Abnormal brain metabolism on FDG-PET/CT is a common early finding in autoimmune encephalitis

Probasco, John C.; Solnes, Lilja B.; Nalluri, Abhinav; Cohen, Jesse; Jones, Krystyna M.; Zan, Elçin; Javadi, Mehrbod S.; Venkatesan, Arun

doi:10.1212/nxi.0000000000000352

Cited by 156 publications

(139 citation statements)

References 30 publications

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“…18 F-FDG-PET has been suggested as a sensitive diagnostic tool [1], with either hypermetabolic or hypometabolic patterns [2]. In this case, bilateral parieto-occipital hypometabolism is concordant with previous reports [3]. A similar hypometabolic pattern can be produced by NMDAR antagonists, such as ketamine [4].…”

Section: Discussionsupporting

confidence: 84%

Could arterial spin labelling perfusion imaging uncover the invisible in N‐methyl‐d‐aspartate receptor encephalitis?

Lapucci

Boffa

Massa

et al. 2019

Euro J of Neurology

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Section: Discussionsupporting

confidence: 84%

Could arterial spin labelling perfusion imaging uncover the invisible in N‐methyl‐d‐aspartate receptor encephalitis?

Lapucci

Boffa

Massa

et al. 2019

Euro J of Neurology

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“…FDG‐PET detected anomalies in autoimmune encephalitis more frequently than did of electroencephalography, MRI, and CSF. Regional brain hypometabolism (69%) was more frequently detected than isolated hypermetabolism (3%) or mixed hyper‐ and hypometabolism (13%) (Probasco et al, ). The functioning of the brain depends heavily on glucose use (Mergenthaler, Lindauer, Dienel, & Meisel, ); neuronal activities drive local glucose metabolism through direct glucose uptake by neurons (Lundgaard et al, ), astrocyte–neuron interaction, oxidative energy transmission, and increase of regional cerebral blood flow (Magistretti & Allaman, ).…”

Section: Discussionmentioning

confidence: 99%

“…To date, several understandings of characteristic metabolic patterns of autoimmune encephalitis have been published. Early hypermetabolic lesion in the mesial temporal areas could be a marker of active inflammatory process of limbic encephalitis (Probasco et al, ), because FDG usually accumulates at infection or inflammation foci (Bleeker‐Rovers, de Kleijn, Corstens, van der Meer, & Oyen, ). Occipital hypometabolism is characteristic in patients with anti‐NMDAR encephalitis (Probasco et al, ).…”

Section: Discussionmentioning

confidence: 99%

Different FDG‐PET metabolic patterns of anti‐AMPAR and anti‐NMDAR encephalitis: Case report and literature review

Wei

Tseng

et al. 2020

Brain and Behavior

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Introduction 18F‐fluorodeoxyglucose (FDG)‐PET metabolic patterns of brain differ among autoimmune encephalitis with different neuronal surface antigens. In this case report, we compared the topographical relationship of cerebral glucose metabolism and antigen distribution in the patients with anti‐NMDAR and anti‐AMPAR encephalitis. Literature review summarized the common features of brain metabolism of autoimmune encephalitis. Methods The cerebral glucose metabolism was evaluated by FDG‐PET/CT during acute‐to‐subacute stage of autoimmune encephalitis and after treatment. The stereo and quantitative analysis of cerebral metabolism used standardized z‐score and visualized on three‐dimensional stereotactic surface projection. To map NMDAR and AMPAR in human brain, we adopted genetic atlases from the Allen Institute and protein atlases from Zilles's receptor densities. Results The three‐dimensional stereotactic surface projection displayed frontal‐dominant hypometabolism in a 66‐year‐old female patient with anti‐AMPAR encephalitis and occipital‐dominant hypometabolism in a 29‐year‐old female patient with anti‐NMDAR encephalitis. Receptor density maps revealed opposite frontal–occipital gradients of AMPAR and NMDAR, which reflect reduced metabolism in the correspondent encephalitis. FDG‐PET hypometabolic areas possibly represent receptor hypofunction with spatial correspondence to receptor distributions of the autoimmune encephalitis. The reversibility of hypometabolism was in line with patients' cognitive improvement. The literature review summarized six features of metabolic anomalies of autoimmune encephalitis: (a) temporal hypermetabolism, (b) frontal hypermetabolism and (c) occipital hypometabolism in anti‐NMDAR encephalitis, (d) hypometabolism in association cortices, (e) sparing of unimodal primary motor cortex, and (e) reversibility in recovery. Conclusions The distinct cerebral hypometabolic patterns of autoimmune encephalitis were representative for receptor hypofunction and topographical distribution of antigenic receptors. The reversibility of hypometabolism marked the clinical recovery of autoimmune encephalitis and made FDG‐PET of brain a valuable diagnostic tool.

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“…Clinical phenotypes suggestive of LE, combining behavioral abnormalities with seizures and cognitive impairment, were the most frequent, but insufficient for inclusion in the Ab-negative-LE group as the patients lacked the bilateral mesial temporal lobe involvement on brain MRI required by the AE-DC [8]. This criterion might be integrated by the acquisition of bilaterality evidence using brain FDG-PET [20]. In our cohort too, two patients with monolateral temporal lobe involvement on the brain MRI were classified as Abpositive-LE using brain FDG-PET.…”

Section: Discussionmentioning

confidence: 99%

“…Testing 37/48 Ab-negative cases, in-house assays identified Abs in 11 patients (29.7%). A hundred and eighteen patients fulfilled the AE-DC, 81 (68.6%) with Ab-positive-AE (Ab-positive-LE, 40; NMDAR-E, 32; definite-AE, nine) and 37 (31.4%) with Ab-negative-AE (Ab-negative-LE, 17; probable/possible-AE, 20). Clinical phenotypes were similar in Ab-positive-LE versus Ab-negative-LE.…”

mentioning

confidence: 99%

Subgroup comparison according to clinical phenotype and serostatus in autoimmune encephalitis: a multicenter retrospective study

Gastaldi

Mariotto

Giannoccaro

et al. 2020

Euro J of Neurology

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Background and purpose Autoimmune encephalitides (AE) include a spectrum of neurological disorders whose diagnosis revolves around the detection of neuronal antibodies (Abs). Consensus‐based diagnostic criteria (AE‐DC) allow clinic‐serological subgrouping of AE, with unclear prognostic implications. The impact of AE‐DC on patients’ management was studied, focusing on the subgroup of Ab‐negative‐AE. Methods This was a retrospective multicenter study on patients fulfilling AE‐DC. All patients underwent Ab testing with commercial cell‐based assays (CBAs) and, when available, in‐house assays (immunohistochemistry, live/fixed CBAs, neuronal cultures) that contributed to defining final categories. Patients were classified as Ab‐positive‐AE [N‐methyl‐d‐aspartate‐receptor encephalitis (NMDAR‐E), Ab‐positive limbic encephalitis (LE), definite‐AE] or Ab‐negative‐AE (Ab‐negative‐LE, probable‐AE, possible‐AE). Results Commercial CBAs detected neuronal Abs in 70/118 (59.3%) patients. Testing 37/48 Ab‐negative cases, in‐house assays identified Abs in 11 patients (29.7%). A hundred and eighteen patients fulfilled the AE‐DC, 81 (68.6%) with Ab‐positive‐AE (Ab‐positive‐LE, 40; NMDAR‐E, 32; definite‐AE, nine) and 37 (31.4%) with Ab‐negative‐AE (Ab‐negative‐LE, 17; probable/possible‐AE, 20). Clinical phenotypes were similar in Ab‐positive‐LE versus Ab‐negative‐LE. Twenty‐four/118 (20.3%) patients had tumors, and 19/118 (16.1%) relapsed, regardless of being Ab‐positive or Ab‐negative. Ab‐positive‐AE patients were treated earlier than Ab‐negative‐AE patients (P = 0.045), responded more frequently to treatments (92.3% vs. 65.6%, P < 0.001) and received second‐line therapies more often (33.3% vs. 10.8%, P = 0.01). Delays in first‐line therapy initiation were associated with poor response (P = 0.022; odds ratio 1.02; confidence interval 1.00–1.04). Conclusions In‐house diagnostics improved Ab detection allowing better patient management but was available in a patient subgroup only, implying possible Ab‐positive‐AE underestimation. Notwithstanding this limitation, our findings suggest that Ab‐negative‐AE and Ab‐positive‐AE patients share similar oncological profiles, warranting appropriate tumor screening. Ab‐negative‐AE patients risk worse responses due to delayed and less aggressive treatments.

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Abnormal brain metabolism on FDG-PET/CT is a common early finding in autoimmune encephalitis

Cited by 156 publications

References 30 publications

Could arterial spin labelling perfusion imaging uncover the invisible in N‐methyl‐d‐aspartate receptor encephalitis?

Could arterial spin labelling perfusion imaging uncover the invisible in N‐methyl‐d‐aspartate receptor encephalitis?

Different FDG‐PET metabolic patterns of anti‐AMPAR and anti‐NMDAR encephalitis: Case report and literature review

Subgroup comparison according to clinical phenotype and serostatus in autoimmune encephalitis: a multicenter retrospective study

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