Biomarkers Of Injury Research Articles

Blood biomarkers of neuronal injury and astrocytic reactivity in electroconvulsive therapy.

Despite electroconvulsive therapy (ECT) being recognized as an effective treatment for major depressive episodes (MDE), its application is subject to controversy due to concerns over cognitive side effects. The pathophysiology of these side effects is not well understood. Here, we examined the effects of ECT on blood-based biomarkers of neuronal injury and astrocytic reactivity. Participants with a major depressive episode (N = 99) underwent acute ECT. Blood was sampled just before (T0) and 30 min after (T1) the first ECT session, as well as just before the sixth session (T2; 48-72 h after the fifth session). Age- and sex-matched controls (N = 99) were recruited from the general population. Serum concentrations of neurofilament light chain (NfL), total tau protein, and glial fibrillary acidic protein (GFAP) were measured with ultrasensitive single-molecule array assays. Utilizing generalized least squares regression, we compared baseline (T0) biomarker concentrations against those of our control group, and calculated the shifts in serum biomarker concentrations from baseline to immediately post-first ECT session (T1), and prior to the sixth session (T2). Baseline analysis revealed that serum levels of NfL (p < 0.001) and tau (p = 0.036) were significantly elevated in ECT recipients compared with controls, whereas GFAP levels showed no significant difference. Relative to T0, serum NfL concentration neither changed at T1 (mean change 3.1%, 95%CI -0.5% to 6.7%, p = 0.088) nor at T2 (mean change -3.2%, 95%CI -7.6%to1.5%, p = 0.18). Similarly, no change in total tau was observed (mean change 3.7%, 95%CI -11.6% to 21.7%, p = 0.65). GFAP increased from T0 to T1 (mean change 20.3%, 95%CI 14.6to26.3%, p < 0.001), but not from T0 to T2 (mean change -0.7%, 95%CI -5.8% to 4.8%, p = 0.82). In conclusion, our findings suggest that ECT induces a temporary increase in serum GFAP, possibly reflecting transient astrocytic activation. Importantly, we observed no indicators of neuronal damage or long-term elevation in any assessed biomarker.

The renal histopathology of nonproteinuric kidney impairment: a three center experience

Proteinuria is a biomarker of kidney injury that typically results from glomerular and/or tubulointerstitial disease. Whereas kidney impairment with normal urinary protein excretion is usually less focused and understudied. We conducted a retrospective review of the renal histopathology of the patients with variable degrees of unexplained renal insufficiency but with normal range proteinuria between 2014 and 2024 of three university teaching hospitals in Shenzhen city of Southern China. Patients with kidney dysfunction of undetermined or uncertain etiology and with normal urinary protein excretion (defined by a 24hr urinary protein excretion < 150 mg or spot urinary protein to creatinine ratio [PCR] < 150 mg/g) were enrolled and analyzed. In a total of 2405 patients, 53 (2.2%) fulfilled the inclusion criteria (male/female 40/13, age 47.3 ± 14.3 years) with a mean eGFR of 46.6 ± 16.8 ml/min per 1.73 m2. Glomerular disease (GD) was the most frequent pathological finding identified in 23 (43.4%) patients, while 19 (35.8%) cases showed tubulointerstitial disease (TID) and 11 (20.8%) patients exhibited small vascular disease (SVD). Patients in the TID had the lowest mean eGFR and the highest numerical 24hr urinary protein excretion among the three groups. The incidence of acute kidney injury was significantly higher in TID than in other two groups. The patients in the SVD group had the highest fraction of underlying hypertension. Kidney dysfunction with normal range proteinuria may be related with, in descending order of probablity, glomerular, tubulointerstitial and small vascular diseases. Renal biopsies were proved useful in informing therapeutic choice, long-term management and in predicting prognosis in this setting.

Fluid biomarkers of chronic traumatic brain injury.

Traumatic brain injury (TBI) is a leading cause of long-term disability across the world. Evidence for the usefulness of imaging and fluid biomarkers to predict outcomes and screen for the need to monitor complications in the acute stage is steadily increasing. Still, many people experience symptoms such as fatigue and cognitive and motor dysfunction in the chronic phase of TBI, where objective assessments for brain injury are lacking. Consensus criteria for traumatic encephalopathy syndrome, a clinical syndrome possibly associated with the neurodegenerative disease chronic traumatic encephalopathy, which iscommonly associated with sports concussion, have been defined only recently. However, these criteria do not fit all individuals living with chronic consequences of TBI. The pathophysiology of chronic TBI shares many similarities with other neurodegenerative and neuroinflammatory conditions, such as Alzheimer disease. As with Alzheimer disease, advancements in fluid biomarkers represent one of the most promising paths for unravelling the chain of pathophysiological events to enable discrimination between these conditions and, with time, provide prediction modelling and therapeutic end points. This Review summarizes fluid biomarker findings in the chronic phase of TBI (≥6 months after injury) that demonstrate the involvement of inflammation, glial biology and neurodegeneration in the long-term complications of TBI. We explore how the biomarkers associate with outcome and imaging findings and aim to establish mechanistic differences in biomarker patterns between types of chronic TBI and other neurodegenerative conditions. Finally, current limitations and areas of priority for future fluid biomarker research are highlighted.

Mesoporous Silica Administration as a New Strategy in the Management of Warfarin Toxicity; In Vitro and In Vivo Study

Purpose: Warfarin is one of the most widely used anticoagulants that function by inhibiting vitamin K epoxide reductase. Warfarin overdose, whether intentional or unintentional, can cause life-threatening bleeding. Here, we present a novel warfarin adsorbent based on mesoporous silica that can act as an antidote to warfarin toxicity. Method: Amino-functionalized mesoporous silica (MS-NH2) was synthesized based on co-condensation method through a soft template technique followed by template removal. The prepared structure and functional group were studied by FT-IR, XRD. The morphology was checked by SEM and TEM. The capacity of MS-NH2 in the adsorption of warfarin was evaluated in vitro, at pH=7.4 and pH=1.2. In vivo evaluation was performed in control and warfarin-overdosed animal models. Overdosed animals were treated with MS-NH2 by oral gavage. Biomarkers of organ injury were assessed in animal serum. Results: The MS-NH2 were relatively uniform, spherical with defined diameters (400 nm) and homogeneous structure. synthesized particles had a large surface area (1015 m2 g-1) and mean pore diameter 2.4 nm which leaded considerable adsorption capacity for warfarin 1666 mg/g. In vivo studies revealed that oral administration of MS-NH2 in mice poisoned with warfarin caused a significant difference (p &lt; 0.05) on International Normalized Ratio (INR) and prothrombin time (PT). Moreover, the warfarin with MS-NH2 group demonstrated a notable decrease in biomarkers associated with tissue damage, such as bilirubin, lactate dehydrogenase (LDH), alanine aminotransferase (ALT), and aspartate aminotransferase (AST). Conclusion: The results confirm that MS-NH2 administration can be an effective treatment for warfarin toxicity and could potentially mitigate the adverse effects of warfarin poisoning.

A-106 Determination of Urinary NGAL Reference Intervals from Specimens of Healthy Adult and Pediatric Individuals

Abstract Background Neutrophil gelatinase-associated lipocalin (NGAL) is a 25kDa protein implicated in multiple biological processes, including attenuation of apoptosis and differentiation of renal tubule epithelial cells and nephrons. NGAL is also produced and secreted by injured kidney tubule epithelial cells. As such, NGAL can serve as an early urinary biomarker for acute kidney injury (AKI). This multi-site, cross-sectional study aimed to establish reference intervals for urinary NGAL (uNGAL) in healthy pediatric and adult populations using a particle-enhanced turbidimetric assay. Methods Apparently healthy individuals, aged ≥ 3 months, were eligible for this study. Subjects with an active urinary tract infection (UTI) on the day of sample collection, acute kidney injury (AKI) or a history of AKI, stage 4 or 5 chronic kidney disease (CKD), known congenital anomalies of the kidney and urinary tract, known urothelial, urological, or kidney malignancies were excluded from the study. Subjects with uncorrected congenital heart disease, having undergone solid organ or bone marrow transplantation, receiving renal replacement therapy, and having undergone surgery (urologic, nephrectomy, or correction of congenital heart disease) were also excluded. A total of 688 subjects were screened, 677 were eligible, and 629 (91.4%) were considered evaluable per the protocol. The 59 excluded subjects were ineligible due to missing/incorrect information in the informed consent form, or not evaluable due to meeting exclusion criteria, mostly a positive UTI test. Urine samples were tested for NGAL on a Roche cobas® c501 analyzer in single determinations. Results Tables 1 and 2 describe the NGAL summary statistics and central 95% reference intervals by age and gender. Conclusions These data demonstrate the normal urine NGAL values in an apparently healthy pediatric and adult populations.

A-090 Performance of GFAP and UCH-L1 Biomarkers for Traumatic Brain Injury in the ARCHITECT i1000SR TBI Test

Abstract Background Traumatic Brain Injury (TBI) has been recognized as an important cause of death and disability and is a growing public health problem. An estimated 69 million people globally experience a TBI annually. The vast majority (80%) of patients evaluated for TBI in the Emergency Department will receive head CT scans, however less than 10% will have findings of acute traumatic abnormalities. This highlights the need for objective, rapid, accurate tools to help clinicians evaluate and triage patients with suspected TBI and reduce unnecessary radiation exposure. Blood based biomarkers such as glial fibrillary acidic protein (GFAP) and ubiquitin C-terminal hydrolase L1 (UCH-L1) have shown utility to predict acute traumatic intracranial injury on CT scan after TBI. Methods The ARCHITECT TBI test is a panel of in vitro diagnostic chemiluminescent microparticle immunoassays for the measurement of GFAP and UCH-L1 in plasma and serum. A method comparison study was performed to compare the GFAP and UCH-L1 assays on ARCHITECT i1000SR to the FDA cleared Alinity i assays. Performance characteristics such as detection limits, imprecision, linearity, and measuring interval were established following CLSI guidance. Results The analytical measuring interval (AMI) extends from the limit of quantitation (LoQ) to the upper LoQ and is determined by the range that demonstrates acceptable performance for linearity, imprecision, and bias. The AMI is 6.1 to 42,000 pg/mL for GFAP and 26.3 to 25,000 pg/mL for UCH-L1. Within-laboratory imprecision ranged from 2.2 to 6.2% CV for GFAP and 2.2 to 4.5% CV for UCH-L1. The Overall Reproducibility (includes repeatability, between-run, between-day, between-instrument variance components) results ranged from 2.7 to 6.8% CV for GFAP and 2.4 to 3.9 %CV for UCH-L1. The method comparison study evaluated 123 specimens across the range of 6.5-32,548.6 pg/mL for GFAP, and 51.5-24,127.7 for UCH-L1. The correlation coefficients were 1.0, with a slope of 1.03 and 1.06, an intercept of -0.6 and -6.0, for GFAP and UCH-L1, respectively. The results support use of the established GFAP and UCH-L1 cutoffs and clinical performance findings in a multi-site pivotal study which enrolled 1899 mild TBI (Glasgow Coma Scale score 13 to 15) subjects. 116 of the 120 specimens with a positive CT scan had a positive TBI interpretation (Sensitivity 96.7%). Of the 1779 subjects with negative CT scan results, 713 had a negative TBI interpretation (Specificity 40.1%). The negative predictive value (NPV) of the test was 99.4% (713/717). Conclusions The ARCHITECT TBI test performance was evaluated compared to the Alinity i TBI test across a broad concentration range of GFAP and UCH-L1. The results support equivalence of the ARCHITECT TBI test to the Alinity i TBI test. The established cutoffs were evaluated in a prospective cohort of mild TBI subjects and demonstrated high sensitivity and NPV relative to head CT scan results, supporting the utility to rule out the need for CT scan in mild TBI subjects presenting to the emergency department. Funding This work is in collaboration with the US Army Medical Materiel Development Activity, US Army Medical Research and Development Command CRADA 20-1266-CRA.

A-131 An External Laboratory Validation of the Atellica IM Serum Neurofilament Light Chain Assay

Abstract Background Neurofilament light chain (NfL) in serum is a promising biomarker for axonal injury with potential for use in neurodegenerative disease testing, including multiple sclerosis (MS), Alzheimer’s disease, and amyotrophic lateral sclerosis (ALS). This study validated the Siemens Healthineers Atellica® IM Serum Neurofilament Light Chain (sNfL) assay* for research applications. Methods Precision studies were performed using serum and plasma samples. Intra-assay precision comprised three levels of internal assay quality control (QC) and one plasma or serum pool (consisting of serum spiked with CSF). For plasma, one aliquot of each sample was tested in duplicate in two runs per day &amp;gt;2 hours apart for up to &amp;gt;20 days. Serum inter-assay involved three levels of internal assay QC run over 10 days (1 run/day). Sensitivity studies were performed to evaluate the limit of quantitation (LoQ) for serum and plasma using five low concentration samples. Each concentration was tested in 25 replicates for serum, and 50 replicates for plasma. Linearity studies involved five levels, each run three times in duplicate (plasma) or four times (serum). Method comparison studies were performed according to CLSI EP09-A3 using the Atellica® IM NfL laboratory developed test (LDT) offered by Siemens Healthcare Laboratory, LLC. 50 samples within the measuring interval of the LDT for each sample type (plasma and serum) were tested. Results Intra-assay coefficients of variation (%CVs) for internal QC ranged from 1.7-2.5% for concentrations spanning 12.75 to 147.22 pg/mL. Serum and plasma pool intra-assay %CV were 2.5% and 3.4%, respectively. Inter-assay precision of serum %CVs ranged from 2.9-16.1% for 13.4 to 150.8 pg/mL. Plasma inter-assay %CVs demonstrated a slightly improved precision versus serum across runs with %CV ranging from 2.4-12.8% with plasma concentrations ranging from 13.4 to 158.0 pg/mL. Serum and plasma LoQs, defined as the concentration at which CV is &amp;lt;20%, were 2.5 pg/mL (serum/plasma). The assay was linear between 2.5 to 300 pg/mL for serum and plasma. The Atellica IM sNfL assay method comparison to the Atellica IM NfL LDT was analyzed using a Passing-Bablok linear regression model. The assays exhibited acceptable agreement with slopes in the range of 1.12-1.14 across the sample interval tested, 6.4 to 460 pg/mL for serum/plasma. Conclusions This external validation of the Atellica IM sNfL assay demonstrated performance characteristics suitable for research applications. *For Research Use Only. Not for use in diagnostic procedures.

A-079 Investigation of gut microbial flavonoid catabolites in metabolic diseases

Abstract Background Flavonoids, a secondary metabolite found in plant-based diets, have gained attention in the last decade for their antioxidative properties in high-fat diet induced obesity animal models and human studies. Previous work showed that certain gut microbiota members can metabolize flavonoids into monophenolic acids (MPAs), and some of these MPAs have similar effects to insulin when administered orally. Our objective is to explore the microbiome connection between flavonoid-rich diets and improved metabolic parameters in obesity. We hypothesize that flavonoid-supplemented diets are most effective in the presence of gut microbiota capable of MPA formation and that these bacterial metabolites are the main bioactive compounds responsible for the improved metabolic parameters Methods To investigate our hypothesis, we fed male and female C57BL/6 mice a high-fat control diet (HFD) or the same diet supplemented with 1% MPA or 1% berry extract for 12 weeks. Each group was further divided into subgroups that received regular drinking water (RW) or antibiotic water (ABW) to suppress gut microbial communities. A range of metabolic parameters, such as body weight, lean and fat mass, glucose and insulin tolerance, histological assessment of liver cells, quantification of liver injury biomarkers, transcriptional changes in metabolically active tissues, and glucose and lipid metabolism pathways, were monitored. Additionally, 16s sequencing was performed on the cecal microbial composition of each group. Results Mice on HFD control with RW or ABW showed prominent hepatic steatosis and an increase in liver lipids accumulation demonstrated by a significant decrease in the activation of lipid metabolism pathways. Similarly, mice on HFD with 1% MPA and RW or ABW exhibited a significant reduction in hepatic steatosis and an increase in the activation of the lipid metabolism pathways, regardless of gut microbiota presence. In line with our hypothesis, mice on HFD with 1% berry extract and RW showed a similar reduction in hepatic steatosis to both 1% MPA groups. However, mice on HFD with 1% berry extract and ABW displayed noticeable hepatic steatosis, indicating the loss of the positive effect provided by berry extract metabolites once gut microbiota was depleted by antibiotics. Insulin tolerance test revealed a gut microbial effect as well in the HFD with 1% berry extract, illustrated by a significant reduction in glucose levels after insulin injection and an increase in insulin sensitivity. In contrast, the HFD control mice experienced an increase in glucose levels after insulin injection and insulin resistance. Although there were notable decreases in fasting blood glucose, there were no significant effects on fat and lean mass, insulin, glucagon, or liver injury marker levels. Finally, the mice on HFD with 1% berry extract had significantly more diverse cecal microbial communities than those fed HFD or HFD with 1% MPA. Conclusions Feeding mice a flavonoid-rich diet in the presence of intact gut microbiome can improve metabolic parameters associated with metabolic diseases, potentially preventing, or reversing these diseases. Our findings suggest promising avenues for treatment, such as dietary flavonoid supplementation with concurrent gut microbial probiotic therapy.

CIRCULATING HEPARAN SULFATE PROFILES IN PEDIATRIC ACUTE RESPIRATORY DISTRESS SYNDROME.

Introduction: Sepsis-induced degradation of endothelial glycocalyx heparan sulfate (HS) contributes to the pulmonary microvascular endothelial injury characteristic of acute respiratory distress syndrome (ARDS) pathogenesis. Our objectives were to (1) examine relationships between plasma indices of HS degradation and protein biomarkers of endothelial injury and (2) identify patient subgroups characterized by distinct profiles of HS degradation in children with ARDS. Methods: We analyzed prospectively collected plasma (2018-2020) from a cohort of invasively mechanically ventilated children (aged >1 month to <18 years) with ARDS. Mass spectrometry characterized and quantified patterns of HS disaccharide sulfation. Protein biomarkers reflective of endothelial injury (e.g., angiopoietin-2, vascular cell adhesion molecule-1, soluble thrombomodulin) were measured with a multiplex immunoassay. Pearson correlation coefficients were used to construct a biomarker correlation network. Centrality metrics detected influential biomarkers (i.e., network hubs). K-means clustering identified unique patient subgroups based on HS disaccharide profiles. Results: We evaluated 36 patients with pediatric ARDS. HS disaccharide sulfation patterns, 6S, NS, and NS2S, positively correlated with all biomarkers of endothelial injury (all P < 0.05) and were classified as network hubs. We identified three patient subgroups, with cluster 3 (n = 5) demonstrating elevated levels of 6S and N-sulfated HS disaccharides. In cluster 3, 60% of children were female and nonpulmonary sepsis accounted for 60% of cases. Relative to cluster 1 (n = 12), cluster 3 was associated with higher oxygen saturation index (P = 0.029) and fewer 28-day ventilator-free days (P = 0.016). Conclusions: Circulating highly sulfated HS fragments may represent emerging mechanistic biomarkers of endothelial injury and disease severity in pediatric ARDS.

Elevated serum GDF15 level as an early indicator of proximal tubular cell injury in acute kidney injury

Acute kidney injury (AKI) is a high-burden medical condition, and current diagnostic criteria can only assess AKI after full manifestation. Stress marker growth differentiation factor 15 (GDF15) was reported to have a role in kidney injury of critical patients. Herein, we evaluated dynamic changes in GDF15 across diverse AKI scenarios and explored the underlying mechanisms of its induction. Serum parameters and renal lesions were analyzed in mouse models of unilateral ischemia-reperfusion injury (uni-IRI) and unilateral ureteral obstruction (UUO). The human proximal tubular (HK−2) cell line was stimulated with various conditions, and induction of GDF15 expression was determined. Serum GDF15 levels were rapidly induced within hours after injury in both animal models and declined thereafter. Renal GDF15 expression exhibited a temporary and early increased induction and was mainly located in aquaporin 1-positive proximal tubules in both unilateral AKI model tissues. In cell experiments, rapid GDF15 production was highly induced by t-BHP and CoCl2. Treatment with either an antioxidant or mitogen-activated protein kinase inhibitors abolished t-BHP- and CoCl2-mediated GDF15 expression. In addition, silencing nuclear factor erythroid 2-related factor 2 expression also reduced the basal and t-BHP- or CoCl2-mediated GDF15 expression level in HK-2 cells. Our data showed that elevated serum GDF15 levels could be detected early in unilateral AKI models without notable alterations in kidney function parameters. GDF15 expression was associated with oxidative stress- and hypoxia-mediated proximal tubular cell injury. These data document that elevated serum GDF15 can possibly serve as an early biomarker for proximal tubular cell injury in AKI.

Predicting troponin biomarker elevation from electrocardiograms using a deep neural network.

Elevated troponin levels are a sensitive biomarker for cardiac injury. The quick and reliable prediction of troponin elevation for patients with chest pain from readily available ECGs may pose a valuable time-saving diagnostic tool during decision-making concerning this patient population. The data used included 15 856 ECGs from patients presenting to the emergency rooms with chest pain or dyspnoea at two centres in Sweden from 2015 to June 2023. All patients had high-sensitivity troponin test results within 6 hours after 12-lead ECG. Both troponin I (TnI) and TnT were used, with biomarker-specific cut-offs and sex-specific cut-offs for TnI. On this dataset, a residual convolutional neural network (ResNet) was trained 10 times, each on a unique split of the data. The final model achieved an average area under the curve for the receiver operating characteristic curve of 0.7717 (95% CI±0.0052), calibration curve analysis revealed a mean slope of 1.243 (95% CI±0.075) and intercept of -0.073 (95% CI±0.034), indicating a good correlation between prediction and ground truth. Post-classification, tuned for F1 score, accuracy was 71.43% (95% CI±1.28), with an F1 score of 0.5642 (95% CI±0.0052) and a negative predictive value of 0.8660 (95% CI±0.0048), respectively. The ResNet displayed comparable or surpassing metrics to prior presented models. The model exhibited clinically meaningful performance, notably its high negative predictive accuracy. Therefore, clinical use of comparable neural networks in first-line, quick-response triage of patients with chest pain or dyspnoea appears as a valuable option in future medical practice.

Biomarkers of acute kidney injury: a concise review of current literature

Abstract Background Acute kidney injury (AKI), a medical condition associated with increased hospitalization rates which requires interdisciplinary management, is a major health concern because of the burden it places on the health systems of different countries. Biomarkers represent the focus of recent years in furthering the early diagnosis of AKI, providing new opportunities for correct prophylaxis or early therapeutic intervention so that the evolution of patients with this pathology is favorable and the risk of life-threatening complications is negligible. Methods We performed an extensive literature search on PubMed and ScienceDirect databases, using keywords related to bio-markers for AKI. We searched for acute kidney injury (AKI), cystatin C (CYS-C), galectin-3 (GAL-3), kidney injury molecule-1 (KIM-1), neutrophil-gelatinase-associated lipocalin (NGAL), interleukin-8 (IL-8), and liver-type fatty acid-binding protein (L-FABP). We included a high number of papers, with an emphasis on more recent publications. Results Studies that analyzed the biomarkers for AKI show that CYS-C, GAL-3, KIM-1, NGAL, IL-8, calprotectin, and proteinuria were noted as potential biomarkers for early diagnosis of AKI. Conclusions Biomarkers represent the focus of recent years in furthering an early diagnosis of AKI, providing new opportunities for correct prophylaxis or early therapeutic intervention.

Exploring strategies to rapidly identify false positives in high-sensitivity cardiac troponin I assay: A prospective study

BackgroundCardiac troponin is the pivotal biomarker of myocardial injury, playing a central role in the diagnosis of acute coronary syndrome and various clinical situations. Nevertheless, challenges arise when patients exhibit elevated cardiac troponin levels in the absence of evident cardiac origin, as evidenced by extensive cardiac exploration, which suggests the presence of an interfering factor. Despite the high performance of high-sensitive cardiac troponin immunoassays, these tests remain susceptible to interferences that may lead to false-positives. MethodsIn the period between July 2021 and July 2024, 8129 patients were hospitalized in the cardiology departments of Bordeaux University Hospital with positive results for high-sensitivity cardiac troponin I. Among them, 15 patients were suspected of having false-positive results, based on clinical and biological observations. ResultsIn this subpopulation, we evaluated prospectively various techniques, including serial dilutions, antibody-binding tubes, and alternative immunoassays (for cardiac troponin I and T) with the objective of identifying any potential analytical interference in their high-sensitive cardiac troponin I measurements. Our investigations revealed that 12 out of 15 suspected cases exhibited an interference on the high-sensitive cardiac troponin I assay. ConclusionIn conclusion, we propose an original algorithm designed to identify high-sensitive cardiac troponin I false-positives. This algorithm can help clinicians to make prompt and informed decisions about patient care, and to avoid erroneous clinical interventions that may result from such interferences.

Biomarkers of Acute Brain Injury

Introduction: Acute brain injury is one of the most important causes of morbidity, mortality and disability worldwide. Time is the most important aspect of acute brain injury management. In this context, biomarkers could mitigate the limitations of neuroimaging. Neuro-biomarkers could be used both to diagnose intracranial pathology and to predict the effectiveness of treatment applications. Aim: The aim of this review is to describe the role of various and specific markers of brain damage with particular emphasis on acute brain injury and stroke. Results/discussion: The diagnostic and prognostic value of modern biomarkers remains relatively questionable, although grouping biomarkers into panels is improving their usefulness. The groups of biomarkers that will be analyzed include astrocytic, axonal, neuronal as well as extracellular biomarkers. Conclusion: Future studies will demonstrate the utility of neuro-biomarkers in the diagnosis, prognosis and therapeutic monitoring of patients with acute brain injury in the intensive care unit.

Hepatic bile acid accretion correlates with cholestatic liver injury and therapeutic response in Cyp2c70 knockout mice with a humanized bile acid composition.

Cyp2c70 knockout (KO) mice lack the liver enzyme responsible for synthesis of 6-hydroxylated muricholate bile acid species and possess a more hydrophobic human-like bile acid composition. Cyp2c70 KO mice develop cholestatic liver injury that can be prevented by administration of an ileal bile acid transporter (IBAT) inhibitor. In this study, we investigated the potential of an ileal bile acid transporter (IBAT) inhibitor (SC-435) and steroidal FXR agonist (cilofexor) to modulate established hepatobiliary injury and the consequent relationship of intrahepatic bile acid content and hydrophobicity to the cholestatic liver injury phenotype. Oral administration of SC-435, cilofexor, or combined treatment for 2 weeks markedly reduced serum markers of liver injury and improved histological and gene expression markers of fibrosis, liver inflammation, and ductular reaction in male and female Cyp2c70 KO mice, with greatest benefit in the combination treatment group. The IBAT inhibitor and FXR agonist significantly reduced intrahepatic bile acid content but not hepatic bile acid pool hydrophobicity, and markers of liver injury were strongly correlated with intrahepatic total bile acid and taurochenodeoxycholic acid accretion. Biomarkers of liver injury increased linearly with similar hepatic thresholds for pathological accretion of hydrophobic bile acids in male and female Cyp2c70 KO mice. These findings further support targeting intrahepatic bile acid retention as a component of treatments for cholestatic liver disease.

Combining cerebrospinal fluid and PI-2620 tau-PET for biomarker-based stratification of Alzheimer's disease and 4R-tauopathies.

Recent advances in biomarker research have improved the diagnosis and monitoring of Alzheimer's disease (AD), but in vivo biomarker-based workflows to assess 4R-tauopathy (4RT) patients are currently missing. We suggest a novel biomarker-based algorithm to characterize AD and 4RTs. We cross-sectionally assessed combinations of cerebrospinal fluid measures (CSF p-tau181 and t-tau) and 18F-PI-2620 tau-positron emission tomography (PET) in patients with AD (n=64), clinically suspected 4RTs (progressive supranuclear palsy or corticobasal syndrome, n=82) and healthy controls (n=19). Elevated CSF p-tau181 and cortical 18F-PI-2620 binding was characteristic for AD while normal CSF p-tau181 with elevated subcortical 18F-PI-2620 binding was characteristic for 4RTs. 18F-PI-2620-assessed posterior cortical hypoperfusion could be used as an additional neuronal injury biomarker in AD. The specific combination of CSF markers and 18F-PI-2620 tau-PET in disease-specific regions facilitates the biomarker-guided stratification of AD and 4RTs. This has implications for biomarker-aided diagnostic workflows and the advancement in clinical trials. Novel biomarker-based algorithm for differentiating AD and 4R-tauopathies. A combination of CSF p-tau181 and 18F-PI-2620 discriminates AD versus 4R tauopathies. Hypoperfusion serves as an additional neuronal injury biomarker in AD.

Renal Tubular Injury Biomarkers (BMs) in the Identification of Subclinical AKI and Drug-Induced Kidney Injury: IMI/SAFE-T/TransBioLine

Renal Tubular Injury Biomarkers (BMs) in the Identification of Subclinical AKI and Drug-Induced Kidney Injury: IMI/SAFE-T/TransBioLine

Kidney and Endothelial Injury Biomarkers among Crossfit Athletes

Kidney and Endothelial Injury Biomarkers among Crossfit Athletes

Po-Ge-Jiu-Xin decoction alleviate sepsis-induced cardiomyopathy via regulating phosphatase and tensin homolog-induced putative kinase 1 /parkin-mediated mitophagy

Ethnopharmacological relevanceSepsis is a life-threatening systemic syndrome usually accompanied by myocardial dysfunction. Po-Ge-Jiu-Xin decoction (PGJXD), a traditional Chinese prescription medicine, has been used clinically to treat cardiovascular disease including heart failure, sepsis-induced cardiomyopathy (SIC) and even septic shock. Previous clinical studies suggested PGJXD has shown promising results in improving cardiac function and treating heart failure in sepsis. However, more research is needed to elucidate the mechanisms underlying PGJXD's therapeutic effects in sepsis-induced cardiomyopathy. Materials and MethodsInitially, we identified the major compounds of PGJXD through ultra-performance liquid chromatography-mass spectrometry technology analysis. We established in a SIC rat model using cecal ligation and puncture(CLP) and treated by PGJXD and levosimendan. We evaluated pathological damage by hematoxylin and eosin staining and measured serum myocardial injury biomarkers. Myocardial apoptosis was detected by Tunel staining and quantifying specific biomarker protein levels. Subsequently, we evaluated myocardium mitochondrial quality using Transmission electron microscope (TEM), antioxidant stress indexes and tissue adenosine triphosphate(ATP) content. We detected the expression of phosphatase and tensin homolog (PTEN)-induced putative kinase 1 (PINK1), parkin, LC3, and p62 using Western blotting and Quantitative real time polymerase chain reaction(qRT-PCR). (Lipopolysaccharides, LPS)-induced H9c2 cell model was established to further explore the mechanism of PGJXD on SIC. In addition to measuring cell viability, we measured mitochondrial membrane potential using JC-1 staining. Additionally, Parkin-siRNA transfected into H9c2 cells to validate whether PGJXD conducted protective effects against SIC through PINK1/Parkin-mediated mitophagy. ResultsIt has been demonstrated that PGJXD reduced mortality in septic rat, contributed to ameliorating myocardium injury, suppressed inflammatory response and ameliorated the myocardial apoptosis. PGJXD could also alleviate mitochondrial structural abnormality, mitigated oxidative stress injury and promoted energy synthesis in CLP models. Western blotting and qRT-PCR have further confirmed that PGJXD can activate PINK1/parkin pathway-mediated mitophagy, resulting in preserving mitochondrial quality in the myocardium. Furthermore, Parkin siRNA partially reversed the beneficial effect of PGJXD on mitochondrial fission/fusion and mitophagy in vitro. Therefore, the cardioprotective effect of PGJXD is achieved by inducing PINK1/Parkin-mediated mitophagy in maintaining mitochondrial homeostasis. ConclusionsThese results suggest that the potential therapeutic effect of PGJXD on cardiac dysfunction during sepsis and support its mechanism of targeted induction of PINK1-Parkin-mediated mitophagy.

The Association Between Elevated Myocardial Injury-Related Biomarker (TnI) and Increased Mortality in Patients With Severe Fever With Thrombocytopenia Syndrome.

The objective of this study was to investigate the dynamic profiles of myocardial injury biomarkers and their association with mortality in patients with severe fever with thrombocytopenia syndrome (SFTS). A retrospective cohort study. Union Hospital in Wuhan, China. A total of 580 patients with SFTS, observed between May 2014 and December 2021, were included in the final analysis. None. In total, 580 patients with SFTS were enrolled in the study, comprised of 469 survivors and 111 nonsurvivors, with a 21-day fatality rate of 19.1%. The elevation of troponin I (TnI) was observed in 61.6% patients (357/580) with SFTS upon admission, and 68.4% patients (397/580) developed an abnormal TnI level during hospitalization. Multivariate logistic regression identified age, viral load, platelet count, creatinine level, and TnI level as potential risk factors for mortality in patients with SFTS. The results of restricted cubic splines revealed that when the TnI level (baseline TnI: 1.55 [lg (ng/L+1)], peak value: TnI 1.90 [lg (ng/L+1)]) exceeded a certain threshold, the predicted mortality of patients with SFTS increased alongside the rise in TnI levels. Mortality rate surpassed 40% among patients with SFTS with TnI greater than or equal to 10 times the upper limit of normal at admission (43.8%) or during hospitalization (41.7%). Older age, a history of cardiovascular disease, and higher d -dimer levels were potential risk factors for elevated TnI levels in patients with SFTS. Elevated TnI levels were prevalent among patients with SFTS and were strongly associated with an increased risk of mortality.