Science > Physics > Ironic Execution: Most Civilized Electrocution Involves Excitation Of "Pain" Receptors.
| Topic: |
Science > Physics |
| User: |
"Radium" |
| Date: |
06 Jun 2007 11:28:02 AM |
| Object: |
Ironic Execution: Most Civilized Electrocution Involves Excitation Of "Pain" Receptors. |
Hi:
In my following post, I describe the most humane form of
electrocution. The irony is that it involves stimulation of so-called
"pain" receptors.
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 that
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 rapidly kills 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 significantly decreases
2. The a-delta excitation simulates SEVERE injury and causes the brain
to releases cascades of endorphins
3. A psychogenic* blackout will 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
causes 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"
A-delta-fiber nociception far more likely to cause shock than C-fiber
nociception of the same intensity and amount because A-delta
nociception results in sharp "pulling, "stabbing" or "cracking" pain
[such as an injury to the periosteum of the sternum] whereas C-fiber
nociception results in a more dull, irritating, itching/aching sort of
pain [such as a mosquito bite].
C-fiber nociception rarely -- if ever -- causes shock.
The sensation induced by A-delta fiber stimulation would have a much
greater affect on neurocirculatory reflexes than that of C-fiber
stimulation of the same amount and intensity.
http://courses.washington.edu/conj/sensory/pain.htm
Quotes from the above site:
"An A-delta fiber responds to either mechanical stimuli or temperature
stimuli in the painful realm and produces the acute sensation of
sharp, bright pain."
"By contrast, a C fiber can respond to a broad range of painful
stimuli, including mechanical, thermal or metabolic factors. The pain
produced is slow, burning, and long lasting."
http://www.ajhp.org/cgi/content/abstract/51/12/1539 quote:
"Physiological responses to acute pain are described, and the effects
of different analgesic techniques on these responses are discussed.
The body's response to acute pain can cause adverse physiological
effects. Pain can impede the return of normal pulmonary function,
modify certain aspects of the stress response to injury, and alter
hemodynamic values and cardiovascular function. It can produce
immobility and contribute to thromboembolic complications."
http://jnnp.bmj.com/cgi/content/full/71/suppl_1/i18 quotes:
"In psychogenic coma the eyelids are kept firmly shut and are
resistant to opening. Oculocephalic responses are unpredictable though
nystamus is evident on caloric testing. Motor tone is normal or
inconsistent and limb reflexes retained. Other physical signs based on
reflex self protection have been used in this syndrome though their
validity has not been formally assessed. The EEG shows awake rhythms.
"
Quotes from http://www.ttmed.com/dementia/text_books.cfm?ID_Dis=216&ID_Cou=237&ID_Book=1669&id_chapter=11710&id_subtext=11723
:
"Pseudocoma, also known as psychogenic unresponsiveness or feigned
coma, is difficult to diagnose and should be based on a diagnosis of
exclusion because, if true coma is overlooked, the result could be
disastrous. Therefore, all patients with coma suspected of being
psychogenic in origin must undergo thorough evaluation until the
diagnosis is clearly established. A conversion reaction and
malingering are the most common causes of pseudocoma."
"It is important to remember that none of the historical data
absolutely include or exclude the possibility of pseudocoma. However,
there are some clinical findings suggestive of psychogenic origin,
such as conditions precipitated by stress. Pseudocoma usually begins
or persists when an observer is present. Patients with pseudocoma
slump to the floor and protect themselves from hitting their heads and
other body parts."
"During examination, patients with pseudocoma usually make
semipurposeful avoiding movements. They have normal pupils, corneal
reflexes and plantar reflexes. They may keep their eyes firmly shut
and resist the opening of the eye by examiners. Because eyelid tone
cannot be changed at will, in patients with true coma passive eyelid
opening is easy and is followed by slow eyelid closure. Blinking also
increases in feigned coma, but decreases in true coma. Passive eye
opening in a sleeping or an actually comatose person results in
mydriasis if the pupillary reflex mechanisms are intact. Conversely,
opening the eyes of a person who is awake produces miosis. The eyes
roll up when the lids are raised, known as Bell's phenomenon as
mentioned before, in patients with psychogenic pseudocoma, while the
eyes remain in the neutral position in patients with real coma. Roving
eye movements cannot be imitated and their presence indicates true
coma. In contrast, voluntary saccadic eye movements seen in feigned
coma are usually faster and briskly with a well-defined endpoint.
Pseudocoma patients may respond with purposeful movement to painful
stimulation and avoid unpleasant stimuli such as a nasal tickle. The
presence of nystagmus during cold caloric testing suggests that coma
is either feigned or hysterical, because nystagmus requires an intact
cerebral cortex and brainstem. Additionally, cold water caloric
stimulation is noxious and can induce nausea and vomiting, or
awakening in patients with psychogenic coma."
"Similarly to patients with pseudoparalysis, the hands of patients
with pseudocoma do not often hit their face when dropped. However, the
diagnostic validity of this kind of self-protection sign has not been
evaluated convincingly. Furthermore, unethical provocative maneuvers,
such as dropping alcohol in the nostrils or olfactory stimulation
using ammonium, should not be used to induce responsiveness in
patients deemed to be in feigned coma."
Quotes from http://www.memorylossonline.com/glossary/psychogenicamnesia.html
:
"Psychogenic amnesia (also called functional amnesia) is a form of
amnesia which occurs in otherwise healthy people -- i.e., it is not
the result of a brain injury. It involves loss of important personal
information. Another term for this condition is functional amnesia."
"In one form of psychogenic amnesia, called fugue state, individuals
may forget not only their pasts but their very identities. Despite the
many Hollywood movies depicting this phenomenon, fugue state is
extremely rare in real life. Fugue state normally resolves with time,
particularly with the help of therapy."
"A more common form of psychogenic amnesia is dissociative amnesia. In
this state, an individual may experience memory loss which is
restricted to a particular period of time, such as the duration of a
violent crime. This memory loss is too extensive to be explained by
ordinary forgetting, and instead may reflect the fact that the
information is too stressful or traumatic to be remembered.
Dissociative amnesia is a psychological phenomenon, rather than a
physiological one, and may often be resolved with the help of
therapy."
More links that discuss psychogenic blackouts:
http://en.wikipedia.org/wiki/Psychogenic_amnesia
http://www.findarticles.com/p/articles/mi_m3225/is_n1_v41/ai_8773339
www.psych.uic.edu/education/courses/behav_science2000/reed/behavscilimbic03132000/sld023.htm
Any questions/comments are welcome.
Regards,
Radium
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| User: "contrex" |
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| Title: Re: Ironic Execution: Most Civilized Electrocution Involves Excitation Of "Pain" Receptors. |
07 Jun 2007 01:28:37 AM |
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On 6 Jun, 17:28, Radium <gluceg...@gmail.com> wrote:
In my following post, I describe the most humane form of
electrocution. The irony is that it involves stimulation of so-called
"pain" receptors.
Any questions/comments are welcome.
Regards,
Radium
Radium, do you think about executing people when you are masturbating?
You sure are one sick *****.
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| User: "Radium" |
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| Title: Re: Ironic Execution: Most Civilized Electrocution Involves Excitation Of "Pain" Receptors. |
07 Jun 2007 03:19:40 PM |
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On Jun 6, 11:28 pm, contrex <mike.j.har...@gmail.com> wrote:
Radium, do you think about executing people when you are masturbating?
Nope. Not at all.
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