Your search keyword '"Chugani HT"' showing total 22 results

1. Automated production of 1-(2-[ 18 F]fluoroethyl)-l-tryptophan for imaging of tryptophan metabolism.

Author

Yue X, Xin Y, Zhang S, Nikam R, Kandula V, Choudhary AK, Chugani HT, and Chugani DC

Subjects

Automation, Stereoisomerism, Tryptophan chemistry, Fluorine Radioisotopes chemistry, Radiopharmaceuticals chemistry, Tryptophan metabolism

Abstract

Automated production of an fluorine-18 labeled tryptophan analogue, 1-(2-[ 18 F]fluoroethyl)-l-tryptophan (1-L-[ 18 F]FETrp) in a current Good Manufacturing Practice facility was achieved. 1-L-[ 18 F]FETrp was produced by a one-pot, two-step strategy with an overall synthesis time of approximately 100 min, a radiochemical yield of 20 ± 5% (decay corrected), radiochemical purity and enantiomeric excess over 90%, and a molar activity of 103 ± 15 GBq/μmol at the end of synthesis (EOS). The dose mass of 1-L-FETrp in four consecutive batches was less than 5 μg. The radiopharmaceutical product met all quality control criteria for clinical use., Competing Interests: Declaration of competing interest The authors have declared that they have no conflict of interest relevant to this article., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2020

2. A distinct microRNA expression profile is associated with α[ 11 C]-methyl-L-tryptophan (AMT) PET uptake in epileptogenic cortical tubers resected from patients with tuberous sclerosis complex.

Author

Bagla S, Cukovic D, Asano E, Sood S, Luat A, Chugani HT, Chugani DC, and Dombkowski AA

Subjects

Child, Child, Preschool, Female, Gene Expression, Gene Expression Profiling, Humans, Infant, Male, Seizures complications, Seizures diagnostic imaging, Seizures genetics, Symporters metabolism, Tryptophan analogs & derivatives, Tryptophan analysis, Tuberous Sclerosis complications, Tuberous Sclerosis genetics, MicroRNAs metabolism, Positron-Emission Tomography, Seizures metabolism, Tryptophan metabolism, Tuberous Sclerosis diagnostic imaging, Tuberous Sclerosis metabolism

Abstract

Tuberous sclerosis complex (TSC) is characterized by hamartomatous lesions in various organs and arises due to mutations in the TSC1 or TSC2 genes. TSC mutations lead to a range of neurological manifestations including epilepsy, cognitive impairment, autism spectrum disorders (ASD), and brain lesions that include cortical tubers. There is evidence that seizures arise at or near cortical tubers, but it is unknown why some tubers are epileptogenic while others are not. We have previously reported increased tryptophan metabolism measured with α[ 11 C]-methyl-l-tryptophan (AMT) positron emission tomography (PET) in epileptogenic tubers in approximately two-thirds of patients with tuberous sclerosis and intractable epilepsy. However, the underlying mechanisms leading to seizure onset in TSC remain poorly characterized. MicroRNAs are enriched in the brain and play important roles in neurodevelopment and brain function. Recent reports have shown aberrant microRNA expression in epilepsy and TSC. In this study, we performed microRNA expression profiling in brain specimens obtained from TSC patients undergoing epilepsy surgery for intractable epilepsy. Typically, in these resections several non-seizure onset tubers are resected together with the seizure-onset tubers because of their proximity. We directly compared seizure onset tubers, with and without increased tryptophan metabolism measured with PET, and non-onset tubers to assess the role of microRNAs in epileptogenesis associated with these lesions. Whether a particular tuber was epileptogenic or non-epileptogenic was determined with intracranial electrocorticography, and tryptophan metabolism was measured with AMT PET. We identified a set of five microRNAs (miR-142-3p, 142-5p, 223-3p, 200b-3p and 32-5p) that collectively distinguish among the three primary groups of tubers: non-onset/AMT-cold (NC), onset/AMT-cold (OC), and onset/AMT-hot (OH). These microRNAs were significantly upregulated in OH tubers compared to the other two groups, and microRNA expression was most significantly associated with AMT-PET uptake. The microRNAs target a group of genes enriched for synaptic signaling and epilepsy risk, including SLC12A5, SYT1, GRIN2A, GRIN2B, KCNB1, SCN2A, TSC1, and MEF2C. We confirmed the interaction between miR-32-5p and SLC12A5 using a luciferase reporter assay. Our findings provide a new avenue for subsequent mechanistic studies of tuber epileptogenesis in TSC., (Copyright © 2017 Elsevier Inc. All rights reserved.)

Published

2018

3. α-[11C]-Methyl-L-tryptophan--PET in 191 patients with tuberous sclerosis complex.

Author

Chugani HT, Luat AF, Kumar A, Govindan R, Pawlik K, and Asano E

Subjects

Adolescent, Adult, Child, Child, Preschool, Female, Humans, Infant, Male, Young Adult, Brain diagnostic imaging, Carbon Radioisotopes, Positron-Emission Tomography methods, Radiopharmaceuticals, Tryptophan analogs & derivatives, Tuberous Sclerosis diagnostic imaging

Abstract

Objectives: This was an observational study done on a large cohort of patients with tuberous sclerosis complex (TSC) to determine whether i) the presence of α-[(11)C]-methyl-l-tryptophan (AMT) hotspots is related to the duration of seizure intractability, ii) the presence of AMT hotspots is related to specific TSC gene mutations, and iii) there is concordance between areas with an AMT hotspot and seizure lateralization/localization on scalp EEG., Methods: One hundred ninety-one patients (mean age: 6.7 years; median: 5 years; range: 3 months to 37 years) with TSC and intractable epilepsy were included. All patients underwent AMT-PET scan. AMT uptake in each tuber and normal-appearing cortex was measured and correlated with clinical, scalp EEG, and, if available, electrocorticographic data., Results: The longer the duration of seizure intractability, the greater the number of AMT hotspots (r = 0.2; p = 0.03). AMT hotspots were seen in both TSC1 and TSC2. There was excellent agreement in seizure focus lateralization between ictal scalp EEG and AMT-PET (Cohen κ 0.94) in 68 of 95 patients in whom both ictal video-EEG and AMT-PET showed lateralizing findings; in 28 of 68 patients (41%), AMT was more localizing. Furthermore, AMT-PET was localizing in 10 of 17 patients (58%) with nonlateralized ictal EEG., Conclusion: AMT-PET, when used together with video-EEG, provides additional lateralization/localization data, regardless of TSC mutation. The duration of seizure intractability may predict the multiplicity of areas with AMT hotspots.

Published

2013

4. Can diffusion tensor imaging (DTI) identify epileptogenic tubers in tuberous sclerosis complex? Correlation with α-[11C]methyl-L-tryptophan ([11C] AMT) positron emission tomography (PET).

Author

Tiwari VN, Kumar A, Chakraborty PK, and Chugani HT

Subjects

Adolescent, Anisotropy, Cerebral Cortex diagnostic imaging, Cerebral Cortex metabolism, Child, Child, Preschool, Epilepsy etiology, Female, Humans, Male, Tuberous Sclerosis complications, Carbon Radioisotopes, Diffusion Tensor Imaging, Epilepsy diagnostic imaging, Positron-Emission Tomography, Statistics as Topic, Tryptophan analogs & derivatives

Abstract

In this study, we determined whether diffusion tensor imaging (DTI), a more widely available imaging modality, is as effective as α-[(11)C]methyl-l-tryptophan (AMT)-positron emission tomography (PET) in localizing epileptogenic tubers in tuberous sclerosis complex. Following that, coregistration of AMT-PET and diffusion tensor imaging scans apparent diffusion coefficient (ADC) and fractional anisotropy (FA) were measured in all tubers using a region-of-interest approach and were compared with AMT-PET tuber/cortex uptake ratios, which were used to differentiate between epileptogenic and nonepileptogenic tubers. Forty-three tubers, out of a total of 320 tubers, had AMT-PET uptake ratios greater than 1 and hence were classified as potentially epileptogenic. FA in epileptogenic tubers was reduced compared with the other tubers (P = .03). A significant negative correlation was observed between AMT-PET uptake ratio of epileptogenic tubers and FA values (r = -.45; P = .003). Tubers with higher AMT-PET uptake ratios corresponded well with lower FA values in tuberous sclerosis complex patients.

Published

2012

5. α-[¹¹C]-methyl-L-tryptophan PET for tracer localization of epileptogenic brain regions: clinical studies.

Author

Kumar A, Asano E, and Chugani HT

Subjects

Biomarkers chemistry, Brain diagnostic imaging, Epilepsy surgery, Humans, Positron-Emission Tomography, Tuberous Sclerosis diagnostic imaging, Brain metabolism, Epilepsy diagnostic imaging, Tryptophan analogs & derivatives

Abstract

Of several molecular probes used in PET, only α-[(11)C]-methyl-L-tryptophan (AMT) is able to pinpoint the epileptic focus itself in the interictal state, by revealing a focus of increased AMT uptake, even when an MRI or glucose metabolism PET demonstrates normal findings. AMT PET appears to be particularly useful in patients with tuberous sclerosis complex and in patients with cortical developmental malformations. Although the sensitivity of AMT PET in finding the epileptic focus is about 70%, its specificity is almost 100%, indicating that if AMT PET identifies an area of increased uptake, it likely represents the epileptic focus which needs to be resected for better surgical outcome. In nontuberous sclerosis complex patients with cortical dysplasia, increased AMT uptake is usually associated with cortical dysplasia type IIB and a very good surgical outcome. Previously, no imaging modality has been able to predict the exact pathology subtype or differentiate between epileptogenic and nonepileptogenic lesions interictally. The neuropathological similarities between tubers and type IIB cortical dysplasia suggest a common mechanism of epilepsy, for which AMT PET is a biomarker. Due to the limited access to AMT PET, as presently it is labeled with (11)C, which has a half-life of only 20 min and therefore has to be synthesized on site using a cyclotron, most of the AMT experience has originated primarily from only two centers. Therefore, there is a need for more clinical studies from other centers and this can be greatly facilitated if AMT can be labeled with (18)F, a PET radionuclide widely available with a half-life of 110 min.

Published

2011

6. Clinical and histopathologic correlates of 11C-alpha-methyl-L-tryptophan (AMT) PET abnormalities in children with intractable epilepsy.

Author

Chugani HT, Kumar A, Kupsky W, Asano E, Sood S, and Juhász C

Subjects

Brain Mapping, Carbon Radioisotopes, Child, Child, Preschool, Electroencephalography methods, Epilepsy surgery, Female, Humans, Magnetic Resonance Imaging, Male, Parietal Lobe diagnostic imaging, Parietal Lobe pathology, Positron-Emission Tomography, Epilepsy diagnostic imaging, Epilepsy pathology, Statistics as Topic, Tryptophan analogs & derivatives

Abstract

Purpose: Interictal increase of (11) C-alpha-methyl-l-tryptophan (AMT) on positron emission tomography (PET) can be seen in cortical epileptic foci, and is particularly common in cortical developmental malformations. Therefore, in the present study, we evaluated the clinical and histopathologic correlates of AMT-PET abnormalities in children with intractable epilepsy undergoing resective surgery., Methods: Thirty children (mean age: 6.7 ± 3.2 years) were included in this study. All patients received AMT-PET as part of their presurgical evaluation and subsequently underwent epilepsy surgery. Magnetic resonance imaging (MRI) scans were normal in 15, showed nonspecific changes in 8, and suggested malformations of cortical development (MCDs) in nine children. Asymmetry indices (AIs) were calculated to determine increased AMT uptake., Key Findings: Histopathology revealed MCDs in 16 (53%) children, including 12 with cortical dysplasia (CD) [mild MCD = 3; CD type IA = 2; CD type IIA = 2 and CD type IIB (severe CD with balloon cells) = 5]. Polymicrogyria and heterotopias (P&Hs) were seen in three cases and subependymal heterotopias (SEHs) in one child. The remaining 14 cases showed normal histopathology with varying degrees of gliosis. Increased AMT uptake was found in all five with CD type IIB, and all three with P&H, but in none with mild MCD and types IA-IIA CD or SEH. Whereas all five children with CD IIB and two with P&H had excellent surgical outcome (class I); children with milder CD or SEH had variable surgical outcome. The 14 patients with normal histopathology included seven patients with focally increased and seven with normal AMT uptake. Although patients with normal pathology and normal AMT-PET had better surgical outcome (class I = 5; II = 2), those with normal pathology, normal MRI, but abnormal AMT-PET had poor surgical outcome (class III = 4; IV = 3)., Significance: Increased AMT uptake in children with CD may predict type IIB dysplasia (with balloon cells) and good surgical outcome. Histopathologic similarities between CD type IIB and epileptogenic cortical tubers may imply a common role of the inflammatory kynurenine pathway of tryptophan metabolism in these lesions. In children with normal histopathology, there is a subgroup with increased AMT uptake and poor surgical outcome., (Wiley Periodicals, Inc. © 2011 International League Against Epilepsy.)

Published

2011

7. Differential kinetics of α-[¹¹C]methyl-L-tryptophan on PET in low-grade brain tumors.

Author

Juhász C, Muzik O, Chugani DC, Chugani HT, Sood S, Chakraborty PK, Barger GR, and Mittal S

Subjects

Adolescent, Adult, Analysis of Variance, Brain Mapping, Brain Neoplasms metabolism, Child, Child, Preschool, Female, Humans, Magnetic Resonance Imaging methods, Male, Middle Aged, Positron-Emission Tomography methods, Brain Neoplasms diagnostic imaging, Carbon Radioisotopes metabolism, Glioma diagnostic imaging, Glioma metabolism, Tryptophan metabolism

Abstract

Increased tryptophan metabolism via the kynurenine pathway is a major mechanism of tumor immuno-resistance. α-[(11)C]Methyl-L: -tryptophan (AMT) is a positron emission tomography (PET) tracer for tryptophan catabolism, and increased AMT uptake has been demonstrated in brain tumors. In this study we evaluated the use of AMT PET for detection of low-grade gliomas and glioneuronal tumors, and determined if kinetic parameters of AMT uptake can differentiate among tumor types. AMT PET images were obtained in 23 patients with newly diagnosed low-grade brain tumors (WHO grade II gliomas and WHO grade I dysembryoplastic neuroepithelial tumors [DNETs]). Kinetic variables, including the unidirectional uptake rate (K-complex) and volume of distribution (VD; which characterizes tracer transport), were measured using a graphical approach from tumor dynamic PET and blood-input data, and metabolic rates ([Formula: see text]) were also calculated. These values as well as tumor/cortex ratios were compared across tumor types. AMT PET showed increased tumor/cortex K-complex (n = 16) and/or VD ratios (n = 15) in 21/23 patients (91%), including 11/13 tumors with no gadolinium enhancement on MRI. No increases in AMT were seen in an oligodendroglioma and a DNET. Astrocytomas and oligoastrocytomas showed higher [Formula: see text] tumor/cortex ratios (1.66 ± 0.46) than oligodendrogliomas (0.96 ± 0.21; P = 0.001) and DNETs (0.75 ± 0.39; P < 0.001). These results demonstrate that AMT PET identifies most low-grade gliomas and DNETs by high uptake, even if these tumors are not contrast-enhancing on MRI. Kinetic analysis of AMT uptake shows significantly higher tumor/cortex tryptophan metabolic ratios in astrocytomas and oligoastrocytomas in comparison with oligodendrogliomas and DNETs.

Published

2011

8. Abnormal brain tryptophan metabolism and clinical correlates in Tourette syndrome.

Author

Behen M, Chugani HT, Juhász C, Helder E, Ho A, Maqbool M, Rothermel RD, Perry J, and Muzik O

Subjects

Adolescent, Carbon Radioisotopes, Cerebral Cortex diagnostic imaging, Cerebral Cortex metabolism, Child, Child, Preschool, Corpus Striatum diagnostic imaging, Corpus Striatum metabolism, Female, Humans, Male, Positron-Emission Tomography, Serotonin metabolism, Severity of Illness Index, Thalamus diagnostic imaging, Thalamus metabolism, Tryptophan analogs & derivatives, Tryptophan pharmacokinetics, Brain diagnostic imaging, Brain metabolism, Tourette Syndrome diagnostic imaging, Tourette Syndrome metabolism, Tryptophan metabolism

Abstract

Symptoms in Tourette syndrome (TS) are likely related to abnormalities involving multiple neurotransmitter systems in striatal-thalamo-cortical circuitry. Although prior studies have found abnormal levels of tryptophan, serotonin, and their metabolites in blood, cerebrospinal fluid and brain tissue of TS patients, understanding of focal brain disturbances and their relationship to clinical phenotype remains poor. We used alpha-[(11)C]methyl-L-tryptophan (AMT) positron emission tomography (PET) to assess global and focal brain abnormalities of tryptophan metabolism and their relationship to behavioral phenotype in 26 children with TS and nine controls. Group comparisons on regional cortical and subcortical AMT uptake revealed decreased AMT uptake in bilateral dorsolateral prefrontal cortical and bilaterally increased uptake in the thalamus (P = 0.001) in TS children. The ratio of AMT uptake in subcortical structures to dorsolateral prefrontal cortex was significantly increased bilaterally (P < 0.01) in TS patients also. Behaviorally defined subgroups within the TS sample revealed differences in the pattern of AMT uptake in the fronto-striatal-thalamic circuit. This study demonstrates cortical and subcortical abnormalities of tryptophan metabolism in TS and provides neuroimaging evidence for a role of serotonergic mechanisms in the pathophysiology of TS., ((c) 2007 Movement Disorder Society.)

Published

2007

9. Assessment of progression and treatment response of optic pathway glioma with positron emission tomography using alpha-[(11)C]methyl-L-tryptophan.

Author

Peng F, Juhasz C, Bhambhani K, Wu D, Chugani DC, and Chugani HT

Subjects

Adolescent, Female, Humans, Magnetic Resonance Imaging, Optic Nerve Glioma pathology, Optic Nerve Glioma therapy, Carbon Radioisotopes, Optic Nerve Glioma diagnostic imaging, Positron-Emission Tomography methods, Radiopharmaceuticals, Tryptophan analogs & derivatives

Abstract

Purpose: To report the utility of positron emission tomography (PET) with alpha-[(11)C]methyl-L-tryptophan (AMT) for monitoring progression and response to treatment of an isolated optic pathway glioma (OPG) in a 16-year-old girl., Procedures: Positron emission tomography scanning of the brain was performed 20 minutes after intravenous administration of AMT. The AMT-PET images were reconstructed and examined for tumor uptake of the tracer in correlation with coregistered magnetic resonance images., Results: The PET scan demonstrated increased uptake of AMT by OPG in a clinically symptomatic child whose magnetic resonance imaging (MRI) was inconclusive for morphological changes of the tumor. The tracer uptake was dramatically decreased on the images obtained after chemotherapy. Subsequently, AMT-PET revealed a new tumor lesion of increased AMT uptake when the patient developed vision problems and MRI showed no significant interval morphological changes. Significant vision improvement was observed after external beam radiotherapy for the newly identified tumor lesion., Conclusions: Positron emission tomography with alpha-[(11)C]methyl-L-tryptophan may be useful for monitoring progression and response to treatment of OPGs, which needs to be further investigated in a prospective study of more patients, including those with neurofibromatosis.

Published

2007

10. In vivo uptake and metabolism of alpha-[11C]methyl-L-tryptophan in human brain tumors.

Author

Juhász C, Chugani DC, Muzik O, Wu D, Sloan AE, Barger G, Watson C, Shah AK, Sood S, Ergun EL, Mangner TJ, Chakraborty PK, Kupsky WJ, and Chugani HT

Subjects

Adolescent, Adult, Aged, Brain Neoplasms diagnosis, Brain Neoplasms diagnostic imaging, Carbon Radioisotopes, Cerebral Cortex chemistry, Cerebral Cortex diagnostic imaging, Child, Child, Preschool, Electroencephalography methods, Electroencephalography standards, Female, Gadolinium, Glucose metabolism, Humans, Infant, Magnetic Resonance Imaging methods, Magnetic Resonance Imaging standards, Male, Middle Aged, Neoplasm Staging, Positron-Emission Tomography methods, Positron-Emission Tomography standards, Seizures metabolism, Sensitivity and Specificity, Tryptophan metabolism, Tryptophan pharmacokinetics, Tryptophan standards, Brain Neoplasms metabolism, Cerebral Cortex metabolism, Tryptophan analogs & derivatives

Abstract

Abnormal metabolism of tryptophan has been implicated in modulation of tumor cell proliferation and immunoresistance. alpha-[(11)C]Methyl-L-tryptophan (AMT) is a PET tracer to measure cerebral tryptophan metabolism in vivo. In the present study, we have measured tumor tryptophan uptake in 40 patients with primary brain tumors using AMT PET and standard uptake values (SUV). Tryptophan metabolism was further quantified in 23 patients using blood input data. Estimates of the volume of distribution (VD') and the metabolic rate constant (k(3)') were calculated and related to magnetic resonance imaging (MRI) and histology findings. All grade II to IV gliomas and glioneuronal tumors showed increased AMT SUV, including all recurrent/residual tumors. Gadolinium enhancement on MRI was associated with high VD' values, suggesting impaired blood-brain barrier, while k(3)' values were not related to contrast enhancement. Low-grade astrocytic gliomas showed increased tryptophan metabolism, as measured by k(3)'. In contrast, oligodendrogliomas showed high VD' values but lower k(3)' as compared with normal cortex. In astrocytic tumors, low grade was associated with high k(3)' and lower VD', while high-grade tumors showed the reverse pattern. The findings show high AMT uptake in primary and residual/recurrent gliomas and glioneuronal tumors. Increased AMT uptake can be due to increased metabolism of tryptophan and/or high volume of distribution, depending on tumor type and grade. High tryptophan metabolic rates in low-grade tumors may indicate activation of the kynurenine pathway, a mechanism regulating tumor cell growth. AMT PET might be a useful molecular imaging method to guide therapeutic approaches aimed at controlling tumor cell proliferation by acting on tryptophan metabolism.

Published

2006

11. Epilepsy surgery outcome in children with tuberous sclerosis complex evaluated with alpha-[11C]methyl-L-tryptophan positron emission tomography (PET).

Author

Kagawa K, Chugani DC, Asano E, Juhász C, Muzik O, Shah A, Shah J, Sood S, Kupsky WJ, Mangner TJ, Chakraborty PK, and Chugani HT

Subjects

Child, Child, Preschool, Epilepsies, Partial etiology, Female, Follow-Up Studies, Humans, Infant, Male, Reproducibility of Results, Treatment Outcome, Tuberous Sclerosis diagnostic imaging, Carbon Radioisotopes, Epilepsies, Partial diagnostic imaging, Epilepsies, Partial surgery, Positron-Emission Tomography, Tryptophan analogs & derivatives, Tuberous Sclerosis complications

Abstract

Tuberous sclerosis complex is commonly associated with medically intractable seizures. We previously demonstrated that high uptake of alpha-[11C]methyl-L-tryptophan (AMT) on positron emission tomography (PET) occurs in a subset of epileptogenic tubers consistent with the location of seizure focus. In the present study, we analyzed the surgical outcome of children with tuberous sclerosis complex in relation to AMT PET results. Seventeen children (mean age 4.7 years) underwent epilepsy surgery, guided by long-term videoelectroencephalography (EEG) (including intracranial EEG in 14 cases), magnetic resonance imaging (MRI), and AMT PET. AMT uptake values of cortical tubers were measured using regions of interest delineated on coregistered MRI and were divided by the value for normal-appearing cortex to obtain an AMT uptake ratio. Based on surgical outcome data, tubers showing increased AMT uptake (uptake ratio greater than 1.00) were classified into three categories: (1) epileptogenic (tubers within an EEG-defined epileptic focus whose resection resulted in seizure-free outcome), (2) nonepileptogenic (tubers that were not resected but the patient became seizure free), or (3) uncertain (all other tubers). Increased AMT uptake was found in 30 tubers of 16 children, and 23 of these tubers (77%) were located in an EEG-defined epileptic focus. The tuber with the highest uptake was located in an ictal EEG onset region in each patient. Increased AMT uptake indicated an epileptic region not suspected by scalp EEG in four cases. Twelve children (71%) achieved seizure-free outcome (median follow-up 15 months). Based on outcome criteria, 19 of 30 tubers (63%) with increased AMT uptake were epileptogenic, and these tubers had significantly higher AMT uptake than the nonepileptogenic ones (P = .009). Tubers with at least 10% increase of AMT uptake (in nine patients) were all epileptogenic. Using a cutoff threshold of 1.02 for AMT uptake ratio provided an optimal accuracy of 83% for detecting tubers that needed to be resected to achieve a seizure-free outcome. The findings suggest that resection of tubers with increased AMT uptake is highly desirable to achieve seizure-free surgical outcome in children with tuberous sclerosis complex and intractable epilepsy. AMT PET can provide independent complementary information regarding the localization of epileptogenic regions in tuberous sclerosis complex and enhance the confidence of patient selection for successful epilepsy surgery.

Published

2005

12. Significance of abnormalities in developmental trajectory and asymmetry of cortical serotonin synthesis in autism.

Author

Chandana SR, Behen ME, Juhász C, Muzik O, Rothermel RD, Mangner TJ, Chakraborty PK, Chugani HT, and Chugani DC

Subjects

Adolescent, Age Factors, Autistic Disorder diagnostic imaging, Autistic Disorder pathology, Autistic Disorder physiopathology, Brain Mapping, Carbon Isotopes, Cerebral Cortex diagnostic imaging, Cerebral Cortex pathology, Child, Child, Preschool, Female, Functional Laterality physiology, Humans, Language, Language Disorders physiopathology, Magnetic Resonance Imaging methods, Male, Neural Pathways diagnostic imaging, Neural Pathways pathology, Positron-Emission Tomography methods, Regression, Psychology, Autistic Disorder metabolism, Cerebral Cortex abnormalities, Cerebral Cortex metabolism, Neural Pathways metabolism, Serotonin biosynthesis, Tryptophan analogs & derivatives

Abstract

The role of serotonin in prenatal and postnatal brain development is well documented in the animal literature. In earlier studies using positron emission tomography (PET) with the tracer alpha[(11)C]methyl-l-tryptophan (AMT), we reported global and focal abnormalities of serotonin synthesis in children with autism. In the present study, we measured brain serotonin synthesis in a large group of autistic children (n = 117) with AMT PET and related these neuroimaging data to handedness and language function. Cortical AMT uptake abnormalities were objectively derived from small homotopic cortical regions using a predefined cutoff asymmetry threshold (>2 S.D. of normal asymmetry). Autistic children demonstrated several patterns of abnormal cortical involvement, including right cortical, left cortical, and absence of abnormal asymmetry. Global brain values for serotonin synthesis capacity (unidirectional uptake rate constant, K-complex) values were plotted as a function of age. K-complex values of autistic children with asymmetry or no asymmetry in cortical AMT uptake followed different developmental patterns, compared to that of a control group of non-autistic children. The autism groups, defined by presence or absence and side of cortical asymmetry, differed on a measure of language as well as handedness. Autistic children with left cortical AMT decreases showed a higher prevalence of severe language impairment, whereas those with right cortical decreases showed a higher prevalence of left and mixed handedness. Global as well as focal abnormally asymmetric development in the serotonergic system could lead to miswiring of the neural circuits specifying hemispheric specialization.

Published

2005

13. Evaluation with alpha-[11C]methyl-L-tryptophan positron emission tomography for reoperation after failed epilepsy surgery.

Author

Juhász C, Chugani DC, Padhye UN, Muzik O, Shah A, Asano E, Mangner TJ, Chakraborty PK, Sood S, and Chugani HT

Subjects

Adolescent, Adult, Age Factors, Carbon Radioisotopes, Child, Child, Preschool, Electroencephalography, Epilepsy etiology, Female, Humans, Male, Neocortex metabolism, Neocortex surgery, Quinolinic Acid metabolism, Reoperation, Treatment Failure, Tryptophan pharmacokinetics, Epilepsy diagnostic imaging, Epilepsy surgery, Tomography, Emission-Computed methods, Tryptophan analogs & derivatives

Abstract

Purpose: Reoperation after failed cortical resection can alleviate seizures in patients with intractable neocortical epilepsy, provided that previously nonresected epileptic regions are accurately defined and removed. Most imaging modalities have limited value in identifying such regions after a previous surgery. Positron emission tomography (PET) using alpha-[11C]methyl-L-tryptophan (AMT) can detect epileptogenic cortical areas as regions with increased tracer uptake. This study analyzed whether increased cortical AMT uptake can detect nonresected epileptic foci in patients with previously failed neocortical resection., Methods: Thirty-three young patients (age 3-26 years; mean age, 10.8 years) with intractable epilepsy of neocortical origin, and a previously failed cortical resection performed at various epilepsy centers, underwent further presurgical evaluation for reoperation. AMT-PET scans were performed 6 days to 7 years after the first surgery. Focal cortical areas with increased AMT uptake were objectively identified and correlated to ictal EEG data as well as clinical variables (age, postsurgical time, etiology)., Results: Cortical increases of AMT uptake were detected on the side of the previous resections in 12 cases. In two patients scanned shortly (within a week) after surgery, diffuse hemispheric increases were observed, without any further localization value. In contrast, in 10 (43%) of 23 patients scanned >2 months but within 2.3 years after surgery, focal cortical increases occurred, concordant with seizure onset on ictal EEG. Age, etiology (lesional vs. cryptogenic), epileptiform EEG activity during PET, or time of the last seizure were not significantly related to the presence of increased AMT uptake. All patients with localizing AMT-PET, who underwent reoperation, became seizure free (n = 5) or showed considerable improvement of seizure frequency (n = 2)., Conclusions: AMT-PET can identify nonresected epileptic cortex in patients with a previously failed neocortical epilepsy surgery and, with proper timing for the scan, can assist in planning reoperation.

Published

2004

14. Alpha-methyl-L-tryptophan PET detects epileptogenic cortex in children with intractable epilepsy.

Author

Juhász C, Chugani DC, Muzik O, Shah A, Asano E, Mangner TJ, Chakraborty PK, Sood S, and Chugani HT

Subjects

Adolescent, Child, Child, Preschool, Electroencephalography, Energy Metabolism, Epilepsy pathology, Epilepsy surgery, Female, Fluorodeoxyglucose F18, Humans, Infant, Magnetic Resonance Imaging, Male, Neocortex metabolism, Neocortex pathology, Neocortex surgery, Radiopharmaceuticals, Sensitivity and Specificity, Serotonin metabolism, Treatment Outcome, Epilepsy diagnostic imaging, Neocortex diagnostic imaging, Tomography, Emission-Computed, Tryptophan analogs & derivatives

Abstract

Background: In children with tuberous sclerosis, the PET tracer alpha[11C]methyl-L-tryptophan (AMT) has been shown to be selectively taken up by epileptogenic tubers, thus allowing differentiation from nonepileptogenic tubers in the interictal state., Objective: To determine whether cortical areas showing increased AMT uptake in children without tuberous sclerosis complex with intractable neocortical epilepsy indicate the epileptogenic zone, and to assess the relative contributions of AMT and 2-deoxy-2[18F]fluoro-D-glucose (FDG) PET abnormalities to the localization of epileptogenic cortical regions., Methods: Areas of increased AMT and decreased FDG uptake were marked objectively as regions with abnormal asymmetry using an in-house written software in 27 children who underwent comprehensive evaluation for resective epilepsy surgery. The marked PET abnormalities were compared to the locations of scalp and subdural EEG epileptiform abnormalities, as well as histology and surgical outcome., Results: Focal cortical increases of AMT uptake were found in 15 patients. The lobar sensitivity (39.0%) of AMT PET for seizure onset was lower, but its specificity (100%) was higher (p < 0.0001) than that of hypometabolism on FDG PET (sensitivity 73.2%, specificity 62.7%). AMT PET abnormalities were smaller than corresponding FDG PET hypometabolic regions (p = 0.002), and increased AMT uptake occurred in two patients with nonlocalizing FDG PET. Histologically verified cortical developmental malformations were associated with increased AMT uptake (p = 0.044). Subdural electrodes adjacent to the area of increased AMT uptake were most often involved in seizure onset., Conclusions: Focal increase of cortical AMT uptake in children is less sensitive but more specific for the lobe of seizure onset than corresponding FDG PET hypometabolism, and it is often associated with epileptogenic cortical developmental malformations. AMT PET can assist placement of subdural electrodes even when MRI and FDG PET fail to provide adequate localizing information. Cortical areas adjacent to increased AMT uptake should be carefully addressed by intracranial EEG because these regions often show a high degree of epileptogenicity.

Published

2003

15. Does serotonin have trophic effects in temporal lobe epilepsy?

Author

Chugani DC and Chugani HT

Subjects

Brain Stem metabolism, Cerebral Cortex diagnostic imaging, Cerebral Cortex metabolism, Epilepsy, Temporal Lobe diagnostic imaging, Glucose metabolism, Hippocampus diagnostic imaging, Humans, Thalamus metabolism, Tomography, Emission-Computed, Tryptophan pharmacokinetics, Epilepsy, Temporal Lobe metabolism, Hippocampus metabolism, Serotonin metabolism, Tryptophan analogs & derivatives

Published

2003

16. Alpha[11C] methyl-L-typtophan positron emission tomography in patients with alternating hemiplegia of childhood.

Author

Pfund Z, Chugani DC, Muzik O, Juhász C, Behen ME, Lee J, Chakraborty P, Mangner T, and Chugani HT

Subjects

Adolescent, Adult, Carbon Radioisotopes, Case-Control Studies, Child, Child, Preschool, Female, Hemiplegia metabolism, Humans, Image Processing, Computer-Assisted, Infant, Male, Tomography, Emission-Computed, Brain diagnostic imaging, Brain metabolism, Hemiplegia diagnostic imaging, Serotonin biosynthesis, Tryptophan analogs & derivatives

Abstract

Based on previous reports suggesting a role of the neurotransmitter serotonin in the pathomechanism of alternating hemiplegia of childhood and speculation that it may be a migraine variant, we measured brain serotonin synthesis in children with alternating hemiplegia of childhood. Clinical and neurodevelopmental data, as well as standard uptake values in 25 brain regions and whole-brain serotonin synthesis capacity (unidirectional uptake rate constant or K-complex), were assessed in six patients with alternating hemiplegia of childhood (three girls and three boys; mean age = 7 6/12 years) using alpha[11C]methyl-L-tryptophan positron emission tomography (PET). The PET studies were performed interictally in three patients, during the ictal state in two patients, and postictally in one patient. The PET data were compared to those obtained interictally from six age-matched patients with focal epilepsy (two girls and four boys; mean age = 7 8/12 years) and six non-age-matched apparently normal siblings of autistic children (two girls and four boys; mean age = 9 11/12 years). Patients with alternating hemiplegia of childhood studied in the ictal or postictal state showed increased serotonin synthesis capacity in the frontoparietal cortex, lateral and medial temporal structures, striatum, and thalamus when compared to controls, and subjects with alternating hemiplegia of childhood studied interictally. The involvement of these brain regions was consistent with the semiology of the hemiplegic attacks. In patients with interictal studies and in the controls, the PET scans revealed similar and bilaterally symmetric regional patterns of serotonin synthesis capacity. Increased whole-brain serotonin synthesis capacity (reported in migraine subjects without aura) was not found in the alternating hemiplegia of childhood group. There was no correlation between the neurodevelopmental scores and regional standard uptake values; however, patients with a larger estimated lifetime attack number showed greater delay in communication (P = .005) and daily living skills (P = .042). These studies suggest increased regional serotonergic activity associated with attacks in alternating hemiplegia of childhood. Furthermore, the attack number may have an effect on neurodevelopmental delay, thus supporting the notion that alternating hemiplegia of childhood may be a progressive disorder.

Published

2002

17. Autism in tuberous sclerosis complex is related to both cortical and subcortical dysfunction.

Author

Asano E, Chugani DC, Muzik O, Behen M, Janisse J, Rothermel R, Mangner TJ, Chakraborty PK, and Chugani HT

Subjects

Adolescent, Autistic Disorder diagnostic imaging, Carbon Radioisotopes, Cerebellar Nuclei metabolism, Cerebral Cortex metabolism, Child, Child, Preschool, Female, Fluorodeoxyglucose F18, Glucose metabolism, Humans, Infant, Male, Radiopharmaceuticals, Spasms, Infantile diagnostic imaging, Spasms, Infantile etiology, Spasms, Infantile physiopathology, Tomography, Emission-Computed, Tuberous Sclerosis diagnostic imaging, Autistic Disorder etiology, Autistic Disorder physiopathology, Cerebellar Nuclei physiopathology, Cerebral Cortex physiopathology, Tryptophan analogs & derivatives, Tuberous Sclerosis complications, Tuberous Sclerosis physiopathology

Abstract

Objective: To examine the relationship between autism and epilepsy in relation to structural and functional brain abnormalities in children with tuberous sclerosis complex (TSC)., Methods: Children with TSC and intractable epilepsy underwent MRI as well as PET scans with 2-deoxy-2-[(18)F]fluoro-D-glucose (FDG) and alpha-[(11)C]methyl-L-tryptophan (AMT). Based on the results of Autism Diagnostic Interview-Revised, Gilliam Autism Rating Scale, and overall adaptive behavioral composite (OABC) from Vineland Adaptive Behavior Scale, subjects were divided into three groups: autistic (OABC < 70; n = 9), mentally-retarded nonautistic (OABC < 70; n = 9), and relatively normal intelligence (OABC > or = 70; n = 8)., Results: PET studies showed that the autistic group had decreased glucose metabolism in the lateral temporal gyri bilaterally, increased glucose metabolism in the deep cerebellar nuclei bilaterally, and increased AMT uptake in the caudate nuclei bilaterally, compared to the mentally-retarded nonautistic group. In addition, a history of infantile spasms and glucose hypometabolism in the lateral temporal gyri were both significantly associated with communication disturbance. Glucose hypermetabolism in the deep cerebellar nuclei and increased AMT uptake in the caudate nuclei were both related to stereotypical behaviors and impaired social interaction, as well as communication disturbance., Conclusions: These results suggest that generalized epilepsy in early life and functional deficits in the temporal neocortices may be associated with communication delays, and that functional imbalance in subcortical circuits may be associated with stereotypical behaviors and impaired social interaction in children with TSC.

Published

2001

18. PET: mapping of serotonin synthesis.

Author

Chugani DC and Chugani HT

Subjects

Adolescent, Brain diagnostic imaging, Child, Child, Preschool, Epilepsies, Partial diagnostic imaging, Female, Humans, Infant, Tryptophan metabolism, Tuberous Sclerosis diagnostic imaging, Brain metabolism, Epilepsies, Partial metabolism, Serotonin biosynthesis, Tomography, Emission-Computed methods, Tryptophan analogs & derivatives, Tuberous Sclerosis metabolism

Published

2000

19. Imaging epileptogenic tubers in children with tuberous sclerosis complex using alpha-[11C]methyl-L-tryptophan positron emission tomography.

Author

Chugani DC, Chugani HT, Muzik O, Shah JR, Shah AK, Canady A, Mangner TJ, and Chakraborty PK

Subjects

Brain diagnostic imaging, Brain pathology, Brain physiopathology, Carbon Radioisotopes, Child, Electroencephalography, Epilepsy diagnosis, Female, Humans, Magnetic Resonance Imaging, Male, Epilepsy diagnostic imaging, Epilepsy etiology, Tomography, Emission-Computed, Tryptophan analogs & derivatives, Tuberous Sclerosis complications

Abstract

Several reports have indicated that cortical resection is effective in alleviating intractable epilepsy in children with tuberous sclerosis complex (TSC). Because of the multitude of cortical lesions, however, identifying the epileptogenic tuber(s) is difficult and often requires invasive intracranial electroencephalographic (EEG) monitoring. As increased concentrations of serotonin and serotonin-immunoreactive processes have been reported in resected human epileptic cortex, we used alpha-[11C]methyl-L-tryptophan ([11C]AMT) positron emission tomography (PET) to test the hypothesis that serotonin synthesis is increased interictally in epileptogenic tubers in patients with TSC. Nine children with TSC and epilepsy, aged 1 to 9 years (mean, 4 years 1 month), were studied. All children underwent scalp video-EEG monitoring, PET scans of glucose metabolism and serotonin synthesis, and EEG monitoring during both PET studies. [11C]AMT scans were coregistered with magnetic resonance imaging and with glucose metabolism scans. Whereas glucose metabolism PET showed multifocal cortical hypometabolism corresponding to the locations of tubers in all 9 children, [11C]AMT uptake was increased in one tuber (n=3), two tubers (n=3), three tubers (n=1), and four tubers (n=1) in 8 of the 9 children. All other tubers showed decreased [11C]AMT uptake. Ictal EEG data available in 8 children showed seizure onset corresponding to foci of increased [11C]AMT uptake in 4 children (including 2 with intracranial EEG recordings). In 2 children, ictal EEG was nonlocalizing, and in 1 child there was discordance between the region of increased [11C]AMT uptake and the region of ictal onset on EEG. The only child whose [11C]AMT scan showed no regions of increased uptake had a left frontal seizure focus on EEG; however, at the time of his [11C]AMT PET scan, his seizures had come under control. [11C]AMT PET may be a powerful tool in differentiating between epileptogenic and nonepileptogenic tubers in patients with TSC.

Published

1998

20. Human brain serotonin synthesis capacity measured in vivo with alpha-[C-11]methyl-L-tryptophan.

Author

Chugani DC, Muzik O, Chakraborty P, Mangner T, and Chugani HT

Subjects

Adolescent, Adult, Brain diagnostic imaging, Female, Humans, Male, Statistics as Topic, Tryptophan metabolism, Brain metabolism, Serotonin biosynthesis, Tomography, Emission-Computed, Tryptophan analogs & derivatives

Abstract

Local cerebral serotonin synthesis capacity was measured with alpha-[C-11]methyl-L-tryptophan ([C-11]AMT) in normal adult human brain (n = 10; five males, five females; age range, 18-38 years, mean 28.3 years) by using positron emission tomography (PET). [C-11]AMT is an analog of tryptophan, the precursor for serotonin synthesis, and is converted to alpha-[C-11]methyl-serotonin ([C-11]AM-5HT), which is trapped in serotonergic neurons because [C-11]AM-5HT is not degraded by monoamine oxidase. Kinetic analysis of [C-11] activity in brain after injection of [C-11]AMT confirmed the presence of a compartment with unidirectional uptake that represented approximately 40% of the activity in the brain at 50 min after tracer administration. The undirectional rate constant K, which represents the uptake of [C-11]AMT from the plasma to brain tissue followed by the synthesis and physiologic trapping of [C-11]AM-5HT, was calculated using the Patlak graphic approach on a pixel-by-pixel basis, thus creating parametric images. The rank order of K values for different brain regions corresponded well to the regional concentrations of serotonin in human brain (P < .0001). High serotonin synthesis capacity values were measured in putamen, caudate, thalamus, and hippocampus. Among cortical regions, the highest values were measured in the rectal gyrus of the inferior frontal lobe, followed by transverse temporal gyrus; anterior and posterior cingulate gyrus; middle, superior, and inferior temporal gyri; parietal cortex; occipital cortex, in descending order. Values in women were 10-20% higher (P < .05, MANOVA) throughout the brain than those measured in men. Differences in the serotonin synthesis capacity between men and women measured in this study may reflect gender differences of importance to both normal and pathologic behavior. This study demonstrates the suitability of [C-11]AMT as a tracer for PET scanning of serotonin synthesis capacity in human brain and provides normal adult values for future comparison with patient groups.

Published

1998

21. Analysis of [C-11]alpha-methyl-tryptophan kinetics for the estimation of serotonin synthesis rate in vivo.

Author

Muzik O, Chugani DC, Chakraborty P, Mangner T, and Chugani HT

Subjects

Adult, Brain diagnostic imaging, Caudate Nucleus metabolism, Cerebral Cortex metabolism, Feasibility Studies, Half-Life, Humans, Kinetics, Linear Models, Reference Values, Thalamus metabolism, Tomography, Emission-Computed, Tryptophan metabolism, Brain metabolism, Serotonin biosynthesis, Tryptophan analogs & derivatives

Abstract

We describe the tracer kinetic analysis of [C-11]-labeled alpha-methyl-tryptophan (AMT), an analogue of tryptophan, which has been developed as a tracer for serotonin synthesis using positron emission tomography (PET) in human brain. Dynamic PET data were acquired from young healthy volunteers (n = 10) as a series of 22 scans covering a total of 60 minutes and analyzed by means of a three-compartment, four-parameter model. In addition, functional images of the K-complex were created using the Patlak-plot approach. The application of a three-compartment model resulted in low identifiability of individual k-values, especially that of k3. Model identifiability analysis using a singular value decomposition of the final sensitivity matrix showed parameter identifiability to increase by 50% when the Patlak-plot approach was used. K-complex values derived by the Patlak-plot approach overestimated the compartmental values by 10 to 20%, because of the violation of the dynamic equilibrium assumption. However, this bias was fairly constant in all structures of the brain. The rank order of K-complex values from different brain regions corresponded well to the regional concentrations of serotonin in human brain (P < 0.0001). These results indicate that the Patlak-plot method can be readily applied to [C-11]AMT data in order to create functional images of the K-complex, reflecting serotonin synthesis rate, within an acceptable error margin.

Published

1997

22. A high-yield and simplified procedure for the synthesis of alpha-[11C]methyl-L-tryptophan.

Author

Chakraborty PK, Mangner TJ, Chugani DC, Muzik O, and Chugani HT

Subjects

Tryptophan chemical synthesis, Tryptophan isolation & purification, Carbon Radioisotopes chemistry, Isotope Labeling methods, Tryptophan analogs & derivatives

Abstract

Alpha-[11C]methyl-L-tryptophan (AMT) has been synthesized by stereoselective methylation with [11C]methyl iodide of the lithium-enolate generated by treating dimethyl 2(S), 3a(R), 8a(S)-(+)-hexahydro-8(phenylsulfonyl)pyrrolo [2, 3-b]indole-1,2-dicarboxylate (2) with lithium diisopropyl amide (LDA) at -55 degrees C, followed by ring opening using trifluoroacetic acid and alkaline hydrolysis of the protecting groups. The crude product was purified by a simple reverse-phase C-18 Sep-Pak procedure. The purified product was isolated with an average radiochemical yield of 53 +/- 12% (decay corrected) in 30-35 min from [11C]methyl iodide. At end of synthesis (EOS), 138 +/- 35 mCi (n = 24) of product was collected with a specific activity of ca. 1-1.3 Ci/mumol (EOS) (4-5 Ci/mumol @ EOB) starting from 1.5 Ci (EOB) of [11C]CO2.

Published

1996