Research Article
Volume 2 Issue 1 - 2020
Sugar & E Coli: Diseases of the Nervous System
BScE, DULE, 23 Park Ave. Saint John, NB E2J 1R2, Canada
*Corresponding Author: Paul TE Cusack, BScE, DULE, 23 Park Ave. Saint John, NB E2J 1R2, Canada.
Received: October 27, 2020; Published: November 20, 2020
Abstract
This paper shows that various nervous system diseases result from excess sugar and stress. The body becomes acidic from excess sugar. Previous paper examines each of the primary diseases in detail. This paper combines the diseases to come up with one chemical equation for them.
Keywords: Neurotransmitters; Caffeine; Melatonin; Hydrogen Peroxide; HSV-1; Parkinson’s; Schizophrenia; ALS; Alzheimer’s, Cancer
Introduction
In this paper, we attempt to develop one chemical equation that provides insight into the causes of Parkinson’s; Schizophrenia; ALS, AD, and Cancer. There is such an equation that leads to these diseases. The key chemical compounds are methylene (carbene) and hydroxylamine. Carbene is highly reactive as well. Hydroxylamine reacts with HCl to yield Ammonia (NH3) ; Hydroxide (OH-) and Chlorine (Cl1)and water.
Figure 1: Hydroxylamine & Carbene.
1. Parkinson’s Disease [BLUE LINE]
C27H44O3 + 11 O2 → C24H44O22 +3CO
VITAMIND COLDCLIMATE 2 SUGARS NERVE TOXIN
2C12H22O11 + 8CO + 2N2 → 4C8H11NO2 +11 O2
SUGAR ANTIOXIDANT DOPAMINE RECYCLED ABOVE
C19H28O2 + NO2 +O2 → 2 C8H11NO2 + C3H6O2
Testosterone DOPAMINE + Propionic Acid
Low Dopamine leads to Parkinson’s Disease.
C27H44O3 + 11 O2 → C24H44O22 +3CO
VITAMIND COLDCLIMATE 2 SUGARS NERVE TOXIN
2C12H22O11 + 8CO + 2N2 → 4C8H11NO2 +11 O2
SUGAR ANTIOXIDANT DOPAMINE RECYCLED ABOVE
C19H28O2 + NO2 +O2 → 2 C8H11NO2 + C3H6O2
Testosterone DOPAMINE + Propionic Acid
Low Dopamine leads to Parkinson’s Disease.
2. Adenine; Melatonin; and Caffeine [ BLUE LINES] / Hydrogen Peroxide [RED LINE] & Acetylcholine [GREEN LINE]
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYLCHOLINE → CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
Caffine and Adenine
C8H ON4O3 + C5H5N5 ==>C13H6N9O3 + 3H2O +C12N9
C13N9 +C6H1206 + 3H2O ==>
+ Sugar
C19N9H18O7 → C13N8H +NH3+6H2O →
+6 parts water
C13H16 N 2O2+ H2O+ 3 N2+NO →
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYLCHOLINE → CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
Caffine and Adenine
C8H ON4O3 + C5H5N5 ==>C13H6N9O3 + 3H2O +C12N9
C13N9 +C6H1206 + 3H2O ==>
+ Sugar
C19N9H18O7 → C13N8H +NH3+6H2O →
+6 parts water
C13H16 N 2O2+ H2O+ 3 N2+NO →
Melatonin
Melatonin leads to a small pineal gland which is a sign of schizophrenia. Patients with Schizophrenia have high DOPAMINE, whereas those with Parkinson’s have low DOPAMINE.
Melatonin leads to a small pineal gland which is a sign of schizophrenia. Patients with Schizophrenia have high DOPAMINE, whereas those with Parkinson’s have low DOPAMINE.
3. Acetylcholine & Hydrogen Peroxide [GREEN LINE]
The chemical equations might look like this:
C7H16O2 + H2O2 +SO2==> 3 H2O +6 H2S+ 7 CO
ACETYCHLOINE + Hydrogen Peroxide + Oxygen ==> Water + Hydrogen+ Nerve Ion.
(386.654) + (34) + (32+32.066)=484.72g/mol x 6.023=2919.g
Add:
C5H9NO4 +H2O2 +S==> CO +NO3-+C4HO2+5H2S
Glutamate + Toxin==> Pr- ion + Pr- ion + Flavouring +Pr- ion
(147.3) + (34) +(32) +(32.066)=245.366 g/mol x 6.026=1477.8 gm
Ach. stimulates receptors at the neuromuscular junction of the skeletal muscles.
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYCHLOINE è CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
The chemical equations might look like this:
C7H16O2 + H2O2 +SO2==> 3 H2O +6 H2S+ 7 CO
ACETYCHLOINE + Hydrogen Peroxide + Oxygen ==> Water + Hydrogen+ Nerve Ion.
(386.654) + (34) + (32+32.066)=484.72g/mol x 6.023=2919.g
Add:
C5H9NO4 +H2O2 +S==> CO +NO3-+C4HO2+5H2S
Glutamate + Toxin==> Pr- ion + Pr- ion + Flavouring +Pr- ion
(147.3) + (34) +(32) +(32.066)=245.366 g/mol x 6.026=1477.8 gm
Ach. stimulates receptors at the neuromuscular junction of the skeletal muscles.
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYCHLOINE è CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
Caffeine and acetylcholine lead to high glutamic acid which leads to ALS. Melatonin and caffeine damage the Adenine which leads to genetic schizophrenia.
4. Iron and Sodium Chloride [YELLOW LINES]
High IRON AND SALT Water Ferrous Chloride + Sodium Hydroxide (Low Blood Pressure)
Fe3++NaCl+H2O → FeCl+NaOH+1/2 H2 →
4FeCl +4NaOH +2 HOH + O2 → 4HCl +4 FeO +4Na+ +4H2 +4H2O
HYDROCHLORIC ACID (Cl-)
High Iron and high sodium chloride lead to schizophrenia. Oral Microbiology STD plus iron and chlorine leads to eye trouble and Alzheimer’s Disease.
High IRON AND SALT Water Ferrous Chloride + Sodium Hydroxide (Low Blood Pressure)
Fe3++NaCl+H2O → FeCl+NaOH+1/2 H2 →
4FeCl +4NaOH +2 HOH + O2 → 4HCl +4 FeO +4Na+ +4H2 +4H2O
HYDROCHLORIC ACID (Cl-)
High Iron and high sodium chloride lead to schizophrenia. Oral Microbiology STD plus iron and chlorine leads to eye trouble and Alzheimer’s Disease.
5. Cancer and Hydrogen Peroxide [RED LINE]
Lipids =Fatty Acids COOH
COOH-+O2 +H2 O+ H2
(COOH) 2 H2 +O2 +H2 →
(COOH) 2 H2 +O2 +H2 O→
CH4 O2 +O2 +H2 O →
CH4 O4 +H2 O→
CH2 O2 +H2 O→
C+4+H2 O2 + H2 O COOH+H2 O2 +H2 →
(COOH)H2 +O2 +H2 O→
C+4+H2 O2 +H2 O
Carbon Ion + HYDROGEN PEROXIDE + Water
Carboxylic Acid
R- COOH = CH3 -COOH +H2 +H2 O
CH3 -COOH +H2 +H2 O+O2 +Cl→
3CH2 -COOH +2H2 +2H2 O +2O2 +Cl2 →
CH3 +Cl2 →Dichloromethane=Carcinogen
Lipids =Fatty Acids COOH
COOH-+O2 +H2 O+ H2
(COOH) 2 H2 +O2 +H2 →
(COOH) 2 H2 +O2 +H2 O→
CH4 O2 +O2 +H2 O →
CH4 O4 +H2 O→
CH2 O2 +H2 O→
C+4+H2 O2 + H2 O COOH+H2 O2 +H2 →
(COOH)H2 +O2 +H2 O→
C+4+H2 O2 +H2 O
Carbon Ion + HYDROGEN PEROXIDE + Water
Carboxylic Acid
R- COOH = CH3 -COOH +H2 +H2 O
CH3 -COOH +H2 +H2 O+O2 +Cl→
3CH2 -COOH +2H2 +2H2 O +2O2 +Cl2 →
CH3 +Cl2 →Dichloromethane=Carcinogen
Hydrogen Peroxide leads to cancer.
6. Limbic System: Papez Circuit [BLACK LINE]
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYLCHOLINE → CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
C7H16O2 + H2O2 +O2 → 3H2O +6H2+ 7CO
Acetylcholine + Hydrogen Peroxide + Oxygen → Water + Hydrogen (g) + Nerve Ion
Acetylcholine and Hydrogen Peroxide leads to Schizophrenia and Alzheimer’s disease.
C27H460+SO4+27O2+C7H16NO2 → 27CO+3H2S+20H2O2
CHOLETESROL + CEREBROSIDE + OYYGEN + ACETYLCHOLINE → CARBON MONOXIDE+SULPHATE+HYDROGEN PEROIXIDE.
C7H16O2 + H2O2 +O2 → 3H2O +6H2+ 7CO
Acetylcholine + Hydrogen Peroxide + Oxygen → Water + Hydrogen (g) + Nerve Ion
Acetylcholine and Hydrogen Peroxide leads to Schizophrenia and Alzheimer’s disease.
Summary:
Dopa. + Ach. + Melatonin + Caffeine and Adenine+ Iron and Chlorine + Hydrogen Peroxide →
C41H48N13O12 + 3 Fe+2+2NaCl+5O2 ==>
41CH + 12NO-+Fe2O3 +2NaOH + FeCl2-+ H2NOH +2H2O2-2
Methylene (Carbene) Hydroxylamine
CH+ C22H30O5+ 10 NO-+ 22 H2O → C22H44O22 +10 H2NOH + 2O2+OH-
Carbene +Cortisol (Stress) Sugar Hydroxylamine
The excess sugar makes the bodily system acidic.
- Low Dopamine leads to Parkinson’s Disease. Serotonin regulate dopamine.
- Melatonin leads to a small pineal gland which is a sign of schizophrenia. Patients with Schizophrenia have high dopamine, whereas those with Parkinson’s have low dopamine.
- Caffeine and acetylcholine lead to high glutamic acid which leads to ALS. Patients with ALS sometimes have frontal lobe AD.
- Melatonin and caffeine damage the Adenine which leads to genetic schizophrenia.
- High Iron and high sodium chloride lead to schizophrenia. Oral Microbiology STD plus iron and chlorine leads to eye trouble and Alzheimer’s Disease. Serotonin is involved in memory, thus Alzheimer’s disease.
- Hydrogen Peroxide leads to cancer.
- Acetylcholine and Hydrogen Peroxide leads to Schizophrenia and Alzheimer’s disease.
Dopa. + Ach. + Melatonin + Caffeine and Adenine+ Iron and Chlorine + Hydrogen Peroxide →
C41H48N13O12 + 3 Fe+2+2NaCl+5O2 ==>
41CH + 12NO-+Fe2O3 +2NaOH + FeCl2-+ H2NOH +2H2O2-2
Methylene (Carbene) Hydroxylamine
CH+ C22H30O5+ 10 NO-+ 22 H2O → C22H44O22 +10 H2NOH + 2O2+OH-
Carbene +Cortisol (Stress) Sugar Hydroxylamine
The excess sugar makes the bodily system acidic.
Throughout the body, excess sugar is harmful. Even a single instance of elevated glucose in the bloodstream can be harmful to the brain, resulting in slowed cognitive function and deficits in memory and attention. Some research suggests high sugar consumption causes inflammation in the brain, leading to memory difficulties.
https://www.verywellmind.com/how-sugar-affects-the-brain-4065218
https://www.verywellmind.com/how-sugar-affects-the-brain-4065218
Since we have excess sugar, a polysaccharide, perhaps the culprit is a bacterium. There are three possible bacteria viz E. Coli; Anthrax; or Cholera. Of theses Enterobacteriaceae, the only one that survives an acidic environment is E Coli.
amu= (14.016+362.46+30.006+396.33=1072.866
1072.866 x 6.026=6461.87 g
6461.87g x/ 0.994 g/mole of blood=65.008 moles
Normal pH=7.35-7.45 Say 7.4
pH=Ln [H+]
e-7.4=6.1125
[H+]=moles of H+/moles of solute
6.1125=Mol 0f H+/6500
Mol of H+=3973
H+ =1.008 g/mol x 4 moles=4.00 =|D|
4.00 x 6.023=24120.8
e0.241208=127.3=4/π=ρ
Moles of Sugar:
C22H44O22=660.33 g/mol x 6.023=397.716 g~4g of Sugar
=Moles of H+
H+1.008 g/mol x 397.716=4.008977~4.00g of H+
1072.866 x 6.026=6461.87 g
6461.87g x/ 0.994 g/mole of blood=65.008 moles
Normal pH=7.35-7.45 Say 7.4
pH=Ln [H+]
e-7.4=6.1125
[H+]=moles of H+/moles of solute
6.1125=Mol 0f H+/6500
Mol of H+=3973
H+ =1.008 g/mol x 4 moles=4.00 =|D|
4.00 x 6.023=24120.8
e0.241208=127.3=4/π=ρ
Moles of Sugar:
C22H44O22=660.33 g/mol x 6.023=397.716 g~4g of Sugar
=Moles of H+
H+1.008 g/mol x 397.716=4.008977~4.00g of H+
Conclusion
We see that when we consider these various diseases of the nervous system together, chemically, we yield two volatile highly reactive compounds. Combine these with stress and excess sugar, and disease results. These compounds could be the underlying causes of these diseases.
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Citation: Paul TE Cusack. (2020). Sugar & E Coli: Diseases of the Nervous System. Journal of Brain and Neurological Disorders 2(1).
Copyright: © 2020 Paul TE Cusack. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.