Searches / Zhongguo Ying Yong Sheng Li Xue Za Zhi [JOURNAL]

Zhongguo Ying Yong Sheng Li Xue Za Zhi [JOURNAL]

Sun 200 papers
RSS

Engineering Ophthalmic Nanoemulsion Platforms: Design Principles and Translational Applications in Ocular Drug Delivery.

Mahajan VR, Kokane YP, Shaikh AS … +1 more , Bodkhe OS

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41732007 · Publisher ↗

Due to physiological constraints that negatively affect the efficiency of conventional ocular preparations, such as fast tear turnover, poor corneal penetration, as well as short in-precornereal resident times, ocular dr... Due to physiological constraints that negatively affect the efficiency of conventional ocular preparations, such as fast tear turnover, poor corneal penetration, as well as short in-precornereal resident times, ocular drug delivery has long been a technical challenge. Nanoemulsion strategies based on engineering principles have been identified as a promising solution to overcome these challenges for improved solubilization, ocular bioavailability, as well as drug preparation stability. An eye preparation nanoemulsion consists of water, an oil phase, surfactants, as well as a cosurfactant, forming a kinetically stable colloidal system characterized by a mean particle diameter measuring less than 200 nm. The design principles and translation properties of ocular nanoemulsion systems are discussed in this review. Formulation components and the manufacturing methods, along with the stability problems and recent advances, are discussed. The suitability of the systems to both high-energy production methods (such as spontaneous emulsification, ultrasonication, and high-pressure homogenization) and the stability of the ocular nanoemulsions and recent advances on novel methods such as stimuli-sensitive, mucoadhesive, or positive nanoemulsions will be discussed. Despite these advantages, however, some challenges such as stability for a extended period, complexity, and cost of production still exist. In conclusion, customized ocular nanoemulsion delivery systems are quite viable and flexible research strategies for successful ocular drug delivery.

Multifunctional Quantum Dots: A Review of Emerging Roles in Technology and Sustainability.

Shaikh FA, Dighe PR, Kumbhare MR

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41732006 · Publisher ↗

AIM: The aim of this study is to highlight the emerging and advanced applications of quantum dots (QDs) beyond their conventional use, emphasizing their role in modern electronics, healthcare, energy systems, food safety... AIM: The aim of this study is to highlight the emerging and advanced applications of quantum dots (QDs) beyond their conventional use, emphasizing their role in modern electronics, healthcare, energy systems, food safety, and smart materials Methods: This work is based on an extensive literature survey of recent research articles, reviews, and technological reports focusing on the optical, electronic, nonlinear, and thermoelectric properties of quantum dots. The collected data were systematically analyzed to understand how size-dependent properties of QDs enable their integration into diverse applications such as photodetectors, display technologies, biosensors, solar devices, and wearable healthcare systems. RESULT AND DISCUSSION: Quantum dots exhibit exceptional size-dependent optical and electronic properties that significantly enhance device performance across multiple sectors. In photodetectors, QDs improve sensitivity over a wide spectral range, while in QLED displays they provide high colour purity and energy efficiency. In the food industry, QD-based sensors enable rapid and accurate detection of pathogens, pesticides, and spoilage markers, improving food safety. Their incorporation into solar windows and photovoltaic glass allows sustainable energy generation without loss of transparency. In wearable healthcare devices, QDs facilitate real-time and non-invasive monitoring of vital biomarkers. Additionally, their nonlinear optical properties support advances in laser technology and optical communication, and their thermoelectric behavior contributes to efficient waste heat recovery and thermal management. These findings demonstrate the versatility and multifunctionality of quantum dots. CONCLUSION: Quantum dots represent a powerful class of nanomaterials with broad and transformative potential. Their unique physicochemical properties enable innovative applications across electronics, healthcare, energy, and smart materials. Continued research and technological development are expected to further expand their practical implementation, making quantum dots key components in next-generation sustainable and high-performance devices.

Sunvozertinib A Next-Generation EGFR Exon 20 Insertion Inhibitor Transforming NSCLC Therapy.

Kumbhare M, Gadekar D, Chandak S … +1 more , Mankar S

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41732005 · Publisher ↗

Sunvozertinib (DZD9008) is an emerging next-generation, highly selective EGFR tyrosine kinase inhibitor (TKI) designed to target EGFR exon 20 insertion (Ex20ins) mutations, a subtype of non-small cell lung cancer (NSCLC)... Sunvozertinib (DZD9008) is an emerging next-generation, highly selective EGFR tyrosine kinase inhibitor (TKI) designed to target EGFR exon 20 insertion (Ex20ins) mutations, a subtype of non-small cell lung cancer (NSCLC) associated with poor response to earlier-generation EGFR TKIs. Patients with these mutations typically exhibit intrinsic resistance to approved standard EGFR inhibitors due to the altered conformation of the kinase domain. Consequently, therapeutic options have remained limited, and platinum-doublet chemotherapy has historically been the primary systemic treatment. Recently developed agents such as amivantamab and mobocertinib have improved response rates, yet challenges related to tolerability, CNS penetration, and durability of benefit persist. Sunvozertinib aims to address these limitations through rational structural design, optimized kinase selectivity, and improved safety-efficacy balance. Preclinical studies have shown potent inhibition of a broad spectrum of EGFR Ex20ins variants while sparing wild-type EGFR, suggesting a reduced risk of dose-limiting toxicities commonly seen with non-selective EGFR blockade. Sunvozertinib has also demonstrated promising CNS activity in animal models-an important feature for NSCLC patients, who frequently develop brain metastases. Early-phase clinical trials, including the WU-KONG series, have reported promising clinical efficacy, including objective response rates ranging from 44-60% in previously treated patients and meaningful activity in treatment-naïve cohorts. The tolerability profile of the drug seems manageable, with diarrhea, rash, and stomatitis among the most commonly observed adverse events; these, however, tend to be milder compared with other agents targeting EGFR Ex20ins.

Electromagnetic Modulation of Biological Systems: Emerging Perspectives in Bioelectronic Healing.

Kamble AM, Shinde KK

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41688125 · Publisher ↗

Bio electromedicine, a dynamic field at the intersection of biology and electromagnetism, has gained prominence in modern healthcare for its diverse applications. This comprehensive review examines the historical develop... Bio electromedicine, a dynamic field at the intersection of biology and electromagnetism, has gained prominence in modern healthcare for its diverse applications. This comprehensive review examines the historical development, fundamentals, clinical applications, and challenges of bio electromedicine. The historical journey begins with early pioneers such as Luigi Galvani and Alessandro Volta, progresses through milestones like the invention of the ECG, and unfolds to the cutting-edge applications of today. The fundamentals section explores the collaboration of biological systems with electromagnetic fields, the principles of electrical stimulation, and their cellular and molecular mechanism. Bioelectromagnetic safety guidelines, exposure limits, and environmental concerns are also discussed, ensuring responsible integration into medical practice. Clinical applications encompass a wide array, from pain management and neurological disorders to cardiology, neuropsychiatry, oncology, and regenerative medicine. The field continues to evolve, with emerging research areas and technological advancements shaping the future. Personalized bioelectromedicine stands as an exciting frontier. Despite its promise, bioelectromedicine grapples with ethical considerations, the need for robust clinical evidence, public scepticism, and the integration with conventional medical practices. This review encourages further research and development in bioelectromedicine, fostering its potential to revolutionize healthcare and improve patient outcomes in the years to come.

In Silico Approaches in Benzimidazole Derivatives Research: Recent Insights.

Sonwane PN, Kumbhare MR

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41688124 · Publisher ↗

Benzimidazole remains a privileged heteroaromatic scaffold with broad therapeutic potential, spanning antimicrobial, anticancer, antitubercular, and antiviral domains. In recent years (2020-2025), computational methodolo... Benzimidazole remains a privileged heteroaromatic scaffold with broad therapeutic potential, spanning antimicrobial, anticancer, antitubercular, and antiviral domains. In recent years (2020-2025), computational methodologies have significantly accelerated benzimidazole-based drug discovery by elucidating structural determinants of activity and streamlining lead optimization. Molecular docking and dynamics simulations consistently reveal the scaffold's ability to engage in π-π stacking, hydrogen bonding, and hydrophobic interactions within protein active sites. Substituent modifications at C2, C5, and C6 critically modulate affinity and selectivity across diverse targets, including InhA, DprE1, kinases, and viral proteases. Complementary strategies such as QSAR, pharmacophore modeling, and in silico ADMET predictions strengthen early hit prioritization and reduce experimental attrition. Emerging approaches integrating artificial intelligence, machine learning, and free energy perturbation further enhance predictive accuracy and enable multi-target drug design. This short communication highlights recent computational insights, best practices, and future trends in benzimidazole research, emphasizing the value of combining docking, MD, QSAR, ADMET, and AI/ML workflows. Together, these advances provide a robust, cost-effective pipeline for the rational design of next-generation benzimidazole derivatives with improved efficacy and translational potential.

2-Aminobenzothiazole: A Privileged Scaffold for Tyrosine Kinase-Targeted Anticancer Agents.

Navle RD, Shinde NV, Raut AS … +3 more , Shaikh AS, Bhosle SK, Pawar A

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41645354 · Publisher ↗

2-Aminobenzothiazole's planar structure and tendency to bind to a diverse set of oncogenic targets have made 2-aminobenzothiazole a highly sought heterocyclic in research for anticancer agents. In the past 10 years, inte... 2-Aminobenzothiazole's planar structure and tendency to bind to a diverse set of oncogenic targets have made 2-aminobenzothiazole a highly sought heterocyclic in research for anticancer agents. In the past 10 years, intense research in medicinal chemistry has clarified that carefully planned substitution for benzothiazole can yield highly efficient and specific anticancer agents. In this critical assessment, we will specifically evaluate both research and efforts related to 2-aminobenzothiazole-based anticancer agents between 2015 and 2024 for their anticancer targets, SAR relationship, and mechanism of action. In particular, we highlight 2-aminobenzothiazole-based compounds targeting CDKs, Aurora kinase, RAF kinase, and various receptor and non-receptor tyrosine kinases such as EGFR, VEGFR-2, CSF1R, MET, FAK, and DYRK2. Besides inhibition of kinase activity, other non-kinase targets are systematically analysed and introduced in this patent review. These include BCL-2 family members, HDACs, epigenetic modifiers (LSD1, NSD1, FTO), HSP90, mutant p53, and DNA topoisomerases. Substitutions at the C-2, C-5, C-6, and C-7 positions of the benzothiazole ring are examined thoroughly about their anticancer properties and target engagement. Also underscored are the existence of commercially available drugs and patented compounds, as well as translational candidates featuring the 2-aminobenzothiazole pharmacophore. The paper emphasises the dual mechanistic targetability of 2-aminobenzothiazole derivatives as valuable lead compounds targeting both kinases and other targets in an innovative manner aimed at future development of targeted anti-cancer therapies.

Etrasimod: A Next-Generation S1P Receptor Modulator for Ulcerative Colitis - Mechanistic Insights and Clinical Progress.

Kumbhare MR, Shaikh AS, Ide BR … +3 more , Gode HS, Pagere ND, Porje RK

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Feb · PMID 41630551 · Publisher ↗

Etrasimod, a next-generation oral selective sphingosine-1-phosphate (S1P) receptor modulator, has emerged as a promising treatment for immune-mediated inflammatory diseases (IMIDs), most notably moderate-to-severe ulcera... Etrasimod, a next-generation oral selective sphingosine-1-phosphate (S1P) receptor modulator, has emerged as a promising treatment for immune-mediated inflammatory diseases (IMIDs), most notably moderate-to-severe ulcerative colitis (UC). Acting primarily on S1PR1, S1PR4, and S1PR5, etrasimod effectively reduces gastrointestinal inflammation by retaining lymphocytes in lymphoid tissues, thereby minimising systemic immunosuppression and associated risks. Etrasimod provides better safety, a favorable pharmacokinetic profile, and a short washout period when compared to first-generation modulators, improving patient adherence and efficacy. Its therapeutic potential has been highlighted by clinical trials, such as the ELEVATE UC 12 and ELEVATE UC 52 studies, which showed notable improvements in clinical remission and mucosal healing when compared to placebo. With a tolerable safety profile and convenience of once-daily oral dosing, etrasimod stands out as an important advancement in the management of UC and holds further potential in other IMIDs, representing a step forward in targeted, patient-friendly immune modulation.

The Role of Autophagy in Maintaining Human Health and Disease Prevention.

Narkhede HI, Jain KJ, Dalvi IS … +1 more , Gite UB

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Jan · PMID 41571407 · Publisher ↗

Autophagy, a highly conserved catabolic process, plays a fundamental role in maintaining cellular homeostasis by degrading and recycling unnecessary or dysfunctional cellular components through lysosomal pathways. It ser... Autophagy, a highly conserved catabolic process, plays a fundamental role in maintaining cellular homeostasis by degrading and recycling unnecessary or dysfunctional cellular components through lysosomal pathways. It serves as a vital mechanism for clearing damaged proteins, organelles, and other cytoplasmic constituents, ensuring the cell's functional integrity, especially under stress conditions such as nutrient deprivation. Various forms of autophagy macro-autophagy, micro-autophagy, and chaperone-mediated autophagy are involved in distinct regulatory pathways that respond to different physiological and pathological stimuli. Recent research continues to uncover the molecular underpinnings and biological significance of these pathways, emphasizing their critical contributions to human health and disease.

Substituted 2-Phenyl Imidazolidines: Synthetic Strategies, Biological Activities, Mechanistic Insights, and Nanocarrier-Based Advancements.

Raut AS, Bhosle SK, Navle RD … +3 more , Shinde NV, Kumbhare MR, Shaikh AS

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Jan · PMID 41548947 · Publisher ↗

Substituted 2-phenyl imidazolidines present a structurally diversified family of heterocycles with several medicinal potentials. Their significance is due mostly to the presence of the phenyl group at the C-2 position, w... Substituted 2-phenyl imidazolidines present a structurally diversified family of heterocycles with several medicinal potentials. Their significance is due mostly to the presence of the phenyl group at the C-2 position, which enhances lipophilicity, rigidity, electronic distribution, and molecular recognition. This review summarises the current advances in the synthesis, biological activity, mechanistic understanding, and nanocarrier-based administration of 2-phenyl imidazolidine derivatives. Amongst the most successful synthetic methodologies described are the classical cyclisation processes, condensation pathways, urea/thiourea-based procedures, green chemistry approaches, and nanocatalyst-assisted techniques. These protocols ensure that highly functionalized derivatives are easily accessible. The biological activities of phenyl imidazolidines encompass anticancer, antibacterial, anti-inflammatory, CNS-modulating, antioxidant, and enzyme-inhibitory properties. Accordingly, a mechanistic study shows these phytochemicals interact with major molecular targets like DNA, tubulin, and other enzymes, leading to cell cycle arrest, induction of apoptosis, regulation of reactive oxygen species, and enzyme inhibition. The computational techniques enhance the optimisation based on SAR through the explanation of electrical behaviour and binding interactions. Recent advances in nanotechnology have enabled the encapsulation of these derivatives within polymeric nanoparticles, lipid-based carriers, metal-doped nano-systems, and hybrid nano-structures. These platforms improve therapeutic effectiveness owing to an increase in solubility, stability, and targeted delivery. This review combines synthetic, biological, mechanistic, and formulation factors to serve as a backbone for logical drug design. It highlights the potential of 2-phenyl imidazolidines as attractive scaffolding in the development of new medicinal compounds.

Thiazolidine-2,4-Dione: Bridging the Gap Between Synthesis, SAR, and Biological Activities, and Computational Predictions.

Shinde NV, Patole VP, Chandak SM

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2026 Jan · PMID 41534950 · Publisher ↗

INTRODUCTION: Thiazolidinedione is one of the most important classes in medicinal chemistry. Thiazolidine-2,4-dione (TZD) is a versatile scaffold, best known for its use in the development of anti-diabetic drugs such as... INTRODUCTION: Thiazolidinedione is one of the most important classes in medicinal chemistry. Thiazolidine-2,4-dione (TZD) is a versatile scaffold, best known for its use in the development of anti-diabetic drugs such as pioglitazone and rosiglitazone. Beyond their well-established antidiabetic properties, TZDs exhibit a wide range of biological activities including anticancer, anti-inflammatory, antibacterial, and neuroprotective effects, making them potential candidates for various therapeutic applications. METHODOLOGY: This review focuses on the complete journey of TZD derivatives-from their synthetic design to their inclusion in commercialized pharmaceutical products. Structure-activity relationship (SAR) studies were analyzed to understand how modifications in the TZD core affect binding affinity, selectivity, and therapeutic efficacy. In addition, the review consolidates findings from biological evaluations and computational studies that provide deeper insights into the mechanism of action and pharmacological potential of TZD derivatives. CONCLUSION: This review highlights the significance of the TZD scaffold as a multifunctional pharmacophore in drug discovery. By integrating synthetic strategies, SAR analysis, and advanced computational tools, TZD derivatives continue to show great potential for the development of new therapeutic agents for various diseases. The combined understanding of chemistry and biological activities of TZDs paves the way for innovative research and future drug design.

Iridium in Cancer Therapy: A New Frontier in Metal-Based Medicine.

Kumbhare MR, Porje R, Shaikh A

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Dec · PMID 41397695 · Publisher ↗

Iridium therapy is changing how cancer is treated in the future. Because of their remarkable photophysics, redox sensitivity, and structural adaptability, Ir (III) complexes offer a powerful and multipurpose solution for... Iridium therapy is changing how cancer is treated in the future. Because of their remarkable photophysics, redox sensitivity, and structural adaptability, Ir (III) complexes offer a powerful and multipurpose solution for precision oncology. These substances can be engineered to target particular Compounds organelles, photoinduced activation, and real-time imaging on a single molecular platform, which allows for simultaneous diagnosis and treatment, unlike conventional chemotherapeutics. This review highlights the recent surge in iridium complex synthesis and biomedical applications, with a focus on developments within the past five years. We address their many structural classes, including cyclometalated compounds, mononuclear Ir (III) species, and formulations based on nanoparticles, emphasizing their subcellular accumulation patterns, intracellular trafficking, and cellular uptake methods. Because iridium complexes are better at generating reactive oxygen species (ROS), causing mitochondrial damage, and fragmenting DNA, they can kill cancer cells selectively without harming healthy tissue. Novel strategies such as administration that responds to the tumor microenvironment, induction of immunogenic cell death, and combination with photothermal or radiation are propelling iridium medicines to the forefront of multimodal cancer treatment. Iridium complexes, which are distinguished by their improved pharmacokinetics and biodegradability due to clever nanocarrier engineering, have significantly lower systemic toxicity than platinum equivalents. Iridium-based platforms are powerful anticancer tools with strong translational potential that bridge biology and chemistry, imaging and therapy. This review is meant to serve as a last resort for medicinal chemists, scientists working in nanomedicine, and oncologists who want to maximize iridium's anti-cancer potential.

Next-Generation Targeted Therapy: The Evolving Role of Taletrectinib in Fusion-Positive Malignancies.

Mankar S, Kumbhare M, Chandak S … +1 more , Gadekar D

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Dec · PMID 41365517 · Publisher ↗

The discovery of ROS1 and NTRK gene fusions has transformed treatment strategies for a specific group of cancers, particularly non-small cell lung cancer (NSCLC). First-generation tyrosine kinase inhibitors (TKIs) such a... The discovery of ROS1 and NTRK gene fusions has transformed treatment strategies for a specific group of cancers, particularly non-small cell lung cancer (NSCLC). First-generation tyrosine kinase inhibitors (TKIs) such as crizotinib displayed significant early reactions but faced challenges due to restricted central nervous system (CNS) penetration and mutation resistance, while entrectinib and larotrectinib expanded treatment options but also experienced resistance. Taletrectinib (DS-6051b, AB-106) is an orally bioavailable, next-generation selective inhibitor of ROS1 and NTRK kinases, designed to tackle these issues. Preclinical assessments demonstrated its strong efficacy against both wild-type and resistant kinases, including the clinically challenging ROS1 G2032R mutation, alongside good CNS penetration and prolonged intracranial responses. Clinical studies, like the notable TRUST and TRUST-II trials, have demonstrated elevated objective response rates in TKI-naïve NSCLC patients (often exceeding 85-90%) and substantial effectiveness in groups pretreated with crizotinib. Basket trials are expanding their evaluation to include NTRK fusion-positive solid tumors, confirming a tumor-agnostic strategy. Safety data shows an acceptable toxicity profile, mainly featuring gastrointestinal and hepatic adverse effects, with fewer neurocognitive side effects compared to lorlatinib. Regardless of these advancements, challenges remain, including the possibility of new resistance mutations, limited patient enrollment in early-phase trials, and the critical need to enhance the management of long-term toxicities. Current trials and regulatory activities in China, the U.S., and other locations demonstrate taletrectinib's growing clinical significance. Taletrectinib's well-rounded pharmacological attributes of systemic action, intracranial effectiveness, resistance range, and tolerability render it an intriguing enhancement to the framework of precision oncology.

Cardiotoxicity in Contemporary Treatments: New Issues, Mechanisms, and Preventive Techniques.

Shinde NV, Pawar SA, Bhosale SK … +3 more , Kumbhare MR, Patole V, Tupe AS

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Dec · PMID 41365516 · Publisher ↗

INTRODUCTION: Worldwide, heart failure remains one of the leading causes of death and morbidity. Drug-induced cardiotoxicity is a significant adverse effect on cardiovascular health and may arise from various pathogenic... INTRODUCTION: Worldwide, heart failure remains one of the leading causes of death and morbidity. Drug-induced cardiotoxicity is a significant adverse effect on cardiovascular health and may arise from various pathogenic mechanisms. Several therapeutic agents have been associated with cardiac injury due to their interactions with cardiac receptors and pathways. Understanding these mechanisms is crucial for minimizing cardiovascular risks and improving patient safety. MATERIAL AND METHODS: This review systematically explores the diverse mechanisms of drug-induced cardiotoxicity by analyzing existing literature and clinical studies. It highlights the commonly implicated therapeutic agents, including lidocaine, trastuzumab, orciprenaline, azidothymidine, anthracyclines, fluoropyrimidines, NSAIDs, terodiline, digitalis, and antiviral drugs. The study also identifies major receptors involved in the pathogenic processes leading to cardiotoxicity. Furthermore, risk factors predisposing patients to cardiac damage and current strategies for early detection, monitoring, and prevention are critically reviewed to provide a comprehensive understanding of the topic. CONCLUSION: A thorough understanding of drug-receptor interactions and cardiotoxic pathways is essential to reduce the incidence of drug-induced cardiac injury. Implementing multidisciplinary approaches can help minimize cardiovascular risks without compromising therapeutic efficacy. Continued research on cardioprotective interventions and early diagnostic strategies will enhance patient safety and ensure the long-term success of modern pharmacotherapy.

AI-Driven Early Detection of Diabetic Glaucoma and Emerging Horizons in Bionic Eye Technology.

Tiwari G, Wal A, Suryavanshi RS … +3 more , Shukla R, Khan M, Chaurasia BK

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Dec · PMID 41320280 · Publisher ↗

BACKGROUND: Diabetic glaucoma is a serious eye disorder that can lead to permanent vision loss and is increasingly seen in individuals with long-term diabetes. With its rising global incidence, there is a critical need f... BACKGROUND: Diabetic glaucoma is a serious eye disorder that can lead to permanent vision loss and is increasingly seen in individuals with long-term diabetes. With its rising global incidence, there is a critical need for early and reliable methods of detection to prevent severe complications. OBJECTIVE: This study highlights the growing role of artificial intelligence (AI), especially deep learning technologies, in identifying diabetic glaucoma at an early stage. It also reviews progress in bionic eye technologies designed to help restore vision in affected individuals. METHODS: Relevant scientific literature was reviewed by searching databases including PubMed, Taylor francis, ScienceDirect, MDPI, and Bentham. Articles published up to 2025 were considered, focusing on terms such as "diabetic glaucoma,""retinal imaging,""deep learning,""AI in eye care,""bionic eye,"and "neuroprosthetics."Studies were selected based on their relevance to diagnostic innovations and vision-restoration technologies. RESULTS: Recent developments in AI have enabled more accurate interpretation of retinal images, such as those from fundus cameras and optical coherence tomography (OCT), aiding in early detection of structural changes linked to glaucoma. At the same time, bionic eye systems-based on neuroprosthetic implants-are showing promise in partially restoring vision in cases of severe visual impairment. CONCLUSION: Combining AI-powered diagnostics with emerging bionic eye technologies represents a major shift in managing diabetic glaucoma. These innovations have the potential to improve early detection and offer new options for visual rehabilitation, paving the way for more effective patient care in ophthalmology.

Aprocitentan in Resistant Hypertension: Mechanistic Insights, Clinical Evidence, and Future Directions.

Kumbhare M, Ide BR, Shaikh A … +2 more , Gode H, Pagere N

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Nov · PMID 41248982 · Publisher ↗

Resistant Hypertension is a significant clinical problem. It is found in the most of individuals who, even with the greatest multi-drug therapy, are not able to manage their blood pressure. A new dual endothelin receptor... Resistant Hypertension is a significant clinical problem. It is found in the most of individuals who, even with the greatest multi-drug therapy, are not able to manage their blood pressure. A new dual endothelin receptor antagonist (ERA) called aprocitentan (Aprocitirom) inhibits both ETA and ETB receptors. It has emerged as a potentially useful treatment for such patients. This review article considers Aprocitentan's pharmacological profile, preclinical development, clinical efficacy, and potential. Preclinical experiments revealed that Aprocitentan possesses vasodilatory, anti-inflammatory, & anti-fibrotic activities. It is also well absorbed from the gastrointestinal tract and safe in various species. The Phase I trials reinforced that it is well tolerated and can be administered once daily. In Phase II trials, Aprocitentan induced dose-proportional reductions in systolic and diastolic blood pressure in patients with resistant hypertension. The critical Phase III PRECISION trial also validated its efficacy. It showed impressive and sustained decreases in blood pressure, with a favorable safety profile and low hepatotoxicity, and minimal fluid retention. An important step forward in the treatment of ERA has come with the FDA and EMA approval of aprocetentan in resistant hypertension. Its metabolism, which is not dependent on CYP enzymes, adds to its therapeutic applications and minimizes the likelihood of drug interactions. Subgroup analysis and further real-world studies indicate further benefits in patients with metabolic disorders and chronic kidney disease. Aprocitentan could potentially prove useful in the future for vascular disease, heart failure, and diabetic nephropathy. Clarifying its potential role in the future to treat hypertension and cardiorenal disease will only be discernible through longer-term trials on cardiovascular endpoints and cost-effectiveness.

Targeting PLK1 in myelodysplastic syndromes: The Role of Rigosertib in Precision Medicine.

Patil V, Lambe S, Lokhande A … +2 more , Zanan S, Chandak S

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Nov · PMID 41243193 · Publisher ↗

Rigosertib (ON 01910.Na) is a novel multi-kinase inhibitor initially developed as a non-ATP competitive agent, targeting dysregulated signalling pathways in cancer cells, notably RAS/RAF/MEK/ERK and PI3K/AKT, alongside P... Rigosertib (ON 01910.Na) is a novel multi-kinase inhibitor initially developed as a non-ATP competitive agent, targeting dysregulated signalling pathways in cancer cells, notably RAS/RAF/MEK/ERK and PI3K/AKT, alongside Polo-like kinase 1 (PLK1). Preclinical studies have demonstrated its potent anticancer effects across various malignancies, including myelodysplastic syndromes (MDS), acute myeloid leukaemia (AML), and solid tumours such as pancreatic, colorectal, and breast cancers, by inducing apoptosis, mitotic arrest, and oxidative stress. Its selective cytotoxicity spares normal cells, making it a promising therapeutic candidate. However, clinical trials have yielded mixed results; while early-phase studies showed promise, particularly in hematologic cancers, phase III trials, such as those in MDS and pancreatic cancer, failed to demonstrate significant survival benefits over standard treatments. Challenges include variable patient responses, potential resistance mechanisms, and manageable but notable toxicities like myelosuppression and fatigue. Emerging evidence suggests rigosertib's potential in paediatric cancers like neuroblastoma and its synergy with therapies such as MEK inhibitors and hypomethylating agents. Future research should focus on optimizing combination strategies, identifying predictive biomarkers, and improving drug delivery to enhance its clinical efficacy and applicability across diverse cancer types.

3D Printing in Pharmaceuticals: A Mini Review of Materials, Techniques and Challenges.

Mandal B, Rathi S, Singh S

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Nov · PMID 41207695 · Publisher ↗

The production procedures for pharmaceuticals and medical equipment have advanced significantly in recent years, especially considering the current pandemic and supply chain disruptions. Actually, 3D printers are a cutti... The production procedures for pharmaceuticals and medical equipment have advanced significantly in recent years, especially considering the current pandemic and supply chain disruptions. Actually, 3D printers are a cutting-edge technology that enables its fabrication, such as custom-fit materials, equipment, and body parts, as well as meeting private patient requirements for certain conferences. As it gives a novel idea for delivery systems and technologies, 3DP is a sophisticated tool for creating straightforward, precise, affordable, organized, and customized DDSs. Recent examples of 3DP in the pharmaceutical industry include MNs, personalized ear treatment implants, oral dosage forms, contact lenses, drug-eluting implants for cancer purposes, and customized medical equipment (such cardiac implants and catheters).Using online computer-aided design (CAD) software to create a 3D model is the first step in 3DP. A 3D object is subsequently generated utilizing layer-by-layer (LBL) printing and a range of free software tools that can be found online. These techniques make the ongoing demand of manufacturing system potential. The 3D printing technology which is also referred as additive manufacturing, has adapted and transformed into a revolutionary tool in the field of pharmaceutical sciences, by providing earlier hidden potential for device development, personalized treatment and formulation of medication. This article covers how 3D printing technology can be used in pharmaceutical utility, focusing on how technology could modify dosage forms, drug delivery systems, and the ability to modify medications as per the need of an individual patients. The technology is discussed, along with different techniques such as fluid deposition modelling, binder jetting, stereolithography, selective laser sintering. The challenges faced while manufacturing are also discussed below. The article also highlights the emerging role of 3D printing in improving therapeutic outcomes, optimizing drug release profiles, and facilitating cost-effective manufacturing of personalized treatments.

Single Cell Transcriptomics of Traditional Chinese Medicine Bioactives: Mapping Immune, Neural and Hepatic Responses.

Singh S, Singh S, Saw S … +2 more , Rathi S, Sharma B

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Nov · PMID 41207694 · Publisher ↗

Traditional Chinese medicine (TCM) bioactives display wide pharmacological effects, yet bulk transcriptomic studies mask their cell-specific actions. This study applied single-cell RNA sequencing to delineate immune, neu... Traditional Chinese medicine (TCM) bioactives display wide pharmacological effects, yet bulk transcriptomic studies mask their cell-specific actions. This study applied single-cell RNA sequencing to delineate immune, neural and hepatic responses to chemically characterized TCM constituents. Murine splenic, hippocampal and hepatic tissues were dissociated into single-cell suspensions, processed on a 10× Genomics platform, sequenced at high depth and analyzed with Seurat for clustering, marker annotation, differential expression and pathway enrichment; ligand-receptor interactions were inferred by CellChat, with RT-qPCR and immunofluorescence validation. From over 42,000 high-quality cells, we resolved 15 immune, 12 neural and 10 hepatic subtypes. TCM exposure induced NF-κB modulators in macrophages, neurotrophic gene expression in astrocytes and xenobiotic-metabolism programs in hepatocytes, while pathway analysis highlighted coordinated immune-hepatic detoxification and neuroprotective signaling. Ligand-receptor mapping revealed strengthened IL-10-STAT3 and hepatocyte-Kupffer cross-talk. These findings demonstrate that single-cell transcriptomics exposes previously hidden, cell-type-specific pharmacodynamics of TCM bioactives, laying a mechanistic foundation for precision-oriented herbal pharmacology and rational drug development.

Targeting ROS1 in NSCLC: Clinical Advances and Future Directions of Taletrectinib.

Kumbhare M, Pagere ND, Ide B … +2 more , Gode H, Shaikh A

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Nov · PMID 41178326 · Publisher ↗

This review looks at the pharmacokinetics, safety, and effectiveness of taletrectinib, a novel inhibitor that targets both ROS1 and NTRK, in patients with solid tumors and ROS1-positive non-small cell lung cancer (NSCLC)... This review looks at the pharmacokinetics, safety, and effectiveness of taletrectinib, a novel inhibitor that targets both ROS1 and NTRK, in patients with solid tumors and ROS1-positive non-small cell lung cancer (NSCLC). Objective response rates (ORR), progression-free survival (PFS), intracranial efficacy, and safety profiles are evaluated in the Review using phase I and phase II clinical trials, including both domestic and foreign research projects. Findings show that taletrectinib has a promising anticancer impact, good CNS penetration, and a solid safety record, especially in patients with brain metastases. These results imply that ROS1-positive cancers may benefit from taletrectinib as a treatment.

The Role of Non-Helicobacter Pylori Bacteria in the Pathogenesis of Gastric Diseases.

Tiwari R, Tiwari G, Gupta A … +1 more , Ramachandran V

Zhongguo Ying Yong Sheng Li Xue Za Zhi · 2025 Oct · PMID 41161812 · Publisher ↗

In the context of dysbiosis, chronic inflammation, and carcinogenesis, non-Helicobacter pylori bacteria are becoming more widely acknowledged as significant contributors to stomach diseases. The stomach contains a variet... In the context of dysbiosis, chronic inflammation, and carcinogenesis, non-Helicobacter pylori bacteria are becoming more widely acknowledged as significant contributors to stomach diseases. The stomach contains a variety of bacterial communities, including Fusobacterium nucleatum, Streptococcus species, Lactobacillus species, Prevotella species, Veillonella species, and Propionibacterium acnes, according to studies employing next-generation sequencing. Because of adaptation processes like urease activity, acid-tolerant metabolism, and biofilm development, these organisms can survive in acidic environments. While some, like Lactobacillus, can create metabolites like lactic acid that may impact carcinogenic nitrosation reactions, others, including F. nucleatum and Streptococcus, cause inflammation through immune activation and cytokine production. A known stomach carcinogen, N-nitroso compound, may be formed more frequently if nitrate-reducing bacteria proliferate. Following H. pylori eradication, dysbiosis frequently involves elevated abundance of these taxa, which may impact stomach cancer risk and mucosal integrity. The need for more comprehensive microbiome-targeted therapeutic approaches is highlighted by mounting evidence that non-H. pylori bacteria interact either antagonistically or synergistically with H. pylori and host factors, causing intestinal metaplasia, gastritis, and tumour progression, even though causality is still being investigated.
← Prev Page 1 of 10 Next →

About

Frequency
Sun
Papers found
200
RSS feed
Subscribe