A-delta Execution Is Torture-Free

A-delta Execution Is Torture-Free

Hi:

I know I have posted similar messages before but I just can't get over
this topic. I apologize profusely to anyone who maybe annoyed by this
post.

I have theorized another manner in which a painless execution can be
performed via A-delta excitation.

Divide the visceral** adipose tissue into two sides, right and left.

Further divide the right division into left, right, horizontal center
[exactly between left and right], upper, lower, and vertical center
[exactly between upper and lower], and horizontal-vertical center
[just between right and left and upper and lower].

HVCVAR = horizontal-vertical center of the visceral adipose tissue of
the right division of the abdomen

Now further divide the HVCVAR into 3 layers. The 1st layer is right
below the abdominal muscles, the 3rd later directly covers the
visceral organs. The 2nd layer is between the 1st and 3rd layers.

SLHVCVAR = second layer of the horizontal-vertical center of the
visceral adipose tissue of the right division of the abdomen

A-delta nerve endings in executionee's SLHVCVAR are stimulated by a
large number of extremely low-voltage nanobots [around the same
voltage used by neurons and receptors themselves -- thereby preventing
any electroporation, increase in temperature, irritation,
inflammation, or immune response]; this process does not cause any
actual direct injury. The nanoelectrodes are of the exact correct size
and shape to "fit" the a-delta nerve endings present inside the
SLHVCVAR. The maximum amount [number per area] and intensity [extent
of depolarization] of a-delta excitation is just small enough there is
no amount of damage/injury to those nerves or any sensory overload at
all and only occurs in the centermost regions of the SLHVCVAR. The
death results from the neurocirculatory effects of excruciating sharp
pain in the SLHVCVAR. Death can ensue due to neurogenic shock caused
by the sharp pain. There is no actual mechanical injury to the body --
at all -- but the pain itself does the execution by dangerously-
altering the signals of the circulatory nervous system. At first the A-
delta excitation is at minimum amount and intensity. The amount and
intensity and of a-delta excitation then smoothly increases in a sine-
wave-like manner such that when a minute has passed, the amount and
intensity of a-delta excitement reaches max. In centermost region of
the SLHVCVAR, is where the a-delta excitability reaches max in a
minute. However, as you move towards the right, left, lower, or upper
edges of the SLHVCVAR, the a-delta stimulation is always smoothly less
than the centermost. Also, in the SLHVCVAR, the closer you go to the
1st or 3rd layer, the milder the a-delta stimulation is. There is no a-
delta stimulation outside of the SLHVCVAR. Once the executionee has
passed away, the nanoelectrodes stop firing at the a-delta nociceptors
in the same smooth manner in which they started. However, instead of
taking a minute to completely stop applying electricity to all a-delta
nociceptors, these nanoelectrodes only take half a minute to stop. So
the a-delta electrocution - both in amount [number per area] and
intensity [extent of depolarization] -- stops at 2x the speed it
started but in the same smooth sine-wave manner in which it started.

No mechanical injury, no bleeding, no burning, no dehydration, no
infection, no torture. Just A-delta induced shock.

A-delta induced shock results in the following:

1. Force of the heart muscles' contractions decrease significantly [no
pulse/heartbeat can be felt; EKG needed to detect heartbeat]
2. Heart rate decreases dramatically [heart rate drops to around 20
beats per minute in approximately 5 seconds]
3. General increase in the heart muscles' relaxability
4. Blood vessels throughout the body widen to total dilation

The above 4 alone are lethal due to the extent at which they occur --
causing a dangerous drop in blood pressure. Put together, the
resulting hypotension means certain death. Vital organs are deprived
of blood leading to multiple-organ-failure. This can rapidly kill the
individual.

NOTE: While this a-delta stimulation may seem like torture, the
suffering experienced the by executionee is actually dramatically LESS
than that caused by lethal injection and other execution methods. This
is due to the following:

1. The circulatory relaxation drop blood pressures to the extent where
consciousness and pain perception is significantly decreases
2. The a-delta excitation simulates SEVERE injury and causes the brain
to releases cascades of endorphins
3. A psychogenic* blackout can occur due to the *extreme* psychic
trauma caused by the a-delta excitation.
4. Pain-induced coma caused by alteration of the signals of RAS
[Reticular Activation System], as mentioned on http :// www .internetarmory,com /self defense.htm

Quote from http :// www .internetarmory,com /self defense.htm :

"It is speculated that various organs of the body can send pain
impulses to the brain stem indicating a severe or overwhelming bodily
injury. The reticular activating system responds by producing a
functional "shut down", which results in loss of consciousness within
a second or two."

*Along with the endorphins and hypotension, the a-delta excitation can
cause ACUTE psychological trauma. Due to this, the executionee won't
feel the pain, even if the hypotension, pain-induced RAS coma, and
endorphins don't kick in. This is because extreme mental trauma causes
blackouts even if no mechanical injury has occurred. Such blackouts
are common in war veterans, prisoners, victims of natural disasters,
those who have lost a loved one, witnessing a tragedy, as well as
those subjected to childhood abuse or molestation. These blackouts are
known to occur even in the complete absence of bleeding, head-
injuries, pain-induced RAS coma, seizures, endorphins, or circulatory
disturbances. The brain automatically prevents the traumatized
individual from consciously perceiving the emotional agony. Its a
protective mechanism for the psyche.

**Visceral adipose tissue is different from the subcutaneous adipose
tissue. In the abdomen, there exist both types of adipose tissues, the
subcutaneous fat covers the abdominal muscles, while the visceral fat
is under those muscles and covers the digestive organs.

Quote from http :// www .obesityresearch.org/cgi/content/full/9/5/283 :

"Visceral fat (i.e., intra-abdominal adipose tissue) and subcutaneous
abdominal fat are two discrete compartments of fat"

Any questions/comments are welcome.

In addition, any understanding, cooperation, and assistance are
greatly appreciated.


Regards,

Radium

Re: A-delta Execution Is Torture-Free

and yes premature ejaculation is definitely a problem
"Radium" <glucegen1@excite,com > wrote in message
news:1172471738.789495.197940@p10g2000cwp.googlegroups,com ...
> Hi:
>
> I know I have posted similar messages before but I just can't get over
> this topic. I apologize profusely to anyone who maybe annoyed by this
> post.
>
> I have theorized another manner in which a painless execution can be
> performed via A-delta excitation.
>
> Divide the visceral** adipose tissue into two sides, right and left.
>
> Further divide the right division into left, right, horizontal center
> [exactly between left and right], upper, lower, and vertical center
> [exactly between upper and lower], and horizontal-vertical center
> [just between right and left and upper and lower].
>
> HVCVAR = horizontal-vertical center of the visceral adipose tissue of
> the right division of the abdomen
>
> Now further divide the HVCVAR into 3 layers. The 1st layer is right
> below the abdominal muscles, the 3rd later directly covers the
> visceral organs. The 2nd layer is between the 1st and 3rd layers.
>
> SLHVCVAR = second layer of the horizontal-vertical center of the
> visceral adipose tissue of the right division of the abdomen
>
> A-delta nerve endings in executionee's SLHVCVAR are stimulated by a
> large number of extremely low-voltage nanobots [around the same
> voltage used by neurons and receptors themselves -- thereby preventing
> any electroporation, increase in temperature, irritation,
> inflammation, or immune response]; this process does not cause any
> actual direct injury. The nanoelectrodes are of the exact correct size
> and shape to "fit" the a-delta nerve endings present inside the
> SLHVCVAR. The maximum amount [number per area] and intensity [extent
> of depolarization] of a-delta excitation is just small enough there is
> no amount of damage/injury to those nerves or any sensory overload at
> all and only occurs in the centermost regions of the SLHVCVAR. The
> death results from the neurocirculatory effects of excruciating sharp
> pain in the SLHVCVAR. Death can ensue due to neurogenic shock caused
> by the sharp pain. There is no actual mechanical injury to the body --
> at all -- but the pain itself does the execution by dangerously-
> altering the signals of the circulatory nervous system. At first the A-
> delta excitation is at minimum amount and intensity. The amount and
> intensity and of a-delta excitation then smoothly increases in a sine-
> wave-like manner such that when a minute has passed, the amount and
> intensity of a-delta excitement reaches max. In centermost region of
> the SLHVCVAR, is where the a-delta excitability reaches max in a
> minute. However, as you move towards the right, left, lower, or upper
> edges of the SLHVCVAR, the a-delta stimulation is always smoothly less
> than the centermost. Also, in the SLHVCVAR, the closer you go to the
> 1st or 3rd layer, the milder the a-delta stimulation is. There is no a-
> delta stimulation outside of the SLHVCVAR. Once the executionee has
> passed away, the nanoelectrodes stop firing at the a-delta nociceptors
> in the same smooth manner in which they started. However, instead of
> taking a minute to completely stop applying electricity to all a-delta
> nociceptors, these nanoelectrodes only take half a minute to stop. So
> the a-delta electrocution - both in amount [number per area] and
> intensity [extent of depolarization] -- stops at 2x the speed it
> started but in the same smooth sine-wave manner in which it started.
>
> No mechanical injury, no bleeding, no burning, no dehydration, no
> infection, no torture. Just A-delta induced shock.
>
> A-delta induced shock results in the following:
>
> 1. Force of the heart muscles' contractions decrease significantly [no
> pulse/heartbeat can be felt; EKG needed to detect heartbeat]
> 2. Heart rate decreases dramatically [heart rate drops to around 20
> beats per minute in approximately 5 seconds]
> 3. General increase in the heart muscles' relaxability
> 4. Blood vessels throughout the body widen to total dilation
>
> The above 4 alone are lethal due to the extent at which they occur --
> causing a dangerous drop in blood pressure. Put together, the
> resulting hypotension means certain death. Vital organs are deprived
> of blood leading to multiple-organ-failure. This can rapidly kill the
> individual.
>
> NOTE: While this a-delta stimulation may seem like torture, the
> suffering experienced the by executionee is actually dramatically LESS
> than that caused by lethal injection and other execution methods. This
> is due to the following:
>
> 1. The circulatory relaxation drop blood pressures to the extent where
> consciousness and pain perception is significantly decreases
> 2. The a-delta excitation simulates SEVERE injury and causes the brain
> to releases cascades of endorphins
> 3. A psychogenic* blackout can occur due to the *extreme* psychic
> trauma caused by the a-delta excitation.
> 4. Pain-induced coma caused by alteration of the signals of RAS
> [Reticular Activation System], as mentioned on
> http :// www .internetarmory,com /self_defense.htm
>
> Quote from http :// www .internetarmory,com /self_defense.htm :
>
> "It is speculated that various organs of the body can send pain
> impulses to the brain stem indicating a severe or overwhelming bodily
> injury. The reticular activating system responds by producing a
> functional "shut down", which results in loss of consciousness within
> a second or two."
>
> *Along with the endorphins and hypotension, the a-delta excitation can
> cause ACUTE psychological trauma. Due to this, the executionee won't
> feel the pain, even if the hypotension, pain-induced RAS coma, and
> endorphins don't kick in. This is because extreme mental trauma causes
> blackouts even if no mechanical injury has occurred. Such blackouts
> are common in war veterans, prisoners, victims of natural disasters,
> those who have lost a loved one, witnessing a tragedy, as well as
> those subjected to childhood abuse or molestation. These blackouts are
> known to occur even in the complete absence of bleeding, head-
> injuries, pain-induced RAS coma, seizures, endorphins, or circulatory
> disturbances. The brain automatically prevents the traumatized
> individual from consciously perceiving the emotional agony. Its a
> protective mechanism for the psyche.
>
> **Visceral adipose tissue is different from the subcutaneous adipose
> tissue. In the abdomen, there exist both types of adipose tissues, the
> subcutaneous fat covers the abdominal muscles, while the visceral fat
> is under those muscles and covers the digestive organs.
>
> Quote from http :// www .obesityresearch.org/cgi/content/full/9/5/283 :
>
> "Visceral fat (i.e., intra-abdominal adipose tissue) and subcutaneous
> abdominal fat are two discrete compartments of fat"
>
> Any questions/comments are welcome.
>
> In addition, any understanding, cooperation, and assistance are
> greatly appreciated.
>
>
> Regards,
>
> Radium
>

Re: A-delta Execution Is Torture-Free

On Feb 26, 5:35 pm, "Radium" <gluceg...@excite,com > wrote:
> Hi:
>
> I know I have posted similar messages before but I just can't get over
> this topic. I apologize profusely to anyone who maybe annoyed by this
> post.
>
> I have theorized another manner in which a painless execution can be
> performed via A-delta excitation.
>
> Divide the visceral** adipose tissue into two sides, right and left.
>
> Further divide the right division into left, right, horizontal center
> [exactly between left and right], upper, lower, and vertical center
> [exactly between upper and lower], and horizontal-vertical center
> [just between right and left and upper and lower].
>
> HVCVAR = horizontal-vertical center of the visceral adipose tissue of
> the right division of the abdomen
>
> Now further divide the HVCVAR into 3 layers. The 1st layer is right
> below the abdominal muscles, the 3rd later directly covers the
> visceral organs. The 2nd layer is between the 1st and 3rd layers.
>
> SLHVCVAR = second layer of the horizontal-vertical center of the
> visceral adipose tissue of the right division of the abdomen
>
> A-delta nerve endings in executionee's SLHVCVAR are stimulated by a
> large number of extremely low-voltage nanobots [around the same
> voltage used by neurons and receptors themselves -- thereby preventing
> any electroporation, increase in temperature, irritation,
> inflammation, or immune response]; this process does not cause any
> actual direct injury. The nanoelectrodes are of the exact correct size
> and shape to "fit" the a-delta nerve endings present inside the
> SLHVCVAR. The maximum amount [number per area] and intensity [extent
> of depolarization] of a-delta excitation is just small enough there is
> no amount of damage/injury to those nerves or any sensory overload at
> all and only occurs in the centermost regions of the SLHVCVAR. The
> death results from the neurocirculatory effects of excruciating sharp
> pain in the SLHVCVAR. Death can ensue due to neurogenic shock caused
> by the sharp pain. There is no actual mechanical injury to the body --
> at all -- but the pain itself does the execution by dangerously-
> altering the signals of the circulatory nervous system. At first the A-
> delta excitation is at minimum amount and intensity. The amount and
> intensity and of a-delta excitation then smoothly increases in a sine-
> wave-like manner such that when a minute has passed, the amount and
> intensity of a-delta excitement reaches max. In centermost region of
> the SLHVCVAR, is where the a-delta excitability reaches max in a
> minute. However, as you move towards the right, left, lower, or upper
> edges of the SLHVCVAR, the a-delta stimulation is always smoothly less
> than the centermost. Also, in the SLHVCVAR, the closer you go to the
> 1st or 3rd layer, the milder the a-delta stimulation is. There is no a-
> delta stimulation outside of the SLHVCVAR. Once the executionee has
> passed away, the nanoelectrodes stop firing at the a-delta nociceptors
> in the same smooth manner in which they started. However, instead of
> taking a minute to completely stop applying electricity to all a-delta
> nociceptors, these nanoelectrodes only take half a minute to stop. So
> the a-delta electrocution - both in amount [number per area] and
> intensity [extent of depolarization] -- stops at 2x the speed it
> started but in the same smooth sine-wave manner in which it started.
>
> No mechanical injury, no bleeding, no burning, no dehydration, no
> infection, no torture. Just A-delta induced shock.
>
> A-delta induced shock results in the following:
>
> 1. Force of the heart muscles' contractions decrease significantly [no
> pulse/heartbeat can be felt; EKG needed to detect heartbeat]
> 2. Heart rate decreases dramatically [heart rate drops to around 20
> beats per minute in approximately 5 seconds]
> 3. General increase in the heart muscles' relaxability
> 4. Blood vessels throughout the body widen to total dilation
>
> The above 4 alone are lethal due to the extent at which they occur --
> causing a dangerous drop in blood pressure. Put together, the
> resulting hypotension means certain death. Vital organs are deprived
> of blood leading to multiple-organ-failure. This can rapidly kill the
> individual.
>
> NOTE: While this a-delta stimulation may seem like torture, the
> suffering experienced the by executionee is actually dramatically LESS
> than that caused by lethal injection and other execution methods. This
> is due to the following:
>
> 1. The circulatory relaxation drop blood pressures to the extent where
> consciousness and pain perception is significantly decreases
> 2. The a-delta excitation simulates SEVERE injury and causes the brain
> to releases cascades of endorphins
> 3. A psychogenic* blackout can occur due to the *extreme* psychic
> trauma caused by the a-delta excitation.
> 4. Pain-induced coma caused by alteration of the signals of RAS
> [Reticular Activation System], as mentioned on http :// www .internetarmory,com /self defense.htm
>
> Quote from http :// www .internetarmory,com /self defense.htm:
>
> "It is speculated that various organs of the body can send pain
> impulses to the brain stem indicating a severe or overwhelming bodily
> injury. The reticular activating system responds by producing a
> functional "shut down", which results in loss of consciousness within
> a second or two."
>
> *Along with the endorphins and hypotension, the a-delta excitation can
> cause ACUTE psychological trauma. Due to this, the executionee won't
> feel the pain, even if the hypotension, pain-induced RAS coma, and
> endorphins don't kick in. This is because extreme mental trauma causes
> blackouts even if no mechanical injury has occurred. Such blackouts
> are common in war veterans, prisoners, victims of natural disasters,
> those who have lost a loved one, witnessing a tragedy, as well as
> those subjected to childhood abuse or molestation. These blackouts are
> known to occur even in the complete absence of bleeding, head-
> injuries, pain-induced RAS coma, seizures, endorphins, or circulatory
> disturbances. The brain automatically prevents the traumatized
> individual from consciously perceiving the emotional agony. Its a
> protective mechanism for the psyche.
>
> **Visceral adipose tissue is different from the subcutaneous adipose
> tissue. In the abdomen, there exist both types of adipose tissues, the
> subcutaneous fat covers the abdominal muscles, while the visceral fat
> is under those muscles and covers the digestive organs.
>
> Quote from http :// www .obesityresearch.org/cgi/content/full/9/5/283:
>
> "Visceral fat (i.e., intra-abdominal adipose tissue) and subcutaneous
> abdominal fat are two discrete compartments of fat"
>
> Any questions/comments are welcome.
>
> In addition, any understanding, cooperation, and assistance are
> greatly appreciated.
>
> Regards,
>
> Radium

Do you ever talk about other topic's?
How about Kittys do you like cute little Kittys?

Scary.

Re: A-delta Execution Is Torture-Free

"Scary" <modelmakers@msn,com > wrote
> Do you ever talk about other topic's?
> How about Kittys do you like cute little Kittys?

Think of all the kitties that are executed.
Why no thought for their comfort?

Chas

Re: A-delta Execution Is Torture-Free

On Feb 26, 6:07 pm, "Scary" <modelmak...@msn,com > wrote:

> Do you ever talk about other topic's?

Um, of course I do.

Here:

http :// groups.google,com /groups?as q=glucegen1&num&scoring=d&hl=en&as epq=&as oq=&as eq=&as ugroup=&as usubject=&as uauthors=&lr=&as drrb=q&as qdr=&as mind=1&as minm=1&as miny81&as maxd&as maxm=7&as maxy 06&safe=off

Re: A-delta Execution Is Torture-Free

Scary asked:

> > Do you ever talk about other topic's?


And Radium answered:

> Um, of course I do.


Teenage boys, I bet.

Re: A-delta Execution Is Torture-Free

On Mar 3, 9:11 pm, "Retired Chief" <CALIFORNIA CH...@PEOPLEPC,com >
wrote:
> Scary asked:
>
> > > Do you ever talk about other topic's?
>
> And Radium answered:
>
> > Um, of course I do.
>
> Teenage boys, I bet.


alt.emergency-services.moderated

I'll keep that NG in mind.