home
***
CD-ROM
|
disk
|
FTP
|
other
***
search
/
HaCKeRz KrOnIcKLeZ 3
/
HaCKeRz_KrOnIcKLeZ.iso
/
drugs
/
fried.brain
< prev
next >
Wrap
Text File
|
1996-05-06
|
23KB
|
421 lines
[Typist's Note: This is my best shot at an exact transcription of
the original article. Any spelling errors are probably mine. The
writing style is NOT mine -- thank goodness! This is easily the
most balanced and objective article I've seen on the subject
recently. Kudos to Ms. Pike and the editors of the Boston Phoenix.
(In spite of the run-on sentences and dangling clauses. :-) )]
THE BOSTON PHOENIX
May 1, 1992
JUST SAY YES AND NO
HOW PAST DRUG USE MAY (AND MAY NOT)
HAVE ADDLED YOUR BRAIN.
by Rose Pike
Copyright 1992, The Boston Phoenix. Reproduced without permission.
Elaine took her first toke of marijuana as a 15-year-old high-school
student -- "We got it from older hippies," she says -- and went on
to use acid, peyote, alcohol, and other substances, natural and
chemical, from the late 1960s to the early 1970s. "I was going to
do it forever," she remembers, "I thought my kids would, too. I was
going to be real mellow. What was the slogan? Turn on, tune in,
drop out?" She had some bad trips, but continued down the flower-
child path because "I thought it would make me part of something."
Now a counselor in a drug-abuse program, Elaine says she wonders
"what I would be like if I hadn't done it." She attributes her
later drinking problems (she is now a recovering alcoholic) to
youthful use of illegal substances, and contends that her memory and
learning ability were adversely affected. "In the real world", she
believes, "you'll see people who are fried on acid right and left,
just not all there."
A quarter-century after the Summer of Love, Elaine and some other
erstwhile flower-children look back on their early chemical
indiscretions with worry and regret, both for themselves and their
kids. They didn't pay much attention at the time, but now recall
the old cautions and link them to present physical and emotional
problems.
The predictions _were_ scary. GENETICISTS WARN OF LSD PERIL TO
CHROMOSOMES, blared a typical 1967 headline. The article, a report
on a March of Dimes conference, went on to say that "a panel of
experts in human genetics advised that no one in his or her
reproductive years should take . . . LSD unless there was a very
good medical reason for doing so." Similarly, a New York physician
claimed that "chromosome damage has been unequivocally demonstrated
on those who tried LSD, even in some who have only had one dose."
That same year, an official of the Federal Bureau of Narcotics
asserted that his agency's files were "punctuated with murders and
atrocities committed under the influence of marijuana." In
addition, the bureau maintained that "evidence shows that the drug
is dangerous, that many heroin addicts began by smoking marijuana."
According to a Greek researcher, two marijuana joints a day meant
almost certain "adverse personality changes . . . and damage to the
brain and other organs."
Some of the scare stories turned out to be all sound and fury,
laughable in retrospect. Remember the federal investigation into
"mellow yellow" -- smokable dried banana peels -- following a
_Berkeley_Barb_ story touting the fruit's euphoric potential?
Bananas turned out to be neither a natural hallucinogenic panacea
nor a menace to the national morality.
The threat to human genetics was also much overblown, in part
because the field of human genetics was in its infancy and
scientists did not clearly understand some of the microscopic
abnormalities they were seeing. "To this day," says March of Dimes
national spokesman David Leavitt, "we get questions from women about
whether their own or their husband's past LSD and marijuana use
carries any risk for their present pregnancy." That idea may
persist in popular lore, but the specter of LSD-linked chromosomal
damage was long ago laid to rest by science. Leavitt now tells
callers with confidence, "There is no known risk." And although
it's true that chronic pot-smoking can dampen male fertility, for
those who stop smoking, sperm counts usually return to normal.
Several studies in the past decade seem to show a link between birth
defects and marijuana smoking during pregnancy -- a fetal drug
syndrome similar to fetal alcohol syndrome -- but even that
connection remains tenuous and controversial, says Leavitt.
According to University of Washington pharmacologist Lawrence
Halpern, who frequently testifies in trials in which crimes are held
to be drug-related, "In terms of clinical syndromes, we haven't seen
anything like longtime adverse effects from LSD. The drug police
were out [in the 1960s] and you couldn't believe a word they said."
Similarly, drug-enforcement professionals still frequently cite the
so-called "gateway" or "steppingstone" effect -- that experiment-
ation with MJ will inexorably lead to harder stuff and addiction --
even though research has shown that not to be the case for the
majority of users. But in a study presented at a 1983 meeting of
the American Psychiatric Association, researchers from the
University of Kansas reported that approximately one in nine
marijuana users develops a dependency on the drug -- about the same
rate as for alcohol.
Indeed, negative medical and psychological repercussions of that era
have turned out to be subtle and difficult to attribute with
certainty to any particular factor. There's a tendency among baby-
boom patients, say some who specialize in the treatment of chemical
dependency, to attribute a variety of present emotional problems to
past use of illicit pharmaceuticals. "I encounter people who feel
that the somehow broke their brains in the '60s," says University of
Washington professor and psychiatrist Albert Carlin, but he's
skeptical of the connection. "The notion of the person who fried
his brain tends not to be borne out clinically," he says, though he
hastens to add that "of course, anyone who was reduced to a raving
maniac as a result of drug use is not around to study."
In the '70s, Carlin worked on a project that sought to determine if
certain illegal drugs caused brain damage. "The ultimate answer,"
he recalls, "was yes and no. In a group of multiple-, heavy-drug
users, a significant portion were impaired, but we couldn't pin down
drugs as the specific cause. When we began to look at childhood and
other social factors, it wasn't so clear." He also cites the
"cracked vase" phenomenon, meaning that there were "people who were
vulnerable already and whose vulnerability was highlighted by
drugs." Paradoxically, Carlin points out, some studies of marijuana
use have shown a higher level of overall functioning in those who
smoked than in those who didn't.
BEYOND THE SUMMER OF LOVE
Much of the movement away from the drug culture came as the result
of uncommon, though sometimes severe and tragic, drug reactions,
rather than from any fear instilled by the drug nay-sayers. Before
those losses of health and life occurred, the nation -- at least
that part of it that was the baby-boom bulge -- had fallen under the
spell of Haight Ashbury's mellow hippies. Every city had a drug-
laced rock-and-roll scene.
Grass was smoked and acid savored in an atmosphere etched with
adolescent rebellion and fearlessness and with an intensely naive
spiritual and intellectual curiosity. For a while, it seemed that
chemical euphoria might provide an answer to the dilemmas of our
post-assassination, Vietnam War-era lives.
As the scene degenerated, a flurry of perilous chemicals hit the
streets and sent casualties to emergency rooms: PCP (phencyclidine,
an animal tranquilizer also called "angel dust", "crystal", and
"peace pill"); the amphetamine DOM, known on the streets as STP
(Serenity, Tranquility, Peace), guaranteed to produce a three-day
high; and DMT, the so-called "half-hour" hallucinogen. The Summer
of Love segued into a season of bad trips and came to an abrupt and
sobering end with the tag line "Speed kills."
LSD also killed, by triggering suicides in a small number of people
(the well-publicized delusional leaps from windows or high places).
Also for a few, acid was the spark that ignited full-blown schizo-
phrenia, though the consensus among psychiatrists is that some other
substance or event would have done the trick sooner or later in
susceptible individuals.
Even in the highest of high times it was clear that those who
strayed from dope-smoking or an occasional, sacramental hit of acid
to shooting up were at much greater risk. "The vector for getting
into trouble," recalls a participant in the '60s scene who also ran
a drug-crisis clinic, "was speed rather than marijuana or acid. It
was the speed freaks who got into difficulty, especially the ones
who crossed the line of putting needles into their veins."
In fact, the connection between past use and present impairment is
clearer for street-manufactured amphetamines than for any other
illegal drug. Speed was perilous -- still is -- and it left some
victims permanently panicked and paranoid. "Certainly," says Dr.
Peter Roy-Byrne, of the University of Washington's Anxiety Disorders
Program, "long-term amphetamine use had been reliably associated
with paranoia. The same is true for cocaine." Both types of drugs
produce "a 'kindling' phenomenon in the brain. The brain becomes
more sensitive over time to smaller doses." Dr. Roy Clark, a
clinician who specializes in the treatment of chemically dependent
patients who've failed in other programs, reports another ampheta-
mine-related difficulty: "We are beginning to see a number of
individuals who were involved with speed on its initial run and are
now seeking treatment for chronic depression."
CHRONIC POT USE
Marijuana, of course, was the most widely used and at the time the
mildest of the illegal substances; to date, 68 million Americans are
said to have tried marijuana, as compared with 10 million who've
tried LSD. Like those who stopped smoking cigarettes years ago,
people who gave up pot or became moderate, occasional tokers are
probably off the hook in terms of health effects.
The biggest single problem associated with past pot use, however, is
that some people never stopped, and at some juncture realized they
couldn't. According to Roger Roffman, a University of Washington
psychologist who is well known for his studies of chronic marijuana
users, "Many people come into our program saying, 'If only I could
take it or leave it the way I used to.' They find that if they have
access to it, they smoke grass compulsively and get very anxious if
there's none around."
Some chronic dopers have been smoking every day for 20 or 30 years
and have difficulties much like those of the problem drinker. The
average person in Roffman's program is male (three-quarters of those
enrolled), middle-class, employed, and in their 30s or 40s. Many of
those who applied to be part of the latest round of studies were
dependent on more than one drug concurrently -- alcohol and pot, for
example.
Marijuana (and hashish, another derivative of the _Cannabis_sativa_
plant) has been used recreationally in various cultures for
centuries. But it was not until the mid '60s that scientists in
Israel were able to isolate Delta-9 THC, the ingredient that
produces a high. Just three years ago, National Institutes of
Mental Health scientists described the was in which cannabis
receptors work in the brain (though the treatment or policy
implications of that finding aren't clear at this point).
Unlike LSD, marijuana has grown more potent over the years; street
pot not contains about five percent THC (although this figure can go
as high as 20 percent), compared with the one percent average of 25
years ago. As a result, some chronic dope-smokers are finding it
more difficult than ever to moderate their intake, and it's
possible, say some experts, that the new breed of dope may rope in a
higher percentage of chronic users.
Back in the '60s, even before the discovery of THC, scientists
observed that heavy hashish users sometimes experienced an
amotivational syndrome, becoming the classic picture of the
stuporous, slow-moving hash head. A version of that syndrome is not
commonly seen in low-dose, chronic marijuana users; Roffman
describes people in his program who worry about "procrastination,
feeling out of control, wishing they had better thinking and memory
capacity."
While some chemical-dependence professionals tend to write off
complaints of memory loss due to drug abuse in the distant past as
"aging hippie syndrome" (we all have a tendency toward forgetfulness
as middle age creeps up), a report in the British medical journal
the _Lancet_ in 1989 outlined evidence that chronic cannabis use
seems to cause short-term memory deficits.
Another hazard for chronic, heavy dopers is lung damage. "The net
respiratory burden of particulates was approximately four times
greater during marijuana smoking than during pot smoking," wrote a
UCLA research team in the _New_England_Journal_of_Medicine a couple
of years ago. Though a person would have to smoke an unlikely four
joints a day to equal the harm caused by one pack of cigarettes, the
finding nonetheless is significant for those who indulge in both
tobacco and pot or those with a predisposition to chronic lung
diseases such as asthma and bronchitis.
Perhaps more troubling is a recent finding that the world's finest
cannabis may contain significant amounts of mercury. "The best-
quality marijuana," according to a study done at the University of
Hawaii and reported in the journal _Bioscience_, "appears to come
from areas known to have rich mercuriferous soils, such as Hawaii,
California, and parts of Mexico." Mercury inhaled through the lungs
in pot smoke is absorbed at a rate 10 times higher than mercury
traveling through the digestive tract in food. Bio-accumulated
mercury, moreover, is known to precipitate many of the same
neurological symptoms associated with chronic marijuana or hashish
use: forgetfulness, irritability, tremors, and paranoia.
LSD AND LONG-TERM RISKS
Compared with the brain damage that some scientists now believe a
small minority of LSD users may have incurred, the signs and
symptoms associated with chronic cannabis use are relatively easy to
discern. Impairment related to pas LSD use may be so subtle -- on
the level of biochemical "scarring" -- that we don't yet have tools
sophisticated enough to measure it. Recent research using
electronic devices such as the BEAM system (the Brain Electrical
Activity map, which creates colored "virtual" maps of brain
centers), seems to be breaking through the mystery of lysergic acid
diethylamide, a substance that has been the subject of fascination
since its debut, in the 1940s.
Originally manufactured by Sandoz, the Swiss pharmaceutical company,
LSD (the initials come from the German chemical name) first captured
the attention of the medical community as the world's most powerful
hallucination-inducing compound. A byproduct of ergot, a fungus
that grows on rye, LSD was thought to have potential as a treatment
for mental disorders, but that promise was never realized.
According to UCLA neuropsychiatrist Lewis West, who has studied the
drug since the 1950s and once took a hit as part of his training,
"It was going to be the royal road to the unconscious, like having
patients dream while they were awake." But despite LSD's auspicious
pedigree as a legal drug and our considerably greater understanding
of brain chemistry 50 years after its discovery, "we still don't
know how LSD works," says West. "There's a change in the brain
chemistry that's reversable in most people, but not in others."
Dr. Henry Abraham, a Harvard research psychiatrist who works out of
Boston's St. Elizabeth Hospital, investigates LSD's neurological
sequelae in both past and present users. Acid's complications fit
into three categories, he explains: bad trips, flashbacks or "free
trips", and the relatively rare phenomenon of prolonged psychosis.
The bad trip -- acute panic or temporary psychosis soon after
ingestion -- usually goes away with time and treatment, though there
is speculation that some LSD users eventually develop chronic panic
disorder related to the original bad trip. If so, Abraham and his
colleagues suspect that the mechanism that triggers panic attacks is
similar to the kindling effect associated with other stimulants.
So far, brain abnormalities that might cause an LSD kindling effect
aren't nearly as well documented as those associated with
flashbacks. A few years ago, Abraham identified a syndrome called
post-hallucinogen sensory disorder, in which patients see
"continuous visual disturbances of an abstract nature, such as
flashes of light, auras, patterns of dots vibrating in the air,
trailing, after-imagery. These things can go on forever. Post
hallucinogen syndrome occupies a spectrum -- some people react
occasionally, some every few seconds."
Imagine viewing the world as a sort of psychedelic Georges Seurat
painting from which you can't turn away, or seeing a perpetual
migraine-type aura around everything. One post-hallucinogen
sufferer endures a light like a flash bulb that goes off in front of
his eyes every few seconds; another notices auras around objects
only occasionally, for example, when he's tired at the end of a day.
The syndrome, which can also involve greater sensitivity to glare,
is treatable in some (with Valium and related drugs), not in others.
Using the BEAM method, says Abraham, "we've done brain-mapping and
found that these people have visual-field disturbances in the
temporal lobes." The maps show abnormalities similar to those found
in temporal-lobe epilepsy, a malady that also causes visual and
auditory hallucinations and personality changes (unlike people with
epilepsy, post-hallucinogen sufferers don't have seizures). The
temporal lobes are instrumental in the processing of visual, aural,
and tactile data, and they also play a part in the synthesis of
emotion and memory. It's possible, then, that some past users of
LSD might have damaged these segments of the brain in such a way
that, as one researcher put it, they may be "seeing sound and
hearing color".
The other long-term acid complication that concerns Abraham is the
prolonged psychotic reaction that strikes about one user in 1000.
"These people can be very sick, they can be daunting. We're
reviewing the old data on psychotic breaks. The common story is the
kid who tripped once and enjoyed it, the second time got into more
trouble, and by the third time had permanent problems." In addition
to pursuing the temporal-lobe/LSD connection, Abraham and his
colleagues are looking at LSD-experiment data (including the
notorious US government experiments) from the '50s and '60s for
clues to acid-related syndromes that might have been overlooked by
past researchers.
As far as currently non-using veterans of '60s drug culture are
concerned, Abraham says, "I don't think we're looking at a
generation of brain-damaged individuals". Nonetheless, he frets
about the current resurgence of interest in acid (which,
incidentally, is consumed today in much lower doses -- 100
micrograms as opposed to the 250 micrograms or more in the '60s).
"There are folks who can eat this stuff like popcorn and stay out of
trouble," says Abraham. "They should count their lucky stars
they're not one of the wounded. Then there are people who are
biochemically vulnerable, and for them it's like having Scud
missiles in your head."
TODAY'S GENERATION: NEW DANGERS
So it would seem that except for those few who permanently rewired
or disconnected segments of their brains, the vast majority who
participated in the drug culture of a quarter of a century ago
escaped unscathed. In fact, many fortysomethings wax wistful about
their acid trips or the first time they tried hash in a bar in
Amsterdam, in much the same tone as an ex-jock might boast about a
championship season in the distant past.
What's genuinely confusing for many middle-age former drug users,
who ran the gauntlet and emerged whole, is how they should regard
illegal-drug use now. As a new generation stumbles upon LSD and
marijuana, Drug Enforcement Administration officials report that
acid confiscations in the District of Columbia alone rose from 14
doses in 1990 to 5600 in 1991 (due in part to a more concerted
effort by the agency). But there are differences in the current
drug scene. Acid is weaker now, pot packs a wallop more like
hashish used to (and costs 10 times what it used to), and the
average age of first drug use is dropping almost into the single
digits.
"For someone who's 25, to smoke dope periodically is not all that
toxic," Ries says, "but you take the same exposure with someone
who's 12 and it has a very different effect. Your brain is not
developed and you quickly get in trouble with thinking." Unlike the
mostly college-age group that experimented with drugs in the Vietnam
War era, many of the kids trying LSD today are in junior high or
high school and have not yet reached physical maturity. Crack, too,
with its terrible legacy of permanently addicted babies born of
addicted mothers, is often used by very young teenagers.
Indeed, the drug problems that draw our attention in the '90s differ
dramatically from those of the '60s. What _hasn't_ changed is our
addiction to scare tactics as a means to abate the "epidemic" of the
moment. The "reefer madness" of the 1920s and '30s became the
"genetic peril" of the '60s. For the past decade or so, we've been
assaulted with the latest version. "This is drugs," begins the
public-service announcement, showing smoking butter in a hot
skillet. "This is your brain on drugs," is the famous follow-up
line as an egg is broken into the pan, where it fries furiously.
But reefer madness never happened, genetic peril remains
unsubstantiated, and that fried-egg line probably wouldn't deter a
genuinely troubled teenager from jumping into the frying pan. Scare
stories about drugs, especially when the old ones are regularly
debunked, didn't work back then to stop young people from testing
the limits, and they still don't work today.
--
-----------------------------------------------------------------
Bad things happen to bad people, too. But we don't care as much.
Nico of Elbows