Newsgroups: alt.drugs
From: [an 121141] at [anon.penet.fi] (Alice C. Livingston)
Date: Tue, 25 Apr 1995 18:55:39 UTC
Subject: GHB synthesis (last updated April 1995)
This update replaces ghb.synthesis in /drugs/depressants/ghb.synthesis
Do what you want with this text, heck even sell it if you want, as, if
you lack that many ethics, I sure as hell know that you will do it
regardless of my wishes - but please give credit to Alice Livingston and
leave the anon address intact. Thanks.
All comments, suggestions, etc. to the above address
There has been a lot of talk about GHB on the net of late. I guess this is
just adding to it but I will try to make sure all I mention is correct.
(It hasn't been in the past, so I see no reason why it is now. Attempt any of
the below at your own risk both physically and legally) Corrections welcome!
GHB or gamma-hydroxybutyrate is usually prepared in a form called sodium
oxybate which is just the sodium salt of GHB hence its alternative name
sodium gamma-hydroxybutyrate. Just to make things more complicated CAS
refers to this salt as butanoic acid, 4-hydroxy, monosodium salt. In the
earlier abstracts butyric replaces butanoic.
GHB is listed in Merk Ed. 11,8603 under Sodium Oxybate.
Enough of the naming mess, lets have a look at the stucture.
HO-(CH2)3-COOH
This is GHB. For the sodium salt replace the right most H with a Na.
Pretty simple huh?
The precursor to sodium oxybate is called butyrolactone or
gamma-hydroxybutyric acid lactone. It is fairly readily available (at
least where Alice comes from) and not overly expensive. I would estimate
US$20 for 100ml (much, much less for larger amounts).
It is supposedly an excellent electrolyte for batteries and capacitors and
is used as an intermediate for numerous compounds. See Merk Ed. 11,1596 for
more information.
Here is what she looks like.
O
/ \
H2C C==O
| |
H2C---C2H
It should be apparent that opening this ring and a dash of NaO will yield
Na-GHB. Easy? Most certainly. NaOH will open the ring and at the same
time makes our salt and also some H2.
Two pieces of magic for the price of one.
Anyone interested in the mechanism behind the ring opening should be aware
that the butyrolactone is saponified - any organic chem text will give
more information.
Below is what an hour browsing the Chemical Abstracts yielded.
J.Am.Chem.Soc 51,260 (1929) refluxes NaOH and butyrolactone in water for a
few hours and the resulting yield is poor, though the procedure is simple
and therefore probably favoured by some. Summary follows.
16.3g butyrolactone and 7.4g NaOH were disolved in 30cc. of water and
bolied under reflux for three hours. AT the end of this time more water
was added to disolve the salt and the solution was filtered and
evapourated to dryness under reduced pressure. The salt was recrystalised
from alchol. Yield was 11.5g.
CA 107:6774e is better but more difficult method. Summary follows.
15.7g NaOH in 1280ml MeOH was added to 344g gamma-butyrolactone over 1-
1.5h at 40C under an inert CO2 free atmosphere. After stiffing for 3h,
220g of product was collected.
The amount of NaOH used in the above is certainly wrong. 157g would be
much more like it. I can't remember if this is an error with the original
abstract or my own in copying it down.
CA 107:39210w is another patent from by the same people as above. It
effectively states the same thing but that the rate of addition was
controlled to maintain a potential of 700mV to prevent the introduction of
a carbonate. Raises more questions than it answers.
CA 59:11234e would be my procedure of choice though Alice is somewhat suspect
of their yields. Summary follows.
To a hot solution of 225ml rectified EtOH, 45ml H2O and 220g NaOH, 489g
gamma-butyrolactone was slowly added and the mixture kept boling for 30
min. The ppt. crystalised from EtOH yielded 560g Na-gamma-hydroxybutyrate.
Here is how Alice applied the above...
To a round bottomed flask suspended in a bath of candle wax heated by an
electric hotplate was placed 10ml EtOH, 4ml H2O (15ml 80% alc/vol Vodka
should substitute okay for these two) with about 10g NaOH.
The weighing of NaOH was done without an accurate scale and was probably
over estimated. Using exactly 10g of NaOH will still mean that it is in
excess thus less should be okay - Alice used this amount to ensure all the
butyrolactone would be reacted.
It is probably unwise to use hardware store lye or whatever due to
possible impurities combined with the fact that relatively large amounts
of GHB which have to be ingested for an effective dose. Spend money and
the highest grade you can get!
A condensor was placed on the flask and Alice waited till all was under
reflux. The NaOH did not completely disolve.
20ml of butryolactone (M=86.09 g/mol; 1 litre=1.13 kg) was slowly added
over the next 15 minutes. By this time most of the NaOH had disolved.
The mixture was kept under reflux for the next 2 hours where upon the
condensor was removed and the EtOH and much of the water was allowed to
boil off - this took place over a period of an hour or so. Good ventilation
is a must at this point.
Alice is unsure of the exact temperatures used, suffice to say that it was
just enough so that reasonably vigourous relux took place, but not so
much that the reaction liquid was going to bubble up the condensor.
A clear, water like liquid remained which was quickly poured out onto a flat
surface and rapidly solidified into a white waxy solid about 3mm thick.
This solid was rather basic due to Alice's excess usage of NaOH so it was
roughly weighed, then placed in about 200ml of hot water in which is disolved
easily. With the aid of litmus paper (remember blue equals basic) HCl was
added till the solution was slightly acidic.
HCl is the ideal acid to add as NaOH + Cl -> H2O + NaCl; that is salty
water (ugh).
Checking the pH of your product is of the uppermost importance. It must be
fairly neutral before you even contemplate ingesting your Na-GHB. Or to
put it another way - if you are really going to fuck up and hurt someone,
having an overly acidic or basic product is how you will do it.
Alice calculated the volume needed to drink for 1.5g of Na-GHB, consumed it
grinning and bearing the intense salty taste (this is due to the NaCl,
Na-GHB is pretty much tasteless when pure) sat, waited for 5 minutes and
never looked at alcohol again :-)
All good fairy tales have a happy ending and this is no exception, being
no longer dependent on alcohol is a delight, better than any prince or
princess!
A second time Alice essentially followed the above procedure but used less
NaOH. The final product was neutral but with some oily liquid which did
not solidify which was assumed to be unreacted butyrolactone which was
poured off ready to be used some other time.
Having an accurate scale and using ratios of the amounts in the above
abstract would probably be optimal.
This product was essentially taste free but slightly soapy.
Butyrolactone an LD50 of 17.2 ml/kg in rats, better than that of GHB itself
so it should not be of too much concern, though Alice has corresponded
with a person who suspected that this impurity may be the cause of very
slight headaches which some consumers suffered from the next morning.
A standard dose of GHB is rather hard to determine. Net information
mentions 'half a teaspoon'. Medline seems to indicate that an effective
dose varies greatly from person to person.
Medical use in the treatment of narcolepsy and alcohol withdrawl is almost
invariably 50mg/Kg per day. In Alices experience this is a fairly large
dose which will probably send you off to sleepy-byes. 25mg/Kg is a much
better starting point.
Reports mention overdosage can result in 'coma and seizurelike activity'.
The mentioned amounts which caused these problems were from .25 of a
teaspoon to 4 tablespoons. Full recovery seems to be universal.
This further goes to show that each persons reaction is very individual.
For more information on the qualitative effects of GHB, ftp to hyperreal.com
and get the file /drugs/depressants/ghb.
Of particular interest here is a posting by [r--h] at [weeds.xs4all.nl] from the
smart-p mailing list which gives an excellent description of the history,
pharmacology and recreational used of GHB. It is a must-read before you
experiment with the chemical.
Also there is a posting by [dk 104] at [cleveland.freenet.edu] which is supposedly
a post for a friend, 'Frank', who describes how he combatted alcohol abuse
with GHB and seemingly won.
Alice understands that the author of this post's name was not actually
'Frank' and that he was an alt.psychoactives regular who finally outed
himself as the actual author. If anyones know of his email address please
contact Alice at the anon email address which follows.
Alice would appreciate hearing from anyone who has attempted any of the
above, be it tasting or cooking.
Slowly slip away, be careful and most of all have fun!
Love Alice Livingston.
~~~
Alice Livingston
[an 121141] at [anon.penet.fi]
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