2024
55) *Quazi T. H. Shubhra (2024). Multi-Compartment Liposomes Forge New Paths in Drug Delivery; Nature Chemistry, 16, 1578-1579. (IF 19.2)
54) *Quazi T. H. Shubhra, Qiang Cai (2024). Advancing Rectal Cancer Therapy: mFOLFIRINOX Reduces Metastasis and Improves Survival Outcomes; Annals of Oncology, DOI: 10.1016/j.annonc.2024.08.2332. (IF 56.7)
53) M. R. Islam, M. S. Manir, M. Razzak, M. A. Mamun, M.F. Mortuza, M. J. Islam, Shumin Yang, Huachun Pan, *A. K. M. M. Alam, *Quazi T. H. Shubhra (2024). Silk-Enriched Hydrogels with ROS-Scavenging Dendrimers for Advanced Wound Care. International Journal of Biological Macromolecules, DOI: 10.1016/j.ijbiomac.2024.135567. (IF 7.7)
52) *#Qiang Cai, #Yihao Tian, *Quazi T. H. Shubhra (2024). Pre-Activated Macrophage Membrane-Encased Aggregation-induced Emission Featuring Nanoparticles: A Novel Possibility for Tuberculosis Treatment; Signal Transduction and Targeted Therapy 9, 164; DOI: 10.1038/s41392-024-01855-8. (IF 40.8)
51) Huachun Pan#, Shumin Yang#, Lun Gao#, Jinzhao Zhou, Wenke Cheng, Gang Chen, Wang Shuhang, Ning Li, Peter Verani, Robert Musiol, *Qiang Cai, *Quazi T. H. Shubhra (2024). At the crossroad of nanotechnology and cancer cell membrane coating: Expanding horizons with engineered nanoplatforms for advanced cancer therapy harnessing homologous tumor targeting; Coordination Chemistry Reviews, 506, 215712. (IF 20.3)
50) *#Qiang Cai, #Yihao Tian, *Quazi T. H. Shubhra (2024). Targeting Metabolic Circuitry to Supercharge CD8+ T Cell Antitumor Responses; Cell Metabolism, 36(5), 884-886. (IF 27.7)
49) Ruirong Tan, *Junning Zhao, *Quazi T. H. Shubhra (2024). Eclipsing Toxicity, Enhancing Efficacy: Clofazimine’s Vanguard in the Realm of anti-PD-1 and CTLA-4 Immunotherapy; Research, Accepted on 7 June. (IF 8.5)
48) *Quazi T. H. Shubhra, Tivadar Feczkó, Qiang Cai (2024). Beyond the Danger Signal: RNA Aggregates Orchestrate Immunotherapy; Trends in Molecular Medicine, Accepted on 31 May. (IF 12.8)
47) Qiang Cai, *Quazi T. H. Shubhra (2024). Gasdermin D triggers cardiolipin-driven mitochondrial damage and pyroptosis; Trends in Immunology, 45(2), 75-77. (IF 13.1)
46) Qiang Cai, Robert Musiol, *Quazi T. H. Shubhra (2024). Advancing fluorescence imaging with dual-mode AIE nanoparticles; Chem, 10(2), 429-432. (IF 19.1)
45) Shumin Yang#, Huachun Pan#, Blassan P. George, Xuanjian Fu, Hongwei Ma, Xiaojun Cai, Yang Chen, *Qiang Cai, *Quazi T. H. Shubhra (2024). Bridging the gaps in cancer photothermal therapy through the intersection of nanotechnology and cell membrane coating; Chemical Engineering Journal, 484, 149641. (IF 13.3)
44) Qiang Cai, *Quazi T. H. Shubhra (2024). Deciphering the molecular interplay and tumorigenesis in hepatocellular carcinoma through insights into FBXL6 and KRASG12D; Military Medical Research, 11(1), 9; DOI: 10.1186/s40779-024-00515-w. (IF 16.7)
43) *Quazi T. H. Shubhra, Laiping Fang, A.K.M. Moshiul Alam (2024). Precision Phototherapy and Imaging with AIE-Based Nanoparticles Cloaked in Macrophage Membrane; Medical Review
2023
42) Rahela Zaman, *Xiaojun Cai, *Quazi T. H. Shubhra (2023). Hyperthermia-Embolization-Immunotherapy: A Potent Trio in Advancing Cancer Treatment; Trends in Molecular Medicine, 29(12), 976-978. (IF 12.8)
41) Huachun Pan#, Shumin Yang#, Wang Yu-E, *Quazi T. H. Shubhra (2023). Ferroptosis-based Image-guided Chemotherapy; Matter, 6, 666-668. (IF 17.3)
40) *Quazi T. H. Shubhra (2023). RARRES2’s impact on lipid metabolism in triple-negative breast cancer: a pathway to brain metastasis; Military Medical Research, 10, 42. (IF 16.7)
39) Qiang Cai, *Quazi T. H. Shubhra (2023). Overcoming Blood-Brain Barrier for Targeted Delivery of Lysosome-Targeting Chimeras; Neuron, 111(18), 2778-2780. (IF 14.7)
38) *Quazi T. H. Shubhra (2023). Iron Oxide Nanoparticles in Magnetic Drug Targeting and Ferroptosis-based Cancer Therapy; Medical Review, 3(5), 444–447.
37) *Quazi T. H. Shubhra, Peter Veranič, Zhengming Wang (2023). Amplifying antitumor immunity with iPSC-derived exosomes; Molecular Therapy, 31(8), 2300-2301. (IF 12.1)
36) *Quazi T. H. Shubhra, A.K.M Moshiul Alam (2023). Harnessing the Potential of Lipid Nanoparticles for the Delivery of Chemically Modified siRNA to Combat Hepatic Adenovirus Infection; Molecular Therapy – Nucleic Acids, 33, 44-46. (IF 6.5)
35) Huachun Pan#, Shumin Yang#, Wenke Cheng, Qiang Cai, *Quazi T. H. Shubhra (2023). Alternate-day fasting exacerbates doxorubicin cardiotoxicity in cancer chemotherapy; Trends in Endocrinology & Metabolism, 34 (7), 392-394. (IF 11.4)
34) Cun Liu, Huachun Pan, Fanliang Kong, Shumin Yang, Quazi T. H. Shubhra, Dandan Li, *Siwei Chen (2023). Association of arterial stiffness with all-cause and cause-specific mortality in the diabetic population: a national cohort study; Frontiers in Endocrinology, 14: 1145914, DOI: 10.3389/fendo.2023.1145914. (IF 3.9)
33) Huoming Huang, Xiancong Bu, Huachun Pan, Shumin Yang, Wenke Cheng, Quazi T. H. Shubhra, *Niya Ma (2023). Estimated Pulse Wave Velocity Is Associated With All-cause and Cardio-Cerebrovascular Disease Mortality in Stroke Population: Results from NHANES (2003-2014); Frontiers in Cardiovascular Medicine, 10: 1140160, DOI: 10.3389/fcvm.2023.1140160. (IF 2.8)
2022
32) *Kai Guo#, Yixuan Liu#, Lirui Tang, *Quazi T. H. Shubhra (2022). Homotypic Biomimetic Coating Synergizes Chemo-Photothermal Combination Therapy to Treat Breast Cancer Overcoming Drug Resistance; Chemical Engineering Journal, 428, 131120. (IF 13.3)
31) Yixuan Liu#, Kai Guo#, Min Ding, Bingchen Zhang, Nanyang Xiao, Zonghao Tang, Zhengming Wang, *Chengfei Zhang, *Quazi T. H. Shubhra (2022). Engineered magnetic polymer nanoparticles can ameliorate breast cancer treatment inducing pyroptosis-starvation along with chemotherapy; ACS Applied Materials & Interfaces, 14(37), 42541-42557. (IF 8.3)
30) Kai Guo#, Yixuan Liu#, Min Ding, *Qi Sun, *Quazi T. H. Shubhra (2022). Enhanced drug release from a pH-responsive nanocarrier can augment colon cancer treatment by blocking PD-L1 checkpoint and consuming tumor glucose; Materials & Design, 219, 110824. (IF 7.6)
29) Kai Guo#, Nanyang Xiao#, Yixuan Liu, Judit Tóth, János Gyenis, *Vijay Kumar Thakur, Ayako Oyane, *Quazi T. H. Shubhra (2022). Engineering Polymer Nanoparticles using Cell Membrane Coating Technology: Opportunities and Challenges; Nano Materials Science, 4, 295–321. (IF 12.6)
28) Cheng Wei#, Pengfei Tang#, Youhong Tang, Laibao Liu, Xiong Lu, Kun Yang, Qingyuan Wang, Wei Feng, Quazi T. H. Shubhra, *Zhenming Wang, *Hongping Zhang (2022). Sponge-Like Macroporous Hydrogel with Antibacterial and ROS Scavenging Capabilities for Diabetic Wound Regeneration; Advanced Healthcare Materials, DOI: 10.1002/adhm.202200717 (featured by the journal; DOI: 10.1002/adhm.202270122). (IF 10)
27) Yixuan Liu#, Min Ding#, *Kai Guo, *Zhengming Wang, Chengfei Zhang, *Quazi T. H. Shubhra (2022). Systemic Co-delivery of Drugs by a pH- and Photosensitive Smart Nanocarrier to Treat Cancer by Chemo-Photothermal-Starvation Combination Therapy; Smart Materials in Medicine, 3, 390-403.
2021
26) *Quazi T. H. Shubhra#, *Kai Guo#, Yixuan Liu, Md Razzak, Md. Serajum Manir, *A.K.M Moshiul Alam (2021). Dual Targeting Smart Drug Delivery System for Multimodal Synergistic Combination Cancer Therapy with Reduced Cardiotoxicity; Acta Biomaterialia, 131, 493-507. (IF 9.4)
25) *A.K.M Moshiul Alam, *M.D.H Beg, R.M Yunus, M.R. Islam, *Quazi T. H. Shubhra (2021). Tailoring the Dispersibility of Non-Covalent Functionalized Multi-Walled Carbon Nanotube (MWCNT) Nanosuspension Using Shellac (SL) Bio-Resin: Structure-Property Relationship and Cytotoxicity of Shellac Coated Carbon Nanotubes (SLCNTs); Colloid and Interface Science Communications, 42, 100395. (IF 4.7)
24) Maria Fecková, Judit Tóth, Petr Šálek, Alena Španová, Daniel Horák, Quazi T. H. Shubhra, Aleš Kovařík, János Gyenis, *Bohuslav Rittich (2021). Capture of DNAs by magnetic hypercrosslinked poly(styrene-co-divinylbenzene) microspheres; Journal of Materials Science, 56, 5817–5829. (IF 4.2)
2020
23) Kausik Kapat, Quazi T. H. Shubhra, *Miao Zhou, *Sander Leeuwenburgh (2020). Piezoelectric Nano‐Biomaterials for Biomedicine and Tissue Regeneration; Advanced Functional Materials, 30(44), 1909045. (IF 18.5)
2010-2019
22) *Quazi T. H. Shubhra*Quazi T. H. Shubhra, *Ayako Oyane, Maki Nakamura, Sandra Puentes, Aiki Marushima, Hideo Tsurushima (2018). Preliminary In Vivo Magnetofection Data using Magnetic Calcium Phosphate Nanoparticles Immobilizing DNA and Iron Oxide Nanocrystals; Data in Brief, 18, 1696-1701. (IF 1)
21) *Quazi T. H. Shubhra, *Ayako Oyane, Maki Nakamura, Sandra Puentes, Aiki Marushima, Hideo Tsurushima (2017). Rapid one-pot fabrication of magnetic calcium phosphate nanoparticles immobilizing DNA and iron oxide nanocrystals using injection solutions for magnetofection and magnetic targeting; Materials Today Chemistry, 6, 51-61. (IF 6.7)
20) *Quazi T. H. Shubhra, *Ayako Oyane, Hiroko Araki, Maki Nakamura, Hideo Tsurushima (2017). Calcium Phosphate Nanoparticles Prepared from Infusion Fluids for Stem Cell Transfection: Process Optimization and Cytotoxicity Analysis; Biomaterials Science, 5, 972-981. (IF 5.8) (featured on the journal cover; DOI: 10.1039/C7BM90022H)
19) *Tivadar Feczkó, Andrea Fodor-Kardos, Muttuswamy Sivakumaran, Quazi T. H. Shubhra (2016). In-vitro interferon-α release from interferon-α and pegylated IFN-α loaded PLGA and PEG-PLGA nanoparticles; Nanomedicine, 11 (16), 2029-2034. (IF 4.7)
18) *Ayako Oyane, Hiroko Araki, Maki Nakamura, Yoshiki Shimizu, Quazi T. H. Shubhra, Atsuo Ito, Hideo Tsurushima (2016). Controlled superficial assembly of DNA─amorphous calcium phosphate nanocomposite spheres for surface-mediated gene delivery; Colloids and Surfaces B: Biointerfaces, 141, 519–527. (IF 5.4)
17) AKMM Alam, *Quazi T. H. Shubhra (2015). Surface modified thin film from silk and gelatin for sustained drug release to heal wound; Journal of Materials Chemistry B, 3, 6473-6479. (IF 6.1)
16) *Quazi T. H. Shubhra, Judit Tóth, János Gyenis, Tivadar Feczkó (2014). Poloxamers for surface modification of hydrophobic drug carriers and their effects on drug delivery; Polymer Reviews, 54(1), 112-138. (IF 11.1)
15) *Quazi T. H. Shubhra, Judit Tóth, János Gyenis, Tivadar Feczkó (2014). Surface Modification of HSA Containing Magnetic PLGA Nanoparticles by Poloxamer to Decrease Plasma Protein Adsorption; Colloids and Surfaces B: Biointerfaces, 122, 529–536. (IF 5.4)
14) *Quazi T. H. Shubhra, Andrea F. Kardos, Tivadar Feczkó, Hana Mackova, Daniel Horák, Judit Tóth, György Dósa, János Gyenis (2014). Co-encapsulation of human serum albumin and superparamagnetic iron oxide in PLGA nanoparticles: Part I. Effect of process variables on the mean size; Journal of Microencapsulation, 31(2), 147-155. (IF 3)
13) *Quazi T. H. Shubhra, Tivadar Feczkó, Andrea F. Kardos, Judit Tóth, Hana Mackova, Daniel Horak, György Dósa, János Gyenis (2014). Co-encapsulation of human serum albumin and superparamagnetic iron oxide in PLGA nanoparticles: Part II. Effect of process variables on protein model drug encapsulation efficiency; Journal of Microencapsulation, 31(2), 156-165. (IF 3)
12) A. K. M. Moshiul Alam, M. F. Mina, *M. D. H. Beg, A. A. Mamun, A. K. Bledzki, Q. T. H. Shubhra (2014). Thermo-mechanical and morphological properties of short natural fiber reinforced poly (lactic acid) biocomposite: Effect of fiber treatment; Fibers and Polymers, 15(6), 1303-1309. (IF 2.2)
11) *Quazi T. H. Shubhra, A. K. M. M. Alam, M. A. Quaiyyum (2013). Mechanical Properties of Fiber Reinforced Polypropylene Composites: A Review; Journal of Thermoplastic Composite Materials, 26(3), 362-391. (IF 3.6)
10) Quazi T. H. Shubhra, Macková H., Fodor-Kardos A., *Horák D., Tóth J., Gyenis J., Feczkó T (2013). Encapsulation of human serum albumin in submicrometer magnetic poly(lactide-co-glycolide) particles as a model system for targeted drug delivery; e-Polymers, 13 (1), 310–318. (IF 3.2)
9) *Quazi T. H. Shubhra, A. K. M. M. Alam (2011). Effect of Gamma Radiation on The Mechanical Properties of Natural Silk Fiber and Synthetic E-glass Fiber Reinforced Polypropylene Composites: A Comparative Study; Radiation Physics and Chemistry, 80, 1228-1232. (IF 2.8)
8) *A. K. M. M. Alam, Quazi T. H. Shubhra, Gazi Al-Imran, Sanjoy Barai, M. R. Islam, M. Mahbubur Rahman (2011). Preparation and characterization of natural silk fiber-reinforced polypropylene and synthetic E-glass fiber-reinforced polypropylene composites: a comparative study; Journal of Composite Materials, 45(22), 2301-2308. (IF 2.3)
7) *Quazi T. H. Shubhra, A. K. M. M. Alam, M. D. H. Beg, (2011). Mechanical and Degradation Characteristics of Natural Silk Fiber Reinforced Gelatin Composites; Materials Letters, 65 (2), 333-336. (IF 2.7)
6) Quazi T. H. Shubhra, A. K. M. M. Alam, *M. D. H. Beg, Mubarak A. Khan, M. A. Gafur, (2011). Mechanical and Degradation Characteristics of Natural Silk and Synthetic Phosphate Glass Fiber Reinforced Polypropylene Composites; Journal of Composite Materials, 45 (12), 1305-1313. (IF 2.3)
5) Quazi T. H. Shubhra, A. K. M. M. Alam, Mubarak A. Khan, *M. Saha, Dipti Saha, M. A. Gafur, (2010). Study on The Mechanical Properties, Environmental Effect, Degradation Characteristics and Ionizing Radiation Effect on Silk Reinforced Polypropylene/Natural Rubber Composites; Composites Part A: Applied Science and Manufacturing, 41 (11), 1587-1596. (IF 8.1)
4) Quazi T. H. Shubhra, M. Saha, A. K. M. M. Alam, *M. D. H. Beg, Mubarak A. Khan, (2010). Effect of Matrix Modification by Natural Rubber on the Performance of Silk Reinforced Polypropylene Composites; Journal of Reinforced Plastics and Composites, 29 (22), 3338-3344. (IF 2.3)
3) Quazi T. H. Shubhra, A. K. M. M. Alam, M.A. Gafur, Sayed M. Shamsuddin, Mubarak A. Khan, *M. Saha, Dipti Saha, M. A. Quaiyyum, Jahangir A. Khan, Md. Ashaduzzaman, (2010). Characterization of Plant and animal Based Natural Fibers Reinforced Polypropylene Composites and Their Comparative Study; Fibers and Polymers, 11 (5), 725-731. (IF 2.2)
2) Quazi T. H. Shubhra, A. K. M. M. Alam, M. A. Khan, *M. Saha, Dipti Saha, Jahangir A. Khan, M. A. Quaiyyum, (2010). Preparation and Characterization of Silk/Gelatin Biocomposites; Polymer-Plastics Technology and Materials (previously the journal name was “Polymer Plastic Technology and Engineering”), 49 (10), 983-990. (IF 2.6)
1) *Ruhul A. Khan, Mubarak A. Khan, Sabrina Sultana, M. Nuruzzaman Khan, Quazi T. H. Shubhra, Farhana G. Noor, (2010). Mechanical, degradation and interfacial properties of synthetic degradable fiber reinforced polypropylene composites; Journal of Reinforced Plastics and Composites, 29(3), 466-476. (IF 2.3)