Strange Seizure Triggers

With this idea in mind, I’d like to look at some unusual seizure triggers.
  1. Low Blood Sugar. To me, this is the strangest of seizure triggers, because it involves something that we don’t typically even relate to the brain. To answer this question, I need to borrow from a post I wrote about diabetes about a year ago. We know that the brain’s primary source of energy is glucose. Imagine that the body’s job is to regulate this glucose. If that is true, low blood sugar would require the body to speed up processes, to fuel the brain with what sugar is left. If the body speeds up its work process to fuel the brain with remaining glucose, the optic nerve signal would increase. And we know from how transistors work, that’s no bueno.
  2. Sleep Deprivation. I view sleep as a quantum cooling of the brain. Therefore, lack of sleep would result in extra electric charge. Not to mention, the transistor likely reacts throughout the day, and becomes less and less forward biased. Therefore, if sleep is a process that charges the aqueous, lack of sleep causes higher brain entropy, which increases the number of free electrons in the vitreous.
  3. Alcohol. This is from a different angle. If the eye works like an NPN transistor, alcohol would affect the internal voltage source, the optic nerve. As the alcohol stresses the brain, the optic never charges the collector of the transistor more than the emitter. This could force a reverse bias mode.
  4. Stress. It works basically the same as alcohol. The internal processes reverse-bias the transistor.

Essentially, all of these triggers work in the same way in regards to the collector of the transistor. Each factor would seem to increase voltage across the wrong portion of the transistor, leading to what may be a reversed bias situation, or even a laser cascade

 

Rethinking Epilepsy

Preliminary Reading: Laser Cascade, Too Much Light, and How a Flicker Causes a Seizure

I’ve recently covered a completely new electrical function of the human body. The input mechanism as well as the necessary output balance.  It the last post, we defined a seizure as the body’s natural way to rid the body of excess electrical charge.

Risk Factors:

  • Babies who are born small for their age
  • Babies who have seizures in the first month of life
  • Babies who are born with abnormal areas in the brain
  • Bleeding into the brain
  • Abnormal blood vessels in the brain
  • Serious brain injury or lack of oxygen to the brain
  • Brain tumors
  • Infections of the brain: abscess, meningitis, or encephalitis
  • Stroke resulting from blockage of arteries
  • Cerebral palsy
  • Conditions with intellectual and developmental disabilities
  • Seizures occurring within days after head injury (“early post-traumatic seizures”)
  • Family history of epilepsy or fever-related seizures
  • Alzheimer’s disease (late in the illness)
  • Autism spectrum disorder
  • Fever-related (febrile) seizures that are unusually long
  • Long episodes of seizures or repeated seizures called status epilepticus
  • Use of illegal drugs such as cocaine

Triggers:

  • Missed medication
  • Lack of sleep or disrupted sleep
  • Illness (both with and without fever)
  • Psychological stress
  • Heavy alcohol use or seizures after alcohol withdrawal
  • Use of cocaine and other recreational drugs such as Ecstasy
  • Over-the-counter drugs, prescription medications or supplements that decrease the effectiveness of seizure medicines
  • Nutritional deficiencies: vitamins and minerals
  • Poor eating habits, such as long times without eating, dehydration or not enough fluids
  • The menstrual cycle or hormonal changes
  • Flashing lights or patterns
  • Specific activities, noises or foods

The cause of most cases of epilepsy is unknown. Now we have a puzzle worth solving.

Certain disorders occur more often in people with epilepsy, depending partly on the epilepsy syndrome present. These include depression, anxiety, obsessive–compulsive disorder (OCD), and migraine. Attention deficit hyperactivity disorder affects three to five times more children with epilepsy than children without the condition. ADHD and epilepsy have significant consequences on a child’s behavioral, learning, and social development. Epilepsy is also more common in children with autism.

What happens biologically during a seizure?

seizure is a period of symptoms due to abnormally excessive or synchronous neuronal activity in the brain. Outward effects vary from uncontrolled shaking movements involving much of the body with loss of consciousness (tonic-clonic seizure), to shaking movements involving only part of the body with variable levels of consciousness (focal seizure), to a subtle momentary loss of awareness (absence seizure).  Most of the time these episodes last less than two minutes and it takes some time to return to normal. Loss of bladder control may occur.

What causes a seizure? There is evidence that epileptic seizures are usually not a random event. Seizures are often brought on by factors such as stress, alcohol abuse, flickering light, or a lack of sleep, among others. The term seizure threshold is used to indicate the amount of stimulus necessary to bring about a seizure. Seizure threshold is lowered in epilepsy.

Even in someone with epilepsy, there are factors that make this event non-random. Seizures do not happen all the time. People have certain triggers, and warning signs that a seizure is coming. Meaning that the mental state that causes seizures is not stationary, and it is not random. The fact that it can be triggered means that it can be targeted and mitigated.

How can we best describe the mental states that produce seizures? High entropy. We describe in previous articles those people with Alzheimer’s and Autism as very high entropy. Also, the fact that psychological stress and lack of sleep may be triggers add to the case that the seizures are caused by a heightened brain state.


What about Tourette’s? Would a Tourette tic be considered a mild seizure?

Here are the risk factors associated with Tourette’s:

  • Attention-deficit/hyperactivity disorder (ADHD)
  • Obsessive-compulsive disorder (OCD)
  • Autism spectrum disorder
  • Learning disabilities
  • Sleep disorders
  • Depression
  • Anxiety disorders
  • Pain related to tics, especially headaches
  • Anger-management problems

If time doesn’t exist in the brain, and a seizure is abnormal electric activity. Then Tourette’s is epilepsy. The duration and frequency of the seizures is different.

IMG_6397

Tourette’s is defined by these tics. Involuntary muscle movements or speech. We know that the involuntary muscle movements are electrical signals. And the speech is too.

If Tourette’s is a series of involuntary electrical signals, it is no different than epilepsy. If the two are the same, why is one so much more frequent than the other? It’s the stress and rest pattern of the brain. Once the brain reaches the seizure threshold, it produces an undesired result. Higher energy individuals would naturally trend higher on this scale.

Sources:

  1. http://www.johnhamelministries.org/be_free_from_epilepsy.htm
  2. https://www.epilepsy.com/start-here/about-epilepsy-basics/what-happens-during-seizure
  3. https://www.smithsonianmag.com/smart-news/why-do-flashing-images-cause-seizures-180961504/
  4. https://www.who.int/news-room/fact-sheets/detail/epilepsy
  5. https://en.wikipedia.org/wiki/Epilepsy
  6. https://www.webmd.com/epilepsy/medications-treat-seizures#1
  7. https://www.mayoclinic.org/diseases-conditions/tourette-syndrome/diagnosis-treatment/drc-20350470
  8. https://www.epilepsyresearch.org.uk/epilepsy-rates-raised-in-patients-with-tourettes-syndrome/
  9. https://www.popsci.com/science/article/2010-09/researchers-translate-thoughts-speech-potentially-allowing-locked-patients-communicate

How a Flicker Causes a Seizure

Preliminary reading: Laser Cascade and Too Much Light

We know that some people can have seizures brought on by flashing lights. Previously, I tried to tie this to seasickness. Let’s explore this concept from another perspective. 

What happens physiologically when a light turns on? Your pupils contract. Then as the light turns off, your pupils dilate, controlling the amount of light that enters the eye. If we put the person in front of a strobe light, the cycle of light/dark could outpace the mechanism designed to keep excess light out. At very least, there is a lag time between the light, and the eye’s adaptation to the light. This process, over the course of seconds, gains photons in the eye. It simply cannot keep up with the rate of change.

Factors that are pertinent here are max pupil size, resting pupil size, and speed of contraction. With these three factors we can accurately draw a curve for the pupil size over time. 

IMG_6396
Here’s how I see it.

In normal individuals, this is not an issue. But in with people with epilepsy, they already exist at a higher energy state. A bunch of extra photons could push them to their charge threshold. 

A seizure is the body’s built in mechanism to remove excess electric charge. 

Sources:

  1. https://www.nature.com/articles/s41598-018-23265-x
  2. https://onlinelibrary.wiley.com/doi/pdf/10.1111/j.1528-1167.2011.03137.x
  3. https://www.medpagetoday.com/neurology/seizures/3552