man individual center will start the 14-step gallbladder #1 domain renewal process.
During the first step of the 14-step gallbladder #1 domain renewal process, the man gallbladder’s
#1 domain stem cell will produce its coordinator cells to go into woman gallbladder’s #1 domain,
#2 domain, #4 domain, #6 domain, #15 domain, #17 domain, #24 domain and # 32 domain.
For the example II
If a man patient receiving a half of gallbladder from a woman donor,
In the new gallbladder,
The woman half gallbladder has the all of the gallbladder’s 33 domains, and
The man half gallbladder has the all of the gallbladder’s 33 domains, too;
The man individual center will start the all of the 14-step gallbladder #1 domain renewal process,
the 14-step gallbladder #2 domain renewal process, the 14-step gallbladder #3 domain renewal
process, … and the 14-step gallbladder #33 domain renewal process.
A human heart has about 3004 the heart domains (has about 3004 the heart domain stem cells).
If a man patient receiving a half of heart from a woman donor, to the new heart, his individual
center system will start more than 2000 the 14-step heart’s domain renewals.
03. The Gallbladder Model Of the-human-domain-stem-cell
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2011, German scientists discovered that the protein oncostain M indicated the dedifferentiation –
individual heart multi-nucleate muscle cell was restored into their single nuclear precursor cells – took place in
human hearts, means the hearts were on the renew status.
The “dedifferentiation” appearance took place when the first step of the 14-step heart’s domain
renewal processes started. When the “dedifferentiation” appearance took place in the heart, the
heart’s pulse should be faster than the normal to keep the power out put. But until the many of
the 14-step heart’s domain renewals finish their 14 steps processes, the new heart multi-nucleate
muscle cells can be built.
If many of the 14-step heart’s domain renewal processes started, but no any one of them can
finish their 14 steps processes, the new heart multi-nucleate muscle cells can’t be built.
That’s why Anversa’s team found that a plenty of Y chromosome (man’s chromosome) in the
woman’s half heart part of the new heart (a half woman’s with a half man’s) even the patient
who died 4 days after his transplant; but no any man’s multi-nucleate muscle cell was found in
the eight women’s heart part of the eight new hearts.
That’s why the scientists from the Max Planck Institute for Heart and Lung Research found “The
downside, however, is that oncostatin M was also observed to be counterproductive and
exacerbated the damage in an experiment on a chronically diseased heart.”
I believed that need a little bit help to the 14-step domain renewal to adult. For example, need to
recover the pineal gland to adult for the renewal. Need the electronic tech. to help the 14-step
domain renewal to finish its work if it can’t finish its 14 steps work automatically.
September 29, 2010, I found my heart rate was 115/min. at my workplace, sitting.
January 28, 2011, my heart rate was 100/min. at family Doctor’s office, sitting.
March 14, 2011, the Heart Expert did the cardiac evaluation laboratory treadmill study for me:
HEART RATE
RESTING
93
SITTING
STANDING
104
10 sec. Inspir.
Stage
Stage
Min.
I
I
1
116
1.7 MPH
2
126
10%
3
129
II
II
4
142
2.5MPH
5
149
12%
6
STOP EXERCISE
RECOVERY
Immediately
123
1 Min.
113
2 Min.
99
3 Min.
96
March 15, 2011, my heart rate was 114/min. at family Doctor’s office, sitting.
August 3, 2011, my heart rate was 108/min. at family Doctor’s office, sitting.
I used electronic tech. helped 219 the 14-step my heart’s domain renewals finished their 14 steps processes from September 29,
2010 to May 23, 2012. Found my heart rate was restored to 75/min. at home, resting, sitting, and standing on May 23, 2012.
03. The Gallbladder Model Of the-human-domain-stem-cell
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Pedro Herrera’s team has now made the discovery: up until puberty, the pancreas is more
adaptable and possesses a greater potential for self-healing. The process involves the reversion of
 cells to a precursor-like cell state, with proliferation and later reconstitution of the populations
of  and  cells. Which has been published August 20, 2014, in the journal Nature: Diabetes
recovery by age-dependent conversion of pancreatic -cells into insulin producers.
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I tried to use gallbladder model to understand that “The process involves the reversion of  cells
to a precursor-like cell state, with proliferation and later reconstitution of the populations of 
cells and  cells.”
Use # 21 domain cells present  cells.
Use # 12 domain cells present  cells and  cells.
Set the  cells lost totally.
Now, to rebuild  cells, the 14-step the #12 domain renewal must be started.
During the first step work, the 14-step the #12 domain renewal was eliminating the aging  cells
and meanwhile the #12 domain stem cell was regenerating its coordinator cells as the precursor
cells of  cells and  cells. …
That looked as “The process involves the reversion of  cells to a precursor-like cell state, with
proliferation and later reconstitution of the populations of  cells and  cells.”
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During the first step work, the 14-step the heart domain renewal was eliminating the aging or
damaged multi-nucleate muscle cells and meanwhile the heart domain stem cell was regenerating
its coordinator cells as the precursor cells of muscle cells. That looks as the “dedifferentiation”
appearance took place in the heart.
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