Talk:Potassium cyanide

From Wikipedia, the free encyclopedia

Chemistry Portal

Potassium cyanide is within the scope of WikiProject Chemicals, which aims to improve Wikipedia's coverage of chemicals. To participate, help improve this article or visit the project page for details on the project.

This article is also supported by WikiProject Chemistry.

Article Grading: The article has not been rated for quality and/or importance yet. Please rate the article and then leave comments here to explain the ratings and/or to identify the strengths and weaknesses of the article..

Chemistry Portal

This article is within the scope of WikiProject Chemistry, which collaborates on Chemistry and related subjects on Wikipedia. To participate, help improve this article or visit the project page for details on the project.

1 Suicide
2 Rat poison?
3 From PNA/Chemicals
4 Anecdotal agents
5 Amyl nitrate/nitrite
6 Suggested section merge
7 Question
- 7.1 Synthesis
8 Why it don't work?
9 Hindustan Times article
10 Righty
11 Potassium cyanide in fiction
12 Wanna know wather it is true or not ???
13 Solubility in infobox

[edit] Suicide

I think the article should begin with chemical and physical information about potassium cyanide, instead of opening by saying that it's the most common instrument of suicide. (Incidentally, if anyone can cite statistics supporting this claim, that would help.)

rajneesh 06:12, 8 Aug 2004 (UTC)

According to Suicide, sourced from [1], in the US firearms are by far the most common method of suicide & four times more common than the next. After that, it lists asphyxia, hanging, drug overdose, carbon monoxide poisoning, jumping from height, stabbing or exsanguination, and drowning. In the Republic of Congo, where firearms are less readily available, the most common method among 15-24 year olds is hanging, followed by firearms, followed by motor vehicle exhaust, followed by poisoning (all methods) [2]. And so on. Obviously methods will vary somewhat from one country to another, but this claim doesn't seem to be even remotely true, so I've removed it along with some accompanying material that seemed equally spurious. --Calair 03:39, 20 Dec 2004 (UTC)

[edit] Rat poison?

Was cyanide really 'commonly used as rat poison'? I know there's an anti-smoking ad out there mentioning the presence of cyanide in rat poison, but AFAIK most poisons are based on anticoagulants, heavy metals, or strychnine. --Calair 00:03, 13 May 2005 (UTC)

Anticoagulants are usually favoured these days, but cyanide salts have been used in the past, yes. Zyklon B was originally developed as a pesticide (for fumigation). Physchim62 10:16, 3 Jun 2005 (UTC)

I remembered the use of cyanide for fumigating insects, just hadn't heard of it being used for rats until this article. --Calair 15:01, 3 Jun 2005 (UTC)

[edit] From PNA/Chemicals

Potassium cyanide - needs chemist to check factually dubious section. RayGirvan 21:37, 2 Jun 2005 (UTC)

[edit] Anecdotal agents

Citation for the alleged antidotal effect of glucose? Quite apart from cake icing mostly being sucrose, it looks chemically nonsense to me. I suspect it's a misinterpretation of texts (eg [3] and [4]) reporting that glucose reduces the toxicity of dicobalt edetate when the latter is used as a cyanide antidote. RayGirvan 20:20, 2 Jun 2005 (UTC)

After a lot of Googling I found one article[5] that appears to claim an antidotal effect for glucose alone. By my limited Spanish and with the aid of a machine translator, it appears they mixed glucose with a cyanide solution and found it less toxic to mice than the same concentration of cyanide without glucose. Running part of that article through a machine translator:

In relation to the glucose, anecdotally it is mentioned that, the abundant sweet wine ingestion was the reason for which Rasputín (Grigori Yefímovich, 1872-1916), Russian monk hated by the nobility, survived an attempt of envenenamiento with cyanide. Without a detailed scientific explanation, the use of hypertonic glucosado serum to the 30-50% intravenous route like main antidótico treatment, or cotreatment of the fundamental antidótica therapy is suggested. The glucose would react with the in the middle acid cyanide [I suspect that's actually "would react with cyanide in an acid medium"], giving a heptosa, with disappearance of the ciánica molecule in the reaction... In the present test, a solution of D (+) anhydrous glucose to 40%, antagonizó totally the poisonous effect of 40 a lethal dose of mg/kg [should read "a lethal dose of 40 mg/kg", I think] of potassium cyanide, after one hour of incubation... according to the observed results, the union cyanide-glucose is apparently stable, at least under physiological conditions in mice and to the contact with the peritoneal liquid. On the other hand, according to the expressed thing by Calabuig (2004), this one union is facilitated in the middle acid, reason why it would be possible to hope that, under a toxic picture, where this present the lactic acidosis product of the increased anaerobic metabolism, the reaction took place in a smaller time... This, nevertheless, also contradicts the expressed thing by other authors (Pavia and col., 1976), that indicates the requirement of slightly basic means for the spontaneous occurrence of the reaction nonsingle, but, who in the middle acid, the cianohidrina would be disturbed releasing cyanide. Thus, the possible molecule formation must even be considered spontaneous that is nontoxic and stable and that derives in the partial or total diminution from the toxic power of the cyanide, or, as Calabuig mentions (2004), takes place the disappearance of the ciánica molecule in the reaction.

So there does seem to be some basis for believing that glucose alone might be an antidote to cyanide poisoning, but I don't think Wikipedia should be suggesting that this is anything other than an experimental treatment. (I'm vaguely bothered by the number of sites that are faithfully reproducing Wikipedia's claims on this, too.) I'll take a stab at rewording that section - see whether you think the tag needs to stay on after that? --Calair 00:04, 3 Jun 2005 (UTC)

Well done for finding the Spanish article, this is the first investigation I have seen of the oft-repeated Rasputin story. However, dispite the title of the article, they do not show that glucose is a cyanide antidote, merely that administering glucode and cyanide at the same time (in fact, after a 10 min incubation of the glucose/cyanide mixture) reduces the toxicity of cyanide. This is probably due to a condensation reaction between the cyanide and the aldehyde grouping of the glucose molecule, leading to a cyanoheptose which is less toxic and more easily dealt with by the body.

Three cyanide antidotes are known, although there is some controversy over the best one to use.

Sodium nitrite/sodium thiosulfate, favored in the US [6]
Kelocyanor® (dicobalt edetate), favoured in the UK [7], also used in France
Cyanokit® (hydroxycobalamine, a form of vitamin B₁₂), favoured in France [8]

In any case, this section is probably better placed in Cyanide (although the relevant section there should also be cleaned up a bit).

Physchim62 10:13, 3 Jun 2005 (UTC)

(Also note that amyl nitrate is used in the management of cyanide poisoning.) [Unsigned edit by Big Bob the Finder 23:01, 12 Aug 2005 (UTC)]

It is, but see HSE recommendations for first aid treatment of cyanide poisoning (UK) for a discussion of its probable lack of effectiveness. Physchim62 18:11, 12 August 2005 (UTC)

You're right, the experiment doesn't actually show glucose to be an antidote (except in a sort of pre-emptive fashion). However, from what I could make out the discussion was speculating that the same process might take place within the bloodstream, which would make IV glucose a useful antidote. Of course, speculation is not demonstration, but it does at least show that under some circumstances glucose can neutralise cyanide.

And yes, an awful lot of this article is really about CN- in general rather than specifically KCN, and should go in Cyanide.--Calair 16:33, 3 Jun 2005 (UTC)

And yes, . I agree that a lot of this article should really be under Cyanide

Regardless, we're not here to draw conclusions ourselves. We don't use primary sources. This isn't a place for original thesis. Thus, unless it is published first by another source, I don't think the effects of glucose should be published here.Comatose51 03:42, 14 Jun 2005 (UTC)

The German paper Handlungsfähigkeit bei tödlichen oralen Intoxikationen mit Cyan-Verbindungen from a journal for forensic medecine (Rechtsmedizin 9: 56 - 61, 1999) cites a case of a girl who accidentally drank poisoned, sugared tea and whose poisoning symptoms did not became evident until after half an hour later. They state that this could be due to the sugar binding some of the CN^- ions. Although they do not give any details, they cite glucose as one of the factors responsible for a delayed poisoning by cyanide. There are no reasonable sources about Rasputin, but it may also be that his stomach was not acid enough or that he used lemon for his tea (thereby releasing HCN before drinking it) for getting poisoned. Phrood 21:42, 24 Jun 2005 (UTC)

[edit] Amyl nitrate/nitrite

IPCS/CEC refers to amyl nitrite as a potential antidote[9], whereas the HSE discusses amyl nitrate[10]. Are amyl nitrate and nitrite both in use as CN- antidotes, or has one of these sources goofed? --Calair 23:52, 14 August 2005 (UTC)

I think the HSE has goofed, as have I, further up this talk page! Amyl nitrite (CAS number [110-46-3]) is the "traditional" first aid for cyanide poisoning. Amyl nitrate would probably be better than nothing, as it should act as a vasodilator and also increase methemoglobin levels, but it would have a shorter shelf live (even the nitrite should be stored at <15 °C) and a nasty habit of exploding. (Check-source Bretherick, L. (Ed.) (1986). Hazards in the Chemical Laboratory (4th Edn.). London:Royal Society of Chemistry. ISBN 0-85186-489-9. ). Physchim62 20:50, 15 August 2005 (UTC)

[edit] Suggested section merge

The toxicology section at cyanide now seems to be in a state to receive the information which is here and relates to cyanides in general. Does anyone object to me merging across this material? I would leave a short paragraph mentioning that KCN is poisonous as are all alkali cyanides and directing the reader to cyanide for more information. Physchim62 18:02, 16 August 2005 (UTC)

Yes, that's where it ought to be. I kept meaning to do the same thing myself, but never got around to it :-) --Calair 23:09, 16 August 2005 (UTC)

__________________________________________________________

I have a few questions maybe someone can help

If cyanide and carbon monoxide inhibit the same protein complex on the electron transport chain then would the clinical presentations be the same? If so why do we treat carbon monoxide poisoning different then cyanide poisoning?

The quick answer is that they don't. Cyanide ions inhibit the mitochodrial electron transport chain, carbon monoxide blocks hemaglobin. Herein lies the difference in clinical symptoms. Physchim62 19:20, 29 October 2005 (UTC)

I heard that iron II and iron III are the points of attack of these two molecules. So one has more affinity to iron II the other to Iron III so you get a difference. Stone 07:57, 30 January 2006 (UTC)

[edit] Question

Anybody know how you'd find Potassium Cyanide (KCN) around the house? I need it for a lab experiment. March 6, 2006

If you're qualified to work with KCN and have a legitimate reason for doing so, you should already know the proper channels for obtaining it. If you're not, I don't think giving you that information would be a terribly good idea. --Calair 09:08, 7 March 2006 (UTC)

Well, guess what? I got a hold of it :)

Cool, does it work? Hello? Hello? Just zis Guy you know? 15:13, 25 April 2006 (UTC)

Does what work? It's a compound. What do you mean?

[edit] Synthesis

Anyway, encyclopedia needs data about how to obtain various substances otherwise it would be either incomplete or censored. Potassium (or any other alkali metal) cyanide could be synthesized by direct reaction between hydroxide (KOH in this case) and hydrocyanic acid. Is there a more effective way ? -Yyy 10:24, 20 July 2007 (UTC)

[edit] Why it don't work?

First I want to say that I'm not a depressed person or anything like that. It was a promiss, and about honour.

For about a half year ago I took potassium cyanide. It had a good effect. I begun deep and fast breathing and lost contions after about a minutte.

I woke up at a hospitale. It was a miracle.

Yesterday and the day before yestarday I took the same amount again (ca 1 gram), but it had almost no effect at all. I was just deep and fast breathing for about half a minutte.

Is it possible that they have given me some kind of vaccine?

I work on a lab so the quality were about 99% for all tree cases, but the first atemt was from a other container, can that bee the reason?

I stord the KCN for the two last atempt at me room in a good isolated sample glass for tree mouth, but can it have been oxidated anyway?

Or am I just not supposed to die? I think so...

Any news articles/publications/etc to confirm this story?

Also, please do not delete material from other people's comments on Talk pages (as you just did to mine) without a good reason. --Calair 23:18, 1 April 2006 (UTC)

Well, I think it depends, how much did you take? If you took like, a tablespoon the first time, and just a miligram the second time, then that makes sense... Or, maybe your body just rejected it.

Oh, never mind, 1 gram. Well, I assume you put it in a drink. Did you let it sit for a few minutes, or just drink it right up?

[edit] Hindustan Times article

I reverted these edits because it looks suspiciously like copyvio, and because the material is inaccurate. For instance, it claims: "Nobody has ever lived to tell the tale — how does potassium cyanide taste?" This is false, as is the claim of instant death; there have been quite a few cases of people who ingested cyanide and survived for days afterwards, some eventually making a full recovery after treatment.

See e.g. this article, with case reports including this one: "A 54-year-old man ingested 3 g potassium cyanide and arrived in hospital unconscious and with respiratory arrest. The patient was resuscitated and 12 g of sodium thiosulfate was given intravenously... After 30 min the patient breathed spontaneously, after 90 min he moved his extremities and eyes, and after 6 h he was fully alert. No sequelae were observed." --Calair 00:10, 9 July 2006 (UTC)

[edit] Righty

Not much to say here because KCN, due to its annoying toxicity, is not usually employed in a laboratory. It is a pain to handle and NaCN can usually be used instead (cheaper and slightly less toxic) So its a bit of an irrelevant article Stui 21:12, 4 August 2006 (UTC)

[edit] Potassium cyanide in fiction

Is this really relevant or useful to anyone who didn't look up 'potassium cyanide' without the intention to learn about minutiae from random video games/films?

[edit] Wanna know wather it is true or not ???

Well, Some one told me in my chemistry class that if potassium cyanied touches your blood or got mixed with it due to some kind of wound, it start crystalizing your blood and you will die ????? was it a romur or is it true ??? wanna know that really if we got potassium cynaide got mixed with our blood due to some wound, do it harm that much that a person can die ????

Mohammad Adil 19:39, 27 August 2007 (UTC)

[edit] Solubility in infobox

In the infobox on the right, what does "solubility in other solvents" mean? What kind of "other solvents"?

And also, I find that 71.6 g/100 ml is actually the solubility in water. See:

--Quest for Truth (talk) 19:41, 6 March 2008 (UTC)