Lithium treatment effects on Myo-inositol in adolescents with bipolar depression.

BACKGROUND: The neurochemical effects of lithium in adolescents with bipolar disorder largely are unknown. This study used proton magnetic resonance spectroscopy (1H MRS) to identify the in vivo effects of lithium on myo-inositol (mI) concentrations in adolescent bipolar depression. METHODS: Twenty-eight adolescents (12-18 years old) with bipolar I disorder, current episode depressed, received open-label lithium 30 mg/kg, adjusted to achieve serum levels of 1.0-1.2 mEq/L. The mI concentrations in the medial as well as the left and right lateral prefrontal cortices were measured at baseline, day 7, and day 42 of treatment. Changes in mI concentrations over time were analyzed. RESULTS: Significant main effects of time were observed for mI concentrations in the medial (p = .03) and right lateral (p = .05) prefrontal cortices. Baseline concentrations of mI were not significantly different from day 7 or day 42 concentrations. However, mI concentrations on day 42 were significantly higher than those on day 7 (p = .02) in both regions. CONCLUSIONS: This study demonstrates that prefrontal mI concentrations do not significantly change from baseline after acute and chronic lithium treatment in adolescents with bipolar depression. Further investigation of the effect of lithium on mI is warranted to better understand possible mechanisms by which lithium exerts antidepressant activity.     

Temporal change in N-acetyl-aspartate concentrations in adolescents with bipolar depression treated with lithium

OBJECTIVE: This proton magnetic resonance spectroscopy (1H MRS) study identified the in vivo effects of lithium on N-acetyl-aspartate (NAA) concentrations in adolescent bipolar depression. METHOD: Twenty eight adolescents with bipolar I disorder in a depressive episode received open-label lithium 30 mg/kg, adjusted to achieve serum levels of 1.0-1.2 mEq/L. Medial ventral and ventral lateral prefrontal NAA concentrations were measured at baseline, day 7, and day 42 of treatment. Temporal changes in NAA concentrations were analyzed and effect sizes (Cohen's d) were calculated. RESULTS: Medial ventral prefrontal NAA concentrations decreased over time (p = 0.03), with day-42 concentrations significantly lower than baseline concentrations (p = 0.01, d = 0.7). No significant time effects on NAA concentrations were observed in the left (p = 0.2) or right ventral lateral (p = 0.3) prefrontal cortices. CONCLUSIONS: In contrast with prior studies of bipolar adults, this study observes that ventral prefrontal NAA concentrations do not significantly increase from baseline following lithium treatment in adolescent bipolar depression. The results should be viewed in the context of the study's limitations, including the lack of a matched healthy control group. Additional longitudinal magnetic resonance imaging studies are warranted to understand better the role of NAA in the pathophysiology of bipolar disorder and neurochemical mechanisms by which lithium stabilizes mood.     

Low levels of N-acetyl aspartate in the left dorsolateral prefrontal cortex of pediatric bipolar patients

BACKGROUND: Increasing evidence suggests abnormalities in the structure, function, and neurochemistry of the frontal cortex in pediatric bipolar (BP) patients. We conducted a single-voxel proton magnetic resonance spectroscopy ((1)H MRS) of the left dorsolateral prefrontal cortex (DLPFC) of pediatric BP patients, expecting lower N-acetyl-aspartate (NAA) levels within that brain region compared to healthy comparison subjects. METHODS: We studied 35 pediatric BP (23 BP type I, 12 BP type II; mean age +/- SD = 13.2 +/- 2.9 years; 18 females) and 36 healthy controls (mean age +/- SD = 13.7 +/- 2.6 years, 17 females). A short echo time, single-voxel (1)H spectroscopy approach point-resolved spectroscopy (PRESS) sequence, measurements of metabolites was performed on a 1.5T Philips MR system. RESULTS: BP subjects had significantly lower NAA levels in the left DLPFC compared to healthy controls (F = 4.21, df = 1, 68, p = 0.04). There was not a significant difference between groups for phosphocreatine + creatine (PCr+Cr), glycerolphosphocholine + phosphocholine (GPC + PC), myo-inositol (mI), or glutamate. Further analyses revealed a significant reduction of NAA in our early puberty group compared to controls (Mann-Whitney U-test statistic = 52.00, p = 0.014), but not for BP versus controls in other pubertal groups. CONCLUSIONS: BP subjects have lower NAA levels in the left DLPFC compared to healthy subjects, suggesting neuronal dysfunction in this region.     

Neurochemical alterations of the brain in bipolar disorder and their implications for pathophysiology: a systematic review of the in vivo proton magnetic resonance spectroscopy findings

OBJECTIVE: To perform systematic analysis of current proton magnetic resonance spectroscopy ((1)H MRS) findings in bipolar disorder (BD). METHOD: We grouped the (1)H MRS studies documenting data on the metabolites of N-acetylaspartate (NAA), Choline (Cho), myo-inositol (mI), Glutamate (Glu)/Glutamine (Gln) and Creatine (Cr) separately, for each of the euthymic, manic, depressed adult and child/adolescent bipolar patients. RESULTS: For NAA resonance, 22 studies involving 328 adult bipolar and 349 control subjects were identified. NAA levels were lower in euthymic bipolar patients in the frontal lobe structures and hippocampus. Lithium seems to have an increasing effect on NAA in those brain regions. Available data in children indicates lower NAA levels in euthymic bipolar patients in dorsolateral prefrontal cortex (DLPFC) and cerebellar vermis. Existing data over 25 studies on 366 adult bipolar and 393 control subjects, although inconsistent, may suggest higher Cho/Cr ratios in the basal ganglia (BG) of euthymic bipolar patients. The metabolite mI seems to be increased both in euthymic and manic bipolar children, while most of the available data does not support such alteration in adults. Glu/Gln levels in adult bipolar patients were higher in all mood states compared to controls. Limited data in children supports such an alteration only in the euthymic state. CONCLUSION: The studies reviewed in this paper suggest regional abnormalities of NAA, Cho and Glu/Gln in BD, with the DLPFC, prefrontal and anterior cingulate cortices, hippocampus, and BG being specifically implicated. Systematic analysis of (1)H MRS findings so far helps to define future strategies in this field for delineation of actual neurochemical framework in BD.     

Quantitative proton magnetic resonance spectroscopy detects abnormalities in dorsolateral prefrontal cortex and motor cortex of patients with frontotemporal lobar degeneration

Frontotemporal lobar degeneration (FTLD) is a neurodegenerative disease of the frontal and temporal neocortex. The single most common pathology underlying FTLD is neuronal degeneration with ubiquitin-positive but tau-negative inclusions consisting of Tar DNA binding proteins (TDP-43). Inclusions containing TDP-43 in neurons are also the most common pathology underlying motor neuron disease (MND). The present study tested the hypothesis that abnormal metabolite patterns within the dorsolateral prefrontal cortex (DLPFC) as well as the motor cortex (MC) may be observed in FTLD patients without motor disorders, using proton magnetic resonance spectroscopy (¹H MRS). Twenty-six FTLD patients with cognitive damage and ten controls underwent multivoxel ¹H MRS. Absolute concentrations of N-acetyl aspartate (NAA), creatine (Cr), choline (Cho) and myo-inositol (mI) were measured from the DLPFC, the MC and the parietal cortex (PC, an internal control). Statistical analyses were performed for group differences between FTLD patients and controls. Comparisons were also made across brain regions (PC and DLPFC; PC and MC) within FTLD patients. Significant reductions in NAA and Cr along with increased Cho and mI were observed in the DLPFC of FTLD patients compared to controls. Significantly lower NAA and higher Cho were also observed in the MCs of patients as compared to controls. Within the FTLD patients, both the MC and the DLPFC exhibited significantly decreased NAA and elevated Cho compared to the PC. However, only the DLPFC had significantly lower Cr and higher mI. Abnormal metabolite pattern from the MC supports the hypothesis that FTLD and MND may be closely linked.     

Neuropathological evidence for ischemia in the white matter of the dorsolateral prefrontal cortex in late-life depression

BACKGROUND: Signal hyperintensities on magnetic resonance imaging in late-life depression are associated with treatment resistance and poor outcome. These lesions are probably vascular in origin and proposed sites for vascular damage include the dorsolateral prefrontal cortex (DLPFC) and anterior cingulate cortex (ACC). METHODS: We therefore examined white matter in these areas for microvascular disease and evidence of ischemia using intercellular adhesion molecule-1 (ICAM-1) and vascular adhesion molecule-1 (VCAM-1). We obtained postmortem tissue from elderly depressed (n = 20) and control (n = 20) subjects and blindly rated microvascular disease and ICAM-1 and VCAM-1 amount using quantitative image analysis in sections of the DLPFC, ACC and occipital cortex (OC; control area). RESULTS: We found a significant increase in ICAM-1 in the deep white matter of the DLPFC in the depressed group (p = 0.01) and a trend towards an increase for VCAM-1 (p = 0.10). In the gyral white matter there was a trend towards significance for both molecules (p = 0.07 and 0.10). No differences were found in the ACC or OC or for microvascular disease in any area. CONCLUSIONS: These findings are consistent with white matter ischemia in the DLPFC and lend support to the 'vascular depression' hypothesis. They implicate the DLPFC as an important site in the pathogenesis of late-life depression and have major implications for the understanding and management of late-life depression and raise the possibility of novel treatments being introduced in the future.     

Metabolic alterations in the dorsolateral prefrontal cortex after treatment with high-frequency repetitive transcranial magnetic stimulation in patients with unipolar major depression

Neuroimaging studies suggest a specific role of anterior cingulate cortex (ACC) and left dorsolateral prefrontal cortex (DLPFC) in major depression. Stimulation of the latter by means of repetitive transcranial magnetic stimulation (rTMS) as an antidepressant intervention has increasingly been investigated in the past. The objective of the present study was to examine in vivo neurochemical alterations in both brain regions in 17 patients with unipolar major depression before and after 10 days of high-frequency (20Hz) rTMS of the left DLPFC using 3-tesla proton magnetic resonance spectroscopy. Six out of seventeen patients were treatment responders, defined as a 50% reduction of the Hamilton depression rating scale. No neurochemical alterations in the ACC were detected after rTMS. As compared to the non-responders, responders had lower baseline concentrations of DLPFC glutamate which increased after successful rTMS. Correspondingly, besides a correlation between clinical improvement and an increase in glutamate concentration, an interaction between glutamate concentration changes and stimulation intensity was observed. Our results indicate that metabolic, state-dependent changes within the left DLPFC in major depressive disorder involve the glutamate system and can be reversed in a dose-dependent manner by rTMS.     

Association between dorsolateral prefrontal N-acetyl aspartate and depression in chronic back pain: an in vivo proton magnetic resonance spectroscopy study

Most studies of pain, including chronic pain, agree that depression and pain are interrelated, although the neurobiology of this relationship remains unknown. Neuroimaging studies suggest a specific role of the prefrontal brain regions in the mechanisms of mood disorders and chronic pain. The present study examines the interrelationships between regional brain N-Acetyl aspartate (NAA) levels (as identified by in vivo proton magnetic resonance spectroscopy in the right and left dorsolateral prefrontal cortex [DLPFC], orbitofrontal cortex, cingulate and thalamus), depression (as measured by the Beck Depression Inventory), and pain (as measured by short form of the McGill Pain Questionnaire) in 10 chronic back pain (CBP) patients with depression, and compared to the relationship between regional brain NAA levels and depression in 10 normal subjects (sex and age-matched). Reduction of NAA levels was demonstrated in the right DLPFC of CBP patients with depression, as compared to the normal controls (p < 0.02, two-tailed t-test). The depression levels in CBP patients were highly correlated with NAA levels in the right DLPFC (r = -0.99, p < 0.0001), and were unrelated to the other studied regional NAA in both groups, including the right DLPFC in normal subjects (p < 10(-6); comparing the difference between r values in the right DLPFC between the two groups). The pain levels in CBP patients were also associated with the right DLPFC (r = -0.62, p < 0.05), although these relationships were much weaker as compared to depression-NAA correlations (p < 0.0001; comparing the difference between r values). The interrelationships between NAA across brain regions were examined using correlation analysis, which detected different connectivity patterns between CBP patients with depression and normal subjects. These findings provide evidence for a stronger association of prefrontal NAA to depression than to pain in CBP, which may reflect the common neurobiological substrate underlying these conditions in CBP patients. Spectroscopic brain mapping of NAA, the marker of neuronal density and function, to the depression and pain measures might be used for segregation of their circuitries in the chronic pain brain.     

N-acetylaspartate levels in bipolar offspring with and at high-risk for bipolar disorder

OBJECTIVES: Studies have reported decreased N-acetylaspartate (NAA) in dorsolateral prefrontal cortex (DLPFC) of adults and children with bipolar disorder (BD), suggesting decreased neuronal density in this area. However, it is unclear if this finding represents neurodegeneration after or a trait marker present before BD onset. To address this question, we used proton magnetic resonance spectroscopy ((1)H-MRS) to compare DLPFC levels of NAA among bipolar offspring with early-onset BD, bipolar offspring with subsyndromal symptoms of BD and healthy children. METHODS: Participants were 9-18 years old, and included 60 offspring of parents with bipolar I or II disorder (32 with BD and 28 with subsyndromal symptoms of BD), and 26 healthy controls. (1)H-MRS at 3 T was used to study 8-cm(3) voxels placed in left and right DLPFC. RESULTS: There were no significant group differences in mean right or left DLPFC NAA/Cr ratios. Exploratory analyses of additional metabolites (myoinositol, choline) also yielded no significant group differences. NAA/Cr ratios were not correlated with age, duration of illness, or exposure to lithium or valproate. CONCLUSIONS: Our findings suggest that DLPFC NAA/Cr ratios cannot be used as a trait marker for BD. Although we did not find decreased DLPFC NAA/Cr ratios in children and adolescents with BD, it is still possible that such levels begin to decrease after longer durations of illness into adulthood. Longitudinal neuroimaging studies of patients with BD accounting for developmental and treatment factors are needed to further clarify the neurodegenerative aspects of BD.     

Elevation of cell adhesion molecule immunoreactivity in the anterior cingulate cortex in bipolar disorder.

BACKGROUND: Neuroimaging reports of increases in signal hyperintensities in white and deep gray matter and other work indicate that there might be an inflammatory response in affective disorders. METHODS: The microvascular immunoreactivity of intercellular adhesion molecule-1 and vascular cell adhesion molecule-1 was measured with image analysis in postmortem tissue from the anterior cingulate cortex (ACC) and dorsolateral prefrontal cortex (DLPFC) from 15 unipolar and 15 bipolar subjects and compared with each other and with 15 subjects with schizophrenia and 15 control subjects. RESULTS: Intercellular adhesion molecule-1 immunoreactivity in gray and white matter of the ACC in bipolar subjects was increased compared with control subjects (gray: p =.001; white: p <.001) and schizophrenic subjects (gray: p =.016; white: p =.025) and modestly increased in white matter compared with unipolar subjects (p =.049). No such differences were found in the DLPFC. CONCLUSIONS: These findings are consistent with the presence of an inflammatory response in the ACC in bipolar disorder.     

Proton magnetic resonance spectroscopy of the frontal lobe and cerebellar vermis in children with a mood disorder and a familial risk for bipolar disorders

OBJECTIVE: Few studies have examined the neurochemical abnormalities that might be associated with pediatric bipolar disorder. The aim of this study was to use magnetic resonance spectroscopy to evaluate several brain regions implicated in bipolar disorder in children with a mood disorder and a familial risk for bipolar disorder. We hypothesized that these children would exhibit neurochemical differences compared with healthy children of parents without a psychiatric disorder. Specifically, decreased N-acetylaspartate (NAA) and creatine and phosphocreatine (Cr) of the prefrontal cortex and cerebellar vermis would reflect impairments in neuronal function and cellular metabolism, and elevated myo-inositol (mI) would reflect impaired phosphoinositide metabolism, potentially representing early markers of neurophysiologic changes that might underlie the development of bipolar disorder. METHODS: Children with a mood disorder and at least one parent with bipolar disorder (n = 9) and healthy children (n = 10) group matched for age (8-12 years), race, sex, education, and Tanner stage were evaluated using the Washington University in St. Louis Kiddie Schedule for Affective Disorders and Schizophrenia. Proton magnetic resonance spectroscopy was acquired using 8-cc volumes within the frontal cortex, frontal white matter, and the cerebellar vermis. Metabolite ratios (NAA/Cr, cholines (Cho)/Cr, mI/Cr, NAA/Cho, NAA/mI, and Cho/mI) and concentrations (NAA, Cr, Cho, and mI) were calculated and compared between groups. RESULTS: The trend in concentration levels of NAA and Cr was approximately 8% lower for children with a mood disorder than healthy children within the cerebellar vermis. The frontal cortex in children with a mood disorder revealed elevated mI concentration levels, approximately 16% increased, compared with healthy children. CONCLUSIONS: Similar to findings in adults with bipolar disorders, neurochemical abnormalities within the frontal cortex and the cerebellar vermis were present in this preliminary comparison of children with a mood disorder and a familial risk for bipolar disorder. Larger sample sizes are needed to replicate these findings.     

Glial fibrillary acidic protein in late life major depressive disorder: an immunocytochemical study

OBJECTIVES: Depression is a common psychiatric disorder in late life. Cerebrovascular disease has been postulated as an important aetiological factor in many cases (the "vascular depression" hypothesis). Consistent with this, an inflammatory response, most probably representing ischaemia, has been reported with increases in intercellular adhesion molecule 1 (ICAM-1), in the dorsolateral prefrontal cortex (DLPFC) in postmortem tissue from elderly depressed subjects. As ischaemia is known to cause astrogliosis, this study has further tested the "vascular depression hypothesis" by investigating the distribution of the astrocytic marker glial fibrillary acidic protein (GFAP) in the DLPFC and in the anterior cingulate cortex (ACC). METHODS: Postmortem tissue was obtained from 20 elderly patients with a history of major depressive disorder (MDD) and 20 control subjects. Sections were stained for GFAP using standard immunocytochemistry. Sets of images were obtained from all cortical layers in the DLPFC and ACC with the exception of layer IV in the ACC, and from gyral and deep white matter in both regions. The percentage of the area of each image occupied by GFAP was calculated using true colour image analysis, and mean values obtained for each region examined. RESULTS: Immunoreactivity for GFAP was low in grey matter (for example, Mean (SEM) 0.76 (0.2)% in DLPFC layer V in depressed subjects), but higher in white matter (for example, 12.02 (2.2)% in DLPFC deep white matter in depressed subjects). Pronounced gliosis was observed within grey matter in a few cases only. GFAP immunoreactivity was significantly higher in layer I of the DLPFC in depressed subjects 15.8 (2.6)% than in controls 9.7 (1.3)% (t=2.2; df=27.5, p=0.04). No difference was detected in any other region. CONCLUSIONS: The data suggest any increase in GFAP in elderly MDD patients is limited to layer 1 of the DLPFC. These results provide some support for the vascular depression hypothesis and further implicate DLPFC abnormalities in depression.     

A preliminary functional magnetic resonance imaging study of prefrontal-amygdalar activation changes in adolescents with bipolar depression treated with lamotrigine

Objectives:  Hypotheses regarding mood dysregulation in bipolar disorder (BD) have centered on limbic overactivity with relative prefrontal underactivity during mood episodes. Therefore, we hypothesized that adolescents with bipolar depression successfully treated with lamotrigine would show decreases in amygdalar activation, and increases in prefrontal activation.
Methods:  Eight adolescents with BD underwent functional magnetic resonance imaging (fMRI) at baseline and after eight weeks of lamotrigine treatment. Blocks of negatively and neutrally valenced emotional pictures were presented during scanning, and subjects were asked to rate how each picture made them feel. Activation in bilateral amygdalae and dorsolateral prefrontal cortices (DLPFC) for negative minus neutral pictures was correlated with Children's Depression Rating Scale (CDRS) scores.
Results:  Mean (SD) CDRS scores decreased significantly, from 53.0 (10.6) at baseline to 26.3 (5.3) at Week 8. This clinical improvement was correlated with decreased right amygdalar activation ( r  = 0.91, p = 0.002). At Week 8, but not baseline, CDRS score was positively correlated with bilateral amygdalar activation ( r  = 0.85, p = 0.007). DLPFC activation was not correlated with change in CDRS score.
Conclusions:  These preliminary results indicate that adolescents with BD treated with lamotrigine demonstrated less amygdalar activation when viewing negative stimuli as depressive symptoms improved. Larger controlled studies are needed to confirm these findings.     

Gray and white matter brain chemistry in young children with autism

CONTEXT: The brain pathophysiological abnormalities underlying autism remain unclear. Neuroimaging and histological studies suggest cellular abnormalities early in the course of the disease. OBJECTIVE: To measure the in vivo chemical profile of gray and white matter tissues in autism. DESIGN: Cross-sectional spectroscopic imaging study comparing 3- to 4-year-old children with autism spectrum disorder (ASD) with age-matched comparison groups of children with delayed development (DD) and typical development (TD). SETTING: The University of Washington Diagnostic Imaging Sciences Center, Seattle. PARTICIPANTS: Forty-five 3- to 4-year-old children with ASD, 12 age-matched children with DD, and 10 age-matched children with TD. MAIN OUTCOME MEASURES: Estimates of gray and white matter concentrations for choline-containing compounds (Cho), creatine plus phosphocreatine, N-acetylaspartate (NAA), and myo-inositol (mI). Transverse relaxation times for Cho, creatine plus phosphocreatine, and NAA expressed relative to control subjects with TD were examined to evaluate tissue compactness. RESULTS: The children with ASD demonstrated decreased gray matter concentrations of Cho (P < .001), creatine plus phosphocreatine (P = .02), NAA (P = .02), and mI (P = .008) compared with children with TD. Gray matter Cho transverse relaxation was also prolonged for the ASD sample compared with the TD group (P = .01). The children with ASD demonstrated significantly decreased levels of Cho (P = .04) and mI (P = .008) and trend-level NAA (P = .09) in gray matter compared with the DD group. For white matter, both children with ASD and children with DD showed a similar pattern of NAA and mI level decreases (for children with ASD vs children with TD: NAA, P = .03; mI, P = .04; for children with DD vs children with TD, NAA, P = .03; mI, P = .07). In several analyses, cerebral volume contributed significantly as a covariate. CONCLUSIONS: Reduced gray matter chemical concentrations and altered Cho transverse relaxation, in a pattern distinct from that in children with DD, suggest decreased cellularity, or density, at this early time point in ASD. Possibly reflecting shared developmental features, white matter results were common to ASD and DD groups. The relationship between cerebral volume and neurochemistry at this early time point may indicate processes related to unit scaling.     

Open-label lithium for the treatment of adolescents with bipolar depression

OBJECTIVES: To investigate the effectiveness and tolerability of lithium for the treatment of acute depression in adolescents with bipolar disorder. We hypothesized that patients receiving open-label treatment with lithium during a 6-week period would experience a statistically and clinically significant decrease in depressive symptoms and tolerate lithium treatment fairly well. METHOD: Twenty-seven adolescents (12-18 years old) with an episode of depression associated with bipolar disorder type I received open-label lithium 30 mg/kg (twice-daily dosing), which was adjusted to achieve a therapeutic serum level (1.0-1.2 mEq/L). Effectiveness measures included the Children's Depression Rating Scale-Revised (CDRS-R) and Clinical Global Impressions Scale for Bipolar Disorder (CGI-BP). Adverse events were assessed weekly. RESULTS: Mean CDRS-R scores significantly decreased from baseline to endpoint (mean [SD] change = -25.5 (20.4); p < .001), resulting in a large effect size of 1.7. Response and remission rates (defined by a > or = 50% reduction in CDRS-R score from baseline to endpoint, and a CDRS-R score < or = 28 and a CGI-BP Improvement score of 1 or 2, respectively) were 48% and 30%. Side effects, which were generally mild to moderate in severity, included headache (74%), nausea/vomiting (67%), stomachache (30%), and abdominal cramps (19%). CONCLUSIONS: The findings of this study indicate that lithium may be effective and is relatively well tolerated for the treatment of an acute episode of depression in adolescents with bipolar disorder. Controlled studies of lithium in adolescent bipolar depression are needed.     

急性脑梗死后血管性认知障碍的磁共振波谱研究

目的应用质子磁共振波谱(1 H-MRS)技术,探讨急性脑梗死后血管性认知障碍(VCI)患者的颅内物质代谢变化与认知损害的关系。方法对86例脑梗死患者(脑梗死组)及21名健康对照者(对照组)进行简易精神状态检查量表(MMSE)和蒙特利尔认知评分量表(MoCA)评分,并计算其视空间及执行功能评分。根据认知评分结果,将脑梗死组分为脑梗死后认知功能正常组(NCI)、脑梗死后VCI非痴呆组(VCIND)、脑梗死后痴呆组。对脑梗死组及健康对照进行1 H-MRS检查,测定右额叶、左颞叶、左丘脑及顶枕叶交界处N-乙酰天冬氨酸(NAA)/肌酸(Cr)、肌醇(mI)/Cr及胆碱复合物(Cho)/Cr比值,并分析脑梗死组物质代谢比值与认知评分(MoCA评分、视空间及执行功能)间的相关性。结果 (1)与对照组(左颞叶及左丘脑NAA/Cr 1.53±0.08、1.52±0.10)相比,VCIND组左颞叶及左丘脑NAA/Cr(1.46±0.07、1.47±0.07)降低(P=0.001、P=0.006);与VCIND组右额叶1.46±0.10比较,梗死后痴呆组右额叶、左颞叶及左丘脑NAA/Cr(1.38±0.14、1.39±0.06、1.42±0.09)降低(分别P<0.001、P<0.001、P=0.003)。对照组及NCI组间的各区域物质代谢比值无统计学差异(均P>0.05)。(2)所有脑梗死患者中,除右额叶Cho/Cr外,余各感兴趣区物质代谢比值与MoCA评分间均相关,其中以左颞叶、左丘脑NAA/Cr值与MoCA评分的相关性为著(分别r=0.566,P<0.001;r=0.485,P<0.001);除右额叶、丘脑及顶枕叶交界处Cho/Cr外,余各物质代谢比值与视空间及执行功能评分间相关,其中亦以左颞叶及左丘脑NAA/Cr值的相关性为著(分别NAA/Cr为r=0.591,P<0.001;r=0.491,P<0.001)。结论左丘脑及左颞叶代谢异常可能为VCI患者认知损害的早期关键环节之一,随着VCI病变进展可能整个皮质及皮质下环路区域都将出现代谢异常。     

Impact of comorbid anxiety in an effectiveness study of interpersonal psychotherapy for depressed adolescents

OBJECTIVE: To assess the impact of comorbid anxiety on treatment for adolescent depression in an effectiveness study of interpersonal psychotherapy for depressed adolescents (IPT-A). METHOD: A randomized clinical trial was conducted from April 1, 1999, through July 31, 2002. Sixty-three depressed adolescents, ages 12 to 18, received either IPT-A or treatment as usual delivered by school-based mental health clinicians. Adolescents with and without probable comorbid anxiety disorders were compared on depression and overall functioning. All analyses used an intent-to-treat design. RESULTS: Comorbid anxiety was associated with higher depression scores at baseline (p <.01) and poorer depression outcome posttreatment (p <.05). IPT-A was nonsignificantly more effective in treating the depression of adolescents with comorbid anxiety (p =.07). Adolescents whose depression and functioning improved during the course of treatment also showed an improvement in anxiety (p <.01), largely irrespective of treatment condition. CONCLUSIONS: Adolescents with comorbid depression and anxiety present with more severe depression and may be more difficult to treat. Structured treatments like IPT-A may be particularly helpful for comorbidly depressed adolescents as compared to supportive therapy.     

Weight gain and improvement with quetiapine in bipolar I disorder: a case report

Observations made with quetiapine (QUET) in this case give clues for some aspects of its use for patients with bipolar disorder. Weight gain (11 kg; 16.6% increase in 21 weeks) and improvement in manic symptoms occurred after QUET add-on to lithium (Li). Patient's mood improved after QUET add-on without causing extrapyramidal symptoms (EPS), while QUET was discontinued due to weight gain. Short-term QUET add-on to Li may help mood stabilization in bipolar I disorder. Weight changes must be observed carefully.     

Proton spectroscopy in Alzheimer's disease and cognitive impairment not dementia: a community study

OBJECTIVE: To describe the proton magnetic resonance spectroscopy (1H-ERM) data in Alzheimer's disease (AD) and Cognitive Impairment Not Dementia (CIND) in a community sample. METHOD: We investigated subjects with AD (n=6), CIND (n=7) and normal control (n=7). 1H-ERM was performed with single voxel (8 cm3) placed in temporal, parietal and occipital regions and studied metabolites were: N-acetylaspartate (NAA), creatine (Cr), choline (Cho) and myo-inositol (mI). RESULTS: NAA concentration was higher in control subjects than AD and intermediated in CIND patients. Cho parietal plus occipital and Cr parietal plus Cho occipital classified correctly 92.3% of subjects Control vs AD. Temporal mI classified 78.6% of subjects between Control vs CIND. CONCLUSION: Spectroscopy can be used in the diagnosis and follow-up of individuals with cognitive impairment; evaluation of community subjects may show different patterns of brain metabolites distribution.     

In vivo proton magnetic resonance spectroscopy of the temporal lobe in Alzheimer's disease

PURPOSE: Prior proton magnetic resonance spectroscopy (MRS) studies have consistently reported decreased brain n-acetyl aspartate (NAA) levels and increased myo-inositol (mI) levels in subjects with Alzheimer's disease (AD) relative to healthy comparison subjects. These studies have usually been conducted in small and homogeneous populations of patients with established Alzheimer's disease. Few studies have tested the usefulness of this finding in a general population seeking evaluation for memory loss and other cognitive declines. We designed a study to evaluate the significance of single-voxel proton MRS findings in these patients with memory loss and other cognitive declines. GENERAL METHOD: Thirty-five subjects with a primary complaint of memory loss and other cognitive declines were consecutively referred over a period of 13 months to a specialty clinic. Patients with a diagnosis of mild to moderate probable Alzheimer's disease (N = 22), non-Alzheimer's dementia (depression, multiinfarct dementia, Parkinson's Disease, Korsakoff's Psychosis, and bipolar disorder; N = 13), and healthy comparison subjects (N = 18) were examined with respect to possible differences in metabolites using proton MRS in a 3.4-ml anterior temporal lobe voxel. FINDINGS: The Alzheimer's disease group had 10.7% lower NAA/creatine (Cr) ratios relative to the healthy comparison group and 9.4% lower NAA/creatine relative to the non-Alzheimer's dementia group (15.0% lower NAA/creatine relative to the depression subgroup of the non-Alzheimer's dementia group). There were no significant differences in choline (Cho) or myo-inositol ratios among the groups. There were significant correlations between NAA/creatine ratios and mini-mental status exam (MMSE) scores in subjects with Alzheimer's disease (t = 2.41, p = 0.032) but not in subjects with non-Alzheimer's dementia or in its depression subgroup. CONCLUSIONS: This study found a reduction in the neuronal marker NAA in the anterior temporal lobe of patients diagnosed with probable Alzheimer's disease, using a short add-on proton MRS exam. This change was not observed in patients whose memory loss and other cognitive declines were not attributed to Alzheimer's disease, suggesting that it may aid in the diagnosis or detection of Alzheimer's disease.