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  1. #1
    metamorphosis's Avatar
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    2.) amphetamines vs. modafinil/armodafinil,their effectivenes & effects on the brain

    pt.2)

    Modafinil, like other stimulants, increases the release of monoamines – specifically, the catecholamines norepinephrine and dopamine – from the synaptic terminals. However, modafinil also elevates histamine levels. Which is one of the differences between it and amphetamines. Modafinil has also been the target of studies, identifying effects on dopamine in the striatum and nucleus accumbens, noradrenaline in the hypothalamus and serotonin in the Amygdala and frontal cortex.

    Your Brain and What It Does
    ---AMYGDALA: Lying deep in the center of the limbic emotional brain, this powerful structure, the size and shape of an almond, is constantly alert to the needs of basic survival including sex, emotional reactions such as anger and fear. Consequently it inspires aversive cues, such as sweaty palms, and has recently been associated with a range of mental conditions including depression to even autism. It is larger in male brains, often enlarged in the brains of sociopaths and it shrinks in the elderly.
    -BRAIN STEM: The part of the brain that connects to the spinal cord. The brain stem controls functions basic to the survival of all animals, such as heart rate, breathing, digesting foods, and sleeping. It is the lowest, most primitive area of the human brain.
    CEREBELLUM: Two peach-size mounds of folded tissue located at the top of the brain stem, the cerebellum is the guru of skilled, coordinated movement (e.g., returning a tennis serve or throwing a slider down and in) and is involved in some learning pathways.
    -CEREBRUM: This is the largest brain structure in humans and accounts for about two-thirds of the brain’s mass. It is divided into two sides — the left and right hemispheres—that are separated by a deep groove down the center from the back of the brain to the forehead. These two halves are connected by long neuron branches called the corpus callosum which is relatively larger in women’s brains than in men’s. The cerebrum is positioned over and around most other brain structures, and its four lobes are specialized by function but are richly connected. The outer 3 millimeters of “gray matter” is the cerebral cortex which consists of closely packed neurons that control most of our body functions, including the mysterious state of consciousness, the senses, the body’s motor skills, reasoning and language.

    -The Frontal Lobe is the most recently-evolved part of the brain and the last to develop in young adulthood. It’s dorso-lateral prefrontal circuit is the brain’s top executive. It organizes responses to complex problems, plans steps to an objective, searches memory for relevant experience, adapts strategies to accommodate new data, guides behavior with verbal skills and houses working memory. Its orbitofrontal circuit manages emotional impulses in socially appropriate ways for productive behaviors including empathy, altruism, interpretation of facial expressions. Stroke in this area typically releases foul language and fatuous behavior patterns.
    -The Temporal Lobe controls memory storage area, emotion, hearing, and, on the left side, language.
    -The Parietal Lobe receives and processes sensory information from the body including calculating location and speed of objects.
    The Occipital Lobe processes visual data and routes it to other parts of the brain for identification and storage.
    -HIPPOCAMPUS: located deep within the brain, it processes new memories for long-term storage. If you didn't have it, you couldn't live in the present, you'd be stuck in the past of old memories. It is among the first functions to falter in Alzheimer's.
    -HYPOTHALAMUS: Located at the base of the brain where signals from the brain and the body’s hormonal system interact, the hypothalamus maintains the body’s status quo. It monitors numerous bodily functions such as blood pressure and body temperature, as well as controlling body weight and appetite.
    -THALAMUS: Located at the top of the brain stem, the Thalamus acts as a two-way relay station, sorting, processing, and directing signals from the spinal cord and mid-brain structures up to the cerebrum, and, conversely, from the cerebrum down the spinal cord to the nervous system.http://www.brainwaves.com/ "Recently, modafinil was screened at a large panel of receptors and transporters in an attempt to elucidate its pharmacology.[26] Of the sites tested, it was found to significantly act only on the dopamine transporter (DAT), inhibiting the reuptake of dopamine with an IC50 value of 4 μM.[26] Accordingly, it produces locomotor activity and extracellular dopamine concentrations in a manner similar to the selective dopamine reuptake inhibitor (DRI) vanoxerine, and blocks methamphetamine-induced dopamine release.[26] As a result, it seems that modafinil exerts its effects by acting as a weak DRI, though it cannot be ruled out that other mechanisms may also be at play.[26] On account of its action as a DRI and lack of abuse potential, modafinil was suggested as a treatment for methamphetamine addiction by the authors of the study.[26]http://en.wikipedia.org/wiki/Modafinil. Fundamental differences in modafinil vs. amphetaminehttp://www.ncbi.nlm.nih.gov/pubmed/1...ubmed_RVDocSumhttp://www.sciencedirect.com/science...6452298000153t

    Amphetamines increase the release of monoamines throughout the brain. Provigil both increases the release of monoamines and histamine levels more specifically in the hypothalamus.
    The specific monoamines increased by Provigil are dopamine in the striatum and nucleus accumbens, noradrenaline in the hypothalamus and ventrolateral preoptic nucleus, and serotonin in the amygdala and frontal cortex. Amphetamines increase the levels of norepinephrine, serotonin, and dopamine (in the nigrostriatal region- is a neural pathway that connects the substantia nigra with the striatum. It is one of the four major dopamine pathways in the brain region of the brain)inducing euphoria and with a strongly addictive potential:

    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2670101/
    Amphetamines are a competitive inhibitor of DA. Attaching directly to DA substrate binding sites on DAT. It creates a twofold action
    1)- Blocking the reuptake of DA into the neuron.
    2)- And at an even more profound level, actually entering the neuron itself. Thus separating the amphetamines m.o. a much more robust class from the allosteric reuptake inhibitors. Once inside the actual cell amphetamine then competitively inhibits DA at the VMAT. Now the function of storing DA into the synaptic vesicles is reversed causing displacement of DA . Building in the front neuronal vesicles until the cell is forced to release the DA back into the synapse by opening a new ion channel. At the same time the DAT cycle is now reversed and instead of releasing the DA into the neuron. It is now pumping it back into the synaptic cleft. Dexamphetamine has a higher proclivity for DAT. While adderall is more inclined to bind to NET. Both affect the two monoamines and release large active amounts of DA and NE into the synapse for use. And draining the cells of the normal levels of both to a high degree. Note, the spanules or xr release of these amps. do not have the same commando type of actions. Even though the pharmacological function is similar. The drugs aggressive actions are slowed significantly and lower the addiction potential, neurotoxicity, and systematic overload in the brain.

    Modafinil and its big brother, armodafinil also bind to DAT. Modafinil's lower affinity for binding to DAT, is made up for by its naturally high plasma levels. It's effect on the increase of synaptic DA leads to a tonic firing and a downstream effects on the neurotransmitters histamine and
    orexin/hypocretin. The pharmacokinetics suggest the success of its stimulating qualities are also due in part to its slow rise in plasma. The sustained plasma levels of 6-8 hrs reinforcing the tonic DA activity to promote wakefulness. Instead of a phasic DA activity that promotes reinforcement and abuse.. Armodafinil is the active R enantiomer minus the S. Armodafinil has even later times for peak levels, a longer half-life, and higher plasma levels, 6-14 hrs.
    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2670101/
    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3135062/
    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC3286657/

    The future of stimulants and cognitive enhancers

    THE AVAILABILITY AND PORTRAYAL OF STIMULANTS OVER THE INTERNET
    Ty S. Schepis, Ph.D.,1 Douglas B. Marlowe, J.D., Ph.D.,2,3 and Robert F. Forman, Ph.D.2,3,4http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2386963/

    The Future of Psychopharmacological Enhancements:
    Expectations and Policies
    Abstract-
    http://www.springerlink.com/content/d2u526x57x57txt1/
    Text-
    http://www.springerlink.com/content/...1/fulltext.pdf

  2. #2
    metamorphosis's Avatar
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    1.) amphetaminesvs.modafinil/armodafinil, their effectiveness & effects on the brain

    I posted the second half, first on the thread ;]

    Pt. 1)


    A great research paper with 220 references. This report, with a ton of links, can take you down many different avenues of the role on various stimulants!

    An analysis of the effects of stimulant drugs ( amphetamine, modafinil/armodafinil, nicotine, caffeine, histamine (H3) receptor antagonists, and sedative/hypnotics and sleep promoting drugs
    Assessment in 4 key areas:wakefulness; biology of sleep/wake and cognition; targets of wake promoting and/or cognition enhancing drugs; and ongoing clinical trials.

    Approaches to Measuring the Effects of Wake-Promoting Drugs: A Focus on Cognitive Function
    Christopher J. Edgar,1 Edward F. Pace-Schott,2 and Keith A. Wesnes3

    Abstract
    Quote:
    Objectives-
    In clinical drug development, wakefulness and wake-promotion maybe assessed by a large number of scales and questionnaires. Objective assessment of wakefulness is most commonly made using sleep latency/maintenance of wakefulness tests, polysomnography and/or behavioral measures. The purpose of the present review is to highlight the degree of overlap in the assessment of wakefulness and cognition, with consideration of assessment techniques and the underlying neurobiology of both concepts.
    Design-
    Reviews of four key areas were conducted: commonly used techniques in the assessment of wakefulness; neurobiology of sleep/wake and cognition; targets of wake promoting and/or cognition enhancing drugs; and ongoing clinical trials investigating wake promoting effects.
    Results-
    There is clear overlap between the assessment of wakefulness and cognition. There are common techniques which may be used to assess both concepts; aspects of the neurobiology of both concepts may be closely related; and wake promoting drugs may have nootropic properties (and vice-versa). Clinical trials of wake promoting drugs often, though not routinely, assess aspects of cognition.
    Conclusions-
    Routine and broad assessment of cognition in the development of wake promoting drugs may reveal important nootropic effects, which are not secondary to alertness/wakefulness, whilst existing cognitive enhancers may have under explored or unknown wake promoting properties.

    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2747813/

    Modafinil is used everyday or is often cycled to keep it's effectiveness up and tolerance down. 200mg is the most common dose. Studies have shown no benefit with an increase. The effective elimination half-life of modafinil after multiple doses is about 15 hours. Apparent steady states of total modafinil are reached after 2-4 days of dosing. Absorption of modafinil is quick, with peak plasma concentrations occurring at 2-4 hours after ingestion. Food seems to have no affect on the bioavailibity, except possibly a delay in absorption around one hour.
    Other drugs can be directly influenced by modafinil and their elimination time may be prolonged due to modafinil's effect on the cytochrome-p450 family of enzymes.
    Drugs that are largely eliminated via CYP2C19 metabolism, such as diazepam, propranolol, phenytoin (also via CYP2C9 or it's substrate) may have prolonged elimination upon use in conjunction with modafinil because of modafinils potential to inhibit the CYP2C19 and suppress CYP2C9, also to induce CYP3A4, CYP2B6, and CYP1A2.
    http://www.ingentaconnect.com/conten...00002/art00002
    http://www.ingentaconnect.com/conten...00013/art00003

    Mechanism of Action: (as a stimulant and possible use in bi-polar and uni-polar depression)
    Quote:
    Modafinil is a unique wakefulness-promoting pharmaceutical
    whose exact biochemical mechanism of action
    is not known. However, it has been shown to increase
    the levels of serotonin, histamine, and dopamine in the
    brain [4–6]. Studies done on the wakefulness-promoting
    mechanism of modafinil have proposed specific activation
    of the tuberomammillary, a cluster of magnocellular cells in the posterior hypothalamus. Which is the main source of neuronal histamine in the brain.
    Also it produces activation on orexin (a neurotransmitter that regulates arousal, wakefulness, and appetite containing neurons in the perifornical
    area, although not in other areas involved in the
    sleep–wake cycle (eg, the supraoptic nucleus) [7]. Histamine
    and orexin have been implicated in the regulation
    of wakefulness [8,9].


    Modafinil administration into rat
    nucleus accumbens resulted in a weak dopamine release
    secondary to its ability to reduce local γ-aminobutyric
    acidergic transmission [4]. By contrast, amphetamine
    strongly elevated dopamine levels in the nucleus accumbens
    and striatum. The difference in addiction potential
    between modafinil and amphetamine is postulated and explained by this difference in dopaminergic activity.
    Modafinil is also known to decrease GABA release from the
    hypothalamus[10]. Modafinil appears to be distinct from
    other psychostimulants (eg, amphetamine) by being
    highly selective for specific areas in the central nervous
    system (nuclei of the hypothalamus and amygdala) rather
    than widespread brain activation and has little effect on
    dopaminergic activity in the striatum.

    Abstract-
    http://www.springerlink.com/content/l2611pg1734228j1/
    Full text-
    http://www.springerlink.com/content/...1/fulltext.pdf




    Brain Explorer
    A great website on the brain, covering neurological aspects (maps, brain disorders, glossary, neurotransmission and more!)
    http://www.brainexplorer.org/brain_a...as_index.shtml

  3. #3
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    New Research

    Quote metamorphosis View Post
    I posted the second half, first on the thread ;]

    Pt. 1)


    A great research paper with 220 references. This report, with a ton of links, can take you down many different avenues of the role on various stimulants!

    An analysis of the effects of stimulant drugs ( amphetamine, modafinil/armodafinil, nicotine, caffeine, histamine (H3) receptor antagonists, and sedative/hypnotics and sleep promoting drugs
    Assessment in 4 key areas:wakefulness; biology of sleep/wake and cognition; targets of wake promoting and/or cognition enhancing drugs; and ongoing clinical trials.

    Approaches to Measuring the Effects of Wake-Promoting Drugs: A Focus on Cognitive Function
    Christopher J. Edgar,1 Edward F. Pace-Schott,2 and Keith A. Wesnes3

    Abstract
    Quote:
    Objectives-
    In clinical drug development, wakefulness and wake-promotion maybe assessed by a large number of scales and questionnaires. Objective assessment of wakefulness is most commonly made using sleep latency/maintenance of wakefulness tests, polysomnography and/or behavioral measures. The purpose of the present review is to highlight the degree of overlap in the assessment of wakefulness and cognition, with consideration of assessment techniques and the underlying neurobiology of both concepts.
    Design-
    Reviews of four key areas were conducted: commonly used techniques in the assessment of wakefulness; neurobiology of sleep/wake and cognition; targets of wake promoting and/or cognition enhancing drugs; and ongoing clinical trials investigating wake promoting effects.
    Results-
    There is clear overlap between the assessment of wakefulness and cognition. There are common techniques which may be used to assess both concepts; aspects of the neurobiology of both concepts may be closely related; and wake promoting drugs may have nootropic properties (and vice-versa). Clinical trials of wake promoting drugs often, though not routinely, assess aspects of cognition.
    Conclusions-
    Routine and broad assessment of cognition in the development of wake promoting drugs may reveal important nootropic effects, which are not secondary to alertness/wakefulness, whilst existing cognitive enhancers may have under explored or unknown wake promoting properties.

    http://www.ncbi.nlm.nih.gov/pmc/articles/PMC2747813/

    Modafinil is used everyday or is often cycled to keep it's effectiveness up and tolerance down. 200mg is the most common dose. Studies have shown no benefit with an increase. The effective elimination half-life of modafinil after multiple doses is about 15 hours. Apparent steady states of total modafinil are reached after 2-4 days of dosing. Absorption of modafinil is quick, with peak plasma concentrations occurring at 2-4 hours after ingestion. Food seems to have no affect on the bioavailibity, except possibly a delay in absorption around one hour.
    Other drugs can be directly influenced by modafinil and their elimination time may be prolonged due to modafinil's effect on the cytochrome-p450 family of enzymes.
    Drugs that are largely eliminated via CYP2C19 metabolism, such as diazepam, propranolol, phenytoin (also via CYP2C9 or it's substrate) may have prolonged elimination upon use in conjunction with modafinil because of modafinils potential to inhibit the CYP2C19 and suppress CYP2C9, also to induce CYP3A4, CYP2B6, and CYP1A2.
    http://www.ingentaconnect.com/conten...00002/art00002
    http://www.ingentaconnect.com/conten...00013/art00003

    Mechanism of Action: (as a stimulant and possible use in bi-polar and uni-polar depression)
    Quote:
    Modafinil is a unique wakefulness-promoting pharmaceutical
    whose exact biochemical mechanism of action
    is not known. However, it has been shown to increase
    the levels of serotonin, histamine, and dopamine in the
    brain [4–6]. Studies done on the wakefulness-promoting
    mechanism of modafinil have proposed specific activation
    of the tuberomammillary, a cluster of magnocellular cells in the posterior hypothalamus. Which is the main source of neuronal histamine in the brain.
    Also it produces activation on orexin (a neurotransmitter that regulates arousal, wakefulness, and appetite containing neurons in the perifornical
    area, although not in other areas involved in the
    sleep–wake cycle (eg, the supraoptic nucleus) [7]. Histamine
    and orexin have been implicated in the regulation
    of wakefulness [8,9].


    Modafinil administration into rat
    nucleus accumbens resulted in a weak dopamine release
    secondary to its ability to reduce local γ-aminobutyric
    acidergic transmission [4]. By contrast, amphetamine
    strongly elevated dopamine levels in the nucleus accumbens
    and striatum. The difference in addiction potential
    between modafinil and amphetamine is postulated and explained by this difference in dopaminergic activity.
    Modafinil is also known to decrease GABA release from the
    hypothalamus[10]. Modafinil appears to be distinct from
    other psychostimulants (eg, amphetamine) by being
    highly selective for specific areas in the central nervous
    system (nuclei of the hypothalamus and amygdala) rather
    than widespread brain activation and has little effect on
    dopaminergic activity in the striatum.

    Abstract-
    http://www.springerlink.com/content/l2611pg1734228j1/
    Full text-
    http://www.springerlink.com/content/...1/fulltext.pdf




    Brain Explorer
    A great website on the brain, covering neurological aspects (maps, brain disorders, glossary, neurotransmission and more!)
    http://www.brainexplorer.org/brain_a...as_index.shtml
    What do you guys think about the new Harvard University meta analysis that came out in the last three months that talked about Modafinil being safe for healthy individuals to take?

    I think this post could have that included (sorry if i missed it)

    Thanks

  4. #4
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    Hey,

    By the way, I found an interesting resource for lots of Modafinil related studies. Some of them (the ones at the top) even have a summary of the abstracts, which is really useful for people who don't know much about science, and need an explanation.

    Let me know what you think

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