Relevancia de la cuantificación en los estudios PET cerebrales con 18F-FDG / Relevance of quantification in brain PET studies with 18F-FDG

La inclusión de la PET 18F-FDG como biomarcador en los criterios de diagnóstico clínico de enfermedades neurodegenerativas y su indicación en el estudio precirugía en la epilepsia resistente a los fármacos permiten mejorar la especificidad del diagnóstico. La interpretación clásica de los estudios PET neurológicos se ha abordado de forma cualitativa, aunque en la última década hemos sido testigos del auge en los sistemas de evaluación cuantitativa. Este desarrollo técnico es de vital importancia en la práctica clínica, ya que mejora la especificidad y la reproducibilidad y reduce el efecto dependiente del observador derivado del análisis visual. Consideramos que es conveniente exponer la complejidad de las técnicas de procesamiento de imagen empleadas, lo que permitirá al especialista en Medicina Nuclear conocer sus ventajas e inconvenientes a la hora de incluirlas en la práctica clínica diaria

The inclusion of 18F-FDG PET as a biomarker in the diagnostic criteria of neurodegenerative diseases and its indication in the presurgical assessment for drug-resistant epilepsies allow to improve specificity of these diagnosis. The traditional interpretation of neurological PET studies has been performed qualitatively, although in the last decade, several quantitative evaluation methods have emerged. This technical development has become relevant in clinical practice, improving specificity, reproducibility and reducing the interrater reliability derived from visual analysis. In this article we update/review the main imaging processing techniques currently used. This may allow the Nuclear Medicine physician to know their advantages and disadvantages when including these procedures in daily clinical practice

Relevance of quantification in brain PET studies with 18F-FDG. / Relevancia de la cuantificación en los estudios PET cerebrales con 18F-FDG.

The inclusion of 18F-FDG PET as a biomarker in the diagnostic criteria of neurodegenerative diseases and its indication in the presurgical assessment for drug-resistant epilepsies allow to improve specificity of these diagnosis. The traditional interpretation of neurological PET studies has been performed qualitatively, although in the last decade, several quantitative evaluation methods have emerged. This technical development has become relevant in clinical practice, improving specificity, reproducibility and reducing the interrater reliability derived from visual analysis. In this article we update/review the main imaging processing techniques currently used. This may allow the Nuclear Medicine physician to know their advantages and disadvantages when including these procedures in daily clinical practice.

PET amiloide en enfermedades neurodegenerativas que cursan con demencia / Amyloid PET in neurodegenerative diseases with dementia

La enfermedad de Alzheimer (EA) es una enfermedad neurodegenerativa que se caracteriza por un deterioro cognitivo progresivo y pérdida de memoria, siendo la causa más común de demencia. Los hallazgos anatomopatológicos de la EA son los depósitos de Aβ amiloide y proteína Tau, que producen disfunción sináptica y muerte neuronal. La PET amiloide es una técnica útil, disponible y no invasiva que nos proporciona información in vivo del depósito amiloide. En las últimas revisiones de los criterios diagnósticos de la EA se definen e incorporan los biomarcadores, que se clasifican en biomarcadores fisiopatológicos o de diagnóstico (aumento de la retención fibrilar amiloide observada por PET o disminución del péptido Aβ1-42 y elevación de las proteínas T-Tau y F-Tau en el LCR) y biomarcadores de neurodegeneración o topográficos (disminución del metabolismo temporoparietal en la PET-FDG y atrofia temporal medial en la RM). Recientemente se han creado unas recomendaciones específicas para la correcta utilización de los biomarcadores, donde se incluye la PET amiloide: deterioro cognitivo persistente/progresivo, deterioro cognitivo atípico, deterioro cognitivo de inicio precoz y diagnóstico diferencial entre EA y otras enfermedades neurodegenerativas que cursan con demencia. Nuevos estudios de investigación y ensayos clínicos están utilizando la PET amiloide en la evaluación y el desarrollo de nuevas terapias para la EA, así como para el estudio de otras enfermedades neurodegenerativas que cursan con demencia. En este trabajo revisamos algunos conceptos generales y profundizamos en el uso de esta nueva técnica y su relación con las enfermedades neurodegenerativas y el resto de las técnicas diagnósticas

Alzheimer's disease (AD) is a neurodegenerative condition characterized by progressive cognitive decline and memory loss, and is the most common form of dementia. Amyloid plaques with neurofibrillary tangles are a neuropathological hallmark of AD that produces synaptic dysfunction and culminates later in neuronal loss. Amyloid PET is a useful, available and non-invasive technique that provides in vivo information about the cortical amyloid burden. In the latest revised criteria for the diagnosis of AD biomarkers were defined and integrated: pathological and diagnostic biomarkers (increased retention on fibrillar amyloid PET or decreased Aβ1-42 and increased T-Tau or P-Tau in CSF) and neurodegeneration or topographical biomarkers (temporoparietal hypometabolism on 18F-FDG PET and temporal atrophy on MRI). Recently specific recommendations have been created as a consensus statement on the appropriate use of the imaging biomarkers, including amyloid PET: early-onset cognitive impairment/dementia, atypical forms of AD, mild cognitive impairment with early age of onset, and to differentiate between AD and other neurodegenerative diseases that occur with dementia. Amyloid PET is also contributing to the development of new therapies for AD, as well as in research studies for the study of other neurodegenerative diseases that occur with dementia where the deposition of Aβ amyloid is involved in its pathogenesis. In this paper, we review some general concepts and study the use of amyloid PET in depth and its relationship with neurodegenerative diseases and other diagnostic techniques

Amyloid PET in neurodegenerative diseases with dementia. / PET amiloide en enfermedades neurodegenerativas que cursan con demencia.

Alzheimer's disease (AD) is a neurodegenerative condition characterized by progressive cognitive decline and memory loss, and is the most common form of dementia. Amyloid plaques with neurofibrillary tangles are a neuropathological hallmark of AD that produces synaptic dysfunction and culminates later in neuronal loss. Amyloid PET is a useful, available and non-invasive technique that provides in vivo information about the cortical amyloid burden. In the latest revised criteria for the diagnosis of AD biomarkers were defined and integrated: pathological and diagnostic biomarkers (increased retention on fibrillar amyloid PET or decreased Aß1-42 and increased T-Tau or P-Tau in CSF) and neurodegeneration or topographical biomarkers (temporoparietal hypometabolism on 18F-FDG PET and temporal atrophy on MRI). Recently specific recommendations have been created as a consensus statement on the appropriate use of the imaging biomarkers, including amyloid PET: early-onset cognitive impairment/dementia, atypical forms of AD, mild cognitive impairment with early age of onset, and to differentiate between AD and other neurodegenerative diseases that occur with dementia. Amyloid PET is also contributing to the development of new therapies for AD, as well as in research studies for the study of other neurodegenerative diseases that occur with dementia where the deposition of Aß amyloid is involved in its pathogenesis. In this paper, we review some general concepts and study the use of amyloid PET in depth and its relationship with neurodegenerative diseases and other diagnostic techniques.