RESUMEN
PURPOSE OF REVIEW: Glioblastoma is the commonest primary brain cancer in adults whose outcomes are amongst the worst of any cancer. The current treatment pathway comprises surgery and postoperative chemoradiotherapy though unresectable diffusely infiltrative tumour cells remain untreated for several weeks post-diagnosis. Intratumoural heterogeneity combined with increased hypoxia in the postoperative tumour microenvironment potentially decreases the efficacy of adjuvant interventions and fails to prevent early postoperative regrowth, called rapid early progression (REP). In this review, we discuss the clinical implications and biological foundations of post-surgery REP. Subsequently, clinical interventions potentially targeting this phenomenon are reviewed systematically. RECENT FINDINGS: Early interventions include early systemic chemotherapy, neoadjuvant immunotherapy, local therapies delivered during surgery (including Gliadel wafers, nanoparticles and stem cell therapy) and several radiotherapy techniques. We critically appraise and compare these strategies in terms of their efficacy, toxicity, challenges and potential to prolong survival. Finally, we discuss the most promising strategies that could benefit future glioblastoma patients. There is biological rationale to suggest that early interventions could improve the outcome of glioblastoma patients and they should be investigated in future trials.
Asunto(s)
Neoplasias Encefálicas , Glioblastoma , Adulto , Antineoplásicos Alquilantes/uso terapéutico , Neoplasias Encefálicas/tratamiento farmacológico , Neoplasias Encefálicas/terapia , Carmustina/uso terapéutico , Quimioradioterapia , Glioblastoma/tratamiento farmacológico , Glioblastoma/terapia , Humanos , Microambiente TumoralRESUMEN
BACKGROUND: The CATNON trial investigated the addition of concurrent, adjuvant, and both current and adjuvant temozolomide to radiotherapy in adults with newly diagnosed 1p/19q non-co-deleted anaplastic gliomas. The benefit of concurrent temozolomide chemotherapy and relevance of mutations in the IDH1 and IDH2 genes remain unclear. METHODS: This randomised, open-label, phase 3 study done in 137 institutions across Australia, Europe, and North America included patients aged 18 years or older with newly diagnosed 1p/19q non-co-deleted anaplastic gliomas and a WHO performance status of 0-2. Patients were randomly assigned (1:1:1:1) centrally using a minimisation technique to radiotherapy alone (59·4 Gy in 33 fractions; three-dimensional conformal radiotherapy or intensity-modulated radiotherapy), radiotherapy with concurrent oral temozolomide (75 mg/m2 per day), radiotherapy with adjuvant oral temozolomide (12 4-week cycles of 150-200 mg/m2 temozolomide given on days 1-5), or radiotherapy with both concurrent and adjuvant temozolomide. Patients were stratified by institution, WHO performance status score, age, 1p loss of heterozygosity, the presence of oligodendroglial elements on microscopy, and MGMT promoter methylation status. The primary endpoint was overall survival adjusted by stratification factors at randomisation in the intention-to-treat population. A second interim analysis requested by the independent data monitoring committee was planned when two-thirds of total required events were observed to test superiority or futility of concurrent temozolomide. This study is registered with ClinicalTrials.gov, NCT00626990. FINDINGS: Between Dec 4, 2007, and Sept 11, 2015, 751 patients were randomly assigned (189 to radiotherapy alone, 188 to radiotherapy with concurrent temozolomide, 186 to radiotherapy and adjuvant temozolomide, and 188 to radiotherapy with concurrent and adjuvant temozolomide). Median follow-up was 55·7 months (IQR 41·0-77·3). The second interim analysis declared futility of concurrent temozolomide (median overall survival was 66·9 months [95% CI 45·7-82·3] with concurrent temozolomide vs 60·4 months [45·7-71·5] without concurrent temozolomide; hazard ratio [HR] 0·97 [99·1% CI 0·73-1·28], p=0·76). By contrast, adjuvant temozolomide improved overall survival compared with no adjuvant temozolomide (median overall survival 82·3 months [95% CI 67·2-116·6] vs 46·9 months [37·9-56·9]; HR 0·64 [95% CI 0·52-0·79], p<0·0001). The most frequent grade 3 and 4 toxicities were haematological, occurring in no patients in the radiotherapy only group, 16 (9%) of 185 patients in the concurrent temozolomide group, and 55 (15%) of 368 patients in both groups with adjuvant temozolomide. No treatment-related deaths were reported. INTERPRETATION: Adjuvant temozolomide chemotherapy, but not concurrent temozolomide chemotherapy, was associated with a survival benefit in patients with 1p/19q non-co-deleted anaplastic glioma. Clinical benefit was dependent on IDH1 and IDH2 mutational status. FUNDING: Merck Sharpe & Dohme.
Asunto(s)
Glioma/tratamiento farmacológico , Isocitrato Deshidrogenasa/genética , Temozolomida/administración & dosificación , Adolescente , Adulto , Anciano , Australia , Quimioterapia Adyuvante , Cromosomas Humanos Par 1/genética , Cromosomas Humanos Par 19/genética , Terapia Combinada , Dacarbazina/administración & dosificación , Dacarbazina/efectos adversos , Europa (Continente) , Femenino , Glioma/genética , Glioma/patología , Glioma/radioterapia , Humanos , Pérdida de Heterocigocidad/genética , Masculino , Persona de Mediana Edad , América del Norte , Radioterapia Conformacional , Adulto JovenRESUMEN
Somatic mutations in the isocitrate dehydrogenase genes IDH1 and IDH2 occur at high frequency in several tumour types. Even though these mutations are confined to distinct hotspots, we show that gliomas are the only tumour type with an exceptionally high percentage of IDH1R132H mutations. Patients harbouring IDH1R132H mutated tumours have lower levels of genome-wide DNA-methylation, and an associated increased gene expression, compared to tumours with other IDH1/2 mutations ("non-R132H IDH1/2 mutations"). This reduced methylation is seen in multiple tumour types and thus appears independent of the site of origin. For 1p/19q non-codeleted glioma (astrocytoma) patients, we show that this difference is clinically relevant: in samples of the randomised phase III CATNON trial, patients harbouring tumours with IDH mutations other than IDH1R132H have a better outcome (hazard ratio 0.41, 95% CI [0.24, 0.71], p = 0.0013). Such non-R132H IDH1/2-mutated tumours also had a significantly lower proportion of tumours assigned to prognostically poor DNA-methylation classes (p < 0.001). IDH mutation-type was independent in a multivariable model containing known clinical and molecular prognostic factors. To confirm these observations, we validated the prognostic effect of IDH mutation type on a large independent dataset. The observation that non-R132H IDH1/2-mutated astrocytomas have a more favourable prognosis than their IDH1R132H mutated counterpart indicates that not all IDH-mutations are identical. This difference is clinically relevant and should be taken into account for patient prognostication.
Asunto(s)
Astrocitoma/diagnóstico , Astrocitoma/genética , Neoplasias Encefálicas/genética , Metilación de ADN/genética , Isocitrato Deshidrogenasa/genética , Mutación , Neoplasias Encefálicas/diagnóstico , Humanos , Pronóstico , Tasa de SupervivenciaRESUMEN
BACKGROUND: Glioblastoma multiforme (GBM) is the most common primary malignant brain tumor in adults. Amplification or overexpression of the epidermal growth factor receptor gene, part of the ErbB family, occur in approximately 40% and 60% of patients with GBM, respectively. We present data from a dose-finding study of the ErbB inhibitor afatinib in combination with radiotherapy (RT), with or without temozolomide (TMZ), in patients with GBM. METHODS: This was a phase I, open-label, 3 + 3 dose-escalation trial in patients with newly-diagnosed, histologically-confirmed grade 4 malignant glioma and proven O6-methylguanine-DNA methyltransferase gene promoter methylation status. The primary endpoint was the maximum tolerated dose (MTD) of continuous daily afatinib when given in combination with RT, with (regimen M) or without (regimen U) concomitant TMZ treatment. RESULTS: Fifty-five patients were enrolled; 36 received ≥ 1 dose of trial medication (regimen M, n = 20, regimen U, n = 16). Afatinib was discontinued by all patients during the study. Reasons for afatinib discontinuation (regimen M/U) included disease progression (45%/50%), dose-limiting toxicity (10%/0%), and other adverse events (AEs; 35%/38%). The most frequently reported AEs with either regimen were diarrhea and rash, with no new safety signals identified. The MTD was determined as afatinib 30 mg in combination with daily TMZ and RT, and afatinib 40 mg in combination with RT alone. CONCLUSIONS: This study identified the MTD for afatinib in combination with RT, with and without TMZ, in patients with GBM. Further studies of afatinib in patients with GBM are warranted and should be based on appropriate biomarker-based preselection. TRIAL REGISTRATION: NCT00977431 (first posted September 15, 2009).
Asunto(s)
Afatinib/uso terapéutico , Neoplasias Encefálicas , Glioblastoma , Adulto , Protocolos de Quimioterapia Combinada Antineoplásica/uso terapéutico , Neoplasias Encefálicas/tratamiento farmacológico , Neoplasias Encefálicas/radioterapia , Dacarbazina/uso terapéutico , Glioblastoma/tratamiento farmacológico , Glioblastoma/radioterapia , Humanos , Temozolomida/uso terapéutico , Resultado del TratamientoRESUMEN
BACKGROUND: Glioblastoma (GBM) is a highly malignant brain tumour that almost inevitably progresses or recurs after first line standard of care. There is no consensus regarding the best treatment/s to offer people upon disease progression or recurrence. For the purposes of this review, progression and recurrence are considered as one entity. OBJECTIVES: To evaluate the effectiveness of further treatment/s for first and subsequent progression or recurrence of glioblastoma (GBM) among people who have received the standard of care (Stupp protocol) for primary treatment of the disease; and to prepare a brief economic commentary on the available evidence. SEARCH METHODS: We searched MEDLINE and Embase electronic databases from 2005 to December 2019 and the Cochrane Central Register of Controlled Trials (CENTRAL, in the Cochrane Library; Issue 12, 2019). Economic searches included the National Health Service Economic Evaluation Database (NHS EED) up to 2015 (database closure) and MEDLINE and Embase from 2015 to December 2019. SELECTION CRITERIA: Randomised controlled trials (RCTs) and comparative non-randomised studies (NRSs) evaluating effectiveness of treatments for progressive/recurrent GBM. Eligible studies included people with progressive or recurrent GBM who had received first line radiotherapy with concomitant and adjuvant temozolomide (TMZ). DATA COLLECTION AND ANALYSIS: Two review authors independently selected studies and extracted data to a pre-designed data extraction form. We conducted network meta-analyses (NMA) and ranked treatments according to effectiveness for each outcome using the random-effects model and Stata software (version 15). We rated the certainty of evidence using the GRADE approach. MAIN RESULTS: We included 42 studies: these comprised 34 randomised controlled trials (RCTs) and 8 non-randomised studies (NRSs) involving 5236 participants. We judged most RCTs to be at a low risk of bias and NRSs at high risk of bias. Interventions included chemotherapy, re-operation, re-irradiation and novel therapies either used alone or in combination. For first recurrence, we included 11 interventions in the network meta-analysis (NMA) for overall survival (OS), and eight in the NMA for progression-free survival (PFS). Lomustine (LOM; also known as CCNU) was the most common comparator and was used as the reference treatment. No studies in the NMA evaluated surgery, re-irradiation, PCV (procarbazine, lomustine, vincristine), TMZ re-challenge or best supportive care. We could not perform NMA for second or later recurrence due to insufficient data. Quality-of-life data were sparse. First recurrence (NMA findings) Median OS across included studies in the NMA ranged from 5.5 to 12.6 months and median progression-free survival (PFS) ranged from 1.5 months to 4.2 months. We found no high-certainty evidence that any treatments tested were better than lomustine. These treatments included the following. Bevacizumab plus lomustine: Evidence suggested probably little or no difference in OS between bevacizumab (BEV) combined with lomustine (LOM) and LOM monotherapy (hazard ratio (HR) 0.91, 0.75 to 1.10; moderate-certainty evidence), although BEV + LOM may improve PFS (HR 0.57, 95% confidence interval (CI) 0.44 to 0.74; low-certainty evidence). Bevacizumab monotherapy: Low-certainty evidence suggested there may be little or no difference in OS (HR 1.22, 95% CI 0.84 to 1.76) and PFS (HR 0.90, 95% CI 0.58 to 1.38; low-certainty evidence) between BEV and LOM monotherapies; more evidence on BEV is needed. Regorafenib (REG): REG may improve OS compared with LOM (HR 0.50, 95% CI 0.33 to 0.76; low-certainty evidence). Evidence on PFS was very low certainty and more evidence on REG is needed. Temozolomide (TMZ) plus Depatux-M (ABT414): For OS, low-certainty evidence suggested that TMZ plus ABT414 may be more effective than LOM (HR 0.66, 95% CI 0.47 to 0.92) and may be more effective than BEV (HR 0.54, 95% CI 0.33 to 0.89; low-certainty evidence). This may be due to the TMZ component only and more evidence is needed. Fotemustine (FOM): FOM and LOM may have similar effects on OS (HR 0.89, 95% CI 0.51 to 1.57, low-certainty evidence). Bevacizumab and irinotecan (IRI): Evidence on BEV + irinotecan (IRI) versus LOM for both OS and PFS is very uncertain and there is probably little or no difference between BEV + IRI versus BEV monotherapy (OS: HR 0.95, 95% CI 0.70 to 1.30; moderate-certainty evidence). When treatments were ranked for OS, FOM ranked first, BEV + LOM second, LOM third, BEV + IRI fourth, and BEV fifth. Ranking does not take into account the certainty of the evidence, which also suggests there may be little or no difference between FOM and LOM. Other treatments Three studies evaluated re-operation versus no re-operation, with or without re-irradiation and chemotherapy, and these suggested possible survival advantages with re-operation within the context of being able to select suitable candidates for re-operation. A cannabinoid treatment in the early stages of evaluation, in combination with TMZ, merits further evaluation. Second or later recurrence Limited evidence from three heterogeneous studies suggested that radiotherapy with or without BEV may have a beneficial effect on survival but more evidence is needed. Evidence was insufficient to draw conclusions about the best radiotherapy dosage. Other evidence suggested that there may be little difference in survival with tumour-treating fields compared with physician's best choice of treatment. We found no reliable evidence on best supportive care. Severe adverse events (SAEs) The BEV+LOM combination was associated with significantly greater risk of SAEs than LOM monotherapy (RR 2.51, 95% CI 1.72 to 3.66, high-certainty evidence), and ranked joint worst with cediranib + LOM (RR 2.51, 95% CI 1.29 to 4.90; high-certainty evidence). LOM ranked best and REG ranked second best. Adding novel treatments to BEV was generally associated with a higher risk of severe adverse events compared with BEV alone. AUTHORS' CONCLUSIONS: For treatment of first recurrence of GBM, among people previously treated with surgery and standard chemoradiotherapy, the combination treatments evaluated did not improve overall survival compared with LOM monotherapy and were often associated with a higher risk of severe adverse events. Limited evidence suggested that re-operation with or without re-irradiation and chemotherapy may be suitable for selected candidates. Evidence on second recurrence is sparse. Re-irradiation with or without bevacizumab may be of value in selected individuals, but more evidence is needed.
ANTECEDENTES: El glioblastoma (GBM) es un tumor cerebral altamente maligno que casi inevitablemente progresa o recidiva después de un tratamiento de primera línea. No hay consenso sobre el mejor o los mejores tratamientos que se pueden ofrecer a las personas que presentan progresión o recidiva de la enfermedad. A los efectos de la presente revisión, la progresión y la recidiva se consideran como una sola entidad. OBJETIVOS: Evaluar la efectividad de los tratamientos adicionales para la primera y subsiguiente progresión o recidiva del glioblastoma (GBM) entre las personas que han recibido atención estándar (protocolo Stupp) para el tratamiento primario de la enfermedad, así como preparar un breve comentario económico sobre la evidencia disponible. MÉTODOS DE BÚSQUEDA: Se realizaron búsquedas en las bases de datos electrónicas de MEDLINE y Embase desde 2005 hasta diciembre de 2019 y en el Registro Cochrane central de ensayos controlados (Cochrane Central Register of Controlled Trials) (CENTRAL, en la Cochrane Library; Número 12, 2019). Las búsquedas económicas incluyeron la National Health Service Economic Evaluation Database (NHS EED) hasta 2015 (cierre de la base de datos) y MEDLINE y Embase desde 2015 hasta diciembre de 2019. CRITERIOS DE SELECCIÓN: Ensayos controlados aleatorizados (ECA) y estudios comparativos no aleatorizados (no ECA) que evaluaron la efectividad de los tratamientos para el GBM progresivo/recidivante. Los estudios elegibles incluyeron personas con GBM progresivo o recidivante que habían recibido radioterapia de primera línea con temozolomida (TMZ) concomitante y adyuvante. OBTENCIÓN Y ANÁLISIS DE LOS DATOS: Dos autores de la revisión de forma independiente seleccionaron los estudios y extrajeron los datos en un formulario de extracción de datos prediseñado. Se realizaron metanálisis en red (MAR) y los tratamientos se clasificaron según la efectividad de cada desenlace, mediante el modelo de efectos aleatorios y el software Stata (versión 15). La certeza de la evidencia se evaluó mediante los criterios GRADE. RESULTADOS PRINCIPALES: Se incluyeron 42 estudios, que comprendieron 34 ensayos controlados aleatorizados (ECA) y ocho estudios no aleatorizados (no ECA), con 5236 participantes. Se consideró que la mayoría de los ECA tuvieron bajo riesgo de sesgo y que los no ECA tuvieron alto riesgo de sesgo. Las intervenciones incluyeron quimioterapia, reoperación, reirradiación y tratamientos nuevos, ya sea utilizadas solos o en combinación. Para la primera recidiva se incluyeron 11 intervenciones en el metanálisis en red (MAR) para la supervivencia general (SG), y ocho para la supervivencia sin progresión (SSP). La lomustina (LOM; también conocida como CCNU) fue el comparador más frecuente y se utilizó como tratamiento de referencia. Ningún estudio en el MAR evaluó la cirugía, la reirradiación, la PCV (procarbazina, lomustina, vincristina), la reexposición a TMZ o el mejor tratamiento de apoyo. No fue posible realizar un MAR para una segunda o posterior recidiva debido a que los datos no fueron suficientes. Los datos de calidad de vida fueron escasos. Primera recidiva (hallazgos del MAR) La mediana de la SG en los estudios incluidos en el MAR varió entre 5,5 y 12,6 meses y la mediana de la supervivencia sin progresión (SSP) varió entre 1,5 y 4,2 meses. No se encontró evidencia de certeza alta de que los tratamientos probados fueran mejores que la lomustina. Estos tratamientos incluyeron los siguientes. Bevacizumab más lomustina: La evidencia indicó probablemente poca o ninguna diferencia en la SG entre el bevacizumab (BEV) combinado con lomustina (LOM) y la monoterapia con LOM (cociente de riesgos instantáneo [CRI] 0,91; 0,75 a 1,10; evidencia de certeza moderada), aunque BEV + LOM puede mejorar la SSP (CRI 0,57; intervalo de confianza [IC] del 95%: 0,44 a 0,74; evidencia de certeza baja). Monoterapia con bevacizumab: La evidencia de certeza baja indicó que puede haber poca o ninguna diferencia en la SG (CRI 1,22; IC del 95%: 0,84 a 1,76) y la SSP (CRI 0,90; IC del 95%: 0,58 a 1,38; evidencia de certeza baja) entre las monoterapias con BEV y LOM; se necesita más evidencia sobre el BEV. Regorafenib (REG): El REG puede mejorar la SG en comparación con la LOM (CRI 0,50; IC del 95%: 0,33 a 0,76; evidencia de certeza baja). La evidencia sobre la SSP fue de certeza muy baja y se necesita más evidencia sobre el REG. Temozolomida (TMZ) más DepatuxM (ABT414): En cuanto a la SG, evidencia de certeza baja indicó que TMZ más ABT414 puede ser más efectiva que LOM (CRI 0,66; IC del 95%: 0,47 a 0,92) y puede ser más efectiva que BEV (CRI 0,54; IC del 95%: 0,33 a 0,89; evidencia de certeza baja). Lo anterior se puede deber solamente al componente de TMZ, y se necesita más evidencia. Fotemustina (FOM): FOM y LOM pueden tener efectos similares sobre la SG (CRI 0,89; IC del 95%: 0,51 a 1,57, evidencia de certeza baja). Bevacizumab e irinotecan (IRI): La evidencia sobre BEV + irinotecan (IRI) versus LOM para la SG y la SSP no está clara y probablemente hay poca o ninguna diferencia entre BEV + IRI versus la monoterapia con BEV (SG: CRI 0,95; IC del 95%: 0,70 a 1,30; evidencia de certeza moderada). Cuando los tratamientos se clasificaron según la SG, FOM se clasificó primero, BEV + LOM segundo, LOM tercero, BEV + IRI cuarto, y BEV quinto. La clasificación no tiene en cuenta la certeza de la evidencia, lo que también indica que puede haber poca o ninguna diferencia entre FOM y LOM. Otros tratamientos Tres estudios evaluaron la reoperación versus ninguna reoperación, con o sin reirradiación y quimioterapia, e indicaron posibles ventajas en la supervivencia con la reoperación, en el contexto de poder seleccionar candidatos adecuados para esta intervención. Un tratamiento con cannabinoides en las primeras etapas de evaluación, en combinación con TMZ, merece evaluación adicional. Segunda o posterior recidiva La evidencia limitada de tres estudios heterogéneos indicó que la radioterapia con o sin BEV puede tener un efecto beneficioso sobre la supervivencia, pero se necesita más evidencia. La evidencia no fue suficiente para establecer conclusiones sobre la mejor dosis de radioterapia. Otra evidencia indicó que puede haber poca diferencia en la supervivencia con los campos de tratamiento del tumor en comparación con la mejor opción de tratamiento del médico. No se encontró evidencia fiable sobre el mejor tratamiento de apoyo. Eventos adversos graves (EAG) La combinación BEV + LOM se asoció con un riesgo significativamente mayor de EAG que la monoterapia con LOM (RR 2,51; IC del 95%: 1,72 a 3,66; evidencia de certeza alta), y se clasificó peor junto con cediranib + LOM (RR 2,51; IC del 95%: 1,29 a 4,90; evidencia de certeza alta). LOM se clasificó como el mejor y REG como el segundo mejor. Agregar nuevos tratamientos al BEV se asoció generalmente con un mayor riesgo de eventos adversos graves, en comparación con BEV solo. CONCLUSIONES DE LOS AUTORES: Para el tratamiento de la primera recidiva del GBM en personas tratadas previamente con cirugía y quimiorradioterapia estándar, los tratamientos combinados evaluados no mejoraron la supervivencia general en comparación con la monoterapia con LOM, y a menudo se asociaron con un mayor riesgo de eventos adversos graves. Hay evidencia limitada que indica que la reoperación con o sin reirradiación y quimioterapia puede ser adecuada para candidatos seleccionados. La evidencia sobre la segunda recidiva es escasa. La reirradiación con o sin bevacizumab puede ser de valor en determinados individuos, pero se necesita más evidencia.
Asunto(s)
Neoplasias Encefálicas , Glioblastoma , Glioblastoma/terapia , Humanos , Lomustina/uso terapéutico , Recurrencia Local de Neoplasia/tratamiento farmacológico , Metaanálisis en RedRESUMEN
BACKGROUND: The role of temozolomide chemotherapy in newly diagnosed 1p/19q non-co-deleted anaplastic gliomas, which are associated with lower sensitivity to chemotherapy and worse prognosis than 1p/19q co-deleted tumours, is unclear. We assessed the use of radiotherapy with concurrent and adjuvant temozolomide in adults with non-co-deleted anaplastic gliomas. METHODS: This was a phase 3, randomised, open-label study with a 2â×â2 factorial design. Eligible patients were aged 18 years or older and had newly diagnosed non-co-deleted anaplastic glioma with WHO performance status scores of 0-2. The randomisation schedule was generated with the electronic EORTC web-based ORTA system. Patients were assigned in equal numbers (1:1:1:1), using the minimisation technique, to receive radiotherapy (59·4 Gy in 33 fractions of 1·8 Gy) alone or with adjuvant temozolomide (12 4-week cycles of 150-200 mg/m2 temozolomide given on days 1-5); or to receive radiotherapy with concurrent temozolomide 75 mg/m2 per day, with or without adjuvant temozolomide. The primary endpoint was overall survival adjusted for performance status score, age, 1p loss of heterozygosity, presence of oligodendroglial elements, and MGMT promoter methylation status, analysed by intention to treat. We did a planned interim analysis after 219 (41%) deaths had occurred to test the null hypothesis of no efficacy (threshold for rejection p<0·0084). This trial is registered with ClinicalTrials.gov, number NCT00626990. FINDINGS: At the time of the interim analysis, 745 (99%) of the planned 748 patients had been enrolled. The hazard ratio for overall survival with use of adjuvant temozolomide was 0·65 (99·145% CI 0·45-0·93). Overall survival at 5 years was 55·9% (95% CI 47·2-63·8) with and 44·1% (36·3-51·6) without adjuvant temozolomide. Grade 3-4 adverse events were seen in 8-12% of 549 patients assigned temozolomide, and were mainly haematological and reversible. INTERPRETATION: Adjuvant temozolomide chemotherapy was associated with a significant survival benefit in patients with newly diagnosed non-co-deleted anaplastic glioma. Further analysis of the role of concurrent temozolomide treatment and molecular factors is needed. FUNDING: Schering Plough and MSD.
RESUMEN
Bevacizumab is considered an established part of the treatment strategies available for schwannomas in patients with Neurofibromatosis type 2 (NF2). In the UK, it is available through NHS National Specialized Commissioning to NF2 patients with a rapidly growing target schwannoma. Regrowth of the tumour on suspension of treatment is often observed resulting in prolonged periods of exposure to bevacizumab to control the disease. Hypertension and proteinuria are common events with bevacizumab use and there are concerns with regards to the long-term risks of prolonged treatment. Dosing, demographic and adverse event (CTCAE 4.03) data from the UK NF2 bevacizumab cohort are reviewed with particular consideration of renal and cardiovascular complications. Eighty patients (48 male:32 female), median age 24.5 years (range 11-66 years), were followed for a median of 32.7 months (range 12.0-60.2 months). The most common adverse events were fatigue, hypertension and infection. A total of 19/80 patients (24 %) had either a grade 2 or grade 3 hypertension event and 14/80 patients (17.5 %) had proteinuria. Of 36 patients followed for 36 months, 78 % were free from hypertension and 86 % were free of proteinuria. Logistic regression modeling identified age and induction dosing regime to be independent predictors of development of hypertension with dose of 7.5 mg/kg 3 weekly and age >30years having higher rates of hypertension. Proteinuria persisted in one of three patients after cessation of bevacizumab. One patient developed congestive heart failure and the details of this case are described. Further work is needed to determine optimal dosing regimes to limit toxicity without impacting on efficacy.
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Antineoplásicos Inmunológicos/efectos adversos , Bevacizumab/efectos adversos , Insuficiencia Cardíaca/inducido químicamente , Hipertensión/inducido químicamente , Neurilemoma/tratamiento farmacológico , Neurofibromatosis 2/tratamiento farmacológico , Adolescente , Adulto , Anciano , Niño , Estudios de Cohortes , Femenino , Humanos , Masculino , Persona de Mediana Edad , Neurilemoma/complicaciones , Neurofibromatosis 2/complicaciones , Análisis de Regresión , Reino Unido , Adulto JovenRESUMEN
BACKGROUND: Cilengitide is a selective αvß3 and αvß5 integrin inhibitor. Data from phase 2 trials suggest that it has antitumour activity as a single agent in recurrent glioblastoma and in combination with standard temozolomide chemoradiotherapy in newly diagnosed glioblastoma (particularly in tumours with methylated MGMT promoter). We aimed to assess cilengitide combined with temozolomide chemoradiotherapy in patients with newly diagnosed glioblastoma with methylated MGMT promoter. METHODS: In this multicentre, open-label, phase 3 study, we investigated the efficacy of cilengitide in patients from 146 study sites in 25 countries. Eligible patients (newly diagnosed, histologically proven supratentorial glioblastoma, methylated MGMT promoter, and age ≥18 years) were stratified for prognostic Radiation Therapy Oncology Group recursive partitioning analysis class and geographic region and centrally randomised in a 1:1 ratio with interactive voice response system to receive temozolomide chemoradiotherapy with cilengitide 2000 mg intravenously twice weekly (cilengitide group) or temozolomide chemoradiotherapy alone (control group). Patients and investigators were unmasked to treatment allocation. Maintenance temozolomide was given for up to six cycles, and cilengitide was given for up to 18 months or until disease progression or unacceptable toxic effects. The primary endpoint was overall survival. We analysed survival outcomes by intention to treat. This study is registered with ClinicalTrials.gov, number NCT00689221. FINDINGS: Overall, 3471 patients were screened. Of these patients, 3060 had tumour MGMT status tested; 926 patients had a methylated MGMT promoter, and 545 were randomly assigned to the cilengitide (n=272) or control groups (n=273) between Oct 31, 2008, and May 12, 2011. Median overall survival was 26·3 months (95% CI 23·8-28·8) in the cilengitide group and 26·3 months (23·9-34·7) in the control group (hazard ratio 1·02, 95% CI 0·81-1·29, p=0·86). None of the predefined clinical subgroups showed a benefit from cilengitide. We noted no overall additional toxic effects with cilengitide treatment. The most commonly reported adverse events of grade 3 or worse in the safety population were lymphopenia (31 [12%] in the cilengitide group vs 26 [10%] in the control group), thrombocytopenia (28 [11%] vs 46 [18%]), neutropenia (19 [7%] vs 24 [9%]), leucopenia (18 [7%] vs 20 [8%]), and convulsion (14 [5%] vs 15 [6%]). INTERPRETATION: The addition of cilengitide to temozolomide chemoradiotherapy did not improve outcomes; cilengitide will not be further developed as an anticancer drug. Nevertheless, integrins remain a potential treatment target for glioblastoma. FUNDING: Merck KGaA, Darmstadt, Germany.
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Neoplasias Encefálicas/tratamiento farmacológico , Metilasas de Modificación del ADN/genética , Enzimas Reparadoras del ADN/genética , Dacarbazina/análogos & derivados , Glioblastoma/tratamiento farmacológico , Venenos de Serpiente/uso terapéutico , Proteínas Supresoras de Tumor/genética , Anciano , Protocolos de Quimioterapia Combinada Antineoplásica/uso terapéutico , Neoplasias Encefálicas/genética , Neoplasias Encefálicas/mortalidad , Neoplasias Encefálicas/patología , Intervalos de Confianza , Dacarbazina/uso terapéutico , Supervivencia sin Enfermedad , Relación Dosis-Respuesta a Droga , Esquema de Medicación , Detección Precoz del Cáncer/métodos , Femenino , Estudios de Seguimiento , Glioblastoma/genética , Glioblastoma/mortalidad , Glioblastoma/patología , Humanos , Estimación de Kaplan-Meier , Masculino , Dosis Máxima Tolerada , Persona de Mediana Edad , Invasividad Neoplásica/patología , Estadificación de Neoplasias , Selección de Paciente , Regiones Promotoras Genéticas , Modelos de Riesgos Proporcionales , Valores de Referencia , Análisis de Supervivencia , Temozolomida , Resultado del TratamientoRESUMEN
BACKGROUND: The aim was to predict survival of glioblastoma at 8 months after radiotherapy (a period allowing for completing a typical course of adjuvant temozolomide), by applying deep learning to the first brain MRI after radiotherapy completion. METHODS: Retrospective and prospective data were collected from 206 consecutive glioblastoma, isocitrate dehydrogenase -wildtype patients diagnosed between March 2014 and February 2022 across 11 UK centers. Models were trained on 158 retrospective patients from 3 centers. Holdout test sets were retrospective (nâ =â 19; internal validation), and prospective (nâ =â 29; external validation from 8 distinct centers). Neural network branches for T2-weighted and contrast-enhanced T1-weighted inputs were concatenated to predict survival. A nonimaging branch (demographics/MGMT/treatment data) was also combined with the imaging model. We investigated the influence of individual MR sequences; nonimaging features; and weighted dense blocks pretrained for abnormality detection. RESULTS: The imaging model outperformed the nonimaging model in all test sets (area under the receiver-operating characteristic curve, AUC Pâ =â .038) and performed similarly to a combined imaging/nonimaging model (Pâ >â .05). Imaging, nonimaging, and combined models applied to amalgamated test sets gave AUCs of 0.93, 0.79, and 0.91. Initializing the imaging model with pretrained weights from 10 000s of brain MRIs improved performance considerably (amalgamated test sets without pretraining 0.64; Pâ =â .003). CONCLUSIONS: A deep learning model using MRI images after radiotherapy reliably and accurately determined survival of glioblastoma. The model serves as a prognostic biomarker identifying patients who will not survive beyond a typical course of adjuvant temozolomide, thereby stratifying patients into those who might require early second-line or clinical trial treatment.
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Neoplasias Encefálicas , Glioblastoma , Imagen por Resonancia Magnética , Humanos , Glioblastoma/diagnóstico por imagen , Glioblastoma/radioterapia , Glioblastoma/mortalidad , Glioblastoma/patología , Imagen por Resonancia Magnética/métodos , Neoplasias Encefálicas/radioterapia , Neoplasias Encefálicas/diagnóstico por imagen , Neoplasias Encefálicas/mortalidad , Neoplasias Encefálicas/patología , Femenino , Masculino , Persona de Mediana Edad , Estudios Retrospectivos , Estudios Prospectivos , Anciano , Pronóstico , Aprendizaje Profundo , Adulto , Tasa de Supervivencia , Estudios de Seguimiento , Temozolomida/uso terapéuticoRESUMEN
Astrocytes are a distinct population of glial cells responsible for many homeostatic functions in normal neural architecture. In the healthy brain, astrocyte functions range from maintenance of the blood brain barrier to modulation of synaptic transmission and neuronal plasticity to glial scar formation post-ischemic injury. In humans, this group of cells exhibits far greater heterogeneity than previously thought-with distinct subpopulations that likely carry out specialized functions. Following ischemic injury, astrocytes take on a distinct phenotype-known as the reactive astrocyte. This phenotype is responsible for both the propagation and amelioration of neuronal injury during ischemia. Following ischemia, astrocytes undergo temporal and spatial-dependent changes in morphology, gene expression, hypertrophy and hyperplasia as a result of signaling within the local microenvironment of the penumbra compared to the core infarct. This elicits a cascade of downstream effects, including inflammation and activation of the innate immune system, which both propagates and ameliorates local injury within the brain parenchyma. This review will focus upon the double-edged sword-that are astrocytes and the innate immune system. We will discuss the role that astrocytes and the innate immune system play in amplifying secondary brain injury, as well as attenuating ischemic damage. Specifically, we will focus on molecular signaling and processes that could be targeted as potential therapeutic interventions.
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Astrocitos , Isquemia Encefálica , Humanos , Astrocitos/metabolismo , Isquemia Encefálica/metabolismo , Encéfalo/metabolismo , Infarto Cerebral/metabolismo , Inmunidad InnataRESUMEN
Background: Our neurosurgical unit adopted a model of shared decision-making (SDM) based on multidisciplinary clinics for vestibular schwannoma (VS). A unique feature of this clinic is the interdisciplinary counseling process with a surgeon presenting the option of surgery, an oncologist radiosurgery or radiotherapy, and a specialist nurse advocating for the patient. Methods: This is a retrospective cohort study. All new patients seen in the combined VS clinic and referred from the skull base multidisciplinary team (MDT) from beginning of June 2013 to end of January 2019 were included. Descriptive statistics and frequency analysis were carried out for the full cohort. Results: Three hundred and fifty-four patients presenting with new or previously untreated VS were included in the analysis. In our cohort, roughly one-third of patients fall into each of the treatment strategies with slightly smaller numbers of patients undergoing surgery than watch, wait and rescan (WWR) ,and SRS (26.6% vs. 32.8% and 37.9%, respectively). Conclusion: In our experience, the combined surgery/oncology/specialist nurse clinic streamlines the patient experience for those with a VS suitable for either microsurgical or SRS/radiotherapy treatment. Decision-making in this population of patients is complex and when presented with all treatment options patients do not necessarily choose the least invasive option as a treatment. The unique feature of our clinic is the multidisciplinary counseling process with a specialist nurse advocating and guiding the patient. Treatment options are likely to become more rather than less complex in future years making combined clinics more valuable than ever in the SDM process.
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Background: Glioblastoma is a high-grade aggressive neoplasm whose outcomes have not changed in decades. In the current treatment pathway, tumour growth continues and remains untreated for several weeks post-diagnosis. Intensified upfront therapy could target otherwise untreated tumour cells and improve the treatment outcome. POBIG will evaluate the safety and feasibility of single-fraction preoperative radiotherapy for newly diagnosed glioblastoma, assessed by the maximum tolerated dose (MTD) and maximum tolerated irradiation volume (MTIV). Methods: POBIG is an open-label, dual-centre phase I dose and volume escalation trial that has received ethical approval. Patients with a new radiological diagnosis of glioblastoma will be screened for eligibility. This is deemed sufficient due to the high accuracy of imaging and to avoid treatment delay. Eligible patients will receive a single fraction of preoperative radiotherapy ranging from 6 to 14 Gy followed by their standard of care treatment comprising maximal safe resection and postoperative chemoradiotherapy (60 Gy/30 fr) with concurrent and adjuvant temozolomide). Preoperative radiotherapy will be directed to the part of the tumour that is highest risk for remaining as postoperative residual disease (hot spot). Part of the tumour will remain unirradiated (cold spot) and sampled separately for diagnostic purposes. Dose/volume escalation will be guided by a Continual Reassessment Method (CRM) model. Translational opportunities will be afforded through comparison of irradiated and unirradiated primary glioblastoma tissue. Discussion: POBIG will help establish the role of radiotherapy in preoperative modalities for glioblastoma. Trial registration: NCT03582514 (clinicaltrials.gov).
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NF2-schwannomatosis is the most common genetic predisposition syndrome associated with meningioma. Meningioma in NF2-schwannomatosis is a major source of morbidity and mortality. This is due to accumulative tumor burden in patients with synchronous schwannomas and ependymomas, sometimes including complex collision tumors. Balancing the impact of multiple interventions against the natural history of various index tumors, and the ongoing risk of de novo tumors over an individual's lifetime makes decision-making complex. The management of any given individual meningioma is often different from a comparable sporadic tumor. There is typically a greater emphasis on conservative management and tolerating growth until a risk boundary is reached, whereby symptomatic deterioration or higher risk from anticipated future treatment is threatened. Management by high-volume multidisciplinary teams improves quality of life and life expectancy. Surgery remains the mainstay treatment for symptomatic and rapidly enlarging meningioma. Radiotherapy has an important role but carries a higher risk compared to its use in sporadic disease. Whilst bevacizumab is effective in NF2-associated schwannoma and cystic ependymoma, it has no value in the management of meningioma. In this review, we describe the natural history of the disease, underlying genetic, molecular, and immune microenvironment changes, current management paradigms, and potential therapeutic targets.
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The management of primary central nervous system (PCNSL) is one of the most controversial topics in neuro-oncology because of the complexity of the disease and the limited number of controlled studies available. In 2021, given recent advances and the publication of practice-changing randomized trials, the European Association of Neuro-Oncology (EANO) created a multidisciplinary task force to update the previously published evidence-based guidelines for immunocompetent adult patients with PCNSL and added a section on immunosuppressed patients. The guideline provides consensus considerations and recommendations for the treatment of PCNSL, including intraocular manifestations and specific management of the elderly. The main changes from the previous guideline include strengthened evidence for the consolidation with ASCT in first-line treatment, prospectively assessed chemotherapy combinations for both young and elderly patients, clarification of the role of rituximab even though the data remain inconclusive, of the role of new agents, and the incorporation of immunosuppressed patients and primary ocular lymphoma. The guideline should aid the clinicians in everyday practice and decision making and serve as a basis for future research in the field.
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Neoplasias del Sistema Nervioso Central , Linfoma , Adulto , Humanos , Anciano , Terapia Combinada , Neoplasias del Sistema Nervioso Central/patología , Protocolos de Quimioterapia Combinada Antineoplásica , Sistema Nervioso Central/patología , Linfoma/tratamiento farmacológicoRESUMEN
Background: There are no effective treatments for brain tumor-related fatigue. We studied the feasibility of two novel lifestyle coaching interventions in fatigued brain tumor patients. Methods: This phase I/feasibility multi-center RCT recruited patients with a clinically stable primary brain tumor and significant fatigue (mean Brief Fatigue Inventory [BFI] score ≥ 4/10). Participants were randomized in a 1-1-1 allocation ratio to: Control (usual care); Health Coaching ("HC", an eight-week program targeting lifestyle behaviors); or HC plus Activation Coaching ("HC + AC", further targeting self-efficacy). The primary outcome was feasibility of recruitment and retention. Secondary outcomes were intervention acceptability, which was evaluated via qualitative interview, and safety. Exploratory quantitative outcomes were measured at baseline (T0), post-interventions (T1, 10 weeks), and endpoint (T2, 16 weeks). Results: n = 46 fatigued brain tumor patients (T0 BFI mean = 6.8/10) were recruited and 34 were retained to endpoint, establishing feasibility. Engagement with interventions was sustained over time. Qualitative interviews (n = 21) suggested that coaching interventions were broadly acceptable, although mediated by participant outlook and prior lifestyle. Coaching led to significant improvements in fatigue (improvement in BFI versus control at T1: HC=2.2 points [95% CI 0.6, 3.8], HC + AC = 1.8 [0.1, 3.4], Cohen's d [HC] = 1.9; improvement in FACIT-Fatigue: HC = 4.8 points [-3.7, 13.3]; HC + AC = 12 [3.5, 20.5], d [HC and AC] = 0.9). Coaching also improved depressive and mental health outcomes. Modeling suggested a potential limiting effect of higher baseline depressive symptoms. Conclusions: Lifestyle coaching interventions are feasible to deliver to fatigued brain tumor patients. They were manageable, acceptable, and safe, with preliminary evidence of benefit on fatigue and mental health outcomes. Larger trials of efficacy are justified.
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As a leading cause of mortality and morbidity, stroke constitutes a significant global health burden. Ischemic stroke accounts for 80% of cases and occurs due to an arterial thrombus, which impedes cerebral blood flow and rapidly leads to cell death. As the most abundant cell type within the central nervous system, astrocytes play a critical role within the injured brain. We developed a novel microphysiological platform that permits the induction of spatiotemporally controlled nutrient gradients, allowing us to study astrocytic response during and after transient nutrient deprivation. Within 24 h of inducing starvation in the platform, nutrient deprivation led to multiple changes in astrocyte response, from metabolic perturbations to gene expression changes, and cell viability. Furthermore, we observed that nutrient restoration did not reverse the functional changes in astrocyte metabolism, which mirrors reperfusion injury observed in vivo. We also identified alterations in numerous glucose metabolism-associated genes, many of which remained upregulated or downregulated even after restoration of the nutrient supply. Together, these findings suggest that astrocyte activation during and after nutrient starvation induces plastic changes that may underpin persistent stroke-induced functional impairment. Overall, our innovative device presents interesting potential to be used in the development of new therapies to improve tissue repair and even cognitive recovery after stroke.
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Astrocitos , Accidente Cerebrovascular , Humanos , Accidente Cerebrovascular/metabolismo , Encéfalo , Reperfusión , Dispositivos Laboratorio en un ChipRESUMEN
Background: Radiation treatment of benign tumors in tumor predisposition syndromes is controversial, but short-term studies from treatment centers suggest safety despite apparent radiation-associated malignancy being reported. We determined whether radiation treatment in NF2-related schwannomatosis patients is associated with increased rates of subsequent malignancy (M)/malignant progression (MP). Methods: All UK patients with NF2 were eligible if they had a clinical/molecular diagnosis. Cases were NF2 patients treated with radiation for benign tumors. Controls were matched for treatment location with surgical/medical treatments based on age and year of treatment. Prospective data collection began in 1990 with addition of retrospective cases in 1969. Kaplan-Meier analysis was performed for malignancy incidence and survival. Outcomes were central nervous system (CNS) M/MP (2cm annualized diameter growth) and survival from index tumor treatment. Results: In total, 1345 NF2 patients, 266 (133-Male) underwent radiation treatments between 1969 and 2021 with median first radiotherapy age of 32.9 (IQR = 22.4-46.0). Nine subsequent CNS malignancies/MPs were identified in cases with only 4 in 1079 untreated (P < .001). Lifetime and 20-year CNS M/MP was ~6% in all irradiated patients-(4.9% for vestibular schwannomas [VS] radiotherapy) versus <1% in the non-irradiated population (P < .001/.01). Controls were well matched for age at NF2 diagnosis and treatment (Males = 133%-50%) and had no M/MP in the CNS post-index tumor treatment (P = .0016). Thirty-year survival from index tumor treatment was 45.62% (95% CI = 34.0-56.5) for cases and 66.4% (57.3-74.0) for controls (P = .02), but was nonsignificantly worse for VS radiotherapy. Conclusion: NF2 patients should not be offered radiotherapy as first-line treatment of benign tumors and should be given a frank discussion of the potential 5% excess absolute risk of M/MP.
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Biological tissues are highly organized structures where spatial-temporal gradients (e.g., nutrients, hypoxia, cytokines) modulate multiple physiological and pathological processes including inflammation, tissue regeneration, embryogenesis, and cancer progression. Current in vitro technologies struggle to capture the complexity of these transient microenvironmental gradients, do not provide dynamic control over the gradient profile, are complex and poorly suited for high throughput applications. Therefore, we have designed Griddent, a user-friendly platform with the capability of generating controllable and reversible gradients in a 3D microenvironment. Our platform consists of an array of 32 microfluidic chambers connected to a 384 well-array through a diffusion port at the bottom of each reservoir well. The diffusion ports are optimized to ensure gradient stability and facilitate manual micropipette loading. This platform is compatible with molecular and functional spatial biology as well as optical and fluorescence microscopy. In this work, we have used this platform to study cancer progression.
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Microfluídica , Neoplasias , Humanos , Citocinas , Difusión , Exobiología , Microambiente TumoralRESUMEN
Stroke is one of the main causes of death in the US and post-stroke treatment options remain limited. Ischemic stroke is caused by a blood clot that compromises blood supply to the brain, rapidly leading to tissue death at the core of the infarcted area surrounded by a hypoxic and nutrient-starved region known as the penumbra. Recent evidence suggests that astrocytes in the penumbral region play a dual role in stroke response, promoting further neural and tissue damage or improving tissue repair depending on the microenvironment. Thus, astrocyte response in the hypoxic penumbra could promote tissue repair after stroke, salvaging neurons in the affected area and contributing to cognitive recovery. However, the complex microenvironment of ischemic stroke, characterized by gradients of hypoxia and nutrients, poses a unique challenge for traditional in vitro models, which in turn hinders the development of novel therapies. To address this challenge, we have developed a novel, polystyrene-based microfluidic device to model the necrotic and penumbral region induced by an ischemic stroke. We demonstrated that when subjected to hypoxia, and nutrient starvation, astrocytes within the penumbral region generated in the microdevice exhibited long-lasting, significantly altered signaling capacity including calcium signaling impairment.
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Accidente Cerebrovascular Isquémico , Accidente Cerebrovascular , Astrocitos , Humanos , Hipoxia , MicrofluídicaRESUMEN
BACKGROUND: Brain metastases (BMs) in patients with extra-pulmonary neuroendocrine neoplasms (EP-NENs) are rare, and limited clinical information is available. The aim of this study was to detail the clinicopathological features, management and outcomes in patients with EP-NENs who developed BMs. METHODS: A retrospective single-centre analysis of consecutive patients with EP-NENs (August 2004-February 2020) was conducted. Median overall survival (OS)/survival from BMs diagnosis was estimated (Kaplan-Meier). RESULTS: Of 730 patients, 17 (1.9%) had BMs, median age 61 years (range 15-77); 8 (53%) male, unknown primary NEN site: 40%. Patients with BMs had grade 3 (G3) EP-NENs 11 (73%), G2: 3 (20%), G1: 1 (7%). Eight (53%) had poorly differentiated NENs, 6 were well-differentiated and 1 was not recorded. Additionally, 2 (13%) patients had synchronous BMs at diagnosis, whilst 13 (87%) developed BMs metachronously. The relative risk of developing BMs was 7.48 in patients with G3 disease vs. G1 + G2 disease (p = 0.0001). Median time to the development of BMs after NEN diagnosis: 15.9 months (range 2.5-139.5). Five patients had a solitary BM, 12 had multiple BMs. Treatment of BMs were surgery (n = 3); radiotherapy (n = 5); 4: whole brain radiotherapy, 1: conformal radiotherapy (orbit). Nine (53%) had best supportive care. Median OS from NEN diagnosis was 23.6 months [95% CI 15.2-31.3]; median time to death from BMs diagnosis was 3.0 months [95% CI 0.0-8.3]. CONCLUSION: BMs in patients with EP-NENs are rare and of increased risk in G3 vs. G1 + G2 EP-NENs. Survival outcomes are poor, and a greater understanding is needed to improve therapeutic outcomes.