Antibiotics

Category: Medicines

Type

Involuntary

Introduction and description

 

 

An antibiotic is any compound or substance that kills or slows down the growth of bacteria and is intended to be used for patients in order to help treat them for bacterial infection. 

They do not work with viruses.

There are two types of antibiotics

• Natural foodstuffs and plants that have anti-bacterial action and which you consume as part of your normal diet or which are taken as teas or similar 'medicines'.  They may also be incorporated in ointments

• Pharmaceuticals

This section principally describes the pharmaceuticals.  The natural products are in general described in the section on bacterial infection as an illness, however, we have aded a few observations so that you are able to compare the healing power of food as opposed to the hallucinatory power of man-made pharmaceuticals!

Background

In general, most pharmaceutical antibiotics are modifications of various naturally occurring compounds.

These include, for example, the beta-lactam antibacterials, which include the penicillins (produced by fungi in the genus Penicillium), the cephalosporins, and the carbapenems.

Many antibiotics are based on fungi. 

The antagonistic activities by fungi against bacteria were first described in England by John Tyndall in 1875, but it was Paul Ehrlich in Germany in the late 1880s, who proposed the idea that it might be possible to create chemicals that would act as a selective drug that would bind to and kill bacteria without harming the human host.

In 1928, Alexander Fleming observed the antibiotic action of a fungus against bacteria by a fungus of the genus Penicillium.  In 1939, Rene Dubos reported discovery of the first naturally derived antibiotic, gramicidin from B. brevis. It was one of the first commercially manufactured antibiotics in use during World War II to prove highly effective in treating wounds and ulcers.

Most antibiotics work by targeting bacterial functions or growth processes. For example they may

• Target the bacterial cell wall (such as penicillins and cephalosporins)
• Target the cell membrane (for example, polymixins)
• Interfere with essential bacterial enzymes (such as quinolones and sulfonamides)
• Target protein synthesis -  such as the aminoglycosides, macrolides, and tetracyclines

 "Narrow-spectrum" antibacterial antibiotics target specific types of bacteria, such as Gram-negative or Gram-positive bacteria, whereas broad-spectrum antibiotics affect a wide range of bacteria.

They are not without their side effects. 

Adverse effects range from fever and nausea to major allergic reactions.   A common side effect is diarrhoea, resulting from disruption of the species composition in the intestinal flora, resulting, for example, in overgrowth of pathogenic bacteria, such as Clostridium difficile.  

Antibacterials can also affect the vaginal flora, and may lead to overgrowth of yeast species of the genus Candida in the vulvo-vaginal area.

Additional side effects can result from interaction with other drugs. 

There is also a problem with alcohol.  Interactions between alcohol and certain antibiotics are known to occur and may cause side effects and decreased effectiveness of antibacterial therapy.

I think we are well aware that another problem with antibiotics is that the bacteria fight back!  The emergence of resistance of bacteria to antibiotics is a common phenomenon and has in part been caused by inadvised prescription and use – overuse and mis-use.

Mis-use and overuse is exacerbated by the failure of medical professionals to prescribe the correct dosage of antibacterials on the basis of the patient's weight and history of prior use. Other forms of misuse include failure to take the entire prescribed course of the antibacterial.

Given that antibiotics are prescribed by doctors, in this we have doctors to blame.

Many antibiotics are prescribed to treat symptoms or diseases that do not respond to antibiotic therapy or are likely to resolve without treatment. 

The overuse of antibiotics, like penicillin and erythromycin, have been associated with emerging antibiotic resistance since the 1950s.

Widespread usage of antibiotic drugs in hospitals has also been associated with increases in bacterial strains and species that no longer respond to treatment with the most common antibiotics.

Antibacterials such as penicillin and erythromycin, which used to have high efficacy against many bacterial species and strains, have become less effective, because of the increased resistance of many bacterial strains. 

Antibacterial-resistant strains and species, sometimes referred to as "superbugs", now contribute to the emergence of diseases which were for a while well-controlled. For example, emergent bacterial strains causing tuberculosis (TB) that are resistant to previously effective antibacterial treatments “pose many therapeutic challenges”.

But it is not just the doctors who are to blame.  Antibiotics are used in farming, both as ‘growth promoters’ and as 'preventative treatment' in intensive animal rearing.  They are a poor solution to bad farming practise and the result can be tainted meat and new resistant strains of bacteria. 

The EU has banned the use of antibacterials as growth-promotional agents since 2003.  But the USA, despite calls for restrictions on antibiotic use in food animal production and an end to all nontherapeutic uses, continues to use them.  More than 70% of the antibiotics used in the U.S. are given to livestock animals in the absence of infectious diseases. This practice has been associated with the emergence of antibacterial-resistant strains of bacteria, including Salmonella spp., Campylobacter spp., Escherichia coli, and Enterococcus spp.

 One of the rather fascinating statistics to emerge from studies in the USA is that there is a direct connection with the inadvisable use of antibiotics and obesity. 

Farmers use antibiotics to promote weight gain in their animals, as such it is hardly surprising that antibiotics do the same in children. 

 

Dr Martin Blaser is among an international group of physicians and scientists working on one of the most promising fields in medicine and microbiology – the Human Microbiome Project - and he has produced these two maps, to provide food for thought.

 

 

 

 

 

How it works

The pharmaceutical antibiotics are known to produce spiritual experiences, mostly hallucinations, but given the complications of their use – the inadvisable use, the over use, the misuse, it makes finding the actual cause of the hallucinations very difficult.

 All of these can result in knock on effects which may in the end be the reason that the hallucinations are being obtained.  For example, if the person does not finish the prescribed course, they may be left with a fever or illness which in the final analysis is the real reason for the hallucinations.  Alternatively the antibiotic may start destroying the natural bacteria in our systems that prevent disease and we end up getting hallucinations from these diseases.

But there is a quite substantial body of evidence that shows that antibiotics can also acts as toxins.  If a patient takes or is prescribed the anti-biotics for no good reason or for an illness which does not respond to the antibiotics, then the antibiotics may act as a toxin and produce delirium.  In effect, when given to a person without bacterial infection you are giving them a deleriant! For evidence of this we need to look at nephritis. 

Nephritis is inflammation of the nephrons in the kidneys. It is often caused by infections, toxins, and auto-immune diseases.  We saw that most antibiotics work by targeting bacterial functions or growth processes, but if these are not present in our body, they may start to target the cells of the body, particularly those of the kidneys. For example they may

• Target the cell wall (such as penicillins and cephalosporins)
• Target the cell membrane (for example, polymixins)
• Interfere with essential bacterial enzymes (such as quinolones and sulfonamides)
• Target protein synthesis -  such as the aminoglycosides, macrolides, and tetracyclines

Nephritis is the most common producer of glomerular injury. This can lead to reduced glomerular blood flow, leading to reduced urine output and retention of waste products (uremia).  It is a serious medical condition which is the ninth highest cause of human death. As the kidneys inflame, they begin to excrete needed protein from the body into the urine stream. Loss of necessary protein due to nephritis can result in several life-threatening symptoms. Most dangerous in cases of nephritis is the loss of protein that keeps blood from clotting. This can result in blood clots causing sudden stroke.

There is a proven link between amoxicillin and nephritis and it has been shown to be linked to any drug in the penicillin class [see observations]

And there seems to be a link with quite a number of antibiotics at a more general level.

So if we follow the chain, a person goes to a doctor with an infection that is actually not treatable with antibiotics, in some cases this person is a child, whose parents are understandably worried but not in any position to know the best course of treatment.  Instead of the doctor saying, ‘there is no treatment for this, it is a viral infection’, they prescribe an antibiotic to ‘keep the parents happy’.  The child takes the antibiotics and eventually gets better on its own, but meanwhile the antibiotics are acting as a toxin and causing kidney damage, which may only surface later in life.  Occasionally the damage done is severe enough to show up fairly quickly and cause the hallucinations normal with being poisoned!

So to sum up – the cause is poisoning

References and further reading

It is also imperative that you read the section on Bacteriophage in the science section.  In brief this section explains that there are a number of bacteria that appear to cause disease, but they are simply playing hosts to small viruses called phages which are the real culprits.  As many phages, once they haveentered the body, are caopable of surviving without the bacteria they used as the Trojan horse, giving anyone an antiobiotic is not only useless, it may well make things worse.

 

Observations

I have provided a description of the drugs within this category, but also some examples of the circumstances under which hallucinations were experienced.  The figures of the number of hallucinations reported as at 2010 come from the eHealthme web site.  In some cases the observation itself has more recent figures.  A link has been provided for each drug to enable you to see all the side-effects.

There may be many more antibiotics than this that produce much the same reactions, for the same reasons, that are not on the eHealthme web site, but it should now be clear what they do and why.

As can be seen from the chart and its total they caused around 2,000 cases of hallucination in the USA alone 

Observation identifiers	Observation name	Number of hallucinations
001135	Amoxicillin and nephritis	1
001136	Azithromycin	74
001137	Amoxicillin	71
	Augmentin	128
	Trimox	33
001138	Clarithromycin	83
	Biaxin	145
001139	Co-trimoxazole	128
	Bactrim	176
	Cotrim	127
	Sulfatrim	62
001140	Ciprofloxacin	60
001141	Isoniazid	24
	Rimifon	33
001142	Levaquin	81
	Levofloxacin	6
001143	Metronidazole	72
	Flagyl	74
001144	Moxifloxacin	52
	Avelox	52
001145	Adriamycin	33
	Doxorubicin	27
	Doxil	33
001146	Cefalexin	32
	Keflex	18
001147	Clindamycin	12
	Cleocin	24
001148	Doxycycline	44
	Doryx	26
001149	Rifater	16
	Erythromycin	14
	Tobramycin	10
	Vancomycin	9
	Vibramycin	5
	Gentamicin	4
	Linezolid	14
	Ampicillin	2
	Nafcillin	1
	Penicillin	10
	Piperacillin also called Maxitaz,  Kilbac, Tazocin and Zosyn	5
	Cefadroxil	4
	Cefazolin	21
	Cefotaxime	8
	Ceftazidime	8
	Ceftin	4
	Ceftriaxone alternative name Rocephin	19
	Cefuroxime	3
	Cefuroxime Axetil	3
	Cefzil	2
	Gatifloxacin	14
	Norfloxacin	10
	Ofloxacin also known as Floxin [13]	19
	TOTAL	1936

The figures for deaths caused by each drug is as follows, again from eHealthme, please note that Levaquin has a particulalry high death rate for children, as such I have added this figure.  This does not mean it is the only antibiotic causing deaths in children, please refer to the eHealthme website

• On Mar, 22, 2015: 22,279 people reported to have side effects when taking Amoxicillin. Among them, 331 people (1.49%) have Death.
• On Mar, 18, 2015: 10,949 people reported to have side effects when taking Azithromycin. Among them, 212 people (1.94%) have Death
• On Mar, 26, 2015: 12,681 people reported to have side effects when taking Clarithromycin. Among them, 122 people (0.96%) have Death.
• On Mar, 16, 2015: 28,170 people reported to have side effects when taking Bactrim. Among them, 536 people (1.90%) have Death.
• On Apr, 15, 2015: 590 people reported to have side effects when taking Ciprofloxacin. Among them, 7 people (1.19%) have Death
• On Apr, 7, 2015: 7,418 people reported to have side effects when taking Isoniazid. Among them, 116 people (1.56%) have Death
• On Apr, 7, 2015: 27,853 people reported to have side effects when taking Levaquin. Among them, 719 people (2.58%) have Death
• On Apr, 15, 2015: 27,853 people reported to have side effects when taking Levaquin. Among them, 698 people (2.51%) have Death Of Child.
• On Apr, 6, 2015: 9,852 people reported to have side effects when taking Flagyl. Among them, 232 people (2.35%) have Death
• On Mar, 20, 2015: 20,150 people reported to have side effects when taking Avelox. Among them, 330 people (1.64%) have Death.
• On Mar, 20, 2015: 3,541 people reported to have side effects when taking Doxil. Among them, 187 people (5.28%) have Death
• On Apr, 13, 2015: 5,490 people reported to have side effects when taking Keflex. Among them, 153 people (2.79%) have Death
• On Apr, 15, 2015: 1,527 people reported to have side effects when taking Cleocin. Among them, 29 people (1.90%) have Death
• On Mar, 26, 2015: 545 people reported to have side effects when taking Rifater. Among them, 7 people (1.28%) have Death
• On Apr, 10, 2015: 5,887 people reported to have side effects when taking Cefazolin. Among them, 232 people (3.94%) have Death
• On Mar, 22, 2015: 18,850 people reported to have side effects when taking Augmentin. Among them, 388 people (2.06%) have Death.
• On Apr, 15, 2015: 735 people reported to have side effects when taking Trimox. Among them, 8 people (1.09%) have Death
• On Apr, 15, 2015: 9,489 people reported to have side effects when taking Biaxin. Among them, 115 people (1.21%) have Death.
• On Mar, 17, 2015: 5,861 people reported to have side effects when taking Cotrim. Among them, 137 people (2.34%) have Death
• On Apr, 8, 2015: 382 people reported to have side effects when taking Sulfatrim. Among them, 3 people (0.79%) have Death
• On Apr, 15, 2015: 550 people reported to have side effects when taking Rimifon. Among them, 8 people (1.45%) have Death
• On Mar, 31, 2015: 5,449 people reported to have side effects when taking Levofloxacin. Among them, 63 people (1.16%) have Death
• On Mar, 31, 2015: 13,079 people reported to have side effects when taking Metronidazole. Among them, 261 people (2.00%) have Death
• On Apr, 15, 2015: 13,079 people reported to have side effects when taking Metronidazole. Among them, 259 people (1.98%) have Death Of Child.
• On Mar, 16, 2015: 6,603 people reported to have side effects when taking Adriamycin pfs. Among them, 221 people (3.35%) have Death
• On Apr, 15, 2015: 4,363 people reported to have side effects when taking Doxorubicin hydrochloride. Among them, 92 people (2.11%) have Death
• On Mar, 20, 2015: 1,128 people reported to have side effects when taking Clindamycin hydrochloride. Among them, 8 people (0.71%) have Death.
• On Mar, 29, 2015: 12,090 people reported to have side effects when taking Doxycycline. Among them, 194 people (1.60%) have Death
• On Apr, 14, 2015: 436 people reported to have side effects when taking Doryx. Among them, 3 people (0.69%) have Death.
• On Apr, 13, 2015: 1,438 people reported to have side effects when taking Erythromycin. Among them, 11 people (0.76%) have Death
• On Apr, 15, 2015: 106 people reported to have side effects when taking Tobramycin. Among them, 3 people (2.83%) have Death.
• On Apr, 15, 2015: 2,164 people reported to have side effects when taking Vancomycin hcl. Among them, 67 people (3.10%) have Death.
• On Mar, 26, 2015: 1,438 people reported to have side effects when taking Penicillin. Among them, 4 people (0.28%) have Death
• On Mar, 22, 2015: 1,438 people reported to have side effects when taking Penicillin. Among them, 4 people (0.28%) have Death Of Child.
• On Apr, 15, 2015: 3,270 people reported to have side effects when taking Ofloxacin. Among them, 29 people (0.89%) have Death
• On Apr, 13, 2015: 1,106 people reported to have side effects when taking Norfloxacin. Among them, 29 people (2.62%) have Death
• On Apr, 1, 2015: 1,374 people reported to have side effects when taking Gatifloxacin. Among them, 15 people (1.09%) have Death
• On Apr, 7, 2015: 10,918 people reported to have side effects when taking Rocephin. Among them, 255 people (2.34%) have Death
• On Apr, 7, 2015: 2,022 people reported to have side effects when taking Linezolid. Among them, 86 people (4.25%) have Death

 The other antibiotics have also caused deaths, but these are the major ones.  Altogether about 5,500 deaths have been caused by antibiotics.  

Related observations

Healing observations

• A post-antibiotic era looms: can plant natural product research fill the void 019920
• Agrimony tea - The Healing power of herbs – Ceres Esplan 019674
• ANTI-STAPHYLOCOCCAL ACTIVITY OF MELALEUCA HONEY 020934
• Antibacterial action of several tannins against Staphylococcus aureus 017821
• Antibacterial activities of Emblica officinalis and Coriandrum sativum against Gram negative urinary pathogens 019025
• Antibacterial activity of crinane alkaloids from Boophone disticha 019163
• Antibacterial activity of Thonningia sanguinea against some multi-drug resistant strains of Salmonella enterica 019142
• Antimicrobial activities of Aerva javanica and Paeonia emodi plants 019429
• Antimicrobial activity of Hedeoma drummondii against opportunistic pathogens 019051
• Antimicrobial activity of some Alnus species 021023
• Antimicrobial properties of phenolic compounds from berries 017823
• Antimycobacterial crude plant extracts from South, Central, and North America 019929
• Antiradical activity of natural honeys and antifungal effect against Penicillium genera 020541
• Antistaphylococcal activity and metabolite profiling of manuka honey (Leptospermum scoparium L.) after in vitro simulated digestion 020928
• Augmented primary humoral immune response and decreased cell-mediated immunity by Murraya koenigii in rats 027512
• Auranofin exerts broad-spectrum bactericidal activities by targeting thiol-redox homeostasis 017781
• Authenticating apple cider vinegar's home remedy claims: antibacterial, antifungal, antiviral properties and cytotoxicity aspect 027493
• Avens - The Healing power of herbs – Ceres Esplan 019741
• Bacterial resistance modifying agents from Lycopus europaeus 019023
• Bay leaves and bacteria 006991
• Bingen, Hildegard of - Feverfew 022697
• Bioaugmentation process of secondary effluents for reduction of pathogens, heavy metals and antibiotics 023160
• Cadmium and rhubarb 016838
• Carum copticum L.: A Herbal Medicine with Various Pharmacological Effects - Antimicrobial effects 027884
• Chemical composition and antibacterial activities of Illicium verum against antibiotic-resistant pathogens 021098
• Chemical composition of hexane extract of Citrus aurantifolia and anti-Mycobacterium tuberculosis activity of some of its constituents 021223
• Chicory and antibiotics 005293
• Comparing the Antibacterial and Functional Properties of Cameroonian and Manuka Honeys for Potential Wound Healing-Have We Come Full Cycle in Dealing with Antibiotic Resistance? 020933
• Composition, antioxidant and antimicrobial activities of methanol extracts of some Acinos Miller species 027649
• Culpepper's Complete Herbal on Elecampane 019927
• Culpepper's Complete Herbal on Pennyroyal 019052
• Determination of the total phenolic and anthocyanin contents and antimicrobial activity of Viburnum opulus fruit juice 020842
• Dr Duke's activity for Carnosol 017757
• Dr Duke's activity for Malic acid 017755
• Dr Duke's activity in Caffeic acid 017760
• Dr Duke's list of activities for Chlorogenic acid 017767
• Dr Duke's list of activities for Tannins 017824
• Dr Duke's list of activities of Tannin 017796
• Dr Duke's list of activity for Ferulic acid 017775
• Dr Duke's list of activity for the chemical Daidzein 017895
• Dr Duke's list of activity for Vitamin C 017762
• Dr Duke's list of Anti-bacterial activity for the Dock 018086
• Dr Duke's list of Antibacterial activity for the Dog Rose 018094
• Dr Duke's list of biological activities for Vitamin C 017880
• Dr Duke's list of chemicals and activity for the Shallot 017969
• Dr Duke's list of Chemicals and their Biological Activities in Pilocarpus jaborandi 018155
• Dr Duke's list of Chemicals and their Biological Activities in Pilocarpus microphyllus 018158
• Dr Duke's list of Chemicals and their Biological Activities in: Prunella vulgaris L. (Lamiaceae) -- Heal-All, Self-Heal 018270
• Dr Duke's list of Plants with Antibacillus activity 018351
• Dr Duke's list of Plants with Antibacterial activity 018352
• Dr Duke's list of Plants with Antibiotic activity 018353
• Dr Duke's list of the Biological Activities of RUTIN 018281
• Dr Natasha Campbell-McBride - Food is the Best Medicine 027894
• Dr Natasha Campbell-McBride - The Gut and Psychology Syndrome (GAPS) Diet 027895
• Dr Terry Wahls - Feeding Your Microbiome and going organic 024351
• Drug resistant tuberculosis and homeopathic medicine 012150
• Effect of drought on safflower natural dyes and their biological activities 020850
• Effects of Selected Egyptian Honeys on the Cellular Ultrastructure and the Gene Expression Profile of Escherichia coli 020927
• Elderberries and anti bacterial action 006760
• Encephalitis and cannabis as an antiviral 007598
• Evaluation of antibacterial, antifungal, and antioxidant activities of safflower natural dyes during flowering 020848
• Evaluation of antioxidant and antifungal properties of the traditional plants against foodborne fungal pathogens 019912
• Garlic and health 005408
• Inhibitory activity of a standardized elderberry liquid extract against clinically-relevant human respiratory bacterial pathogens and influenza A and B viruses 017694
• Linking Low Immune Function and Intestinal Bacterial Imbalance to the Etiology of Rheumatoid Arthritis 016297
• Modeling the synergistic antibacterial effects of honey characteristics of different botanical origins from the Sahara Desert of Algeria 020930
• Mrs Grieve on Elecampane 019928
• Mrs Grieve on Pennyroyal 019048
• Pellagra causes and cures 005528
• Pharmacological effects of rosa damascena 019793
• Physio-Biochemical Composition and Untargeted Metabolomics of Cumin (Cuminum cyminum L.) Make It Promising Functional Food and Help in Mitigating Salinity Stress 019913
• Preliminary investigation on the phytochemistry and antimicrobial activity of Senna alata L. flower 021421
• Probiotics and fungal infections 006898
• Propolis C Albicans, MRSA and E Coli 005340
• Rowanberries and bacteria 007152
• Screening of some indigenous Qatari medicinal plants for antimicrobial activity 022064
• Screening of some plants used in the Brazilian folk medicine for the treatment of infectious diseases 019953
• Single-blind study of manuka honey in allergic fungal rhinosinusitis 019899
• Solar water disinfection (SODIS): a review from bench-top to roof-top 021225
• Spices herbs and bacteria 005424
• Standardised antibacterial Manuka honey in the management of persistent post-operative corneal oedema: a case series 020932
• Study on composition, antibiotic activity and antioxidant activity of volatile oils from uyghur medicine Althaea rosea 017633
• The antimicrobial activity of Liquidambar orientalis mill. against food pathogens and antioxidant capacity of leaf extracts. 020254
• The Lignan-containing Extract of Schisandra chinensis Berries Inhibits the Growth of Chlamydia pneumonia 020886
• Therapeutics Education Collaboration - Bohemian Polypharmacy 012489
• Therapeutics Education Collaboration - Choosing Wisely 012488
• Total phenolic and flavonoid contents, antioxidant and antimicrobial activities of Alnus glutinosa (L.) Gaertn., Alnus incana (L.) Moench and Alnus viridis (Chaix) DC. extracts 021042
• Toxocariasis, Toxoplasmosis and blindness 012734
• Tree, Isabella - Wilding - Milk and beef facts 029101

Hallucination

• Acute psychosis associated with oral trimethoprim-sulfamethoxazole therapy 019473
• Acute psychotic reactions and stress response syndromes following intramuscular aqueous procaine penicillin 017834
• Aczone and Dapsone 017947
• Adriamycin hallucinations 001145
• Amikin and Amikacin sulfate 017989
• Amoxicillin 001137
• Amoxicillin and nephritis 001135
• Amphotericin 006894
• Ampicillin variants 017996
• Anaphylaxis to drugs 025498
• Ancef 017999
• Augmentin 125 023942
• Avelox 018018
• Avelox causing lupus and hallucinations 015887
• Avelox hallucinations 015886
• Azactam 018021
• Azithromycin and children 005418
• Azithromycin and Hoigne's syndrome 005420
• Azithromycin and the elderly 005419
• Azithromycin and Zithromax 001136
• Bacitracin 018027
• Bactrim 023947
• Bactroban 018028
• Bronchitis and Hallucination, auditory - from FDA reports 024509
• Cedax 018177
• Cefaclor, Ceclor and Ceclor Cd 018176
• Cefalexin and Keflex 001146
• Cefdinir 018178
• Cefobid 018179
• Cefotaxime 018180
• Cefoxitin 018181
• Cefpodoxime 018182
• Ceftazidime 018183
• Ceftin 018184
• Cefzil 018185
• Cetamide 018192
• Chloramphenicol 017593
• Ciprodex 018207
• Ciprofloxacin 001140
• Ciprofloxacin in the treatment of acute exacerbations of chronic bronchitis 019060
• Ciprofloxacin-induced acute psychosis 019472
• Claforan 018208
• Clarithromycin 001138
• Clarithromycin and children 005421
• Clarithromycin causes hallucinations 005422
• Clarithromycin-associated visual hallucinations in a patient with chronic renal failure on continuous ambulatory peritoneal dialysis 017805
• Clindamycin 001147
• Clindamycin phosphate 018211
• Co-trimoxazole 001139
• Co-trimoxazole and urinary tract infection 005423
• Cosmegan 018225
• Cotrimoxazole-induced psychosis: a case report and review of literature 019465
• Cubicin 018228
• Dapsone 018844
• Daptomycin 018845
• Doribax 018876
• Doxycycline 001148
• Doxycycline hyclate 018930
• Dynabac 018934
• E-mycin 018946
• Encephalitis and cannabis as an antiviral 007598
• Erymax 018959
• Eryped 018960
• Erythrocin 018961
• Erythromycin 018962
• Ethambutol hydrochloride 018971
• Ethambutol-induced psychosis: a case report 023849
• Exidine 018981
• Eye drops 005264
• Factive 018985
• Flagyl 018067
• Floxin 018994
• Fortaz 019071
• Garamycin and Gentamicin 019080
• Gatifloxacin 019084
• Hallucinations and bone infection 006443
• Hallucinations and hypoglycemia from ciprofloxacin 013004
• Hallucinations from antibiotics and zinc 005796
• Hallucinations, antiobiotics and neuropathy 010182
• Hearing music without a left brain 006150
• Helidac 029509
• Hitler's Medicine Cabinet 026846
• Hobson, Dr Allan - The effects of a stroke 05 - Imaginary reptiles conjured up by his drug-soaked thalamus 014252
• Hoigne's syndrome 017832
• Hoigné's syndrome-its course and symptomatology 025494
• Invanz 019209
• Isoniazid 001141
• Isoniazid-induced visual hallucinosis in Lymph node tuberculosis 016648
• Kefzol 019236
• Ketek 019244
• Lamprene 019250
• Levaquin and Levofloxacin 001142
• Lincocin 019261
• Linezolid 019262
• Lorabid 019274
• Macrobid 019487
• Macrodantin 019488
• Mandol 019492
• Masters and Houston - 3 Psychedelics and sex 015571
• Maxipime 019500
• Mefoxin 019504
• Meropenem 019514
• Merrem 019515
• Metrogel 019526
• Metrolotion 019527
• Metronidazole 019528
• metronidazole 001143
• Metronidazole Hallucination 023917
• Monistat 019544
• Moxifloxacin 001144
• Mupirocin 019555
• Myambutol 019557
• Mycobutin 019559
• Nafcillin Sodium 019668
• Neosporin 019677
• Netromycin 019680
• Nitrofurantoin 019694
• Norfloxacin 019704
• Noroxin 019707
• Ocuflox [Ofloxacin] 019729
• Omnicef 019803
• Pellagra causes and cures 005528
• Pentacarinat and Pentamidine 019836
• Peridex - Toothpaste, deodorants, antiperspirants, eye drops and antiseptic mouthwashes 015654
• Piperacillin 019848
• Piperacillin And Tazobactam 019849
• Polysporin 019850
• Primaxin 019860
• Prostatic and Central Nervous System Histoplasmosis in an Immunocompetent Host: Case Report and Review of the Prostatic Histoplasmosis 027569
• Report of a hallucination in a physician 019469
• Respiratory infections: clinical experiences with the new quinolones 019058
• Rifadin and Rifampin 020004
• Rifater 001149
• Rifinah 020006
• Rimactane 020007
• Rocephin 015704
• Seromycin 020029
• Spectracef 020044
• Sulfadiazine 020054
• Sulfamehoxazole And Trimethoprim Double Strength 020055
• Sulfamethoxazole 024160
• Suprax 020061
• Systemic toxic reactions to procaine penicillin G. 013020
• Tequin 020196
• Tequin [other names Gatifloxacin, Gatiflo, and Zymar] 015724
• Terra-cortril 020199
• Tetracycline - Achromycin 017940
• The quinolones in chronic bronchitis 020263
• Timentin 020208
• Tobi and Tobramycin 015754
• Tobradex 020211
• Tobrex 020213
• Transient psychosis in an immune-competent patient after oral trimethoprim-sulfamethoxazole administration 019468
• Trimethoprim-sulfamethoxazole-related hallucinations 019463
• Trovan 020243
• Unasyn 020328
• Vancomycin Hydrochloride 020347
• Vantin 020350
• Veetids 020355
• Vigamox and Moxeza 017598
• West Nile Virus Central Nervous System Infection in Patients Treated With Rituximab: Implications for Diagnosis and Prognosis, With a Review of Literature 027567
• Xifaxan 020386
• Young girl hears musical hallucinations 006152
• Zagam 020390
• Zinacef 020403
• Zosyn 020472
• Zymar 020474
• Zyvox 020479

Out of time

Near death, Out of time, Out of body, Rebirth

• After an injection of penicillin, she had a severe allergic reaction 021167
• Hallucinations from antibiotics and zinc 005796
• Ovarian blood clots and out of body 005234 005234
• Penicillin causes out of body 005216
• Reaction to Penicillin produces NDE 013054
• Seymour, Jane - It took a near-death experience to turn actress Jane Seymour’s life around 022946
• Seymour, Jane - Youtube video of Jane talking about her NDE and other spiritual experiences 022947

In time

Synaesthesia, Pure or enhanced perception, Inter composer communication, Vision, Dream, Perception recall, Exploring group perception

• Azithromycin and the elderly 005419
• Danielou, Alain – On drugs you are possessed by the spirit being of the drug 022582
• Hallucinations and bone infection 006443
• Hobson, Dr Allan - The effects of a stroke 05 - Imaginary reptiles conjured up by his drug-soaked thalamus 014252
• Masters and Houston - 3 Psychedelics and sex 015571
• Reaction to Penicillin produces NDE 013054

Prophecy

• Seymour, Jane - Youtube video of Jane talking about her NDE and other spiritual experiences 022947

Other observations

• Bacteria May One Day Cure Food Allergies 012620
• Bismuth-based quadruple Helicobacter pylori eradication regimen alters the composition of gut microbiota 029510
• Centers for Disease Control and Prevention - Ingredients of Vaccines - Fact Sheet 012288
• Eggs, allergies, asthma and antimicrobials 029477
• Perinatal antibiotic-induced shifts in gut microbiota have differential effects on inflammatory lung diseases. 012295
• The problem of antibiotic resistance in bacteria 027933
• The Roles of Inflammation, Nutrient Availability and the Commensal Microbiota in Enteric Pathogen Infection 020515
• Xyrem and asthma attacks 005429