Ketamine, a known antagonist of N-methyl-D-aspartic (NMDA) glutamate receptors, had been used as an anesthetic particularly for pediatric or for cardiac patients. Unfortunately, ketamine has become an abusive drug in many parts of the world while chronic and prolonged usage led to damages of many organs including the brain. However, no studies on possible damages in the brains induced by chronic ketamine abuse have been documented in the human via neuroimaging. This paper described for the first time via employing magnetic resonance imaging (MRI) the changes in ketamine addicts of 0.5–12 years and illustrated the possible brain regions susceptible to ketamine abuse. Twenty-one ketamine addicts were recruited and the results showed that the lesions in the brains of ketamine addicts were located in many regions which appeared 2–4 years after ketamine addiction. Cortical atrophy was usually evident in the frontal, parietal or occipital cortices of addicts. Such study confirmed that many brain regions in the human were susceptible to chronic ketamine injury and presented a diffuse effect of ketamine on the brain which might differ from other central nervous system (CNS) drugs, such as cocaine, heroin, and methamphetamine.
Bron: http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3713393/
Additionele bronnen:
- Acute and chronic effects of ketamine upon human memory: a review (2006)
Although there have been relatively few, often methodologically diverse, studies to date of the mnemonic effects of ketamine, there is an emerging consensus that an acute dose of the drug impairs the manipulation of information in working memory and produces decrements in the encoding of information into episodic memory. Preliminary evidence suggests that ketamine may differ from other classic amnestic drugs in impairing aspects of semantic memory. Acute-on-chronic effects in ketamine users generally mimic the pattern seen in controlled studies with healthy volunteers. However, chronic ketamine use may be associated with a more specific pattern of memory decrements and with episodic memory impairment, which might not abate following cessation of use.
- Ketamine induces apoptosis via the mitochondrial pathway in human lymphocytes and neuronal cells (2010)
Key points
- Ketamine can be neurotoxic after neuraxial administration.
- The authors studied its mechanism by using lymphocyte and neuroblastoma cell lines in experimental conditions.
- Cell viability, apoptosis, and mitochondrial metabolic activity were studied.
- In smaller concentrations, ketamine induced apoptosis via mitochondrial pathway.
- In larger concentrations, ketamine caused necrotic cell death.
- Effects of chronic ketamine use on frontal and medial temporal cognition (2013)
- Ketamine users displayed impaired verbal fluency (but not figural fluency).
- Ketamine users had impaired cognitive processing speed.
- Ketamine disrupted verbal learning, but not visual learning or verbal/nonverbal memory.
- Cumulative ketamine use correlated with worse memory and verbal learning.
- There was no correlation between abstinence duration and cognitive impairments.
- Cognitive impairments in poly-drug ketamine users (2013)
Conclusion: Ketamine poly-drug users displayed predominantly verbal and visual memory impairments, which persisted in ex-users. The interactive effect of ketamine and poly-drug use on memory needs further investigation.
- Relationship between cognitive impairment and depressive symptoms in current ketamine users (2013)
Results: Cognitive impairment was found only in current ketamine users in the domains of mental and motor speed (p < .001), visual and verbal memory (p < .001), and executive functions (p < .001). Depressive symptoms were also more frequently found in current ketamine users (p < .001).
Conclusion: Current ketamine use is associated with cognitive impairment. Illicit substance treatment and rehabilitation services should pay attention to ketamine's cognitive effects and motivate their clients to quit using ketamine and stay abstinent.
Ik vind de bovenstaande studies zeer verontrustend. Ketamine was een van mijn favorieten drugs, echter gezien steeds meer studies bij langer termijn gebruik schade en/of cognitive problemen vaststellen stop ik voorlopig met gebruiken. De vraag die helaas niet in deze studies beantwoord word is: Wat is het effect van recreatief/sporadisch gebruik? De meeste studies gebruiken personen die langdurig elke dag gebruiken. Wat de invloed is bij recreatief gebruik met pauzes er tussen is dan ook nog maar de vraag.
Speculatie
De studie: Brain damages in ketamine addicts as revealed by MRI (2013), is mogelijk (alhoewel erg voorbarig gesteld) een van de eerste studies die Olney's lesions - NMDA receptor antagonist neurotoxicity (NAN) in mensen aantoont na gebruik van Ketamine. Een enkele studie is echter te vroeg om dit met zekerheid te stellen.
Volgens de Wikipedia pagina en aantal artikelen die ik heb gelezen over Ketamine word vaak benzodiazepine additioneel toegediend om Olney's lesions schade te voorkomen alsmede ter additionele verdoving. In hoeverre dit aansluit op preventie van de vastgestelde schade in de eerste studie durf ik ook niet te zeggen. Ik heb de combinatie zelf weleens getest, alleen dient zeker opgemerkt te worden dat veel gebruik van benzodiazepines ook een negatief effect heeft op geheugen. Daarnaast kan de combinatie ervoor zorgen dat je delen van de Ketamine trip vergeet.
Prevention
In medical settings, NMDA receptor antagonists are used as anesthetics, so GABAA receptor positive allosteric modulators are used to effectively prevent any neurotoxicity caused by them.Drugs that work to suppress NAN include anticholinergics, benzodiazepines, barbiturates and agonists at the alpha-2 adrenergic receptor in the brain, such as clonidine.
Het veelvuldig gebruik van THC bij volwassenen leid zover als ik bekend ben met de literatuur niet tot hersenschade, terwijl cognitie wel degelijk beïnvloed kan worden. 
Strikt gesproken heb je echter zeker gelijk. 
