Immune Status Of Patients Research Articles

Research advances in gut microbes and autism spectrum disorders

This paper concludes that recent research on the interrelationship between gut microbiota and autism spectrum disorder (ASD) has gained significant attention. The study found that the composition of the gut microbiota in ASD patients is often markedly different from that of the general population, particularly in the species and abundance of beneficial bacteria, such as Bifidobacterium and Lactobacillus, which are frequently imbalanced. The imbalance in intestinal microorganisms not only affects gut health but also disrupts the neurological functions mediated by the gut-brain axis, exacerbating the behavioral and cognitive symptoms associated with ASD. In recent years, microbial interventions, including probiotics, prebiotics, and fecal microbiota transplantation (FMT), have shown some promise. The use of probiotics and prebiotics can increase the proportion of beneficial flora in the gut of patients with ASD, helping to produce anti-inflammatory short-chain fatty acids, thereby improving neurological symptoms. Additionally, FMT, which involves transplanting gut microbes from healthy individuals into ASD patients, has demonstrated significant improvements in both gut and behavioral symptoms in several studies. However, due to the high individual variability among ASD patients, a single microbial intervention is not consistently effective across all individuals. Some patients respond well to probiotics or FMT, whereas others show limited symptom improvement. This variability may be attributed to each patient's unique microbiota composition, immune status, and metabolic profile. Therefore, further research is needed to identify biomarkers that can predict the effectiveness of microbial interventions, thereby enabling more precise and individualised therapies. This review aims to provide guidance for future research and to offer a theoretical foundation and data support for exploring microbial modulation as a potential treatment for ASD.

Determination of Ideal Factors for Early Adoption and Standardization of Metagenomic Next-generation Sequencing for Respiratory System Infections.

Metagenomic next-generation sequencing (mNGS) demonstrates great promise as a diagnostic tool for determining the cause of pathogenic infections. The standard diagnostic procedures (SDP) include smears and cultures and are typically viewed as less sensitive and more time-consuming when compared to mNGS. There are concerns about the logistics and ease of transition from SDP to mNGS. mNGS lacks standardization of collection processes, databases, and sequencing. Additionally, there is the burden of training clinicians on interpreting mNGS results. Until now, few studies have explored factors that could be used as early adoption candidates to ease the transition between SDP and mNGS. This study evaluated 123 patients who had received both SDP and mNGS and compared several variables across a diagnostic test evaluation. The diagnostic test evaluation observed metrics such as sensitivity, specificity, positive and negative likelihood ratios (PLR, NLR), positive and negative predictive values (PPV, NPV), and accuracy. Factors included various sample sources such as bronchoalveolar lavage fluid (BALF), lung tissue, and cerebral spinal fluid (CSF). An additional factor observed was the patient's immune status. Pathogen detection was found to be significantly greater for mNGS for total patients, BALF sample source, CSF sample source, and non-immunocompromised patients (p<0.05). Pathogen detection was found to be insignificant for lung tissue sample sources and immunocompromised patients. Sensitivity, PLR, NLR, PPV, NPV, and accuracy appeared to be higher with mNGS for the total patients, BALF sample source, and non-immunocompromised patients when compared with SDP (p<0.05). With higher metrics in sensitivity, specificity, PLR, NLR, PPV, NPV, and accuracy for overall patients, mNGS may prove a better diagnostic tool than SDP. When addressing sample sources, mNGS for BALF-collected samples appeared to have higher scores than SDP for the same metrics. When patients were in a non-immunocompromised state, mNGS also demonstrated greater diagnostic benefits to BALF and overall patients compared to SDP. This study demonstrates that using BALF as a sample source and selecting non-immunocompromised patients may prove beneficial as early adoption factors for mNGS standard protocol. Such a study may pave the road for mNGS as a routine clinical method for determining the exact pathogenic etiology of lung infections.

Recommendations for Research to Develop a Patient-Centered Clinical Follow-Up Protocol for Oral Epithelial Dysplasia.

Oral epithelial dysplasia (OED) is the primary histological marker for assessing the progression of oral potentially malignant disorders (OPMDs) to cancer. Despite challenges in grading and low inter-pathologist reproducibility, OED severity remains the key predictor of malignant transformation. However, globally accepted guidelines for OED monitoring are lacking, despite calls for individualized management based on host and lesion characteristics. The proposed research protocol involves acquiring high-quality intraoral images, assessing oral hygiene and periodontal status, eliminating chronic mechanical irritation and Candida infections, and applying adjunctive diagnostic methods like toluidine blue staining, optical evaluation, and brush cytology. Tailored follow-up regimens based on individual risk assessments are emphasized, with frequent monitoring for high-grade dysplasia or patients at higher risk of progression. Therefore, effective OED management should consider the patient's immune status, dietary habits, and oral microbiota, aiming to develop personalized treatment strategies that optimize patient-centered care.

Prediction of Treatment Response Based on Nutritional Status and Tumor Immunity in Oropharyngeal Cancer Patients Treated With Chemoradiotherapy.

Radiotherapy (RT) for advanced oropharyngeal cancer (OPC) is effective, especially when combined with chemotherapy (CRT). However, its success can vary depending on factors, such as tumor stage, HPV infection (p16 status), and the patient's nutritional and immune status. This study examined the controlling nutritional status (CONUT) score and tumor immunity as predictive factors for treatment outcomes in OPC, aiming to develop a personalized risk score. A retrospective analysis was conducted on 84 patients with OPC treated with definitive RT or CRT, and survival outcomes were compared based on various factors, including BMI, CONUT score, CD8 expression, and HLA class II expression. We observed better overall survival (OS) rates in CD8-positive patients and those with higher HLA class II expression. The univariate analysis identified stage, p16 status, BMI, CONUT score, and CD8 expression as significantly associated with OS. In multivariate analysis, stage, BMI, and CONUT score remained significant predictors of OS. A risk scoring system was developed based on stage, p16 status, BMI, CONUT score, and CD8 expression. Patients were categorized into low-risk and high-risk groups, with significantly better survival in the low-risk group. A combined risk score incorporating clinical, nutritional, and immune factors can improve the prediction of treatment outcomes for OPC patients. This risk stratification may enable personalized treatment plans and improve ΟS rates.

Optic Neuritis and its Prevalence in Immunocompromised Patients: A Review Article

Optic neuritis is an inflammation that affects the optic nerve, causing vision loss, eye pain, and changes in color perception. The condition can be associated with autoimmune diseases such as multiple sclerosis (MS) or infections, especially in immunocompromised individuals such as HIV/AIDS patients or those undergoing chemotherapy. In these individuals, optic neuritis usually results from opportunistic infections like toxoplasmosis and syphilis, complicating diagnosis and treatment. In immunocompetent patients, optic neuritis may indicate autoimmune diseases like MS or neuromyelitis optica (NMO), with better prognoses when treated early with corticosteroids. However, in immunocompromised individuals, the prognosis tends to be worse due to underlying infections and a limited response to immunosuppressive treatment. The management of optic neuritis involves anti-inflammatory therapies and, in cases of infections, specific antimicrobials. Continuous clinical and visual follow-up is also crucial. Studies suggest that clinical outcomes vary depending on the etiology and the patient's immune status, highlighting the need for personalized therapeutic strategies. Early diagnosis is critical to improving vision and quality of life for patients.

Investigation Role of IL-10 And IL-13 with Some Viral Species in Pathogenesis of Heart Diseases

Background; cardiovascular disease (CVD) is the most common cause of mortality and impairment. Atherosclerosis is the primary underpinning pathophysiology of CVD, but several variables could trigger it. The occurrence of it is linked to multiple risk factors related to metabolism, such as overweight and dyslipidemia. Objective; Detective predictive roles of IL-10 and IL-13 and positivity of viral infections in heart diseases. 60 blood samples were harvested (gel tube) from heart diseases patients who sleeping in hospital after diagnosis them by specialist physician.30 blood samples were taken from healthy individuals that labeled them as a control group. Interleukins (IL-10 and IL-13) and viral species (Parvovirus B19, SARS-CoV-2, HCV and HBV) were calculated by (ELISA). Present outcomes mentioned the most patients were males (71.7%) with age groups 51-60 (26.7%) and 61-70 (33.3%), ex-smokers (65.0%), and lean BMI (63.3%). Our investigation showed Parvovirus B19 scored highest positivity (15.0%), followed by HBV (6.7%), SARS-CoV-2 (5.0%), and then HCV (3.3%) in heart diseases patients with significant difference (p&lt;0.05). Based on interleukins levels, present outcomes showed significant raised levels (p&lt;0.05) of IL-10 and IL-13 in patients than control. ROC curve results showed the IL-13 scored highest sensitivity (80%) and specificity (84%) at cut off (&gt;2.50) compared to IL-10 that showed highest sensitivity (81%) and low specificity (57%) at cut off (&gt;9.50). Conclusions; gender, age and smoking are risk factors for heart diseases. Due to decreased immune state in patients, several viruses were discovered in those patients. IL-10 and IL-13 were raised in patients due to presence inflammation. IL-10 has paradoxical role (pro and anti-inflammatory) in pathogenesis heart diseases . IL-13 is more preferred in diagnosis heart diseases than IL-10 due to has (IL-13) highest sensitivity and specificity. Finally, there is no strong correlation between IL-10 and IL-13 in pathophysiology of heart diseases.

Features of immune status in patients with pulmonary tuberculosis after the COVID-19

BACKGROUND. Identification of immunological changes in patients with pulmonary tuberculosis after coronavirus infection will contribute to the prediction of its course and correction of therapeutic protocols. OBJECTIVE. The aim of the work is to determine the nature of immuno-mediated disorders caused by coronavirus disease (COVID-19) in patients with pulmonary sensitive tuberculosis (STB). MATERIALS AND METHODS. The results of a comprehensive immunological clinical and laboratory examination with subsequent computer processing of the data of 72 patients with STB of the lungs were analyzed. RESULTS. In the immune system of patients with pulmonary STB after COVID-19 the multidirectional changes are manifested by: a lower degree of increase of the blood leukocytes number (mainly due to a decrease in the absolute lymphocytes number), activation of the immune T-cells with an increase in the percent number and functional activity of pan-T-cells and T-helpers, an increase in the functional activity of T-suppressors, natural killers and killer T-cells (with the absolute and percent decrease of the latter), a higher level of the absolute and relative number of double positive (CD4+8+) cells and the functional activity of B-cells. A decrease in the level of IgA and an increase in the concentration of IgG with an decrease in the level of the medium and small circulating immune complexes, depression of the phagocytes link of immunity by reducing phagocyte number of phagocytes are observed in the blood of the patients with pulmonary STB after COVID-19. CONCLUSIONS. In the patients with pulmonary tuberculosis after COVID-19, the immune response is complex, with the crossing of immune reactions of pulmonary tuberculosis and post-COVID changes in immunity: on the one hand, previous COVID-19 promote compensatory activation of immune cells – T- and B-lymphocytes, natural killers; on the other hand, it causes suppression of antibacterial protection of mucous membranes (due to a decrease in the blood level of IgA) and reduces the body’s resistance (due to suppression of the phagocytes link of immunity).

Influence of Preoperative Inflammatory Status on Outcomes of Alveolar Bone Grafting in Patients With Cleft Lip.

After secondary alveolar bone grafting, the outcome of bone formation is always a problem that leads to repeat surgery. Bone formation is closely related to the inflammatory and immune status of patients. To achieve better bone formation results, this study aimed to investigate the influence of preoperative inflammatory indicators on the bone survival ratio (BSR) of secondary alveolar bone grafting. A retrospective study was conducted on 62 patients who underwent surgery by the same surgeon between January 2016 to December 2022. Demographic and laboratory data were included as independent variables. The BSR calculated from computed tomography data was included as the dependent variable. Pearson correlation analysis, Spearman correlation analysis, and multiple linear regression analysis were performed. The analysis results revealed significant correlations between BSR and preoperative inflammatory markers, including neutrophil percentage, neutrophil-to-lymphocyte ratio, lymphocyte percentage (L%), lymphocyte count, and monocyte-to-lymphocyte ratio. Multiple linear regression identified L% as an independent factor of BSR, with lower L% associated with higher BSR. Preoperative inflammatory markers may influence BSR after alveolar bone grating. A lower value of L% indicates a better postoperative bone formation outcome. Understanding these associations can aid clinicians in treatment planning and patient stratification.

305 Accuracy of a Host Response Test for Diagnosis of Bacterial and Viral Infections and Prediction of Illness Severity in Emergency Department Patients Is Not Impacted by the Patient's Immune Status

305 Accuracy of a Host Response Test for Diagnosis of Bacterial and Viral Infections and Prediction of Illness Severity in Emergency Department Patients Is Not Impacted by the Patient's Immune Status

A multisite initiative to assess the immunization status of medical oncology patients.

289 Background: The Swedish Cancer Institute (SCI) is committed to holistic care and recognizes immunizations are an essential component to quality outcomes. In 2022 the SCI was selected to participate in the Specialty Societies Advancing Adult Immunization (SSAAI) project supported by the Centers for Disease Control and Prevention (CDC) with a goal of incorporating the CDC Standards for Adult Immunization Practice into medical oncology clinical care. The CDC Standards for Adult Immunization Practice are assess, recommend, administer or refer, and document. Recognizing immunization status is not routinely assessed, this quality initiative aimed to increase assessment of immunization status in medical oncology across 7 network clinics on 4 campuses to above 50 % by the end of 2023. Methods: All team members completed the ASCO Quality Training Program. The Plan Do Study Act (PDSA) framework was selected. Assessment was defined as having completed the Immunization Activity Record within the Epic Medical Record system, which includes reconciliation with the Washington state immunization registry. Data was initially abstracted manually to determine the baseline assessment rate until an automated method was developed. A Fishbone diagram determined the top barrier was the lack of awareness about this functionality and lack of training around the task. A workflow diagram and standard operating procedure were implemented. Clinic staff were trained on the new workflow when rooming patients. A small pilot with one clinic of solid tumor medical oncology clinics was completed. Patients included were on active treatment and seen face to face within the clinic. The standardized process and tools were refined, and problem areas addressed. The work was then expanded to all seven of the SCI network medical oncology clinics including hematology as the final PDSA cycle using the same training, process and tools. Results: The Epic Immunization Activity Record completion rate went from less than 1% of solid tumor patients with an active systemic treatment plan to 61% in the pilot project. After two additional PDSA cycles to refine the steps and target problem areas, the rate improved to 67% over a 3-month period. The PDSA cycle was expanded to bring the refined process to all 7 network clinics with a baseline assessment rate of 6% which increased to 45% after interventions within a 3-month period and concluding the 2023 year. Conclusions: Developing tools and implementing a new workflow for immunization assessment yielded a significant improvement in assessment rates thereby setting a foundation of assessment utilizing the CDC Standards for Immunization Practice. The use of concrete written tools improves the sustainability of the changes. Additional tools and refinement of existing tools will be studied to improve the current rate and sustain the gains. Reference: Standards for Adult Immunization Practices | CDC .

Analysis of characteristics of peripheral blood lymphocytes in endometrial carcinoma: a single-center study based on five-year clinical data

IntroductionThis study analyzed and discussed the characteristics of peripheral blood lymphocytes (PBLs) in patients with endometrial carcinoma (EC) to explore the PBLs’ clinical application value.MethodsThis single-center case‒control study analyzed the clinical data of patients with EC and uterine fibroids who underwent surgery at the First Affiliated Hospital of Chongqing Medical University between October 2018 and October 2023 retrospectively. The Center for Clinical Molecular Medical Detection of our hospital performed PBLs detection using flow cytometry, and recorded the detection results in the electronic medical records system. Between-group and subgroup comparisons of PBLs in patients with EC were analyzed using t-test or Mann–Whitney U test. The effect of surgery on PBLs in patients with EC was assessed using a paired t-test or the Wilcoxon signed rank test.ResultsThe immune function of patients with EC was significantly lower than that of healthy people (P < 0.05) and those with benign uterine diseases (P < 0.05) and was related to body mass index (BMI), hypertension, diabetes, and blood lipids (P < 0.05). In patients with EC, the PBLs counts decreased significantly after surgery (P < 0.05) and more kinds of lymphocytes were affected in the laparoscopic surgery group than in the open surgery group.ConclusionsWith the decrease of PBLs counts, the immune status of patients with EC is impaired. Metabolic syndrome (Mets), including obesity, hypertension, diabetes, and high blood lipids, also affects the immune function of patients with EC. And for EC patients, the effect of laparoscopic surgery is greater than that of open surgery. PBLs has the potential to be one of indicator during the diagnosis and treatment of EC.Trial registrationThis study was retrospectively registered by the Ethics Committee of the First Affiliated Hospital of Chongqing Medical University (approval number K2023-578).

Expression of immune checkpoint markers in peripheral blood lymphocytes of women with fibroadenoma of the breast

Changes of the immune state in patients with fibroadenoma (FA) or other benign lesions of the breast, as well as the involvement of immune checkpoints in pathogenesis of these lesions, remain underexplored. The aim of this study was to compare the expression level of the key immune checkpoint markers CD279/PD-1, CD274/PD-L1, CD366/TIM3, and CD223/LAG3 in total circulating lymphocytes, T cell population as well as in its CD4 and CD8 subsets in peripheral blood from women with breast FA and healthy controls. Blood samples were taken from 12 women diagnosed with FA of the breast (aged 23-54 years, FA group) and 15 healthy women (aged 22-52 years, control group). Sample uptake was performed immediately before surgery, and samples were further analyzed by multicolor flow cytometry using monoclonal antibodies CD3-VioBlue, CD4/CD8-FITC, PD1-PE, PD-L1-PerCP-Cy.5.5, and TIM3/LAG3-APC. Each sample was incubated with 4 antibody combinations: CD3/CD4/PD1/PD-L1/TIM3, CD3/CD4/PD1/PD-L1/LAG3, CD3/CD8/PD1/PD-L1/TIM3, and CD3/CD8/PD1/PD-L1/LAG3. First, mono-expression of each of the 4 immune checkpoint markers was evaluated in the lymphocyte gate from both investigated groups. In FA samples, a significant increase in PD-L1 expression (assessed as percent of positive cells and fluorescence intensity change) was observed. Regarding expression of immune checkpoints in CD3+ T cells, along with significantly increased %PD-L1+, elevated numbers of PD1+T cells were detected. As for the differences in immune checkpoint expression changes between CD4+ and CD8+ T cell subsets, FA patient group demonstrated a more prominent increase in the amount of CD8+PD1+T cells relative to CD4 subset. The profiles of PD-L1 changes in CD4 and CD8 subpopulations were comparable showing, in both cases, a significant increase in FA sample group. We also analyzed changes in co-expression of any two immune checkpoint markers in CD4+ and CD8+ T cell subsets. The most noticeable was as increase in the prevalence of PD1+PD-L1+ phenotype in both T cell subpopulations from FA patients compared to the controls. With respect to co-expression of 3 checkpoint markers in CD4+ and CD8+ T cells, a significant increase in the percentage of PD1+PD-L1+TIM3+ cells among CD4 T helpers was found in FA. Thus, specific changes of T cell phenotype related to (co-)expression of immune checkpoint regulators may occur in systemic circulation of women with breast FA.

Sequence variants underlying severe combined immunodeficiency and leukocyte adhesion deficiency type 1 in six consanguineous families.

Inborn errors of immunity (IEI) are defined as genetic disorders affecting the immune system and resulting in diverse clinical signs and symptoms. Despite the lack of diagnosis and unavailability of IEI estimation in the Pakistani population, consanguinity is exacerbating its prevalence. The current study focuses on severe combined immunodeficiency (SCID) and leukocyte adhesion deficiency type 1 (LAD1). SCID is associated with the life-threatening symptoms developing at post-birth. LAD1 is clinically characterized by recurrent bacterial infections related to the skin, mouth, and respiratory tract owing to impaired leukocytes. Herein, in six consanguineous families, flow cytometry was used to evaluate the patient's immune status. Whole-exome sequencing (WES) was then conducted to search for the causative variations in immunodeficiency genes. Sanger sequencing was used to assess the segregation of the variants with the disorder within the families. Sequence analysis revealed five homozygous variants in four different causative genes. This included four novel nonsense variants in CD70 p.(Thr126Profs*33), CD3e p.(Trp151*), IL7R p.(Val138Ilefs*10), and ITGB2 p.(Ser627Valfs*61), and one previously reported in ITGB2 p.(Cys62*). In one of the families, two variants in two different genes, including DNAH6 p.(Tyr2653His) and NIPAL4 p.(Gly121Ser), were detected in an unclassified patient. All the identified variants were found in a homozygous state in the patient but in a heterozygous state in the available parents. The study will facilitate the diagnosis and management of IEI patients.

Role of Posaconazole Drug in the Treatment of Invasive Fungal Disease: A Review.

Posaconazole is an antifungal medication used primarily to treat invasive fungal in-fections caused by various organisms, such as Aspergillus, Candida, and certain molds. It be-longs to the class of drugs known as triazole antifungals. Clinical studies have reported posaconazole to be effective in treating various invasive fungal infections, especially in patients who are immunocompromised, such as those with weakened immune systems due to conditions like HIV/AIDS, undergoing chemotherapy, or having received an organ transplant. It has ef-fectively treated invasive candidiasis, aspergillosis, zygomycosis, and other serious fungal in-fections. The effectiveness of the drug varies based on factors, such as the type of infection, the patient's immune status, and the site of infection. This review describes the types of infection, the drug's safety profile, the development of resistance to posaconazole, and strategies to man-age or prevent resistance.

TOXOPLASMOSIS AND ITS WEAKENING EFFECTS AND IMPLICATIONS FOR AGING

Toxoplasmosis is an infection caused by the parasite Toxoplasma gondii, which involves complex interactions with the host's immune system. The pathogenic process includes innate and adaptive immune responses, with a highlight on phagocytic cells and T cells in defense against the parasite. Commonly, with aging, there are implications on the individual's immune mechanisms. Based on these premises, the aim is to discuss the interfaces of toxoplasmosis with aging, aiming to identify relevant factors for the outcomes of this health-disease process. For this purpose, a narrative review of the scientific literature available in databases such as Scielo, Google Scholar, and PubMed was carried out. It was possible to identify that toxoplasmosis prevention involves measures such as food hygiene, avoiding contact with cats, and serological screening during pregnancy. Treatment varies according to the severity of the infection and the patient's immune status, involving specific therapy against the parasite and supportive treatment for complications. Understanding the pathogenesis, implementing preventive measures, and ensuring adequate therapeutic management are essential to reduce the incidence and impact of toxoplasmosis on public health, especially in at-risk groups such as pregnant women, elderly individuals, and immunocompromised individuals

Laboratory Testing for Powassan Virus: Past, Present, and Future.

Powassan virus is a tick-borne flavivirus that can cause severe neuroinvasive disease, with areas of endemicity in the Northeast and Midwest United States, Canada, and Russia. Diagnosis is challenging and relies on a high index of suspicion and choosing the right test based on duration of infection and the patient's immune status. This review covers laboratory testing for Powassan virus, including historical considerations, modern options, and methods being developed in the research space.

The synchronous upregulation of a specific protein cluster in the blood predicts both colorectal cancer risk and patient immune status

BackgroundEarly detection and treatment of colorectal cancer (CRC) is crucial for improving patient survival rates. This study aims to identify signature molecules associated with CRC, which can serve as valuable indicators for clinical hematological screening. MethodWe have systematically searched the Human Protein Atlas database and the relevant literature for blood protein-coding genes. The CRC dataset from TCGA was used to compare the acquired genes and identify differentially expressed molecules (DEMs). Weighted Gene Co-expression Network Analysis (WGCNA) was employed to identify modules of co-expressed molecules and key molecules within the DEMs. Signature molecules of CRC were then identified from the key molecules using machine learning. These findings were further validated in clinical samples. Finally, Logistic regression was used to create a predictive model that calculated the likelihood of CRC in both healthy individuals and CRC patients. We evaluated the model’s sensitivity and specificity using the ROC curve. ResultBy utilizing the CRC dataset, WGCNA analysis, and machine learning, we successfully identified seven signature molecules associated with CRC from 1478 blood protein-coding genes. These markers include S100A11, INHBA, QSOX2, MET, TGFBI, VEGFA and CD44. Analyzing the CRC dataset showed its potential to effectively discriminate between CRC and normal individuals. The up-regulated expression of these markers suggests the existence of an immune evasion mechanism in CRC patients and is strongly correlated with poor prognosis. ConclusionThe combined detection of the seven signature molecules in CRC can significantly enhance diagnostic efficiency and serve as a novel index for hematological screening of CRC.

Enhanced Detection of Klebsiella Pneumoniae Using Electric-Double-Layer FET Sensor: Rapid, Temperature-Boosted Probe-Target Binding Analysis

Klebsiella pneumoniae demonstrates versatility in its pathogenicity, leading to diverse infections in humans such as pneumonia, urinary tract infections, bacteremia, wound infections, meningitis, endocarditis, and sepsis. The severity of these infections is contingent upon the patient's immune status, the site of infection, and the existence of underlying medical comorbidities. A sputum or urine culture, on the other hand, typically takes between 24 and 72 hours to produce results. Over recent years, various innovative methodologies have emerged, including optical and electrochemical techniques and molecular detection via PCR. Despite the diversity of available techniques, concerns persist regarding their sensitivity and specificity. Moreover, fluorescence-based methodologies and Surface Plasmon Resonance (SPR)-based sensors have been explored for bacterial detection. However, these existing methods have drawbacks such as elevated costs, prolonged turnaround times, the need for sophisticated instrumentation, and a demand for skilled personnel. Field-effect transistor (FET) sensors have garnered considerable scientific attention since their inception due to their remarkable sensitivity, facile signal readout, and the capability for label-free assays. The aim of this research is to detect the detect Klebsiella pneumoniae bacteria in blood serum by double electric layer (EDL) extended-gate field-effect transistor (FET) sensor. In this study, a preliminary investigation employed a single-step surface functionalization approach to immobilize receptor probes, specifically single-stranded DNA (ssDNA). This strategy aimed to enable the rapid detection of complementary DNA (cDNA) across varying concentrations, leveraging differential gate voltages to modulate the sensitivity of this analytical platform. The designed probes were successfully immobilized onto a disposable chip housing a pair of gold electrodes. A handheld reader, integrating enhancement-mode N-channel MOSFETs, established connectivity with a laptop via a USB port to facilitate the measurement of sensor signals. By applying pulsed gate voltage to the input electrode, which modulates the channel conductivity which behaves as a function of the charge distribution within the EDL structure, consequently influencing the drain current of the MOSFET. The immobilized probe, positioned on the gate electrode, underwent testing using varying concentrations of cDNA introduced into TE buffer. Detection of probe-target binding occurred through fluorescence alterations and electrically by assessing changes in drain current. In order to improve the response time, we elevated the temperature near the Tm enhances sensitivity and binding rates, in shorter time period of 1 minutes. Figure 1

Campylobacteriosis: genotypic characteristics of the pathogen and immunological status of patients

Introduction. Campylobacteriosis is among the leading causes of acute gastrointestinal infections. The severity of campylobacteriosis and the development of long-term complications may be influenced by the genotype of the pathogen, whose biological properties can affect immune response parameters. The aim of the study was to identify common genotypes of epidemic clones of Campylobacter pathogens and to investigate characteristics of the immune response and severity of the disease. Materials and methods. The study included 203 patients aged from 1 month to 17 years with campylobacteriosis who underwent treatment at the clinic of the Federal State Budgetary Institution "DNKCIB FMBA" in 2019–2021. The diagnosis was confirmed using polymerase chain reaction method. Patient samples were also analyzed using culture-based methods. Total DNA was extracted using the QIAamp DNA Mini Kit. Genetic determinants encoding virulence factors and MLST typing were performed using the ResFinder program. The immune status of patients was assessed on days 1 and 7 of the illness. Immunological investigation included measurement of serum immunoglobulin concentrations (IgA, IgM, IgG), C-reactive protein, and cytokines (IL-1β, IL-1, IL-2, IL-4, IL-5, IL-6, IL- 7, IL-8, IL-10, TNF-α, and IFN-γ). Results. When analyzing the frequency of detection of Campylobacter sequence types in children with clinical intestinal infections, it was found that the profile of isolated isolates is most similar to those from countries of North America (USA and Canada), Northern Europe (Great Britain, Holland ) and Scandinavia (Denmark, Sweden, Finland). Identification of a pathogen with the flgE+, cdtA+, cdtC+ genotype was accompanied by a statistically significant increase in the level of IL-8 and a decrease in the content of IgA in the peripheral blood serum, which reflected the low efficiency of the immune response during infection with Campylobacter and predetermined the severe course of the infectious process during the disease.

COVID Immunization Status of Pregnant Patients Delivering in a Tertiary Level Government Hospital in India

COVID Immunization Status of Pregnant Patients Delivering in a Tertiary Level Government Hospital in India