Highly-cited papers and hot papers from Bioactive Materials in JAN 2025
Published 28 January, 2025
We are delighted to bring you 172 highly-cited papers and 4 hot papers from Bioactive Materials.
| 1 | Extracellular matrix-derived materials for tissue engineering and regenerative medicine: A journey from isolation to characterization and application |
| Noro, J; Vilaça-Faria, H; Reis, RL; Pirraco, RP | |
| 2 | Biomedical applications of engineered heparin-based materials |
| Zare, EN; Khorsandi, D; Zarepour, A; Yilmaz, H; Agarwal, T; Hooshmand, S; Mohammadinejad, R; Ozdemir, F; Sahin, O; Adiguzel, S; Khan, H; Zarrabi, A; Sharifi, E; Kumar, A; Mostafavi, E; Kouchehbaghi, NH; Mattoli, V; Zhang, F; Jucaud, V; Najafabadi, AH; Khademhosseini, A | |
| 3 | Going below and beyond the surface: Microneedle structure, materials, drugs, fabrication, and applications for wound healing and tissue regeneration |
| Lyu, S; Dong, ZF; Xu, XX; Bei, HP; Yuen, HY; Cheung, CWJ; Wong, MS; He, Y; Zhao, X | |
| 4 | Exosome/metformin-loaded self-healing conductive hydrogel rescues microvascular dysfunction and promotes chronic diabetic wound healing by inhibiting mitochondrial fission |
| Zhang, Y; Li, M; Wang, YC; Han, F; Shen, K; Luo, L; Li, Y; Jia, YH; Zhang, J; Cai, WX; Wang, KJ; Zhao, M; Wang, J; Gao, XW; Tian, CY; Guo, BL; Hu, DH | |
| 5 | Piezoresistive MXene/Silk fibroin nanocomposite hydrogel for accelerating bone regeneration by Re-establishing electrical microenvironment |
| Hu, ZC; Lu, JQ; Zhang, TW; Liang, HF; Yuan, H; Su, DH; Ding, W; Lian, RX; Ge, YX; Liang, B; Dong, J; Zhou, XG; Jiang, LB | |
| 6 | The horizon of bone organoid: A perspective on construction and application |
| Chen, SS; Chen, X; Geng, Z; Su, JC | |
| 7 | A paintable and adhesive hydrogel cardiac patch with sustained release of ANGPTL4 for infarcted heart repair |
| Lee, M; Kim, YS; Park, J; Choe, G; Lee, S; Kang, BG; Jun, JH; Shin, Y; Kim, M; Ahn, Y; Lee, JY | |
| 8 | Advances in haemostatic sponges: Characteristics and the underlying mechanisms for rapid haemostasis |
| Nepal, A; Tran, HDN; Nguyen, NT; Ta, HT | |
| 9 | Ultrasound-triggered piezocatalytic composite hydrogels for promoting bacterial-infected wound healing |
| Liu, D; Li, L; Shi, BL; Shi, B; Li, MD; Qiu, Y; Zhao, D; Shen, QD; Zhu, ZZ | |
| 10 | Bioinspired drug-delivery system emulating the natural bone healing cascade for diabetic periodontal bone regeneration |
| Wang, H; Chang, XW; Ma, Q; Sun, BY; Li, H; Zhou, JM; Hu, YY; Yang, XY; Li, J; Chen, X; Song, JL | |
| 11 | Ca & Mn dual-ion hybrid nanostimulator boosting anti-tumor immunity via ferroptosis and innate immunity awakening |
| Deng, X; Liu, TZ; Zhu, YT; Chen, JF; Song, Z; Shi, ZP; Chen, HR | |
| 12 | Intelligent microneedle patch with prolonged local release of hydrogen and magnesium ions for diabetic wound healing |
| Wang, P; Wu, JYZ; Yang, HY; Liu, HK; Yao, TY; Liu, C; Gong, Y; Wang, MS; Ji, GY; Huang, P; Wang, XS | |
| 13 | Anti-oxidant anti-inflammatory and antibacterial tannin-crosslinked citrate-based mussel-inspired bioadhesives facilitate scarless wound healing |
| Wu, KK; Fu, MM; Zhao, YT; Gerhard, E; Li, Y; Yang, J; Guo, JS | |
| 14 | In vivo printing of growth factor-eluting adhesive scaffolds improves wound healing |
| Nuutila, K; Samandari, M; Endo, Y; Zhang, YT; Quint, J; Schmidt, TA; Tamayol, A; Sinha, I | |
| 15 | Manganese molybdate nanodots with dual amplification of STING activation for cycle treatment of metalloimmunotherapy |
| Lei, HL; Li, QG; Li, GQ; Wang, TY; Lv, XJ; Pei, ZF; Gao, X; Yang, NL; Gong, F; Yang, YQ; Hou, GH; Chen, MJ; Ji, JS; Liu, Z; Cheng, L | |
| 16 | From oncolytic peptides to oncolytic polymers: A new paradigm for oncotherapy |
| Liu, HM; Shen, W; Liu, WG; Yang, ZX; Yin, DK; Xiao, CS | |
| 17 | Progress in bioactive surface coatings on biodegradable Mg alloys: A critical review towards clinical translation |
| Singh, N; Batra, U; Kumar, K; Ahuja, N; Mahapatro, A | |
| 18 | Modified hyaluronic acid hydrogels with chemical groups that facilitate adhesion to host tissues enhance cartilage regeneration |
| Chen, JQ; Yang, JB; Wang, L; Zhang, XW; Heng, BC; Wang, DA; Ge, ZG | |
| 19 | Nanoparticles modified by polydopamine: Working as drug carriers |
| Jin, AT; Wang, YT; Lin, KL; Jiang, L | |
| 20 | Photo-curing 3D printing technique and its challenges |
| Quan, HY; Zhang, T; Xu, H; Luo, S; Nie, J; Zhu, XQ | |
| 21 | Double hits with bioactive nanozyme based on cobalt-doped nanoglass for acute and diabetic wound therapies through anti-inflammatory and pro-angiogenic functions |
| Mandakhbayar, N; Ji, YS; El-Fiqi, A; Patel, KD; Yoon, DS; Dashnyam, K; Bayaraa, O; Jin, GS; Tsogtbaatar, K; Kim, TH; Lee, JH; Kim, HW | |
| 22 | Activation of pyroptosis by specific organelle-targeting photodynamic therapy to amplify immunogenic cell death for anti-tumor immunotherapy |
| Zeng, S; Chen, C; Zhang, LW; Liu, XS; Qian, M; Cui, HY; Wang, JY; Chen, QX; Peng, XJ | |
| 23 | Advances in orthodontic clear aligner materials |
| Bichu, YM; Alwafi, A; Liu, XM; Andrews, J; Ludwig, B; Bichu, AY; Zou, BS | |
| 24 | Intelligent polymeric hydrogen sulfide delivery systems for therapeutic applications |
| Rong, F; Wang, TJ; Zhou, Q; Peng, HW; Yang, JT; Fan, QL; Li, P | |
| 25 | Titanium carbide nanosheets with defect structure for photothermal-enhanced sonodynamic therapy |
| Li, GQ; Zhong, XY; Wang, XW; Gong, F; Lei, HL; Zhou, YK; Li, CF; Xiao, ZD; Ren, GX; Zhang, L; Dong, ZQ; Liu, Z; Cheng, L | |
| 26 | Copper single-atom catalysts with photothermal performance and enhanced nanozyme activity for bacteria-infected wound therapy |
| Wang, XW; Shi, QQ; Zha, ZB; Zhu, DD; Zheng, LR; Shi, LX; Wei, XW; Lian, L; Wu, KL; Cheng, L | |
| 27 | Dual-crosslinked regenerative hydrogel for sutureless long-term repair of corneal defect |
| Shen, XR; Li, SQ; Zhao, X; Han, JD; Chen, JX; Rao, ZL; Zhang, KX; Quan, DP; Yuan, J; Bai, Y | |
| 28 | 3D bioactive composite scaffolds for bone tissue engineering |
| Turnbull, G; Clarke, J; Picard, F; Riches, P; Jia, LL; Han, FX; Li, B; Shu, WM | |
| 29 | Bone grafts and biomaterials substitutes for bone defect repair: A review |
| Wang, WH; Yeung, KWK | |
| 30 | DNA tetrahedral nanostructures for the biomedical application and spatial orientation of biomolecules |
| Wang, WJ; Lin, ML; Wang, WQ; Shen, ZF; Wu, ZS | |
| 31 | Cellulose-based composite scaffolds for bone tissue engineering and localized drug delivery |
| Janmohammadi, M; Nazemi, Z; Salehi, AOM; Seyfoori, A; John, J; Nourbakhsh, MS; Akbari, M | |
| 32 | Biomimetic manganese-based theranostic nanoplatform for cancer multimodal imaging and twofold immunotherapy |
| Zhao, YY; Pan, YW; Zou, KL; Lan, Z; Cheng, GW; Mai, QY; Cui, H; Meng, QF; Chen, TK; Rao, L; Ma, LM; Yu, GT | |
| 33 | Articular cartilage and osteochondral tissue engineering techniques: Recent advances and challenges |
| Wei, WY; Dai, HL | |
| 34 | Integrating coaxial electrospinning and 3D printing technologies for the development of biphasic porous scaffolds enabling spatiotemporal control in tumor ablation and osteochondral regeneration |
| He, WB; Li, CL; Zhao, ST; Li, ZD; Wu, J; Li, JJ; Zhou, HC; Yang, YF; Xu, Y; Xia, HT | |
| 35 | Design and fabrication of customizable microneedles enabled by 3D printing for biomedical applications |
| Loh, JM; Lim, YJL; Tay, JT; Cheng, HM; Tey, HL; Liang, K | |
| 36 | Additively manufactured metallic biomaterials |
| Davoodi, E; Montazerian, H; Mirhakimi, AS; Zhianmanesh, M; Ibhadode, O; Shahabad, SI; Esmaeilizadeh, R; Sarikhani, E; Toorandaz, S; Sarabi, SA; Nasiri, R; Zhu, YZ; Kadkhodapour, J; Li, BB; Khademhosseini, A; Toyserkani, E | |
| http://dx.doi.org/10.1016/j.bioactmat.2021.12.027 | |
| 37 | An intrinsically bioactive hydrogel with on-demand drug release behaviors for diabetic wound healing |
| Hu, B; Gao, MZ; Boakye-Yiadom, KO; Ho, W; Yu, W; Xu, XY; Zhang, XQ | |
| http://dx.doi.org/10.1016/j.bioactmat.2021.04.040 | |
| 38 | Mussel-inspired agarose hydrogel scaffolds for skin tissue engineering |
| Su, T; Zhang, MY; Zeng, QK; Pan, WH; Huang, YJ; Qian, YN; Dong, W; Qi, XL; Shen, JL | |
| http://dx.doi.org/10.1016/j.bioactmat.2020.09.004 | |
| 39 | Poly(lactic-co-glycolic acid)-based composite bone-substitute materials |
| Zhao, DY; Zhu, TT; Li, J; Cui, LG; Zhang, ZY; Zhuang, XL; Ding, JX | |
| 40 | Cartilage-inspired self-assembly glycopeptide hydrogels for cartilage regeneration via ROS scavenging |
| Zhao, ZJ; Xia, XW; Liu, JL; Hou, MZ; Liu, Y; Zhou, ZZ; Xu, Y; He, F; Yang, HL; Zhang, YJ; Ruan, CS; Zhu, XS | |
| 41 | A bone-targeted engineered exosome platform delivering siRNA to treat osteoporosis |
| Cui, YZ; Guo, YY; Kong, L; Shi, JY; Liu, P; Li, R; Geng, YT; Gao, WH; Zhang, ZP; Fu, DH | |
| 42 | How far is Lignin from being a biomedical material? |
| Sugiarto, S; Leow, Y; Tan, CL; Wang, G; Kai, D | |
| 43 | Reactive oxygen species-based nanomaterials for the treatment of myocardial ischemia reperfusion injuries |
| Zhao, TJ; Wu, W; Sui, LH; Huang, Q; Nan, YY; Liu, JH; Ai, KL | |
| 44 | Construction of heparin-based hydrogel incorporated with Cu5.4O ultrasmall nanozymes for wound healing and inflammation inhibition |
| Peng, Y; He, DF; Ge, X; Lu, YF; Chai, YH; Zhang, YX; Mao, ZW; Luo, GX; Deng, J; Zhang, Y | |
| 45 | A targeting black phosphorus nanoparticle based immune cells nano-regulator for photodynamic/photothermal and photo-immunotherapy |
| Zhang, XG; Tang, JJ; Li, C; Lu, Y; Cheng, LL; Liu, J | |
| 46 | Keratin - Based materials for biomedical applications |
| Feroz, S; Muhammad, N; Ratnayake, J; Dias, G | |
| 47 | M2 exosomes modified by hydrogen sulfide promoted bone regeneration by moesin mediated endocytosis |
| Zhou, YK; Han, CS; Zhu, ZL; Chen, P; Wang, YM; Lin, S; Chen, LJ; Zhuang, ZM; Zhou, YH; Yang, RL | |
| 48 | Microenvironment responsive nanocomposite hydrogel with NIR photothermal therapy, vascularization and anti-inflammation for diabetic infected wound healing |
| Zhu, SL; Zhao, BJ; Li, MC; Wang, H; Zhu, JY; Li, QT; Gao, HC; Feng, Q; Cao, XD | |
| 49 | Exosome-functionalized magnesium-organic framework-based scaffolds with osteogenic, angiogenic and anti-inflammatory properties for accelerated bone regeneration |
| Kang, Y; Xu, C; Meng, L; Dong, XF; Qi, M; Jiang, DQ | |
| 50 | Glucose and MMP-9 dual-responsive hydrogel with temperature sensitive self-adaptive shape and controlled drug release accelerates diabetic wound healing |
| Zhou, WY; Duan, ZG; Zhao, J; Fu, RZ; Zhu, CH; Fan, DD | |
| 51 | Microgel assembly: Fabrication, characteristics and application in tissue engineering and regenerative medicine |
| Feng, Q; Li, DG; Li, QT; Cao, XD; Dong, H | |
| 52 | Construction of multifunctional hydrogel based on the tannic acid-metal coating decorated MoS2 dual nanozyme for bacteria-infected wound healing |
| Li, Y; Fu, RZ; Duan, ZG; Zhu, CH; Fan, DD | |
| 53 | NK cell-based tumor immunotherapy |
| Zhang, H; Yang, L; Wang, TT; Li, Z | |
| 54 | Advanced surface engineering of titanium materials for biomedical applications: From static modification to dynamic responsive regulation |
| Jiang, PL; Zhang, YM; Shi, B; Zhang, LH; Huang, QL; Yang, Y; Tang, PF; Lin, CJ | |
| 55 | Sustained release of magnesium and zinc ions synergistically accelerates wound healing |
| Yang, F; Xue, YJ; Wang, FL; Guo, DN; He, YJ; Zhao, X; Yan, FY; Xu, YQ; Xia, DD; Liu, YS | |
| 56 | A tumor cell membrane-coated self-amplified nanosystem as a nanovaccine to boost the therapeutic effect of anti-PD-L1 antibody |
| Li, ZL; Cai, H; Li, ZQ; Ren, L; Ma, XL; Zhu, HY; Gong, QY; Zhang, H; Gu, ZW; Luo, K | |
| 57 | A Mg2+/polydopamine composite hydrogel for the acceleration of infected wound healing |
| Guo, ZY; Zhang, ZZ; Zhang, N; Gao, WX; Li, J; Pu, YJ; He, B; Xie, J | |
| 58 | Bioactive hydrogels for bone regeneration |
| Bai, X; Gao, MZ; Syed, S; Zhuang, J; Xu, XY; Zhang, XQ | |
| 59 | A bioactive composite hydrogel dressing that promotes healing of both acute and chronic diabetic skin wounds |
| Shang, SL; Zhuang, KT; Chen, JW; Zhang, M; Jiang, SM; Li, W | |
| 60 | Collagen fibril-like injectable hydrogels from self-assembled nanoparticles for promoting wound healing |
| Li, SS; Li, XY; Xu, YD; Fan, CR; Li, ZA; Zheng, L; Luo, BC; Li, ZP; Lin, BF; Zha, ZG; Zhang, HT; Wang, XY | |
| 61 | Multifunctional nanocomposites modulating the tumor microenvironment for enhanced cancer immunotherapy |
| Sharma, P; Otto, M | |
| 62 | ROS-responsive 18β-glycyrrhetic acid-conjugated polymeric nanoparticles mediate neuroprotection in ischemic stroke through HMGB1 inhibition and microglia polarization regulation |
| Jin, LL; Zhu, ZX; Hong, LJ; Qian, ZF; Wang, F; Mao, ZW | |
| 63 | Polydopamine-mediated graphene oxide and nanohydroxyapatite-incorporated conductive scaffold with an immunomodulatory ability accelerates periodontal bone regeneration in diabetes |
| Li, YZ; Yang, L; Hou, Y; Zhang, ZZ; Chen, M; Wang, MX; Liu, J; Wang, J; Zhao, ZH; Xie, CM; Lu, X | |
| 64 | Mussel-inspired nanozyme catalyzed conductive and self-setting hydrogel for adhesive and antibacterial bioelectronics |
| Jia, ZR; Lv, XH; Hou, Y; Wang, KF; Ren, FZ; Xu, DG; Wang, Q; Fan, KL; Xie, CM; Lu, X | |
| 65 | A mussel-inspired supramolecular hydrogel with robust tissue anchor for rapid hemostasis of arterial and visceral bleedings |
| Qiao, ZW; Lv, XL; He, SH; Bai, SM; Liu, XC; Hou, LX; He, JJ; Tong, DM; Ruan, RJ; Zhang, J; Ding, JX; Yang, HH | |
| 66 | Exosome regulation of immune response mechanism: Pros and cons in immunotherapy |
| Essola, JM; Zhang, MJ; Yang, HY; Li, FZ; Xia, BZ; Mavoungou, JF; Hussain, A; Huang, YY | |
| 67 | Nanodrugs alleviate acute kidney injury: Manipulate RONS at kidney |
| Chen, QH; Nan, YY; Yang, YQ; Xiao, ZX; Liu, M; Huang, J; Xiang, YT; Long, XY; Zhao, TJ; Wang, XY; Huang, Q; Ai, KL | |
| 68 | Polymeric dual-modal imaging nanoprobe with two-photon aggregation-induced emission for fluorescence imaging and gadolinium-chelation for magnetic resonance imaging |
| Xiao, XY; Cai, H; Huang, QR; Wang, B; Wang, XM; Luo, Q; Li, YG; Zhang, H; Gong, QY; Ma, XL; Gu, ZW; Luo, K | |
| 69 | Tetrahedral framework nucleic acids-based delivery of microRNA-155 inhibits choroidal neovascularization by regulating the polarization of macrophages |
| Qin, X; Xiao, LR; Li, N; Hou, C; Li, WM; Li, JJ; Yan, NH; Lin, YF | |
| 70 | Decellularized extracellular matrix scaffolds: Recent trends and emerging strategies in tissue engineering |
| Zhang, XW; Chen, X; Hong, H; Hu, RB; Liu, JS; Liu, CS | |
| 71 | MoS2-based nanocomposites for cancer diagnosis and therapy |
| Wang, JL; Sui, LH; Huang, J; Miao, L; Nie, YB; Wang, KS; Yang, ZC; Huang, Q; Gong, X; Nan, YY; Ai, KL | |
| 72 | Bioinspired mineralized collagen scaffolds for bone tissue engineering |
| Li, ZW; Du, TM; Ruan, CS; Niu, XF | |
| 73 | Antibacterial conductive self-healing hydrogel wound dressing with dual dynamic bonds promotes infected wound healing |
| Qiao, LP; Liang, YP; Chen, JY; Huang, Y; Alsareii, SA; Alamri, AM; Harraz, FA; Guo, BL | |
| 74 | Exosomes from young healthy human plasma promote functional recovery from intracerebral hemorrhage via counteracting ferroptotic injury |
| Yang, WQ; Ding, N; Luo, R; Zhang, Q; Li, ZH; Zhao, FC; Zhang, SX; Zhang, XY; Zhou, TY; Wang, HM; Wang, L; Hu, SL; Wang, GX; Feng, H; Hu, R | |
| 75 | Antibacterial gas therapy: Strategies, advances, and prospects |
| Wang, TY; Zhu, XY; Wu, FG | |
| 76 | A novel sprayable thermosensitive hydrogel coupled with zinc modified metformin promotes the healing of skin wound |
| Liu, ZW; Tang, WZ; Liu, JY; Han, YY; Yan, QN; Dong, YC; Liu, XM; Yang, DZ; Ma, GX; Cao, HL | |
| 77 | A reactive oxygen species-responsive hydrogel encapsulated with bone marrow derived stem cells promotes repair and regeneration of spinal cord injury |
| Li, ZM; Zhao, TF; Ding, J; Gu, HC; Wang, QX; Wang, YF; Zhang, DT; Gao, CY | |
| 78 | Nitrogen-doped fluorescence carbon dots as multi-mechanism detection for iodide and curcumin in biological and food samples |
| Tang, XD; Yu, HM; Bui, B; Wang, LY; Xing, C; Wang, SY; Chen, ML; Hu, ZZ; Chen, W | |
| 79 | Black phosphorus nanosheets-enabled DNA hydrogel integrating 3D-printed scaffold for promoting vascularized bone regeneration |
| Miao, YL; Chen, YH; Luo, JS; Liu, X; Yang, Q; Shi, XT; Wang, YJ | |
| 80 | Nanocellulose, a versatile platform: From the delivery of active molecules to tissue engineering applications |
| Patil, TV; Patel, DK; Dutta, SD; Ganguly, K; Santra, TS; Lim, KT | |
| 81 | The application of nanoparticles in cancer immunotherapy: Targeting tumor microenvironment |
| Yang, MY; Li, JP; Gu, P; Fan, XQ | |
| 82 | Bone/cartilage targeted hydrogel: Strategies and applications |
| Zhang, H; Wu, SL; Chen, WK; Hu, Y; Geng, Z; Su, JC | |
| 83 | Sequential gastrodin release PU/n-HA composite scaffolds reprogram macrophages for improved osteogenesis and angiogenesis |
| Li, LM; Li, Q; Gui, L; Deng, Y; Wang, L; Jiao, JL; Hu, YR; Lan, XQ; Hou, JH; Li, Y; Lu, D | |
| 84 | An overview of filtration efficiency through the masks: Mechanisms of the aerosols penetration |
| Tcharkhtchi, A; Abbasnezhad, N; Seydani, MZ; Zirak, N; Farzaneh, S; Shirinbayan, M | |
| 85 | Antibacterial and angiogenic chitosan microneedle array patch for promoting wound healing |
| Chi, JJ; Zhang, XX; Chen, CW; Shao, CM; Zhao, YJ; Wang, YG | |
| 86 | Chitosan based bioactive materials in tissue engineering applications-A review |
| Islam, MM; Shahruzzaman, M; Biswas, S; Sakib, MN; Rashid, TU | |
| 87 | Versatile dopamine-functionalized hyaluronic acid-recombinant human collagen hydrogel promoting diabetic wound healing via inflammation control and vascularization tissue regeneration |
| Wang, Y; Zhang, Y; Yang, YP; Jin, MY; Huang, S; Zhuang, ZM; Zhang, T; Cao, LL; Lin, XY; Chen, J; Du, YZ; Chen, J; Tan, WQ | |
| 88 | Biomaterial scaffolds in maxillofacial bone tissue engineering: A review of recent advances |
| Huang, XY; Lou, YX; Duan, YH; Liu, H; Tian, J; Shen, Y; Wei, X | |
| 89 | Copper ion/gallic acid MOFs-laden adhesive pomelo peel sponge effectively treats biofilm-infected skin wounds and improves healing quality |
| Yang, JQ; Huang, ZZ; Tan, J; Pan, JY; Chen, SX; Wan, WB | |
| 90 | Biofabrication methods for reconstructing extracellular matrix mimetics |
| Aazmi, A; Zhang, D; Mazzaglia, C; Yu, MF; Wang, Z; Yang, HY; Huang, YYS; Ma, L | |
| 91 | AI-enabled organoids: Construction, analysis, and application |
| Bai, L; Wu, Y; Li, GF; Zhang, WC; Zhang, H; Su, JC | |
| 92 | A biomimetic piezoelectric scaffold with sustained Mg2+ release promotes neurogenic and angiogenic differentiation for enhanced bone regeneration |
| Wang, LY; Pang, YY; Tang, YJ; Wang, XY; Zhang, DX; Zhang, X; Yu, YJ; Yang, XP; Cai, Q | |
| 93 | Breathable, antifreezing, mechanically skin-like hydrogel textile wound dressings with dual antibacterial mechanisms |
| Jiang, SH; Deng, JJ; Jin, YH; Qian, B; Lv, WQ; Zhou, QQ; Mei, EH; Neisiany, RE; Liu, YH; You, ZW; Pan, J | |
| 94 | Therapeutic strategies of three-dimensional stem cell spheroids and organoids for tissue repair and regeneration |
| Kim, W; Gwon, Y; Park, S; Kim, H; Kim, J | |
| 95 | Chitosan@Puerarin hydrogel for accelerated wound healing in diabetic subjects by miR-29ab1 mediated inflammatory axis suppression |
| Zeng, XL; Chen, BH; Wang, LP; Sun, YX; Jin, Z; Liu, XY; Ouyang, LP; Liao, Y | |
| 96 | Smart bioadhesives for wound healing and closure |
| Zhu, J; Zhou, HL; Gerhard, EM; Zhang, SH; Rodríguez, FIP; Pan, TS; Yang, HB; Lin, Y; Yang, J; Cheng, HY | |
| 97 | Fabrication of physical and chemical crosslinked hydrogels for bone tissue engineering |
| Xue, X; Hu, Y; Wang, SC; Chen, X; Jiang, YY; Su, JC | |
| 98 | Polydopamine nanoparticle-dotted food gum hydrogel with excellent antibacterial activity and rapid shape adaptability for accelerated bacteria-infected wound healing |
| Zeng, QK; Qian, YN; Huang, YJ; Ding, F; Qi, XL; Shen, JL | |
| 99 | Accelerated degradation of HAP/PLLA bone scaffold by PGA blending facilitates bioactivity and osteoconductivity |
| Shuai, CJ; Yang, WJ; Feng, P; Peng, SP; Pan, H | |
| 100 | Hypoxia endothelial cells-derived exosomes facilitate diabetic wound healing through improving endothelial cell function and promoting M2 macrophages polarization |
| Cheng, P; Xie, XD; Hu, LC; Zhou, W; Mi, BB; Xiong, Y; Xue, H; Zhang, KY; Zhang, YX; Hu, YQ; Chen, L; Zha, KK; Lv, B; Lin, Z; Lin, CL; Dai, GD; Hu, YX; Yu, TB; Hu, HK; Liu, GH; Zhang, YZ | |
| 101 | Zn/Sr dual ions-collagen co-assembly hydroxyapatite enhances bone regeneration through procedural osteo-immunomodulation and osteogenesis |
| Zhong, ZY; Wu, XD; Wang, YF; Li, MD; Li, Y; Liu, XL; Zhang, X; Lan, ZY; Wang, JL; Du, YY; Zhang, SM | |
| 102 | Overcoming the obstacles of current photodynamic therapy in tumors using nanoparticles |
| Lee, D; Kwon, S; Jang, SY; Park, E; Lee, Y; Koo, H | |
| 103 | Recent research and progress of biodegradable zinc alloys and composites for biomedical applications: Biomechanical and biocorrosion perspectives |
| Kabir, H; Munir, K; Wen, C; Li, YC | |
| 104 | 3D printing of bone tissue engineering scaffolds |
| Wang, C; Huang, W; Zhou, Y; He, LB; He, Z; Chen, ZL; He, X; Tian, S; Liao, JM; Lu, BH; Wei, Y; Wang, M | |
| 105 | An olsalazine nanoneedle-embedded inulin hydrogel reshapes intestinal homeostasis in inflammatory bowel disease |
| Zhang, ZZ; Pan, Y; Guo, ZY; Fan, X; Pan, QQ; Gao, WX; Luo, K; Pu, YJ; He, B | |
| 106 | Combination of biodegradable hydrogel and antioxidant bioadhesive for treatment of breast cancer recurrence and radiation skin injury |
| Zhang, ZD; Cao, QN; Xia, Y; Cui, CY; Qi, Y; Zhang, Q; Wu, YH; Liu, JF; Liu, WG | |
| 107 | Functionalized liposomes for targeted breast cancer drug delivery |
| Nel, J; Elkhoury, K; Velot,; Bianchi, A; Acherar, S; Francius, G; Tamayol, A; Grandemange, S; Arab-Tehrany, E | |
| 108 | Zinc oxide nanoparticles inhibit osteosarcoma metastasis by downregulating β-catenin via HIF-1α/BNIP3/LC3B-mediated mitophagy pathway |
| He, GP; Nie, JJ; Liu, X; Ding, ZH; Luo, P; Liu, Y; Zhang, BW; Wang, RX; Liu, XG; Hai, Y; Chen, DF | |
| 109 | Hyaluronic acid association with bacterial, fungal and viral infections: Can hyaluronic acid be used as an antimicrobial polymer for biomedical and pharmaceutical applications? |
| Zamboni, F; Wong, CK; Collins, MN | |
| 110 | Biomimetic injectable hydrogel microspheres with enhanced lubrication and controllable drug release for the treatment of osteoarthritis |
| Han, Y; Yang, JL; Zhao, WW; Wang, HM; Sun, YL; Chen, YJ; Luo, J; Deng, LF; Xu, XY; Cui, WG; Zhang, HY | |
| 111 | 3D bioprinting for biomedical devices and tissue engineering: A review of recent trends and advances |
| Derakhshanfar, S; Mbeleck, R; Xu, KG; Zhang, XY; Zhong, W; Xing, M | |
| 112 | A tough, antibacterial and antioxidant hydrogel dressing accelerates wound healing and suppresses hypertrophic scar formation in infected wounds |
| Liu, XQ; Sun, YM; Wang, J; Kang, YY; Wang, ZL; Cao, WB; Ye, J; Gao, CY | |
| 113 | Decellularized extracellular matrix biomaterials for regenerative therapies: Advances, challenges and clinical prospects |
| Golebiowska, AA; Intravaia, JT; Sathe, VM; Kumbar, SG; Nukavarapu, SP | |
| 114 | Reprogramming macrophages via immune cell mobilized hydrogel microspheres for osteoarthritis treatments |
| Xiao, PC; Han, XY; Huang, YR; Yang, JY; Chen, L; Cai, ZW; Hu, N; Cui, WG; Huang, W | |
| 115 | 3D printing of bio-instructive materials: Toward directing the cell |
| Zielinski, PS; Gudeti, PKR; Rikmanspoel, T; Wlodarczyk-Biegun, MK | |
| 116 | A review on current research status of the surface modification of Zn-based biodegradable metals |
| Yuan, W; Xia, DD; Wu, SL; Zheng, YF; Guan, ZP; Rau, J | |
| 117 | Antibacterial approaches in tissue engineering using metal ions and nanoparticles: From mechanisms to applications |
| Godoy-Gallardo, M; Eckhard, U; Delgado, LM; Puente, YJDD; Hoyos-Nogués, M; Gil, FJ; Perez, RA | |
| 118 | Biobased polyurethanes for biomedical applications |
| Wendels, S; Avérous, L | |
| 119 | Advancing application of mesenchymal stem cell-based bone tissue regeneration |
| Shang, FQ; Yu, Y; Liu, SY; Ming, LG; Zhang, YJ; Zhou, ZF; Zhao, JY; Jin, Y | |
| 120 | Targeted therapy of kidney disease with nanoparticle drug delivery materials |
| Shang, SL; Li, XM; Wang, HR; Zhou, YA; Pang, KY; Li, P; Liu, XM; Zhang, M; Li, WE; Li, QG; Chen, XM | |
| 121 | Stimuli-responsive peptide assemblies: Design, self-assembly, modulation, and biomedical applications |
| Mu, RQ; Zhu, DZ; Abdulmalik, S; Wijekoon, S; Wei, G; Kumbar, SG | |
| 122 | Highly active probiotic hydrogels matrixed on bacterial EPS accelerate wound healing via maintaining stable skin microbiota and reducing inflammation |
| Xu, HT; Li, YQ; Song, JP; Zhou, LY; Wu, KZ; Lu, XY; Zhai, XN; Wan, ZL; Gao, J | |
| 123 | Embedded 3D bioprinting - An emerging strategy to fabricate biomimetic & large vascularized tissue constructs |
| Budharaju, H; Sundaramurthi, D; Sethuraman, S | |
| 124 | Magnetic nanoparticles for ferroptosis cancer therapy with diagnostic imaging |
| Ko, MJ; Min, S; Hong, H; Yoo, W; Joo, J; Zhang, YS; Kang, H; Kim, DH | |
| 125 | Wound microenvironment self-adaptive hydrogel with efficient angiogenesis for promoting diabetic wound healing |
| Shao, ZJ; Yin, TY; Jiang, JB; He, Y; Xiang, T; Zhou, SB | |
| 126 | Gold@Halloysite nanotubes-chitin composite hydrogel with antibacterial and hemostatic activity for wound healing |
| Zhao, PX; Feng, Y; Zhou, YQ; Tan, CY; Liu, MX | |
| 127 | Biomimetic AgNPs@antimicrobial peptide/silk fibroin coating for infection-trigger antibacterial capability and enhanced osseointegration |
| Zhou, WH; Bai, T; Wang, L; Cheng, Y; Xia, DD; Yu, S; Zheng, YF | |
| 128 | Injectable bone cements: What benefits the combination of calcium phosphates and bioactive glasses could bring? |
| Demir-Oguz, Ö; Boccaccini, AR; Loca, D | |
| 129 | Defect self-assembly of metal-organic framework triggers ferroptosis to overcome resistance |
| Peng, HB; Zhang, XC; Yang, P; Zhao, JX; Zhang, W; Feng, NP; Yang, WL; Tang, J | |
| 130 | Engineered gold/black phosphorus nanoplatforms with remodeling tumor microenvironment for sonoactivated catalytic tumor theranostics |
| Chen, T; Zeng, WW; Tie, CJ; Yu, M; Hao, HS; Deng, Y; Li, QQ; Zheng, HR; Wu, MY; Mei, L | |
| 131 | Advanced hydrogels for the repair of cartilage defects and regeneration |
| Wei, W; Ma, YZ; Yao, XD; Zhou, WY; Wang, XZ; Li, CL; Lin, JX; He, QL; Leptihn, S; Ouyang, HW | |
| 132 | 3D-printed tri-element-doped hydroxyapatite/ polycaprolactone composite scaffolds with antibacterial potential for osteosarcoma therapy and bone regeneration |
| Huang, H; Qiang, L; Fan, MJ; Liu, YH; Yang, AC; Chang, DB; Li, JS; Sun, T; Wang, YW; Guo, RY; Zhuang, HJ; Li, XY; Guo, TL; Wang, JW; Tan, H; Zheng, PF; Weng, J | |
| 133 | Structural and biological engineering of 3D hydrogels for wound healing |
| Norahan, MH; Pedroza-Gonz, SC; Sanchez-Salazar, MG; Alvarez, MM; Santiago, GTD | |
| 134 | Tumor Microenvironment-Adaptive Nanoplatform Synergistically Enhances Cascaded Chemodynamic Therapy |
| Wang, YM; Wang, D; Zhang, YY; Xu, H; Shen, LX; Cheng, J; Xu, XY; Tan, H; Chen, XY; Li, JS | |
| 135 | Passively-targeted mitochondrial tungsten-based nanodots for efficient acute kidney injury treatment |
| Huang, Q; Yang, YQ; Zhao, TJ; Chen, QH; Liu, M; Ji, ST; Zhu, Y; Yang, YR; Zhang, JP; Zhao, HX; Nan, YY; Ai, KL | |
| 136 | Curcumenol triggered ferroptosis in lung cancer cells via lncRNA H19/miR-19b-3p/FTH1 axis |
| Zhang, RN; Pan, T; Xiang, Y; Zhang, MM; Xie, H; Liang, ZM; Chen, B; Xu, C; Wang, J; Huang, XX; Zhu, QR; Zhao, ZM; Gao, Q; Wen, CY; Liu, WC; Ma, WR; Feng, J; Sun, XN; Duan, T; Leung, ELH; Xie, T; Wu, QB; Sui, XB | |
| 137 | Piezoelectric hydrogel for treatment of periodontitis through bioenergetic activation |
| Liu, X; Wan, XY; Sui, BY; Hu, QH; Liu, ZR; Ding, TT; Zhao, J; Chen, YX; Wang, ZL; Li, LL | |
| 138 | SERS sensing for cancer biomarker: Approaches and directions |
| Vazquez-Iglesias, L; Casagrande, GMS; Garcia-Lojo, D; Leal, LF; Ngo, TA; Perez-Juste, J; Reis, RM; Kant, K; Pastoriza-Santos, I | |
| 139 | Enhancing drug penetration in solid tumors via nanomedicine: Evaluation models, strategies and perspectives |
| Shen, XD; Pan, DY; Gong, QY; Gu, ZW; Luo, K | |
| 140 | Ultrasound-triggered biomimetic ultrashort peptide nanofiber hydrogels promote bone regeneration by modulating macrophage and the osteogenic immune microenvironment |
| Zhang, F; Lv, MC; Wang, SY; Li, MY; Wang, Y; Hu, CJ; Hu, W; Wang, XK; Wang, XG; Liu, ZD; Fan, Z; Du, JZ; Sun, Y | |
| 141 | Triple-synergistic MOF-nanozyme for efficient antibacterial treatment |
| Wang, MX; Zhou, X; Li, YH; Dong, YQ; Meng, JS; Zhang, S; Xia, LB; He, ZZ; Ren, L; Chen, ZW; Zhang, XC | |
| 142 | Multi-crosslinking hydrogels with robust bio-adhesion and pro-coagulant activity for first-aid hemostasis and infected wound healing |
| Zou, CY; Lei, XX; Hu, JJ; Jiang, YL; Li, QJ; Song, YT; Zhang, QY; Li-Ling, J; Xie, HQ | |
| 143 | M2 macrophage-derived exosomes promote diabetic fracture healing by acting as an immunomodulator |
| Wang, YL; Lin, QS; Zhang, H; Wang, SC; Cui, J; Hu, Y; Liu, JL; Li, MM; Zhang, K; Zhou, FJ; Jing, YY; Geng, Z; Su, JC | |
| 144 | Recent advances in engineered polymeric materials for efficient photodynamic inactivation of bacterial pathogens |
| Gnanasekar, S; Kasi, G; He, XD; Zhang, K; Xu, LQ; Kang, ET | |
| 145 | Ultrasmall Fe-doped carbon dots nanozymes for photoenhanced antibacterial therapy and wound healing |
| Liu, YH; Xu, BL; Lu, MZ; Li, SS; Guo, J; Chen, FZ; Xiong, XL; Yin, Z; Liu, HY; Zhou, DS | |
| 146 | Microstructure evolution and texture tailoring of reduced graphene oxide reinforced Zn scaffold |
| Yang, YW; Cheng, Y; Peng, SP; Xu, L; He, CX; Qi, FW; Zhao, MC; Shuai, CJ | |
| 147 | Developing natural polymers for skin wound healing |
| Zhang, H; Lin, X; Cao, XY; Wang, Y; Wang, JL; Zhao, YJ | |
| 148 | Enzyme-triggered deep tumor penetration of a dual-drug nanomedicine enables an enhanced cancer combination therapy |
| Gu, L; Duan, ZY; Li, X; Li, X; Li, YG; Li, XL; Xu, G; Gao, P; Zhang, H; Gu, ZW; Chen, J; Gong, QY; Luo, K | |
| 149 | Additively manufactured pure zinc porous scaffolds for critical-sized bone defects of rabbit femur |
| Xia, DD; Qin, Y; Guo, H; Wen, P; Lin, H; Voshage, M; Schleifenbaum, JH; Cheng, Y; Zheng, YF | |
| 150 | An overview of substrate stiffness guided cellular response and its applications in tissue regeneration |
| Yi, BC; Xu, Q; Liu, W | |
| 151 | Additive manufacturing technology for porous metal implant applications and triple minimal surface structures: A review |
| Yuan, L; Ding, SL; Wen, CE | |
| 152 | Intravesical chemotherapy synergize with an immune adjuvant by a thermo-sensitive hydrogel system for bladder cancer |
| Liu, J; Yang, TY; Dai, L; Shi, K; Hao, Y; Chu, BY; Hu, D; Bei, Z; Yuan, L; Pan, M; Qian, ZY | |
| 153 | Research advances of nanomaterials for the acceleration of fracture healing |
| Zhang, M; Xu, F; Cao, JC; Dou, QQ; Wang, J; Wang, J; Yang, L; Chen, W | |
| 154 | Covalent organic framework nanomedicines: Biocompatibility for advanced nanocarriers and cancer theranostics applications |
| Singh, N; Kim, J; Kim, J; Lee, KYW; Zunbul, Z; Lee, IJ; Kim, E; Chi, SG; Kim, JS | |
| 155 | Magnesium surface-activated 3D printed porous PEEK scaffolds for in vivo osseointegration by promoting angiogenesis and osteogenesis |
| Wei, XH; Zhou, WH; Tang, Z; Wu, H; Liu, YC; Dong, H; Wang, N; Huang, H; Bao, SS; Shi, L; Li, XK; Zheng, YF; Guo, Z | |
| 156 | An NIR photothermal-responsive hybrid hydrogel for enhanced wound healing |
| Jin, L; Guo, XQ; Gao, D; Liu, Y; Ni, JH; Zhang, ZM; Huang, YQ; Xu, GB; Yang, Z; Zhang, XC; Jiang, XH | |
| 157 | Recent advances in biomaterials for 3D scaffolds: A review |
| Nikolova, MP; Chavali, MS | |
| 158 | In situ immunomodulation of tumors with biosynthetic bacteria promote anti-tumor immunity |
| Lin, ZD; Meng, FQ; Ma, YM; Zhang, C; Zhang, ZR; Yang, ZX; Li, Y; Hou, LL; Xu, YZ; Liang, X; Zhang, XD | |
| 159 | Bone microenvironment regulative hydrogels with ROS scavenging and prolonged oxygen-generating for enhancing bone repair |
| Sun, H; Xu, J; Wang, YYF; Shen, SY; Xu, XQ; Zhang, L; Jiang, Q | |
| 160 | Peptide-based nanomaterials: Self-assembly, properties and applications |
| Li, T; Lu, XM; Zhang, MR; Hu, K; Li, Z | |
| 161 | Multifunctional GelMA platforms with nanomaterials for advanced tissue therapeutics |
| Kurian, AG; Singh, RK; Patel, KD; Lee, JH; Kim, HW | |
| 162 | Mussel-inspired adhesive antioxidant antibacterial hemostatic composite hydrogel wound dressing via photo-polymerization for infected skin wound healing |
| Yang, YT; Liang, YP; Chen, JY; Duan, XL; Guo, BL | |
| 163 | Bone physiological microenvironment and healing mechanism: Basis for future bone-tissue engineering scaffolds |
| Zhu, GY; Zhang, TX; Chen, M; Yao, K; Huang, XQ; Zhang, B; Li, YZ; Liu, J; Wang, YB; Zhao, ZH | |
| 164 | Antibacterial metals and alloys for potential biomedical implants |
| Zhang, EL; Zhao, XT; Hu, JL; Wang, RX; Fu, S; Qin, GW | |
| 165 | Full-thickness osteochondral defect repair using a biodegradable bilayered scaffold of porous zinc and chondroitin sulfate hydrogel |
| Yang, F; Li, YG; Wang, L; Che, HD; Zhang, X; Jahr, H; Wang, LN; Jiang, D; Huang, HJ; Wang, JQ | |
| 166 | Exosomes: Small vesicles with big roles in cancer, vaccine development, and therapeutics |
| Thakur, A; Parra, DC; Motallebnejad, P; Brocchi, M; Chen, HJ | |
| 167 | Carrier-free nanodrugs with efficient drug delivery and release for cancer therapy: From intrinsic physicochemical properties to external modification |
| Mei, H; Cai, SS; Huang, DN; Gao, HL; Cao, J; He, B | |
| 168 | An injectable, self-healing, electroconductive extracellular matrix-based hydrogel for enhancing tissue repair after traumatic spinal cord injury |
| Luo, Y; Fan, L; Liu, C; Wen, HQ; Wang, SH; Guan, PF; Chen, DF; Ning, CY; Zhou, L; Tan, GX | |
| 169 | Boosting cartilage repair with silk fibroin-DNA hydrogel-based cartilage organoid precursor |
| Shen, CY; Wang, J; Li, GF; Hao, SY; Wu, Y; Song, PR; Han, YF; Li, MM; Wang, GC; Xu, K; Zhang, H; Ren, XX; Jing, YY; Yang, R; Geng, Z; Su, JC | |
| 170 | Tailoring micro/nano-fibers for biomedical applications |
| Kong, B; Liu, R; Guo, JH; Lu, L; Zhou, Q; Zhao, YJ | |
| 171 | Anti-inflammatory activity of curcumin-loaded tetrahedral framework nucleic acids on acute gouty arthritis |
| Zhang, M; Zhang, XL; Tian, TR; Zhang, Q; Wen, YT; Zhu, JY; Xiao, DX; Cui, WT; Lin, YF | |
| 172 | 3D printed silk-gelatin hydrogel scaffold with different porous structure and cell seeding strategy for cartilage regeneration |
| Li, QT; Xu, S; Feng, Q; Dai, QY; Yao, LT; Zhang, YC; Gao, HC; Dong, H; Chen, DF; Cao, XD | |
| 1 | Fostering tissue engineering and regenerative medicine to treat musculoskeletal disorders in bone and muscle |
| Park, S; Rahaman, KA; Kim, YC; Jeon, H; Han, HS | |
| 2 | Antibacterial conductive self-healing hydrogel wound dressing with dual dynamic bonds promotes infected wound healing |
| Qiao, LP; Liang, YP; Chen, JY; Huang, Y; Alsareii, SA; Alamri, AM; Harraz, FA; Guo, BL | |
| 3 | A DNA tetrahedron-based nanosuit for efficient delivery of amifostine and multi-organ radioprotection |
| Yang, YT; Yang, JL; Zhu, JW; Chen, XY; Zhou, L; Ma, WJ; Lin, YF | |
| 4 | Developing natural polymers for skin wound healing |
| Zhang, H; Lin, X; Cao, XY; Wang, Y; Wang, JL; Zhao, YJ | |
