Association Between Single Gene Polymorphism (rs6746030) and the Success Rate of Inferior Alveolar Nerve Block in Patients Undergoing Endodontic Treatment

The inferior alveolar nerve block (IANB) is one of the most commonly used techniques in dentistry to achieve mandibular anesthesia during endodontic treatment. Despite its widespread use, the success rate of IANB is highly variable, with failure rates reported to range from 30% to 80% in patients with irreversible pulpitis. While several anatomical and clinical factors have been implicated, genetic variations in pain signaling pathways have been increasingly recognized as potential contributors to anesthetic failure. The SCN9A gene, which encodes the voltage-gated sodium channel Nav1.7, plays a critical role in nociception and pain modulation. The single nucleotide polymorphism (SNP) rs6746030 (G>A) in SCN9A has been shown to alter channel function and has been associated with variable pain sensitivity and response to analgesia. This study aims to investigate the association between the SCN9A rs6746030 polymorphism and the success rate of IANB in patients undergoing root canal treatment. A total of 200 patients diagnosed with irreversible pulpitis in mandibular molars will be recruited. Based on anesthetic outcome, they will be divided into two groups: 100 patients with successful IANB and 100 patients with documented anesthetic failure. Buccal swab samples will be collected from each participant, and DNA will be extracted and genotyped using a TaqMan SNP assay. The frequency of SCN9A genotypes (GG, GA, AA) will be compared between the two groups to determine whether there is a statistically significant association with anesthetic outcome. The findings of this study will help identify genetic predictors of anesthetic failure and may provide a foundation for personalized anesthetic strategies in endodontic practice.

开始日期2025-05-10

申办/合作机构

Jamia Millia Islamia

CTRI/2025/03/083544

/ Not yet recruitingN/A

Effect of pain science education on sleep quality, cognition and posture in patients with non-specific chronic low back pain. A pilot investigation. - NILL

开始日期2025-04-15

申办/合作机构

Jamia Millia Islamia

CTRI/2025/03/083045

/ Not yet recruitingN/A

Association of Duration of Disease with Diabetic Distress AND Nerve Conduction Velocity in Type 2 Diabetes Mellitus A cross sectional Study - NIL

开始日期2025-04-14

申办/合作机构

Jamia Millia Islamia

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2025-10-07·ACS Omega

Ge Pocket-Based Dual Gate Tunnel FET: A Label-Free Biosensor

Article

作者: Khan, Anam ; Loan, Sajad A. ; Wani, M. Salim ; Alharbi, Abdullah G. ; Aldkeelalah, Sultan S.

In this work, we designed and simulated a novel dielectrically modulated (DM) dual-metal-gate tunnel field effect transistor (DMG-TFET). The proposed TFET can efficiently facilitate the label-free detection of biomolecules and can work as a label-free biosensor. It employs a highly doped Germanium pocket with an optimized pocket length of 5 nm in the channel region near the source side. Besides, an enhanced on-current (I _ON) is achieved in our proposed device owing to the introduction of a pocket and the use of a high dielectric constant k, as well as a dual-metal gate. The proposed TFET sensor features twin cavities within the gate oxides to sense biomolecules. The sensitivity of the biosensor is evaluated based on its ability to detect biomolecules using their inherent material parameters, such as dielectric constant (k) and charge density (ρ). The proposed DMG-TFET is compared to the conventional dielectrically modulated FET in terms of sensitivity for different values of dielectric constants (k). It has been found that the sensitivity of the proposed biosensor is 10⁴ times greater than that of the conventional device at k = 10 and ρ = 0. Special cases of sensitivity have been analyzed for a single biomolecule of uricase (k = 1.54) placed at various positions and orientations. It has been observed that the biomolecule's position in the cavity has a significant effect on the sensor's performance. All results are deduced from simulations carried out on Silvaco Atlas. To observe the effect of noise on the biosensor's sensitivity, noise-aware sensitivity estimation and detection analysis have been performed.

2025-10-03·IMMUNOLOGICAL INVESTIGATIONS

Differential Methylation Patterns Predict HBsAg Seroconversion in Hepatitis B Virus Reactivation Patients

Article

作者: Parveen, Shahana ; Trehanpati, Nirupama ; Verma, Gayantika ; Sharma, Manoj Kumar ; E, Preedia Babu ; Sevak, Jayesh Kumar ; Islam, Mojahidul ; Saxena, Anoushka ; Kazim, Syed Naqui ; Jindal, Ankur ; Sarin, Shiv Kumar ; Ramakrishna, Gayatri

BACKGROUND:

Hepatitis B virus (HBV) modulates immune epigenetic landscape. Therefore, we investigated immune epigenetic landscape in HBsAg seroconverters and non-seroconverters.

METHODS:

Sixteen rHBV patients including seroconverters (SC, n = 7) and non-seroconverters (NSC, n = 9) at baseline and week 24 were recruited. Age matched naïve chronic hepatitis B patients (nCHBV, n = 7) and healthy controls (HC, n = 6) were also included. PBMCs and plasma were subjected to genome-methylation, gene-expression, immunophenotyping, functionality, and cytokines analysis using Reduced Representation Bisulfite Sequencing (RRBS), qRT-PCR, flow-cytometry, and cytokine-bead-array.

RESULTS:

In rHBV patients, as compared to nCHBV, there is significant hypomethylation (p < .05) of epigenetic remodellers and immune and metabolic genes like KDM2B, NCOR2 and GATA6, TGF-β, IL-6, IRF8, RPTOR, HK3, specifically at CpG islands. At baseline, HBsAg SC had hypomethylation of KDM2B, COX19, IRF8, TLR5, and hypermethylation of LAG3 compare to NSC. By week-24, SC demonstrated hypomethylation of IL17RA, IFN-γ, TGF-β, STAT5B (p < .05) and correlated with increased plasma IL-6 (p = .009) and decreased LAG3 (p = .01). At baseline and 24 weeks, SC depicted differentiation of HBV-specific CD8+, Tfh, and Th1/17 cells.

CONCLUSION:

This study identifies hypomethylation of immune genes suggesting enhanced immune response and viral clearance in SC. Conversely, nCHBV and NSC consistently exhibited hypomethylation of LAG3 and TOX, contributing to immune exhaustion.

2025-06-24·ACS Omega

Synthesis, Structural, and Morphological Studies of the Thermoelectric Semiconductor AgSb_1–xCd_xTe₂

Article

作者: Arya, Gaurav Kumar ; Jamwal, Gaurav ; Niazi, Asad ; Kandasami, Asokan

The compound AgSbTe₂ was synthesized by the high-temperature solid-state route using two methods: (i) continuous slow cooling and (ii) annealing at an intermediate temperature followed by quenching. Powder X-ray diffraction confirmed the principal phase with an fcc (Fm3̅m) crystal structure. The slow-cooled samples showed the presence of Ag₇Te₄ impurities, while the annealed and quenched samples contained minor amounts of the secondary Sb₂O₃ phase. The Cd-doped AgSb_1-x Cd _x Te₂ (x = 0, 0.02, 0.04, and 0.06) samples were subsequently synthesized by the annealing and quenching method and were found to maintain the fcc structure with Sb₂O₃ impurities. The amount of the secondary Sb₂O₃ phase decreased sharply upon Cd doping, signifying the role of impurities in stabilizing the metastable parent compound AgSbTe₂. The microstructure, morphology, and elemental composition were studied using electron microscopy (FESEM and TEM). The elemental distribution was homogeneous, but the dimensions and packing density of the crystallites varied across the sample. The elemental composition and oxidation state of AgSb_1-x Cd _x Te₂ were confirmed by X-ray photoelectron spectroscopy. Hall effect and resistivity measurements at room temperature showed that carrier (hole) concentration increased, while carrier mobility was reduced upon Cd doping.

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