Blood biomarker changes following therapeutic hypothermia in ischemic stroke

Biomarkers; Hypothermia; IschemiaBiomarcadores; Hipotermia; IsquemiaBiomarcadors; Hipotèrmia; IsquèmiaIntroduction Therapeutic hypothermia is a promising candidate for stroke treatment although its efficacy has not yet been demonstrated in patients. Changes in blood molecules could act as surrogate markers to evaluate the efficacy and safety of therapeutic cooling. Methods Blood samples from 54 patients included in the EuroHYP-1 study (27 treated with hypothermia, and 27 controls) were obtained at baseline, 24 ± 2 h, and 72 ± 4 h. The levels of a panel of 27 biomarkers, including matrix metalloproteinases and cardiac and inflammatory markers, were measured. Results Metalloproteinase-3 (MMP-3), fatty-acid-binding protein (FABP), and interleukin-8 (IL-8) increased over time in relation to the hypothermia treatment. Statistically significant correlations between the minimum temperature achieved by each patient in the hypothermia group and the MMP-3 level measured at 72 h, FABP level measured at 24 h, and IL-8 levels measured at 24 and 72 h were found. No differential biomarker levels were observed in patients with poor or favorable outcomes according to modified Rankin Scale scores. Conclusion Although the exact roles of MMP3, FABP, and IL-8 in hypothermia-treated stroke patients are not known, further exploration is needed to confirm their roles in brain ischemia

Biomarkers predictive value for early diagnosis of stroke- associated pneumonia

Stroke-associated pneumonia; SAP; Diagnostic accuracy; BiomarkersNeumonía asociada al accidente cerebrovascular; NAA; Precisión diagnóstica; BiomarcadoresPneumònia associada a l'accident cerebrovascular; Precisió diagnòstica; BiomarcadorsTo confirm the diagnostic accuracy of candidate biomarkers in stroke‐associated pneumonia (SAP), we prospectively enrolled ischemic stroke patients with NIHSS ≥ 10 on admission from March‐2016 to August‐2017. Blood samples were collected at baseline, 24 and 48 h after stroke onset. Biomarkers (MR‐proADM, suPAR, SAA) were determined by immunoassays. Regarding biomarkers, MR‐proADM at 24 h (P = 0.04) and both suPAR and SAA at 48 h (P = 0.036 and P = 0.057) were associated with pneumonia. The combination of SAA > 25.15 mg/dL and suPAR> 3.14 ng/mL at 48 h had 80% sensitivity and 95.8% specificity when both biomarkers were above the cut‐off. The evaluated biomarkers represent promising tools to be evaluated in future large, prospective studies on SAP. An accurate SAP diagnosis by thorax CT might help to reduce variability in such studies.This project was partially funded by the ISCIII project PI14/00971. The ITRIBiS project (Improving Translational Research Potential at the Institute of Biomedicine of Seville) has the registration number REGPOT-2013-1. Cooperative Cerebrovascular Disease Research Network (INVICTUS+) (RD16/0019/ 0015). AB is supported by a Juan Rodes research contract (JR16/0008) from Instituto de Salud Carlos III

Blood-biomarkers and devices for atrial fibrillation screening: Lessons learned from the AFRICAT (Atrial Fibrillation Research In CATalonia) study

Biomarkers; Electrocardiography; Blood plasmaBiomarcadores; Electrocardiografía; Plasma sanguíneoBiomarcadors; Electrocardiografia; Plasma sanguiniBackground and objective AFRICAT is a prospective cohort study intending to develop an atrial fibrillation (AF) screening program through the combination of blood markers, rhythm detection devices, and long-term monitoring in our community. In particular, we aimed to validate the use of NT-proBNP, and identify new blood biomarkers associated with AF. Also, we aimed to compare AF detection using various wearables and long-term Holter monitoring. Methods 359 subjects aged 65–75 years with hypertension and diabetes were included in two phases: Phase I (n = 100) and Phase II (n = 259). AF diagnosis was performed by baseline 12-lead ECG, 4 weeks of Holter monitoring (NuuboTM), and/or medical history. An aptamer array including 1310 proteins was measured in the blood of 26 patients. Candidates were selected according to p-value, logFC and biological function to be tested in verification and validation phases. Several screening devices were tested and compared: AliveCor, Watch BP, MyDiagnostick and Fibricheck. Results AF was present in 34 subjects (9.47%). The aptamer array revealed 41 proteins with differential expression in AF individuals. TIMP-2 and ST-2 were the most promising candidates in the verification analysis, but none of them was further validated. NT-proBNP (log-transformed) (OR = 1.934; p<0.001) was the only independent biomarker to detect AF in the whole cohort. Compared to an ECG, WatchBP had the highest sensitivity (84.6%) and AUC (0.895 [0.780–1]), while MyDiagnostick showed the highest specificity (97.10%). Conclusion The inclusion and monitoring of a cohort of primary care patients for AF detection, together with the testing of biomarkers and screening devices provided useful lessons about AF screening in our community. An AF screening strategy using rhythm detection devices and short monitoring periods among high-risk patients with high NT-proBNP levels could be feasible.This work was supported by Fundació Marató de TV3 in the research call “La Marató 2014: malalties del cor” [grant number: 201528-30-31-3]. EP received a predoctoral grant from Vall d’Hebron Institute of Research. Neurovascular Research Laboratory also takes part in the Span-ish stroke research network INVICTUS+ [RD16/0019]. This project is supported by AFFECT-EU, receiving funding from the European Union’s Horizon 2020 research and innovation pro-gramme under grant agreement N°847770. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript

New candidate blood biomarkers potentially associated with white matter hyperintensities progression

Barrera hematoencefàlica; Interaccions neurovasculars; NeurociènciaBarrera hematoencefálica; Interacciones neurovasculares; NeurocienciaBlood-brain barrier; Neuro-vascular interactions; NeuroscienceWe aimed to discover blood biomarkers associated with longitudinal changes in white matter hyperintensities (WMH). This study was divided into a discovery phase and a replication phase. Subjects in both studies were patients with hypertension, aged 50-70, who underwent two magnetic resonance imaging (MRI) sessions and blood extractions over a 4-year follow-up period. In the discovery phase, we screened 1305 proteins in 12 subjects with WMH progression and in 12 matched control subjects. We found that 41 proteins were differentially expressed: 13 were upregulated and 28 were downregulated. We subsequently selected three biomarkers for replication in baseline and follow-up samples in 80 subjects with WMH progression and in 80 control subjects. The selected protein candidates for the replication were MMP9 (matrix metalloproteinase-9), which was higher in cases, MET (hepatocyte growth factor receptor) and ASAH2 (neutral ceramidase), which were both lower in cases of WMH progression. Baseline biomarker concentrations did not predict WMH progression. In contrast, patients with WMH progression presented a steeper decline in MET over time. Furthermore, cases showed higher MMP9 and lower ASAH2 levels than controls at the follow-up. These results indicate that MMP9, MET, and ASAH2 are potentially associated with the progression of WMH, and could therefore be interesting candidates to validate in future studies.Funds were obtained from the Instituto de Salud Carlos III (Grant Numbers: PI14/01535, PI17/02222, ICI14/307, PI19/00217, CP15/00010, and JR15/00032), incorporation of scientists and technicians to research groups (PERIS, SLT006/17/00266) and the AGAUR (FI_DGR 2017, Grant Number 2017_FI_B 00064), with the support of the Secretary of Universities and Research (Department of Economy and Knowledge, Generalitat de Catalunya), and was cofinanced by the European Regional Development Fund. The neurovascular research laboratory receives funds from the Spanish research stroke network (RD/16/0019/0021)

Functional Recovery and Serum Angiogenin Changes According to Intensity of Rehabilitation Therapy After Stroke

Angiogenina; Terapia intensiva; RehabilitaciónAngiogenin; Intensive therapy; RehabilitationAngiogenina; Teràpia intensiva; RehabilitacióBackground: Rehabilitation is still the only treatment available to improve functional status after the acute phase of stroke. Most clinical guidelines highlight the need to design rehabilitation treatments considering starting time, intensity, and frequency, according to the tolerance of the patient. However, there are no homogeneous protocols and the biological effects are under investigation. Objective: To investigate the impact of rehabilitation intensity (hours) after stroke on functional improvement and serum angiogenin (ANG) in a 6-month follow-up study. Methods: A prospective, observational, longitudinal, and multicenter study with three cohorts: strokes in intensive rehabilitation therapy (IRT, minimum 15 h/week) vs. conventional therapy (NO-IRT, <15 h/week), and controls subjects (without known neurological, malignant, or inflammatory diseases). A total of seven centers participated, with functional evaluations and blood sampling during follow-up. The final cohort includes 62 strokes and 43 controls with demographic, clinical, blood samples, and exhaustive functional monitoring. Results: The median (IQR) number of weekly hours of therapy was different: IRT 15 (15–16) vs. NO-IRT 7.5 (5–9), p < 0.01, with progressive and significant improvements in both groups. However, IRT patients showed earlier improvements (within 1 month) on several scales (CAHAI, FMA, and FAC; p < 0.001) and the earliest community ambulation achievements (0.89 m/s at 3 months). There was a significant difference in ANG temporal profile between the IRT and NO-IRT groups (p < 0.01). Additionally, ANG was elevated at 1 month only in the IRT group (p < 0.05) whereas it decreased in the NO-IRT group (p < 0.05). Conclusions: Our results suggest an association of rehabilitation intensity with early functional improvements, and connect the rehabilitation process with blood biomarkers.NG-R holds a VHIR fellowship and MO-G a Joan Margarit VHIR fellowship. Research grants: from the Instituto de Salud Carlos III and European Regional Development Funds (PI16/00981, PI19/00186, RD16/0019/0021, and RD16/0019/0008), 2017-SGR-1427 program from the Generalitat de Catalunya-AGAUR, and Clinical Translational Program for Regenerative Medicine in Catalonia (P-CMR [C])

Circulating AQP4 Levels in Patients with Cerebral Amyloid Angiopathy-Associated Intracerebral Hemorrhage

Aquaporina 4; Angiopatia amiloide cerebral; Marcadors d'imatge per ressonància magnèticaAcuaporina 4; Angiopatía amiloide cerebral; Marcadores de imágenes por resonancia magnéticaAquaporin 4; Cerebral amyloid angiopathy; Magnetic resonance imaging markersCerebral amyloid angiopathy (CAA) is a major cause of lobar intracerebral hemorrhage (ICH) in elderly patients. Growing evidence suggests a potential role of aquaporin 4 (AQP4) in amyloid-beta-associated diseases, including CAA pathology. Our aim was to investigate the circulating levels of AQP4 in a cohort of patients who had suffered a lobar ICH with a clinical diagnosis of CAA. AQP4 levels were analyzed in the serum of 60 CAA-related ICH patients and 19 non-stroke subjects by enzyme-linked immunosorbent assay (ELISA). The CAA–ICH cohort was divided according to the time point of the functional outcome evaluation: mid-term (12 ± 18.6 months) and long-term (38.5 ± 32.9 months) after the last ICH. Although no differences were found in AQP4 serum levels between cases and controls, lower levels were found in CAA patients presenting specific hemorrhagic features such as ≥2 lobar ICHs and ≥5 lobar microbleeds detected by magnetic resonance imaging (MRI). In addition, CAA-related ICH patients who presented a long-term good functional outcome had higher circulating AQP4 levels than subjects with a poor outcome or controls. Our data suggest that AQP4 could potentially predict a long-term functional outcome and may play a protective role after a lobar ICH.This research was funded by the Instituto de Salud Carlos III (ISCIII), (PI17/00275 and PI20/00465), co-financed by the European Regional Development Fund FEDER. The Neurovascular Research Laboratory is part of the INVICTUS+ network, ISCIII, Spain (RD16/0019/0021). M.H.-G. was supported by the Miguel Servet programme, ISCIII, Spain (CPII17/00010). P.M. held a predoctoral fellowship from the Vall d’Hebron Research Institute