somedud
Bluelighter
Functional Consequnces/Serotonin release in MDMA users/Ex-users vs. Non -using controls
Ok, so I was googling and came across this study, which was only approved/updated in Feb 2011, because they needed to have evidence that dexfenfluramine-induced release of serotonin, and PET-radiotracer [18F]altanserin were valid methods of determining serotogenic function in the living human brain; which they did. Here: http://www.sciencedirect.com/science/article/pii/S1053811911011025
The full document (on dexfenfluramine-mediated 5 HT release after MDMA exposure, and prolonged abstinence) has yet to be released, even though the study has already been completed. Here: http://clinicaltrials.gov/show/NCT01296802
So I decieded to google a few things, and came across this link, which was the professor "Boris B. Quednow" university class notes, and mind you he was the main researcher involved in the study. His notes showed graphs of his study, which he states is still under revision/yet to be released (full document).
Here's the link with graphs of the dexfenfluramine-mediated 5-HT relasein: controls vs Ex-users vs current, as well as
5HT2A bindings in current, former and control subjects.
GRAPHS of results: http://www.neuroscience.ethz.ch/education/handouts/ZNZ_Lecture_FS_2011_Boris_Quednow.pdf
The graphs are at the bottom.
"Brain serotonin function in MDMA (ecstasy) users
Boris B. Quednow
Univ. Hospital of Psychiatry, Experimental Psychopathology, Zurich, Switzerland
Felix Hasler, Valerie Treyer, Matthias Wyss, Simon Ametamey, Alfred Buck,
Franz Vollenweider
Objectives: Chronic administration of the MDMA (“Ecstasy”) is associated
with long-term depletion of serotonin and loss of serotonin axons
in the brains of rodents and non-human primates. Moreover, it has been
consistently shown that MDMA users display dose-related neurocognitive
deficits suggesting that MDMA also affect the human serotonin system.
However, because of a multitude of methodological problems and a limited
number of studies, no firm conclusions can be established whether
chronic MDMA exposure in fact produces a long lasting serotonin deficiency
in humans. Therefore, we developed a novel method to assess
serotonin release capacity in the human brain employing [18F]altanserin
positron emission tomography (PET) after dexfenfluramine and placebo
challenge. This approach enables measuring altered serotonin-2A receptor
occupation after forced serotonin release.
Methods: We investigated serotonin release capacity in 15 current and
12 former male MDMA users, as well as in 15 matched male drug-naïve
controls. Subjects received placebo or oral doses of 60 mg of the potent
serotonin releaser dexfenfluramine on two days separated by an interval
of 14 days. Two hours after dexfenfluramine intake, 250 MBq of the
serotonin-2A receptor selective PET-radiotracer [18F]altanserin were administered
intravenously as a 30 sec bolus. Dynamic PET data were subsequently
acquired over 90 min. Moreover, in arterial blood samples drawn
for measurement of total activity, dexfenfluramine levels as well as prolactin
plasma concentration-time profiles were quantitatively determined.
Results: Current MDMA users a displayed blunted prolactin response,
and decreased serotonin-2A receptor densities and diminished serotonin
release capacity overall investigated brain regions when compared to
drug-naïve controls. Former MDMA users still showed a blunted prolactin
response and decreased serotonin-2A receptor densities, but they did not
significantly differ in their serotonin release capacity from controls.
Conclusions: These first functional data suggest that MDMA use leads
to long-lasting alterations in the serotonin system that might be reversible
only in part."
^^ This study here, I copied a few markers he posted in his slide, and came across a new verison of "THE WORLD JOURNAL OF BIOLOGICAL PSYCHIATRY" on google, which had the Abstract to the yet to be released study in its preliminary findings.
http://www.wfsbp.org/fileadmin/user_upload/WJBP_10Supp01.pdf
page 11 for anoter interested, I keyword searched MDMA in the open file, seeing how its quite large.
Now heres my question, would you mind looking at the graphs, and telling me what the ratio meaning mean in simple terms of percentages, I don't quite get how they are calculated or are relevant.
(Change in [18F]altanserin binding after 60mg dexfenfluramine (serotonin release capacity; % reduction in tracer DV) was 13% controls vs. 10.5 % in Ex-Users vs. 5% in current) <-- This is the total overall average of ALL brain regions. (I eyed out results from graph posted in link above)
Distribution volume [Vtot] of serotonin‐2A receptor density
in current,former MDMA users and controls was 1.9 Control, 1.25 current users, and 1.4 in Ex-users. <-- This was also the total overall average of all 11 brain regions studied. (eye out results from graph post in link above)
So can someone please translate this to english for me, that would be fantastic. By which I mean the DV ratios and graph interpretations, as i'm well aware most studies use the 'framing effect' to exagerate the results. I'm well versed in the concept and through understanding of the study, just not the graphs.
Thanks in advance. Discussion on the consequences based on results of this study would be good to.
P.S.
Hypothesis:If MDMA users suffer from a loss of serotonin axon terminals they should release
less serotonin after dexfenfluramine challenge and more postsynaptic receptors
should be available for the [18F]altanserin in comparison to drug‐naive controls.
Ok, so I was googling and came across this study, which was only approved/updated in Feb 2011, because they needed to have evidence that dexfenfluramine-induced release of serotonin, and PET-radiotracer [18F]altanserin were valid methods of determining serotogenic function in the living human brain; which they did. Here: http://www.sciencedirect.com/science/article/pii/S1053811911011025
The full document (on dexfenfluramine-mediated 5 HT release after MDMA exposure, and prolonged abstinence) has yet to be released, even though the study has already been completed. Here: http://clinicaltrials.gov/show/NCT01296802
So I decieded to google a few things, and came across this link, which was the professor "Boris B. Quednow" university class notes, and mind you he was the main researcher involved in the study. His notes showed graphs of his study, which he states is still under revision/yet to be released (full document).
Here's the link with graphs of the dexfenfluramine-mediated 5-HT relasein: controls vs Ex-users vs current, as well as
5HT2A bindings in current, former and control subjects.
GRAPHS of results: http://www.neuroscience.ethz.ch/education/handouts/ZNZ_Lecture_FS_2011_Boris_Quednow.pdf
The graphs are at the bottom.
"Brain serotonin function in MDMA (ecstasy) users
Boris B. Quednow
Univ. Hospital of Psychiatry, Experimental Psychopathology, Zurich, Switzerland
Felix Hasler, Valerie Treyer, Matthias Wyss, Simon Ametamey, Alfred Buck,
Franz Vollenweider
Objectives: Chronic administration of the MDMA (“Ecstasy”) is associated
with long-term depletion of serotonin and loss of serotonin axons
in the brains of rodents and non-human primates. Moreover, it has been
consistently shown that MDMA users display dose-related neurocognitive
deficits suggesting that MDMA also affect the human serotonin system.
However, because of a multitude of methodological problems and a limited
number of studies, no firm conclusions can be established whether
chronic MDMA exposure in fact produces a long lasting serotonin deficiency
in humans. Therefore, we developed a novel method to assess
serotonin release capacity in the human brain employing [18F]altanserin
positron emission tomography (PET) after dexfenfluramine and placebo
challenge. This approach enables measuring altered serotonin-2A receptor
occupation after forced serotonin release.
Methods: We investigated serotonin release capacity in 15 current and
12 former male MDMA users, as well as in 15 matched male drug-naïve
controls. Subjects received placebo or oral doses of 60 mg of the potent
serotonin releaser dexfenfluramine on two days separated by an interval
of 14 days. Two hours after dexfenfluramine intake, 250 MBq of the
serotonin-2A receptor selective PET-radiotracer [18F]altanserin were administered
intravenously as a 30 sec bolus. Dynamic PET data were subsequently
acquired over 90 min. Moreover, in arterial blood samples drawn
for measurement of total activity, dexfenfluramine levels as well as prolactin
plasma concentration-time profiles were quantitatively determined.
Results: Current MDMA users a displayed blunted prolactin response,
and decreased serotonin-2A receptor densities and diminished serotonin
release capacity overall investigated brain regions when compared to
drug-naïve controls. Former MDMA users still showed a blunted prolactin
response and decreased serotonin-2A receptor densities, but they did not
significantly differ in their serotonin release capacity from controls.
Conclusions: These first functional data suggest that MDMA use leads
to long-lasting alterations in the serotonin system that might be reversible
only in part."
^^ This study here, I copied a few markers he posted in his slide, and came across a new verison of "THE WORLD JOURNAL OF BIOLOGICAL PSYCHIATRY" on google, which had the Abstract to the yet to be released study in its preliminary findings.
http://www.wfsbp.org/fileadmin/user_upload/WJBP_10Supp01.pdf
page 11 for anoter interested, I keyword searched MDMA in the open file, seeing how its quite large.
Now heres my question, would you mind looking at the graphs, and telling me what the ratio meaning mean in simple terms of percentages, I don't quite get how they are calculated or are relevant.
(Change in [18F]altanserin binding after 60mg dexfenfluramine (serotonin release capacity; % reduction in tracer DV) was 13% controls vs. 10.5 % in Ex-Users vs. 5% in current) <-- This is the total overall average of ALL brain regions. (I eyed out results from graph posted in link above)
Distribution volume [Vtot] of serotonin‐2A receptor density
in current,former MDMA users and controls was 1.9 Control, 1.25 current users, and 1.4 in Ex-users. <-- This was also the total overall average of all 11 brain regions studied. (eye out results from graph post in link above)
So can someone please translate this to english for me, that would be fantastic. By which I mean the DV ratios and graph interpretations, as i'm well aware most studies use the 'framing effect' to exagerate the results. I'm well versed in the concept and through understanding of the study, just not the graphs.
Thanks in advance. Discussion on the consequences based on results of this study would be good to.
P.S.
Hypothesis:If MDMA users suffer from a loss of serotonin axon terminals they should release
less serotonin after dexfenfluramine challenge and more postsynaptic receptors
should be available for the [18F]altanserin in comparison to drug‐naive controls.
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