SNPMiner Trials by Shray Alag


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Report for SNP rs1799971

Developed by Shray Alag, 2020.
SNP Clinical Trial Gene

There are 4 clinical trials

Clinical Trials


1 Effects of Sulfasalazine on BOLD Response to Alcohol Cues

The overarching objective of this pilot study is to apply both neuroimaging and pharmacogenetic tools to the study of alcohol dependence. This proposed research will provide a mechanistic test of the function of the genetic variation. The specific aims and hypotheses are to test whether Sulfasalazine, as compared to placebo, diminishes blood-oxygen-level dependent (BOLD) response to alcohol cues in the striatum and prefrontal cortex (PFC). To test the hypothesis, we will compare Sulfasalazine treatment with placebo treatment on BOLD difference maps for the contrast alcohol minus control. We will also explore whether specific genetic variations influence this effect. A double-blind, placebo-controlled 2 (Medication: Sulfasalazine 1500 mg vs. placebo control) x 2 (Cue: Alcohol Cue vs. Control cue) within-subjects, crossover design will be used to test the hypothesis that Sulfasalazine reduces the BOLD response in the striatum and prefrontal cortex after exposure to alcohol cues. Twenty alcohol-dependent participants will complete two rounds of the study medication followed by an functional magnetic resonance imaging (fMRI) scan, during which they will complete an alcohol cue-exposure task. The order of the medication condition will be counterbalanced such that subjects will be randomly assigned to receive either Sulfasalazine (1500 mg) in the first session and placebo in the second session one week later (or vice versa). This pilot study will help to determine whether NMDA receptors play a role in cue-elicited activation of key areas of the brain implicated in the development and maintenance of substance use disorders. Furthermore, if Sulfasalazine reduces cue-elicited activation of these brain regions, as hypothesized; this study will lay the groundwork for a larger trial on the efficacy of Sulfasalazine as a treatment for substance use disorders.

NCT01312129 Alcohol Dependence Drug: Sulfasalazine Drug: Placebo
MeSH:Alcoholism

In an early study, an A to G single nucleotide polymorphism (SNP; rs1799971) of the mu opiate receptor gene (OPRM1) predicted 12 week abstinence after treatment of alcohol dependence with naltrexone (Oslin et al 2003).

Primary Outcomes

Description: Test whether Sulfasalazine, as compared to placebo, diminishes blood-oxygen-level dependent (BOLD) response to alcohol cues in the striatum and prefrontal cortex (PFC). BOLD response refers to brain activation in response to the presence of oxygen in a particular part of the brain. To test the hypothesis, we will compare Sulfasalazine treatment with placebo treatment. During the fMRI scan session, participants will be presented with the alcohol cue task. We will compare the difference in BOLD response during the presence of alcohol vs. a novel substance during the alcohol cue task. Outcome data collected during the alcohol cue task will provide us with BOLD response data for each intervention period. We will analyze the outcome data using FSL (Oxford Centre for Functional MRI of the Brain (FMRIB) Software - a collection of functional and structural brain image analysis tools).

Measure: % BOLD Response Increase Above Baseline

Time: Over two weeks

2 Using Pharmacogenetics to Better Evaluate Naltrexone for Treating Stimulant Abuse

This investigation will be the first study assessing genetic modulation of naltrexone's NTX effects upon the abuse liability of a stimulant drug (methamphetamine). The study team will assess the ability of oral NTX to block the reinforcing and positive subjective effects of intranasal (IN) methamphetamine (30mg/70kg). This investigation could identify an important Gene x Pharmacological interaction, contributing to the personalization of stimulant abuse pharmacotherapy.

NCT03226223 Substance Use Disorders Methamphetamine Abuse Drug: Intranasal Methamphetamine
MeSH:Substance-Related Disorders

Substance Use Disorders Methamphetamine Abuse Substance-Related Disorders A recent meta-analysis concluded that the OPRM1 A118G SNP (rs1799971) significantly moderates the treatment efficacy of Naltrexone (NTX) in treating alcohol abuse, increasing the treatment efficacy by over 2-fold among G-allele carriers (AG/GG).

Primary Outcomes

Description: To assess the reinforcing effects of methamphetamine, participants complete a drug vs. money self-administration procedure. The outcome measure for this procedure is their percentage of choices for drug (methamphetamine) choices.

Measure: Percentage of methamphetamine choices.

Time: 1 day.

Secondary Outcomes

Description: Participant ratings of methamphetamine "Liking," on a 100 mm visual analog scale. Participants are asked to indicate on a 100 mm line the extent to which they agree with the description of the drug provided. The 0 mm end of the line indicates "Not at All," while the 100 mm indicates "Extremely."

Measure: Positive subjective effects of methamphetamine.

Time: 1 day

3 Efficacy of Transcranial Direct Current Stimulation for Severe Refractory Primary Dysmenorrhea: Translational and Genetic Neuroimaging Studies

Primary Dysmenorrhea (PDM), defined as menstrual pain without discernable organic causes, is inexorably common in adolescent women, about 40-90% of women may suffer from it, and 20% of them can be severe in the context of being refractory to medication, daily function impairment, and having pain of severe degree. Novel therapeutic method is in need for pain alleviation for this particular phenotype. We have previously reported that PDM females may engage motor-cortex based descending pain modulation system in our resting-state functional Magnetic Resonance Imaging (rs-fMRI) and thermal pain-activation fMRI studies. Based on the reported analgesic efficacy of transcranial Direct Current Stimulation (tDCS) on the motor cortex for various experimental painful conditions and clinical pain disorders, we reason that tDCS can be effective for the severe and medication-refractory PDM patients. This study aim to investigate the analgesic efficacy of tDCS in severe PDMs and to elucidate the dynamic brain neuroplasticity in the context of functional connectivity (FC) of pain matrix after tDCS intervention. We will recruit 30 severe PDMs and randomly allocate them to either real or sham group in a triple-blind manner. rs-fMRI for functional connectivity analysis will be performed before and after the tDCS intervention. The imaging data will be correlated with behavioral and psychological measurements. This is the first study in the literature investigating the tDCS efficacy for severe PDM. The result can promise a new possibility for clinical application.

NCT03594916 Primary Dysmenorrhea Device: Active tDCS Device: Sham tDCS
MeSH:Dysmenorrhea
HPO:Dysmenorrhea

To genotype the single nucleotide polymorphism genotyping (i.e., BDNF Val66Met polymorphism (rs6265), COMT Val158Met polymorphism (rs4680), OPRM1 (rs1799971), 5HTR2A (rs6313), SLC6A4 (rs25531)) from blood specimen.

Primary Outcomes

Description: pain scale; from 0 to 10; score 0: no pain, score 10: unbearable pain

Measure: Visual Analog Scale (VAS)

Time: change from baseline (1st menstrual phase, before tDCS) at one month (2nd menstrual phase, with tDCS), change from baseline (1st menstrual phase, before tDCS) at two months (3rd menstrual phase)

Description: Resting-state functional magnetic resonance imaging (rs-fMRI) is a well established method of functional magnetic resonance imaging (fMRI) that is used to evaluate regional interactions in the brain that occur in a resting (task-negative) state, when a subject is not performing an explicit task. Functional connectivity is the connectivity between brain regions that share functional properties, it can be defined as the correlation between spatially remote neurophysiological events, expressed as the neural networks of brain.

Measure: Functional connectivity of rs-fMRI Imaging

Time: change from baseline (before tDCS, before 2nd menstrual phase) at one week (after tDCS completion), change from baseline (before tDCS, before 2nd menstrual phase) at four weeks (before the 3rd menstrual phase)

Secondary Outcomes

Description: To assess the threshold of thermal sensation (cold, cold-pain, heat, heat-pain; from 0 to 50 centigrade temperature), according to the established protocol of an ascending limit approach for heat pain and a descending limit approach for cold pain.

Measure: Quantitative sensory testing (QST)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess anxious symptoms; from 20 to 80; score 20: not anxious, score 80: extremely anxious

Measure: Spielberger State-Trait Anxiety Inventory (STAI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess anxious symptoms; from 0 to 63; score 0: not anxious, score 63: extremely anxious

Measure: Beck Anxiety Inventory (BAI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess depressive symptoms; from 0 to 63; score 0: not depressed, score 63: extremely depressed

Measure: Beck Depression Inventory (BDI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess pain-maladaptive psychological status; from 0 to 52; score 0: not pain Catastrophizing , score 52: extremely pain Catastrophizing

Measure: Pain Catastrophizing Scale (PCS)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess pain status; from 0 to 78; score 0: not painful, score 78: extremely painful

Measure: Long-form McGill Pain Questionnaire (MPQ)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess quality of life; he SF-36 consists of eight scaled scores, which are the weighted sums of the questions in their section. Each scale is directly transformed into a 0-100 scale on the assumption that each question carries equal weight. From 0 to 100; score 0: equivalent to maximum disability, score 100: no disability.

Measure: Short-Form Health Survey (SF-36)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess testosterone, progesterone, estrogen

Measure: Blood Hormones Measurement

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase)

Description: To genotype the single nucleotide polymorphism genotyping (i.e., BDNF Val66Met polymorphism (rs6265), COMT Val158Met polymorphism (rs4680), OPRM1 (rs1799971), 5HTR2A (rs6313), SLC6A4 (rs25531)) from blood specimen

Measure: Genotyping

Time: baseline

Description: To assure blinding efficacy; Patients do self-assessment about whether they receive real tDCS or sham tDCS. Assessment questionnaire:1 or 0. 1: real tDCS; 0: sham tDCS.

Measure: Efficacy of tDCS blinding

Time: At 1 months after tDCS intervention

4 Neuromodulation Effect of Transcranial Direct Current Stimulation in Severe Refractory Primary Dysmenorrhea: BDNF and MEG Study

Primary Dysmenorrhea (PDM), defined as menstrual pain without discernable organic causes, is inexorably common in adolescent women, about 40-90% of women may suffer from it, and 20% of them can be severe in the context of being refractory to medication, daily function impairment, and having pain of severe degree. Novel therapeutic method is in need for pain alleviation for this particular phenotype. It has been reported that PDM females may engage motor-cortex based descending pain modulation system in our resting-state functional Magnetic Resonance Imaging (rs-fMRI) and thermal pain-activation fMRI studies. Based on the reported analgesic efficacy of transcranial Direct Current Stimulation (tDCS) on the motor cortex for various experimental painful conditions and clinical pain disorders, it is plausible that tDCS can be effective for the severe and medication-refractory PDM patients. This study aim to investigate the analgesic efficacy of tDCS in severe PDMs and to elucidate the dynamic brain neuroplasticity in the context of experimental pain after tDCS intervention. Thirty severe PDMs will be recruited and randomly allocated to either real or sham group in a triple-blind manner. Experimental pain electrical stimulation will be performed before and after the tDCS intervention. The experimental pain-evoked magnetoencephamographic (MEG) data will be correlated with behavioral and psychological measurements. This is the first study in the literature investigating the tDCS efficacy for acute pain in severe PDM. The result can promise a new possibility for clinical application.

NCT03608215 Primary Dysmenorrhea Device: Active tDCS Device: Sham tDCS
MeSH:Dysmenorrhea
HPO:Dysmenorrhea

To genotype the single nucleotide polymorphism genotyping (i.e., BDNF Val66Met polymorphism (rs6265), COMT Val158Met polymorphism (rs4680), OPRM1 (rs1799971), 5HTR2A (rs6313), SLC6A4 (rs25531)) from blood specimen.

Primary Outcomes

Description: pain scale; from 0 to 10; score 0: no pain, score 10: unbearable pain

Measure: Visual Analog Scale (VAS)

Time: change from baseline (1st menstrual phase, before tDCS) at one month (2nd menstrual phase, with tDCS), change from baseline (1st menstrual phase, before tDCS) at two months (3rd menstrual phase)

Description: Somatosensory evoked magnetic fields (SEFs) is a well established magnetoencephalographic (MEG) cortical response evoked by electric stimulation. SEFs to experimental pain stimulation using electrical stimulator applied on the skin over the trajectory of median nerve will be used to evaluate pain-evoked cortical response.

Measure: Somatosensory evoked magnetic fields to experimental pain

Time: change from baseline (before tDCS, before 2nd menstrual phase) at one week (after tDCS completion), change from baseline (before tDCS, before 2nd menstrual phase) at four weeks (before the 3rd menstrual phase)

Secondary Outcomes

Description: To assess the threshold of thermal sensation (cold, cold-pain, heat, heat-pain; from 0 to 50 centigrade temperature), according to the established protocol of an ascending limit approach for heat pain and a descending limit approach for cold pain.

Measure: Quantitative sensory testing (QST)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess anxious symptoms; from 20 to 80; score 20: not anxious, score 80: extremely anxious

Measure: Spielberger State-Trait Anxiety Inventory (STAI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess anxious symptoms; from 0 to 63; score 0: not anxious, score 63: extremely anxious

Measure: Beck Anxiety Inventory (BAI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess depressive symptoms; from 0 to 63; score 0: not depressed, score 63: extremely depressed

Measure: Beck Depression Inventory (BDI)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess pain-maladaptive psychological status; from 0 to 52; score 0: not pain Catastrophizing , score 52: extremely pain Catastrophizing

Measure: Pain Catastrophizing Scale (PCS)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess pain status; from 0 to 78; score 0: not painful, score 78: extremely painful

Measure: Long-form McGill Pain Questionnaire (MPQ)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess quality of life; he SF-36 consists of eight scaled scores, which are the weighted sums of the questions in their section. Each scale is directly transformed into a 0-100 scale on the assumption that each question carries equal weight. From 0 to 100; score 0: equivalent to maximum disability, score 100: no disability.

Measure: Short-Form Health Survey (SF-36)

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at five weeks (after the 3rd menstrual phase)

Description: To assess testosterone, progesterone, estrogen

Measure: Blood Hormones Measurement

Time: change from baseline (before tDCS) at one week (after tDCS completion), change from baseline (before tDCS) at four weeks (before the 3rd menstrual phase)

Description: To genotype the single nucleotide polymorphism genotyping (i.e., BDNF Val66Met polymorphism (rs6265), COMT Val158Met polymorphism (rs4680), OPRM1 (rs1799971), 5HTR2A (rs6313), SLC6A4 (rs25531)) from blood specimen

Measure: Genotyping

Time: baseline

Description: To assure blinding efficacy; Patients do self-assessment about whether they receive real tDCS or sham tDCS. Assessment questionnaire:1 or 0. 1: real tDCS; 0: sham tDCS.

Measure: Efficacy of tDCS blinding

Time: At 1 months after tDCS intervention


HPO Nodes