LUIS FILIPE DE SOUZA GODOY

Índice h a partir de 2011
5
ORCID
Projetos de Pesquisa
Unidades Organizacionais
Instituto de Psiquiatria, Hospital das Clínicas, Faculdade de Medicina - Médico

Filtros

Limpar filtros

Configurações

Categoria: original article ×

Resultados de Busca

Agora exibindo 1 - 8 de 8
  • article 12 Citação(ões) na Scopus
    Drug-related demyelinating syndromes: understanding risk factors, pathophysiological mechanisms and magnetic resonance imaging findings
    (2021) RIMKUS, Carolina M.; SCHOEPS, Vinicius Andreoli; BOAVENTURA, Mateus; GODOY, Luis Filipe; APOSTOLOS-PEREIRA, Samira Luisa; CALICH, Ana Luisa; CALLEGARO, Dagoberto; LUCATO, Leandro Tavares; ROVIRA, Alex; SASTRE-GARRIGA, Jaume; LEITE, Claudia da Costa
    Some drugs and medications can precipitate immune system deregulations, which might be confused with recurrent demyelinating diseases, such as multiple sclerosis (MS) and neuromyelitis optica spectrum disorders (NMO), exacerbations of an existing disease, neoplastic lesions or other conditions. In this narrative review we describe some of the most relevant drugs and medications associated with iatrogenic demyelination. The anthelminthic agent levamisole is a frequent cocaine adulterant and can precipitate an exacerbated immune response attacking the central nervous system (CNS). High-efficacy multiple sclerosis (MS) drugs might induce a selective CNS immunosuppression, making it susceptible for opportunistic infections that course with demye-lination, such as progressive multifocal leukoencephalopathy. Sometimes, the interruption of a high-efficacy drug to treat MS can induce a rapid CNS reentry of lymphocytes, exacerbating demyelinating processes and triggering rebound syndromes. Furthermore, selective cytokines inhibition, such as anti-TNF alpha agents, might induce an imbalance between cell death and proliferation inducing a paradoxical increase of CNS tumor necrosis factor (TNF), affecting the activity of lymphocytes, microglia and macrophages, triggering aberrant inflammation and demyelination. Immune checkpoint inhibitors are a new class of antineoplastic drugs that enhance the immune response against tumor cells by an upregulation of T-cell activity. However, this hyperactivation of the immune system might be associated with induction of unwanted autoimmune responses. In this paper we review the risk factors, the possible pathological mechanisms and the magnetic resonance imaging (MRI) findings of these drug-related demyelinating syndromes.
  • article 1 Citação(ões) na Scopus
    Subacute Partially Reversible Leukoencephalopathy Expands the Aicardi-Goutieres Syndrome Phenotype
    (2023) BARCELOS, Isabella Peixoto de; BUENO, Clarissa; GODOY, Luis Filipe S.; PESSOA, Andre; COSTA, Larissa A.; MONTI, Fernanda C.; SOUZA-CABRAL, Katiane; LISTIK, Clarice; CASTRO, Diego; DELLA-RIPA, Bruno; FREUA, Fernando; PIRES, Lais C.; KRUGER, Lia T.; GHERPELLI, Jose Luiz D.; PIAZZON, Flavia B.; MONTEIRO, Fabiola P.; LUCATO, Leandro T.; KOK, Fernando
    Objective: To report a series of atypical presentations of Aicardi-Goutieres syndrome. Methods: Clinical, neuroimaging, and genetic data. Results: We report a series of six unrelated patients (five males) with a subacute loss of developmental milestones, pyramidal signs, and regression of communication abilities, with onset at ages ranging from 7 to 20 months, reaching a nadir after 4 to 24 weeks. A remarkable improvement of lost abilities occurred in the follow-up, and they remained with residual spasticity and dysarthria but preserved cognitive function. Immunization or febrile illness occurred before disease onset in all patients. CSF was normal in two patients, and in four, borderline or mild lymphocytosis was present. A brain CT scan disclosed a subtle basal ganglia calcification in one of six patients. Brain MRI showed asymmetric signal abnormalities of white matter with centrum semi-ovale involvement in five patients and a diffuse white matter abnormality with contrast enhancement in one. Four patients were diagnosed and treated for acute demyelinating encephalomyelitis (ADEM). Brain imaging was markedly improved with one year or more of follow-up (average of 7 years), but patients remained with residual spasticity and dysarthria without cognitive impairment. Demyelination relapse occurred in a single patient four years after the first event. Whole-exome sequencing (WES) was performed in all patients: four of them disclosed biallelic pathogenic variants in RNASEH2B (three homozygous p.Ala177Thr and one compound heterozygous p.Ala177Thr/p.Gln58*) and in two of them the same homozygous deleterious variants in RNASEH2A (p.Ala249Val). Conclusions: This report expands the phenotype of AGS to include subacute developmental regression with partial clinical and neuroimaging improvement. Those clinical features might be misdiagnosed as ADEM.
  • article 1 Citação(ões) na Scopus
    Holmes Tremor Secondary to a Stabbing Lesion in the Midbrain
    (2017) CURY, Rubens Gisbert; BARBOSA, Egberto Reis; FREITAS, Christian; GODOY, Luis Filipe de Souza; PAIVA, Wellingson Silva
    Background: The development of Holmes tremor (HT) after a direct lesion of the midbraia has rarely been reported in the literature, although several etiologies have been linked with HT, such as stroke, brainstem tumors, multiple sclerosis, head trauma, or infections. Phenomenology Shown: A 31-year-old male, having been stabbed in the right eye, presented with a rest and action tremor in the left upper limb associated with left hemiparesis with corresponding post-contrast volumetric magnetic resonance imaging T1 with sagittal oblique reformation showing the knife trajectory reaching the right midbrain. Educational Value: Despite the rarity of the etiology of HT in the present case, clinicians working with persons with brain injurieshot should be aware of this type of situation.
  • article
    Oncocytic Meningioma: Case Report of a Rare Meningioma Variant
    (2023) CASAL, Yuri Reis; TEIXEIRA, Livia Porto; BANDEIRA, Gabriela Alencar; PORCEBAN, Matheus Moreli; PAIVA, Wellingson Silva; GODOY, Luis Filipe de Souza; YAMAKI, Vitor Nagai; LUCATO, Leandro Tavares; ALVES, Venancio Avancini Ferreira; FRASSETTO, Fernando Pereira
    Oncocytic meningioma has been first identified in 1997 as a rare meningioma variant, composed predominantly of large meningothelial cells with abundant intracytoplasmic mitochondria. Here, we describe a 34-year-old male patient presenting with 2 weeks of progressive holocranial headache. Brain magnetic resonance imaging (MRI) revealed an extra axial solid-cystic expansive lesion in the left parieto-occipital parasagittal region, with intense vascularization. Histological and immunohistochemical analysis established the diagnosis. We also review briefly the pathological and radiological findings of this rare variant of meningioma as described in the literature.
  • article 75 Citação(ões) na Scopus
    Multinodular and Vacuolating Neuronal Tumor of the Cerebrum: A New ""Leave Me Alone"" Lesion with a Characteristic Imaging Pattern
    (2017) NUNES, R. H.; HSU, C. C.; ROCHA, A. J. da; AMARAL, L. L. F. do; GODOY, L. F. S.; WATKINS, T. W.; MARUSSI, V. H.; WARMUTH-METZ, M.; ALVES, H. C.; GONCALVES, F. G.; KLEINSCHMIDT-DEMASTERS, B. K.; OSBORN, A. G.
    The most recent 2016 WHO classification includes MVNT as a unique cytoarchitectural pattern of gangliocytoma, though it remains unclear whether MVNT is a true neoplastic process or a dysplastic hamartomatous/malformative lesion. The authors report 33 cases of presumed multinodular and vacuolating neuronal tumor of the cerebrum that exhibit a remarkably similar pattern of imaging findings consisting of a subcortical cluster of nodular lesions. They conclude that these are benign, nonaggressive lesions that do not require biopsy in asymptomatic patients and behave more like a malformative process than a true neoplasm. SUMMARY: Multinodular and vacuolating neuronal tumor of the cerebrum is a recently reported benign, mixed glial neuronal lesion that is included in the 2016 updated World Health Organization classification of brain neoplasms as a unique cytoarchitectural pattern of gangliocytoma. We report 33 cases of presumed multinodular and vacuolating neuronal tumor of the cerebrum that exhibit a remarkably similar pattern of imaging findings consisting of a subcortical cluster of nodular lesions located on the inner surface of an otherwise normal-appearing cortex, principally within the deep cortical ribbon and superficial subcortical white matter, which is hyperintense on FLAIR. Only 4 of our cases are biopsy-proven because most were asymptomatic and incidentally discovered. The remaining were followed for a minimum of 24 months (mean, 3 years) without interval change. We demonstrate that these are benign, nonaggressive lesions that do not require biopsy in asymptomatic patients and behave more like a malformative process than a true neoplasm.
  • article 0 Citação(ões) na Scopus
    Glioneuronal and Neuronal Tumors: Who? When? Where? An Update Based on the 2021 World Health Organization Classification
    (2023) AYRES, A. S.; BANDEIRA, G. A.; FERRACIOLLI, S. F.; TAKAHASHI, J. T.; MORENO, R. A.; GODOY, L. F. de Souza; CASAL, Y. R.; LIMA, L. G. C. A. de; FRASSETO, F. P.; LUCATO, L. T.
    Neuronal and glioneuronal tumors usually have a benign course and may have typical imaging characteristics, allowing their diagnosis based on MR imaging findings. The most common lesions are dysembryoplastic neuroepithelial tumors and gangliogliomas, which have typical imaging characteristics. The fifth edition of the World Health Organization Classification of Tumors of the Central Nervous System, recently published in 2021, places greater emphasis on molecular markers to classify tumors of the CNS, leading to extensive changes in the classification of tumors, including neuronal and glioneuronal tumors. The 2021 revision included 3 new tumors types: multinodular and vacuolating neuronal tumor, diffuse glioneuronal tumor with oligodendroglioma-like features and nuclear clusters (a provisional type), and myxoid glioneuronal tumor. Following these recent changes in the World Health Organization classification, we aimed to review the main imaging features of these lesions in relation to their histopathologic and molecular features. Learning Objectives: To list the neuronal and glioneuronal tumors; recognize the main imaging findings and histologic characteristics of neuronal and glioneuronal tumors; know the typical location of each neuronal and glioneuronal tumor; and become familiar with the main molecular alterations of neuronal and glioneuronal tumors to better understand their behavior
  • article 17 Citação(ões) na Scopus
    Dural-based lesions: is it a meningioma?
    (2021) YAMAKI, Vitor Nagai; GODOY, Luis Filipe de Souza; BANDEIRA, Gabriela Alencar; LUCATO, Leandro Tavares; LORDELO, Gustavo Correa; SOLLA, Davi Jorge Fontoura; NEVILLE, Iuri Santana; TEIXEIRA, Manoel Jacobsen; PAIVA, Wellingson Silva
    Purpose Meningiomas are the most common extra-axial intracranial neoplasms with typical radiological findings. In approximately 2% of cases, histopathological reports reveal different neoplasms or non-neoplastic lesions that can closely mimic meningiomas. We describe radiological features of meningioma mimics highlighting imaging red flags to consider a differential diagnosis. Methods A total of 348 lesions with radiological diagnosis of meningiomas which underwent to surgical treatment or biopsy between December of 2000 and September of 2014 were analyzed. We determined imaging features that are not a typical finding of meningiomas, suggesting other lesions. The following imaging characteristics were evaluated on CT and MRI: (a) bone erosion; (b) hyperintensity on T2WI; (c) hypointensity on T2WI; (d) bone destruction; (e) dural tail; (f) leptomeningeal involvement; (g) pattern of contrast enhancement; (h) dural displacement sign. Results We have a relatively high prevalence of meningioma mimics (7.2%). Dural-based lesions with homogeneous contrast enhancement (52%) are easily misdiagnosed as meningiomas. Most lesions mimic convexity (37.5%) or parafalcine (21.9%) meningiomas. We have determined five imaging red flags that can alert radiologists to consider meningioma mimics: (1) bone erosion (22.2%); (2) dural displacement sign (36%); (3) marked T2 hypointensity (32%); (4) marked T2 hyperintensity (12%); (5) absence of dural tail (48%). The most common mimic lesion in our series was hemangiopericytomas, followed by lymphomas and schwannomas. Conclusion The prevalence of meningioma mimics is not negligible. It is important to have awareness on main radiological findings suggestive of differential diagnosis due to a wide range of differentials which lead to different prognosis and treatment strategies.
  • article 54 Citação(ões) na Scopus
    Imaging Patterns of Toxic and Metabolic Brain Disorders
    (2019) OLIVEIRA, Arthur M. de; V, Matheus Paulin; VIEIRA, Ana R. E.; MCKINNEY, Alexander M.; ROCHA, Antonio da; SANTOS, Germana T. dos; LEITE, Claudia da Costa; GODOY, Luis E. de Souza; LUCATO, Leandro T.
    Toxic and metabolic brain disorders are relatively uncommon diseases that affect the central nervous system, but they are important to recognize as they can lead to catastrophic outcomes if not rapidly and properly managed. Imaging plays a key role in determining the most probable diagnosis, pointing to the next steps of investigation, and providing prognostic information. The majority of cases demonstrate bilateral and symmetric involvement of structures at imaging, affecting the deep gray nuclei, cortical gray matter, and/or periventricular white matter, and some cases show specific imaging manifestations. When an appropriate clinical situation suggests exogenous or endogenous toxic effects, the associated imaging pattern usually indicates a restricted group of diagnostic possibilities. Nonetheless, toxic and metabolic brain disorders in the literature are usually approached in the literature by starting with common causal agents and then reaching imaging abnormalities, frequently mixing many different possible manifestations. Conversely, this article proposes a systematic approach to address this group of diseases based on the most important imaging patterns encountered in clinical practice. Each pattern is suggestive of a most likely differential diagnosis, which more closely resembles real-world scenarios faced by radiologists. Basic pathophysiologic concepts regarding cerebral edemas and their relation to imaging are introduced-an important topic for overall understanding. The most important imaging patterns are presented, and the main differential diagnosis for each pattern is discussed. (C) RSNA, 2019