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Special K FTW!
Ketamine, also known as “Special K” among recreational users or as the marketed medication Ketelar (Vetalar), Ketaset or Ketanest, is an often overlooked compound when thinking of substances that may be abused but also possess medicinal applications. It is most often associated with veterinarians as it has been utilized for many years as an “animal tranquilizer” or anesthetic, although it was originally developed for use in humans (Beck, 1976; Mozayani, 2002). Ketamine in humans has found use as a powerful anesthetic and analgesic (Oduntan & Gool, 1970; Schmid, Sandler & Katz, 1999) and a compound for neuronal preservation after ischemic attacks (Hoffman, Pelligrino, Werner, Kochs, Albrecht & Esch, 1992). It is also a compound which can cause neuronal damage in animals but apparently not in humans (Green & Cote, in press) and be used as a recreational drug (Jansen, 2000). The literature is replete with the songs of praise and tales of woe in ketamine’s role as a dissociative anesthetic and analgesic. However, less attention has been given to some of the more interesting information found in the use of ketamine such as its use to induce near-death-like experiences and its use as a fast-acting antidepressant medication and pharmacological agent for treatment of addiction.

Ketamine was developed in 1962 by pharmacist Calvin Stevens at the pharmaceutical company Parke-Davis, now a subsidiary of the Pfizer firm (Pfizer, 2009) and patented in 1966. It became available for use in animals and humans marketed as Ketalar (Mozayani, 2002). It was developed as a safer replacement for PCP (phencyclidine) as an anesthetic and was found in early clinical trials to be useful in that respect (Oduntan & Gool, 1970). It has found use in humans as a very useful anesthetic and analgesic especially for children (Cotsen, Donaldson, Uejima & Morello, 1997; Haley-Andrews, 2006). It has also found use as a recreational drug and has been found to have some consequences of repeated use such as persisting perceptual distortions, schizotypal symptomology, as well as negative effects on episodic memory and attentional functioning (Morgan, Monaghan & Curran, 2004). Ketamine has a wealth of literature upon its applications in these areas and is the focus of much continuing research. However, there are other areas of research and interest which are not all well understood or investigated in relation to ketamine, such as its role in the investigation of NDEs (near-death experiences) and its use in treatment of medication resistant depression as well as heroin addiction.

Chemically, ketamine is derivative of phencyclidine (PCP), another dissociative drug. The compound has a biological half life of approximately two hours and is broken down into two metabolites norketamine and dehydronorketamine (Hijazi, Bodonian, Bolon, Salord & Boulieu, 2003) by the cytochrome P450 enzyme CYP3A4 (Hijazi & Boulieu, 2002). Ketamine is a non-competitive NMDA type glutamate receptor antagonist which functions by either attaching to the PCP binding site or a second attachment site on the outer surface of the receptor protein (Julien, 2008). It also interacts with opioid receptors of the mu and kappa types but with far less affinity than for NMDA receptors (Pai & Heining, 2007). It is the effects ketamine produces upon these NMDA receptors which may account for the implication of the drug in production of states which can closely resemble NDE experiences (Jansen, 1997).

Near-death experiences are odd and enigmatic phenomena which have fascinated people since ancient times. People report visions of “tunnels of light”, meeting dead relatives and religious content as well as a sense of well-being and “calmness” and a feeling of being detached from their bodies (Woerlee, 2003). Many believe it is evidence of an after-life or some other spiritual realm, however, many researchers disagree and are quick to point to research which shows a naturalistic explanation for these experiences. One often cited point is that of the ketamine mergence phenomenon. In clinical use of ketamine as an anesthetic, it has been found to sometimes produce a particular phenomenon in which the person may hallucinate and even slip into delirium – emergence phenomenon, which is very similar to reports from those having experienced NDEs (Jansen, 1997). This phenomenon with occurs in approximately 5-30% of cases in which ketamine is utilized and may be more likely to be seen in women, older individuals, and those who normally dream. It is often controlled for by the use of benzodiazepines (Pai & Heining, 2007). The use of music was found to increase the incidence of emergence, however, the patients reported a more pleasant awakening (Ambesh, Kumar, Sarkar & Bajaj, 1991). It is thought that this effect along with other aspects such hypoxia and endorphin release plays a part in the production of near-death experiences (Jansen, 1997).

Ketamine has also found itself associated with another clinical use outside of being an anesthetic and analgesic – the treatment depression. In 2006, a study by Carlos Zarate and colleagues investigated the use of intravenous injections of ketamine as a treatment for those with treatment-resistant depression. The study examined 18 patients over the course of 11 months. The study was a randomized, placebo controlled, double-blind crossover design. The study found improvement in those patients receiving ketamine injections as opposed to the controls within 110 minutes with these results persisting for up to one week. These results are not unique as others have previously found similar results (Berman, Cappiello, Anand, Oren, Heninger, Charney et al., 2000; Kudoh, Takahira, Katagai & Takawaza, 2002).

Berman, Cappiello, Anand, Oren, Heninger, Charney et al. (2000) looked at the results of intravenous ketamine injections in depressed patients in a similarly designed study. They found that their patients who received ketamine showed marked improvement within 72 hours.

Similar results were found in a case study in 2007 reported by Liebrenz, Borgeat, Leisinger and Stohler. The team examined the effects of intravenous ketamine injections upon a 55 year old man who suffered from treatment-resistant depression. Alleviation of symptoms were reported in as little as 25 minutes and the results persisted for up to one week. Liebrenz et al remain skeptical of the role of NMDA receptors in the pathology of depression and call for further research, while Berman et al (2000) conclude such that results show unequivocally the role of the glutamate receptors and mu opioid receptors. A study conducted by Maeng, Zarate, Du, Schloesser, McCammon, Chen et al (2008) found a evidence for the role of AMPA receptors in the observed ketamine results. The team found that by utilizing an AMPA antagonist, NBQX, they were able to “dull” the results of ketamine whereas without the antagonists the rapid and robust antidepressant effects of ketamine were seen. They conclude that antagonists, “exert their antidepressant effects by regulating the functional interplay between AMPA and NMDA throughput” (pp. 352) – further solidifying the importance of glutaminergic receptors in depression.

Ketamine research has found some evidence for its usefulness in the treatment of addiction as well. One study looked at the use of ketamine as an pharmacological intervention for use with heroin addicts. Krupitsky, Burakov, Romanova, Dunaevsky, Strassman & Grinenko (2002) found that an intravenous dose of 2.0 mg/kg of ketamine elicited a greater period of abstinence from heroin within two years of a follow up (patients were followed up monthly for 24 months) compared to a lower dose of 0.2 mg/kg. The higher dose also produced a marked decrease in anxiety and anhedonia and modifications to several subscales of the MMPI such as depression, paranoia, conversion hysteria and schizophrenia. Interestingly it also showed an increase in the “internal” locus of control as well as a higher level of spiritual development in the patients. The authors mention that their high dose induces a state that may be close to that needed to produce a NDE-similar experience. They also note that similar changes are found in those who experience NDEs and those who received the higher doses of ketamine treatment. Such results have spurned research into the use of NMDA antagonists as treatment for addictions ranging from nicotine to opiates (Bisaga & Popik, 2000).

Ketamine was once simply viewed as a dissociative anesthetic and recreational drug found in the “club scene”. However, over the past decade research on the usefulness of this PCP derivative has been expanded greatly. Results may not only offer insight into treatment for depression and addiction, but may also offer insight into the neurobiology of one of the most enigmatic experiences people have reported – NDEs. While, as Liebrenz and colleagues have stated, more research is needed, there is definitely a need to explore the use of this chemical compound further.


Ambesh, S., Kumar, A., Sarkar, P. & Bajaj, A. (1991). Emergence phenomena after ketamine anaesthesia: The influence of music. Canadian Journal of Anaesthesia, 38, 800.

Beck, C. (1976). Vetalar (Ketamine Hydrochloride) a Unique Cataleptoid Anesthetic Agent for Multispecies Usage. The Journal of Zoo Animal Medicine, 7, 11-38.

Berman, R., Cappiello, A., Anand, A., Oren, D., Heninger, G., Charney, D. (2000). Antidepressant effects of ketamine in depressed patients. Biological Psychiatry, 47, 351-354.

Bisaga, A. & Popik, P. (2000). In search of a new pharmacological treatment for drug and alcohol addiction: N-methyl-D-aspartate (NMDA) antagonists. Drug and Alcohol Dependece, 59, 1-15.

Cotsen, M., Donaldson, J., Uejima, T. & Morello, F. (1997). Efficacy of Ketamine hydrocholoride sedation in children for interventional radiologic procedures. American Journal of Roentgenology, 169, 1019-1022.

Green, S & Cote, C. (in press). Ketamine and neurotoxicity: Clinical perspectives and implications for emergency medicine. Annals of Emergency Medicine.

Haley-Andrews, S. (2006). Ketamine: The sedative of choice in a busy pediatric emergency department.
Journal of Emergency Nursing, 32, 186-188.

Hijazi, Y. & Boulieu, R. (2002). Contribution of CYP3A4, CYP2B6 and CYP2C9 isoforms to N-demethylation of ketamine in human liver microsomes. Drug Metabolism and Disposition, 30, 853-858.

Hijazi, Y., Bodonian, C., Bolon, M., Salord, F. & Boulieu, R. (2003). Pharmacokinetics and haemodynamics of ketamine in intensive care patients with brain or spinal cord injury. British Journal of Anaesthesia, 90, 155-160.

Hoffman, W., Pelligrino, D., Werner, C., Kochs, E., Albrecht, R. & am Esch, J. (1992). Ketamine decreases plasma catecholamines and improves outcome from incomplete cerebral ischemia in rats. Anesthesiology, 76, 755-792.

Jansen, K. (1997). The ketamine model of the near-death experience : A central role for the N-methyl-D- aspartate receptor. Journal of Near-Death Studies, 16, 5-26.

Jansen, K. (2000). A review of the non-medical use of ketamine: part 1: use, users and consequences.
Journal of Psychoactive Drugs, 32, 419-433.

Krupitsky, E., Burakov, A., Romanova, T., Dunaevsky, I., Strassman, R. & Grinenko, A. (2002). Ketamine psychotherapy for heroin addiction: immediate effects and two-year follow-up. Journal of Substance Abuse Treatment, 23, 273-283.

Kudoh, A., Takahira, Y., Katagai, H. & Takawaza, T. (2002). Small-dose ketamine improves the postoperative state of depressed patients. Anesthesia & Analgesia, 95, 114-118.

Liebrenz, M., Borgeat, A., Leisinger, R. & Stohler, R. (2007). Intravenous ketamine therapy in a patient with treatment-resistant major depression. Swiss Medicine Weekly, 137, 234-236.

Maeng, S., Zarate, C., Du, J., Schloesser, R., McCammon, J., Chen, G. et al. (2008). Cellular mechanisms underlying the antidepressant effects of ketamine: Role of α-amino-3-hydroxy-5-methylisoxazole-4-propionic acid receptors. Biological Psychiatry, 63, 349-352.

Mozayani, A. (2002). Ketamine – Effects on human performance and behavior. Forensic Science Review, 14, 123-131.

Oduntan, S. & Gool, R. (1970). Clinical trial of Ketamine (CI-581): A preliminary report. Canadian Anesthetists’ Society Journal, 17, 411-416. Pfizer, Inc. (2009). About Pfizer. Retrieved March 14, 2009 from

Schmid, R., Sandler, A. & Katz, J. (1999). Use and efficacy of low-dose Ketamine in the management of acute postoperative pain: A review of current techniques and outcomes. Pain, 82, 111-125.

Woerlee, G. (2003). Mortal Minds: The Biology of Near-Death Experiences. Amherst: Prometheus Books.

Zarate, C., Singh, J., Carlson, P., Brutsche, N., Ameli, R., Luckenbaugh, D. et al. (2006). A randomized trial of N-methyl-D-aspartate antagonist in treatment-resistant major depression. Archives of General Psychiatry, 63, 856-864.
I put drugs like this in the scary category, along with heroin and pcp.

I've avoided all three.

Weed is all you need Cool
"The world is my country, and do good is my religion." - Thomas Paine
Interestingly, ketamine is a pcp derivative.
Yes, your post above said as much.

LOL, it almost seems like you didn't read it. Grin

*spelling edit
Edited by Skeeve on 01/25/2010 22:38
"The world is my country, and do good is my religion." - Thomas Paine
I am with you Skeeve weed is all you need I just wish I had a reliable source.
Doubting Thomas
I don't have any need for weed, if I can't get a decent buzz from my homemade wine, then I don't need one.
You're just jealous because the voices are talking to me and not you.
At first I thought you were just really excited about your breakfast cereal, SS. Wink

You publishing a review article?
Sorry I didn't see this post several weeks ago when you posted it, many apologies good sir.

No, not getting published, well, at least not for this - this was actually a review I wrote for a psychopharmacology class. I am, however, working on a paper with my supervisor about using normative data and static balance one leg stances as an expedient field screening tool for diagnosis mild traumatic brain injury. However, it probably won't see publication for a good while - maybe next year. I'm working on a big project proposal at the moment - that and writing up human factors and ergonomics reports are consuming most of my writing time at work.
Edited by Solidsquid on 02/13/2010 11:48
Hey Solid I swear you are a genius and have a lot of patience to write, research all that.

I never heard of informed consent before. I haven't finished reading it all because I am such a slow reader these days. It reminds me of research gone very wrong some years ago. Funny what sticks in my head, a research facility where humans volunteered and got paid mind you to have experimental research done on them. Apparently it got way out of hand and people were subjected to inhuman torture because they gave consent. Now they have more strict guidelines to stop before it gets to become torture and has a permanent damage done to the human subject. Wish we had that for the animals.
I like to eat Special K cereal bars. they're only 90 calories and 1.5 grams of fat each.

Did you know that I've lost over 100 pounds? It's true!
That's like the fat equivalent of 30239.5 Special K bars.
"The world is my country, and do good is my religion." - Thomas Paine
About thirty-five years ago, I may have done informal research on this particular drug. The unit of measure was, at the time, referred to as a "matchhead", which I ingested through a rolled-up dollar bill into my sinuses.

Before any effects became apparent, I left the site of ingestion and proceeded to a friend's house about 5 minutes away. Upon arrival and seeing my condition, my friend quickly called her husband home from work so they could keep an eye on me.

It wasn't entirely unpleasant, but I never repeated it again.

Youth is wasted on the young,

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