Effect of Sarcosine on Symptomatology, Quality of Life, Oxidative Stress and Glutamatergic Parameters in Schizophrenia
NCT ID: NCT01503359
Last Updated: 2016-09-16
Study Results
Results pending
The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.
Basic Information
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Recruitment Status
COMPLETED
Clinical Phase
PHASE2
Total Enrollment
70 participants
Study Classification
INTERVENTIONAL
Study Start Date
2012-01-31
Study Completion Date
2016-01-31
Brief Summary
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The purpose of study is to determine whether dietary supplement sarcosine is effective in treatment of schizophrenia. The investigators will assess impact of sarcosine on quality of life and sexual functioning. In this project the investigators will also measure glycine, sarcosine, BDNF, MMP-9 levels and oxydative stress parameters in blood, brain glutamatergic metabolism parameters in magnetic resonance spectroscopy and oculomotoric changes in electrooculography.
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Detailed Description
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Glutamic acid is the largest excitatory neurotransmitter in the central nervous system, the population of glutamatergic neurones represents approximately 50% of all neurones in the brain. Being closely dependent on the inhibitory GABA system, the glutamate system is responsible for the transmission and modulation of the majority of brain signals and connected with dopaminergic and serotonergic systems. The glutamate system plays an important role in the pathogenesis of schizophrenia. NMDA receptor antagonists, including phencyclidine, ketamine and MK-801, cause symptoms similar to those found in schizophrenia, as well as deterioration of mental state in patients with schizophrenia. What is important from a theoretical point of view NMDA agonists also cause negative symptoms which are not observed after amphetamine or other drugs intoxications. Based on these observations, it was assumed that normalization of glutamatergic transmission may result in an improvement in schizophrenia symptomatology.
According to the assumptions of this hypothesis, attempts were made to stimulate transmission within this system. Due to the high risk of excitotoxic effects induction therapy with glutamic acid is not administered (hyperactivity of glutamatergic system, leading to nerve cell damage was observed in neurodegenerative diseases). Along with glutamic acid and voltage changes dependent on another glutamatergic receptor - AMPA, presence of glycine is necessary to stimulate the NMDA receptor. This widely distributed amino acid, an important element of protein chains, is present in a daily diet (average consumption amounts to 2g/day). In addition to building properties, it is of paramount importance in the central nervous system. As a primary transmitter in glycinergic neurones it belongs to the class I of neurotransmitters. Moreover, it also plays a role as a co-agonist and a modulator, for example in the glutamatergic system. Glutamic acid is released from nerve endings into the synaptic cleft, where it is re-uptaken and dispersed, which, in consequence, results in a rapid decline in its concentration in the vicinity of NMDA receptors. As a result, the time of receptor binding is short. Intrasynaptic glycine turnover is different - it resides inside the synapses permanently, depending on the concentration and, to a greater or lesser extent, binds to a modulatory site. Glial cells, with identified glycine transport system (GlyT-1) are responsible for maintaining a stable level of glycine in neuronal junctions. New research on inhibitors of this transport system (GTI) eg. sarcosine, which may have similar or better effects to glycine administration, have begun. Glycine does not bind to all the modulatory sites on NMDA receptor in vivo, and augmentation of this saturation intensifies glutamatergic transmission. This phenomenon is particularly observed in individuals with relatively low (not sufficient for maximum saturation of the receptor site) levels of synaptic glycine.
We hypothesize that supplementation of sarcosine helps achieve betterment in symptomatology, general quality of life and also cognitive functioning and other prefrontal derivatives, eg. oculomotor functions.
To extend research we planned assessing blood levels of glycine, sarcosine but also other parameters involved in glutamatergic transmission such as BDNF and metalproteinase MMP-9. Knowing excitotoxic properties of glutamate TBARS (thiobarbituric acid reactive substances) - oxidative stress related will be assessed.
Methodology of the study. We plan to enroll 60-70 patients in stable mental state meeting criteria for schizophrenia according to ICD-10 with predominant negative symptoms (minimum of 21 points and severity of each negative symptom at least 3 points in PANSS-Negative subscale).
Main study part will be continued for 26 weeks (T0-T26) and 10 visits (W1-W10). The preceding 12-week period (W0-W1) will be used for evaluation of stability of mental state and pharmacotherapy.
Patients on visit T0 will be randomized to two comparable groups of 30 patients (sarcosine and control group). Researchers and patients will not have information on the administered treatment.
During the study patients will receive previous antipsychotic treatment (at least 3-month without dosage change). Mental stability will be assessed during the preceding period (W1 and W0 visit - 12 weeks before W1). Sarcosine (or placebo) will be augmented between visits W1 and W9, the subsequent period (between W9 and W10), will be used to evaluate the consequences of withdrawal sarcosine (and placebo).
Information on the history of the disease, and current mental status will be obtained during the psychiatric examination, in part, standardized by the use of commonly accepted psychiatric scales (PANSS, Calgary Depression Scale, CGI, SAS and quality of life and sexual activity scales). Assessment of the use of psychiatric scales will be used on each of the visits.
As the basic tools used to study cognitive functioning test Wisconsin Card Sorting (WCST), Trail Making Test (TMT) and Stroop Test will be used. Psychological testing will be performed by a psychologist on visits W1, W6 and W9.
Assessment of metabolism of glycine and glutamic acid in brain tissue in the frontal cortex and hippocampus using magnetic resonance spectroscopy, electrooculography, parameter of oxidative stress - T-BARS and blood assessments (glycine, sarcosine, BDNF and MMP-9) will be performed on visits W1 and W9.
According to the assumptions of this hypothesis, attempts were made to stimulate transmission within this system. Due to the high risk of excitotoxic effects induction therapy with glutamic acid is not administered (hyperactivity of glutamatergic system, leading to nerve cell damage was observed in neurodegenerative diseases). Along with glutamic acid and voltage changes dependent on another glutamatergic receptor - AMPA, presence of glycine is necessary to stimulate the NMDA receptor. This widely distributed amino acid, an important element of protein chains, is present in a daily diet (average consumption amounts to 2g/day). In addition to building properties, it is of paramount importance in the central nervous system. As a primary transmitter in glycinergic neurones it belongs to the class I of neurotransmitters. Moreover, it also plays a role as a co-agonist and a modulator, for example in the glutamatergic system. Glutamic acid is released from nerve endings into the synaptic cleft, where it is re-uptaken and dispersed, which, in consequence, results in a rapid decline in its concentration in the vicinity of NMDA receptors. As a result, the time of receptor binding is short. Intrasynaptic glycine turnover is different - it resides inside the synapses permanently, depending on the concentration and, to a greater or lesser extent, binds to a modulatory site. Glial cells, with identified glycine transport system (GlyT-1) are responsible for maintaining a stable level of glycine in neuronal junctions. New research on inhibitors of this transport system (GTI) eg. sarcosine, which may have similar or better effects to glycine administration, have begun. Glycine does not bind to all the modulatory sites on NMDA receptor in vivo, and augmentation of this saturation intensifies glutamatergic transmission. This phenomenon is particularly observed in individuals with relatively low (not sufficient for maximum saturation of the receptor site) levels of synaptic glycine.
We hypothesize that supplementation of sarcosine helps achieve betterment in symptomatology, general quality of life and also cognitive functioning and other prefrontal derivatives, eg. oculomotor functions.
To extend research we planned assessing blood levels of glycine, sarcosine but also other parameters involved in glutamatergic transmission such as BDNF and metalproteinase MMP-9. Knowing excitotoxic properties of glutamate TBARS (thiobarbituric acid reactive substances) - oxidative stress related will be assessed.
Methodology of the study. We plan to enroll 60-70 patients in stable mental state meeting criteria for schizophrenia according to ICD-10 with predominant negative symptoms (minimum of 21 points and severity of each negative symptom at least 3 points in PANSS-Negative subscale).
Main study part will be continued for 26 weeks (T0-T26) and 10 visits (W1-W10). The preceding 12-week period (W0-W1) will be used for evaluation of stability of mental state and pharmacotherapy.
Patients on visit T0 will be randomized to two comparable groups of 30 patients (sarcosine and control group). Researchers and patients will not have information on the administered treatment.
During the study patients will receive previous antipsychotic treatment (at least 3-month without dosage change). Mental stability will be assessed during the preceding period (W1 and W0 visit - 12 weeks before W1). Sarcosine (or placebo) will be augmented between visits W1 and W9, the subsequent period (between W9 and W10), will be used to evaluate the consequences of withdrawal sarcosine (and placebo).
Information on the history of the disease, and current mental status will be obtained during the psychiatric examination, in part, standardized by the use of commonly accepted psychiatric scales (PANSS, Calgary Depression Scale, CGI, SAS and quality of life and sexual activity scales). Assessment of the use of psychiatric scales will be used on each of the visits.
As the basic tools used to study cognitive functioning test Wisconsin Card Sorting (WCST), Trail Making Test (TMT) and Stroop Test will be used. Psychological testing will be performed by a psychologist on visits W1, W6 and W9.
Assessment of metabolism of glycine and glutamic acid in brain tissue in the frontal cortex and hippocampus using magnetic resonance spectroscopy, electrooculography, parameter of oxidative stress - T-BARS and blood assessments (glycine, sarcosine, BDNF and MMP-9) will be performed on visits W1 and W9.
Conditions
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Schizophrenia
Study Design
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Allocation Method
RANDOMIZED
Intervention Model
PARALLEL
Primary Study Purpose
TREATMENT
Blinding Strategy
DOUBLE
Participants
Investigators
Study Groups
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Dietary Supplement: Sarcosine
Sarcosine Group
Group Type
EXPERIMENTAL
Sarcosine
Intervention Type
DIETARY_SUPPLEMENT
Sarcosine group patients will receive 2 grams of sarcosine once a day in the morning for 6 months.
Placebo group patients will receive 2 grams of placebo once a day in the morning for 6 months.
Placebo
Control Group
Group Type
PLACEBO_COMPARATOR
Sarcosine
Intervention Type
DIETARY_SUPPLEMENT
Sarcosine group patients will receive 2 grams of sarcosine once a day in the morning for 6 months.
Placebo group patients will receive 2 grams of placebo once a day in the morning for 6 months.
Interventions
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Sarcosine
Sarcosine group patients will receive 2 grams of sarcosine once a day in the morning for 6 months.
Placebo group patients will receive 2 grams of placebo once a day in the morning for 6 months.
Intervention Type
DIETARY_SUPPLEMENT
Other Intervention Names
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glycine transporter inhibitor
GlyT1 inhibitor
Eligibility Criteria
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Inclusion Criteria
\- Diagnosis of schizophrenia (ICD-10)
Other criteria related to the diagnosis verified during the selection visit:
* The score for the PANSS negative symptoms subscale ≥ 21,
* Severity of individual symptoms in the PANSS positive symptoms subscale may not exceed 3 points.
Other criteria related to the diagnosis verified during the selection visit:
* The score for the PANSS negative symptoms subscale ≥ 21,
* Severity of individual symptoms in the PANSS positive symptoms subscale may not exceed 3 points.
Exclusion Criteria
General
* lack of written informed consent,
* risk of noncompliance during the study period,
* patients who can not be assessed throughout the study period (eg. due to travel or vacations),
* pregnancy or breastfeeding,
* women of childbearing potential not using effective contraception (ie. birth control pill, surgical sterilization, hormonal contraceptive injection, IUD, contraceptive implant, patch, or condoms),
* participation in another clinical study, currently or within 3 months before the visit of a selection panel
* patients previously subjected to selection for this study.
Medical and Therapeutic Criteria Associated with schizophrenia
* patients in acute psychosis, severe symptoms of productive,
* patients taking clozapine,
* declaring suicidal tendencies, history of committing suicide in the past year.
Associated with other psychiatric disorders
* patients currently meeting criteria for ICD-10 diagnosis of mental disorder other than schizophrenia (in the last 6 months before the visit of a selection), confirmed by the MINI questionnaire
* patients showing a prevalent and / or severe symptoms of depression (even without meeting criteria for major depressive episode according to ICD-10 criteria),
* patients ever diagnosed with lifetime bipolar disorder,
* patients with severe personality disorders, particularly type of antisocial, borderline, or histrionicznego that could affect the assessment of test results.
Other
* abuse or addiction to alcohol or psychoactive substances (excluding nicotine) within the last 6 months, according to the criteria of ICD-10, confirmed by the MINI questionnaire,
* disturbances occurring in the form of somatic according to ICD-10 criteria,
* Delirium or dementia according to ICD-10 criteria,
* current diagnosis of neurological diseases (eg, stroke, seizures, migraine, multiple sclerosis),
* liver failure (ie, cirrhosis or active liver disease), diagnosed acute or chronic hepatitis,
* severe or uncontrolled somatic disease that could affect the course of the study (eg cancer, cardiovascular, respiratory, metabolic or oral, severe renal failure, unstable diabetes type I or II, morbid obesity, untreated or uncontrolled hypertension, clinically significant blood),
* thyroid dysfunction (especially hypothyroidism) untreated or uncontrolled, T - thyroid hormones treatment started, terminated or modified in the 3 months before the selection visit,
* hormone replacement therapy started, terminated or modified in the 3 months before the selection visit.
* recognized disorders of hemostasis,
Associated with a prior or concomitant treatment Particular caution should be maintained when using drugs likely to affect the central nervous system - their mechanism of action could affect the course of the study. Use of these substances after the selection visit is not allowed.
* lack of written informed consent,
* risk of noncompliance during the study period,
* patients who can not be assessed throughout the study period (eg. due to travel or vacations),
* pregnancy or breastfeeding,
* women of childbearing potential not using effective contraception (ie. birth control pill, surgical sterilization, hormonal contraceptive injection, IUD, contraceptive implant, patch, or condoms),
* participation in another clinical study, currently or within 3 months before the visit of a selection panel
* patients previously subjected to selection for this study.
Medical and Therapeutic Criteria Associated with schizophrenia
* patients in acute psychosis, severe symptoms of productive,
* patients taking clozapine,
* declaring suicidal tendencies, history of committing suicide in the past year.
Associated with other psychiatric disorders
* patients currently meeting criteria for ICD-10 diagnosis of mental disorder other than schizophrenia (in the last 6 months before the visit of a selection), confirmed by the MINI questionnaire
* patients showing a prevalent and / or severe symptoms of depression (even without meeting criteria for major depressive episode according to ICD-10 criteria),
* patients ever diagnosed with lifetime bipolar disorder,
* patients with severe personality disorders, particularly type of antisocial, borderline, or histrionicznego that could affect the assessment of test results.
Other
* abuse or addiction to alcohol or psychoactive substances (excluding nicotine) within the last 6 months, according to the criteria of ICD-10, confirmed by the MINI questionnaire,
* disturbances occurring in the form of somatic according to ICD-10 criteria,
* Delirium or dementia according to ICD-10 criteria,
* current diagnosis of neurological diseases (eg, stroke, seizures, migraine, multiple sclerosis),
* liver failure (ie, cirrhosis or active liver disease), diagnosed acute or chronic hepatitis,
* severe or uncontrolled somatic disease that could affect the course of the study (eg cancer, cardiovascular, respiratory, metabolic or oral, severe renal failure, unstable diabetes type I or II, morbid obesity, untreated or uncontrolled hypertension, clinically significant blood),
* thyroid dysfunction (especially hypothyroidism) untreated or uncontrolled, T - thyroid hormones treatment started, terminated or modified in the 3 months before the selection visit,
* hormone replacement therapy started, terminated or modified in the 3 months before the selection visit.
* recognized disorders of hemostasis,
Associated with a prior or concomitant treatment Particular caution should be maintained when using drugs likely to affect the central nervous system - their mechanism of action could affect the course of the study. Use of these substances after the selection visit is not allowed.
Minimum Eligible Age
18 Years
Maximum Eligible Age
60 Years
Eligible Sex
ALL
Accepts Healthy Volunteers
No
Sponsors
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Medical University of Lodz
OTHER
Sponsor Role
lead
Responsible Party
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Dominik Strzelecki MD PhD
Principal Investigator
Responsibility Role
PRINCIPAL_INVESTIGATOR
Principal Investigators
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Dominik Strzelecki, MD, PhD
Role: PRINCIPAL_INVESTIGATOR
Department of Affective and Psychotic Disorders, Medical University of Lodz
Jolanta Rabe-Jabłońska, MD, PhD
Role: STUDY_CHAIR
Department of Affective and Psychotic Disorders, Medical University of Lodz
Locations
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Central Clinical Hospital
Lodz, Czechosłowacka 8/10, Poland
Site Status
Countries
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Poland
References
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Tsai G, Lane HY, Yang P, Chong MY, Lange N. Glycine transporter I inhibitor, N-methylglycine (sarcosine), added to antipsychotics for the treatment of schizophrenia. Biol Psychiatry. 2004 Mar 1;55(5):452-6. doi: 10.1016/j.biopsych.2003.09.012.
Reference Type
BACKGROUND
Tsai G, van Kammen DP, Chen S, Kelley ME, Grier A, Coyle JT. Glutamatergic neurotransmission involves structural and clinical deficits of schizophrenia. Biol Psychiatry. 1998 Oct 15;44(8):667-74. doi: 10.1016/s0006-3223(98)00151-6.
Reference Type
BACKGROUND
Tuominen HJ, Tiihonen J, Wahlbeck K. Glutamatergic drugs for schizophrenia. Cochrane Database Syst Rev. 2006 Apr 19;2006(2):CD003730. doi: 10.1002/14651858.CD003730.pub2.
Reference Type
BACKGROUND
West AR, Floresco SB, Charara A, Rosenkranz JA, Grace AA. Electrophysiological interactions between striatal glutamatergic and dopaminergic systems. Ann N Y Acad Sci. 2003 Nov;1003:53-74. doi: 10.1196/annals.1300.004.
Reference Type
BACKGROUND
Yurgelun-Todd DA, Coyle JT, Gruber SA, Renshaw PF, Silveri MM, Amico E, Cohen B, Goff DC. Functional magnetic resonance imaging studies of schizophrenic patients during word production: effects of D-cycloserine. Psychiatry Res. 2005 Jan 30;138(1):23-31. doi: 10.1016/j.pscychresns.2004.11.006.
Reference Type
BACKGROUND
Zafra F, Aragon C, Olivares L, Danbolt NC, Gimenez C, Storm-Mathisen J. Glycine transporters are differentially expressed among CNS cells. J Neurosci. 1995 May;15(5 Pt 2):3952-69. doi: 10.1523/JNEUROSCI.15-05-03952.1995.
Reference Type
BACKGROUND
Carlsson A, Waters N, Waters S, Carlsson ML. Network interactions in schizophrenia - therapeutic implications. Brain Res Brain Res Rev. 2000 Mar;31(2-3):342-9. doi: 10.1016/s0165-0173(99)00050-8.
Reference Type
BACKGROUND
Carlsson M, Carlsson A. Interactions between glutamatergic and monoaminergic systems within the basal ganglia--implications for schizophrenia and Parkinson's disease. Trends Neurosci. 1990 Jul;13(7):272-6. doi: 10.1016/0166-2236(90)90108-m.
Reference Type
BACKGROUND
Coyle JT. The glutamatergic dysfunction hypothesis for schizophrenia. Harv Rev Psychiatry. 1996 Jan-Feb;3(5):241-53. doi: 10.3109/10673229609017192.
Reference Type
BACKGROUND
Gao XM, Sakai K, Roberts RC, Conley RR, Dean B, Tamminga CA. Ionotropic glutamate receptors and expression of N-methyl-D-aspartate receptor subunits in subregions of human hippocampus: effects of schizophrenia. Am J Psychiatry. 2000 Jul;157(7):1141-9. doi: 10.1176/appi.ajp.157.7.1141.
Reference Type
BACKGROUND
Goff DC, Herz L, Posever T, Shih V, Tsai G, Henderson DC, Freudenreich O, Evins AE, Yovel I, Zhang H, Schoenfeld D. A six-month, placebo-controlled trial of D-cycloserine co-administered with conventional antipsychotics in schizophrenia patients. Psychopharmacology (Berl). 2005 Apr;179(1):144-50. doi: 10.1007/s00213-004-2032-2. Epub 2004 Oct 21.
Reference Type
BACKGROUND
Goff DC, Coyle JT. The emerging role of glutamate in the pathophysiology and treatment of schizophrenia. Am J Psychiatry. 2001 Sep;158(9):1367-77. doi: 10.1176/appi.ajp.158.9.1367.
Reference Type
BACKGROUND
Javitt DC, Silipo G, Cienfuegos A, Shelley AM, Bark N, Park M, Lindenmayer JP, Suckow R, Zukin SR. Adjunctive high-dose glycine in the treatment of schizophrenia. Int J Neuropsychopharmacol. 2001 Dec;4(4):385-91. doi: 10.1017/S1461145701002590.
Reference Type
BACKGROUND
Javitt DC, Zukin SR. Recent advances in the phencyclidine model of schizophrenia. Am J Psychiatry. 1991 Oct;148(10):1301-8. doi: 10.1176/ajp.148.10.1301.
Reference Type
BACKGROUND
Lane HY, Liu YC, Huang CL, Chang YC, Liau CH, Perng CH, Tsai GE. Sarcosine (N-methylglycine) treatment for acute schizophrenia: a randomized, double-blind study. Biol Psychiatry. 2008 Jan 1;63(1):9-12. doi: 10.1016/j.biopsych.2007.04.038. Epub 2007 Jul 20.
Reference Type
BACKGROUND
Lane HY, Huang CL, Wu PL, Liu YC, Chang YC, Lin PY, Chen PW, Tsai G. Glycine transporter I inhibitor, N-methylglycine (sarcosine), added to clozapine for the treatment of schizophrenia. Biol Psychiatry. 2006 Sep 15;60(6):645-9. doi: 10.1016/j.biopsych.2006.04.005. Epub 2006 Jun 14.
Reference Type
BACKGROUND
Law AJ, Deakin JF. Asymmetrical reductions of hippocampal NMDAR1 glutamate receptor mRNA in the psychoses. Neuroreport. 2001 Sep 17;12(13):2971-4. doi: 10.1097/00001756-200109170-00043.
Reference Type
BACKGROUND
McBain CJ, Mayer ML. N-methyl-D-aspartic acid receptor structure and function. Physiol Rev. 1994 Jul;74(3):723-60. doi: 10.1152/physrev.1994.74.3.723. No abstract available.
Reference Type
BACKGROUND
Olney JW, Newcomer JW, Farber NB. NMDA receptor hypofunction model of schizophrenia. J Psychiatr Res. 1999 Nov-Dec;33(6):523-33. doi: 10.1016/s0022-3956(99)00029-1.
Reference Type
BACKGROUND
Strzelecki D, Podgorski M, Kaluzynska O, Stefanczyk L, Kotlicka-Antczak M, Gmitrowicz A, Grzelak P. Adding Sarcosine to Antipsychotic Treatment in Patients with Stable Schizophrenia Changes the Concentrations of Neuronal and Glial Metabolites in the Left Dorsolateral Prefrontal Cortex. Int J Mol Sci. 2015 Oct 15;16(10):24475-89. doi: 10.3390/ijms161024475.
Reference Type
DERIVED
Strzelecki D, Podgorski M, Kaluzynska O, Gawlik-Kotelnicka O, Stefanczyk L, Kotlicka-Antczak M, Gmitrowicz A, Grzelak P. Supplementation of antipsychotic treatment with sarcosine - GlyT1 inhibitor - causes changes of glutamatergic (1)NMR spectroscopy parameters in the left hippocampus in patients with stable schizophrenia. Neurosci Lett. 2015 Oct 8;606:7-12. doi: 10.1016/j.neulet.2015.08.039. Epub 2015 Aug 22.
Reference Type
DERIVED
Other Identifiers
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N N402 268836
Identifier Type: OTHER_GRANT
Identifier Source: secondary_id
PULSAR
Identifier Type: -
Identifier Source: org_study_id
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