Featured
-
-
Article
| Open AccessLiquid foam improves potency and safety of gene therapy vectors
Gene therapy is a rapidly growing field, but is hindered by efficacy and safety concerns, including those related to delivery methods. Here, inspired by the use of foam in the delivery of pharmaceuticals, Dr. Stephan and colleagues formulated foam as a safe and effective delivery platform for gene therapy.
- K. Fitzgerald
- , S. B. Stephan
- & M. T. Stephan
-
Perspective
| Open AccessRediscovery of mononuclear phagocyte system blockade for nanoparticle drug delivery
Temporal blockade of the mononuclear phagocyte system is an approach to enhance the therapeutic efficiency of nanocarrier drug-delivery systems but the broad applicability is hindered by the complexity of optimisation and management of potential side effects. Here, the authors review the development of this technique and show its efficiency using meta-analysis of the published data and discuss essential features for its successful translation to clinic.
- Ivan V. Zelepukin
- , Konstantin G. Shevchenko
- & Sergey M. Deyev
-
Article
| Open AccessMechanically robust and personalized silk fibroin-magnesium composite scaffolds with water-responsive shape-memory for irregular bone regeneration
The regeneration of critical-size bone defects, especially those with irregular shapes, remains a clinical challenge. Here, the authors report a shape-memory, tailorable, self-adaptive and bioactive silk fibroin/magnesium composite scaffold that can quickly match irregular defects by simple trimming and lead to good interface integration.
- Zhinan Mao
- , Xuewei Bi
- & Yufeng Zheng
-
Review Article
| Open AccessCritical learning from industrial catalysis for nanocatalytic medicine
The knowledge gained from industrial catalysis benefits advancements of nanocatalytic medicines. Here the authors review the similarities, differences and connections in catalytic reactions between industrial and medical applications to support deep understanding and rational design of nanocatalytic medicines.
- Zhaokui Jin
- , Lingdong Jiang
- & Qianjun He
-
Article
| Open AccessMultiscale architecture design of 3D printed biodegradable Zn-based porous scaffolds for immunomodulatory osteogenesis
Rapid degradation inducing overdose toxicity remains challenging in porous biodegradable bone scaffolds. Here the authors present multiscale architecture design on ZnLi scaffolds with 90% porosity orchestrates immune responses and subsequent bone regeneration.
- Shuang Li
- , Hongtao Yang
- & Yufeng Zheng
-
Article
| Open AccessTumor-activated in situ synthesis of single-atom catalysts for O2-independent photodynamic therapy based on water-splitting
The utility of single-atom catalysts (SACs) for photodynamic therapy (PDT) has been limited by tumor hypoxia and side effects on normal tissues. Here the authors address these issues by developing an approach of tumor microenvironment-activated in situ synthesis of SACs for tumor-specific water-based PDT.
- Yiyan Yin
- , Xiyang Ge
- & Na Na
-
Article
| Open AccessSilk fibroin hydrogel adhesive enables sealed-tight reconstruction of meniscus tears
Suture repair is the current clinical treatment for meniscus tears, but inaccessible tears in company with re-tears susceptibility remain unresolved. Here the authors address these issues by developing a meniscus adhesive-based strategy for the seamless and dense reconstruction of torn meniscus.
- Xihao Pan
- , Rui Li
- & Hongwei Ouyang
-
Article
| Open AccessUltra-photostable small-molecule dyes facilitate near-infrared biophotonics
Near-infrared small molecule dyes are attractive in biophotonics, but generally rely on expanded aromatic structures to achieve this redshift. Here the authors report the use of a ground state antiaromatic strategy for 14 aminofluorene dyes, and their use in imaging kidney injury.
- Kui Yan
- , Zhubin Hu
- & Fan Zhang
-
Article
| Open AccessOxygen-independent organic photosensitizer with ultralow-power NIR photoexcitation for tumor-specific photodynamic therapy
Conventional photodynamic therapy (PDT) is hindered by oxygen-dependent photosensitization pathways and high-power-density photoexcitation. Here, the authors develop polymer-based organic photosensitizers (PSs) through PS skeleton design and side-chain engineering to allow tumor-specific PDT under oxygen-free conditions using ultralow-power 808 nm photoexcitation.
- Yufu Tang
- , Yuanyuan Li
- & Bin Liu
-
Article
| Open AccessAcidity-activatable upconversion afterglow luminescence cocktail nanoparticles for ultrasensitive in vivo imaging
Activatable afterglow luminescence nanoprobes reduce unspecific signals and improve imaging fidelity, but their utility is limited by a requisition of donor-acceptor distance (>10 nm) in common biomarker-activatable designs. Here, the authors address this issue by developing organic afterglow luminescence cocktail nanoparticles for acid-activatable upconversion afterglow luminescence imaging.
- Yue Jiang
- , Min Zhao
- & Qingqing Miao
-
Article
| Open AccessCholesterol-modified sphingomyelin chimeric lipid bilayer for improved therapeutic delivery
Cholesterol (Chol) transfer from lipid bilayer jeopardizes membrane stability and causes premature payload leakage, yielding suboptimal efficacy. Here, the authors report a Chol-modified sphingomyelin (SM) bilayer via covalently conjugating Chol to SM, which retains Chol condensing ability and improves pharmacokinetics and therapeutic delivery of various drugs in diverse disease animal models.
- Zhiren Wang
- , Wenpan Li
- & Jianqin Lu
-
Article
| Open AccessFully bioresorbable hybrid opto-electronic neural implant system for simultaneous electrophysiological recording and optogenetic stimulation
Bioresorbable neural implants offer a promising solution to the challenges of secondary surgeries required for the removal of implanted devices. Here, the authors introduce a fully bioresorbable flexible hybrid opto-electronic system for simultaneous electrophysiological recording and optogenetic stimulation.
- Myeongki Cho
- , Jeong-Kyu Han
- & Ki Jun Yu
-
Article
| Open AccessJanus microparticles-based targeted and spatially-controlled piezoelectric neural stimulation via low-intensity focused ultrasound
Wireless and localized stimulation of neural cells remains challenging. Here, the authors propose piezoelectric magnetic Janus microparticles that can target and stimulate neurons under low-intensity ultrasound through voltage-gated ion channels.
- Mertcan Han
- , Erdost Yildiz
- & Metin Sitti
-
Article
| Open AccessMesoporous nanoperforators as membranolytic agents via nano- and molecular-scale multi-patterning
Plasma membrane lysis is an effective anticancer strategy that mostly relies on soluble molecular membranolytic agents, while nanomaterial-based membranolytic agents have been unexplored. Herein, the authors report a nano- and molecular-scale multi-patterning strategy for fabricating mesoporous membranolytic nanoperforators with an intrinsic membranolytic activity.
- Yannan Yang
- , Shiwei Chen
- & Chengzhong Yu
-
Article
| Open AccessProtective effects of Pt-N-C single-atom nanozymes against myocardial ischemia-reperfusion injury
Nanozymes can be used for targeting reactive oxygen species (ROS) to alleviate myocardial ischemia/reperfusion (I/R) injury, but hindered by catalytic performance and toxicity concerns. Here the authors report multienzyme-mimicking and biocompatible Pt-NC single-atom nanozymes as an efficient ROS decomposer for restoring cellular homeostasis and mitigating apoptotic progression after I/R injury.
- Tianbao Ye
- , Cheng Chen
- & Chengxing Shen
-
Article
| Open AccessBlack phosphorus boosts wet-tissue adhesion of composite patches by enhancing water absorption and mechanical properties
The utility of wet-tissue adhesives has been impeded by the suboptimal adhesive strength. Here the authors report a composite patch integrated with BP nanosheets that improve the wet-tissue adhesion by enhancing the water absorption and mechanical properties of the patch and demonstrate the uses of the patch in hemostasis, physical-activity monitoring and tumour-recurrence prevention.
- Yuanchi Zhang
- , Cairong Li
- & Yuxiao Lai
-
Article
| Open AccessUltrasound-activated piezo-hot carriers trigger tandem catalysis coordinating cuproptosis-like bacterial death against implant infections
Implantation-associated infections often lead to infections. Here, the authors propose a piezo-based nanoreactor to achieve US-excited tandem catalysis, endowing the polyetherketoneketone bone scaffold with on-demand antibacterial and osteogenic capacities.
- Yanli Huang
- , Xufeng Wan
- & Duan Wang
-
Article
| Open Access4D printed hydrogel scaffold with swelling-stiffening properties and programmable deformation for minimally invasive implantation
3D printing has potential in designing personalised scaffolds, but minimally invasive implantation is still challenging. Here, the authors report the development of a polyurethane material with temperature triggered shape memory and water triggered deformation that allows for transcatheter delivery.
- Bo Liu
- , Hui Li
- & Xiaoli Zhao
-
Article
| Open AccessBiomimetic computer-to-brain communication enhancing naturalistic touch sensations via peripheral nerve stimulation
Loss of communication between the brain and the body severely impacts the sensorimotor abilities of disabled individuals. Here, the authors design and test a neuroscience-driven framework for advancing bionic devices that leverages biomimetic stimulation to induce physiologically plausible information flow in animals and enhances patient performance with neuroprostheses.
- Giacomo Valle
- , Natalija Katic Secerovic
- & Stanisa Raspopovic
-
Article
| Open AccessMolecular co-assembled strategy tuning protein conformation for cartilage regeneration
The assembly of oligopeptide and polypeptide molecules can reconstruct various ordered advanced structures. Here the authors develop a “molecular velcro”-inspired amphiphilic supramolecular co-assembly strategy, which improves the mechanical strength and cartilaginous regeneration efficiency through conformation transition.
- Chengkun Zhao
- , Xing Li
- & Yong Sun
-
Article
| Open AccessElastic porous microspheres/extracellular matrix hydrogel injectable composites releasing dual bio-factors enable tissue regeneration
Injectable pro-regenerative biomaterials are vital for developing minimally invasive regenerative treatment, but impeded by brittleness and lack of biological functions. Here the authors address these issues by engineering injectable functionalized composites that facilitate the sequential release of IL-4 and IGF-1 to regulate macrophages and stem cell behavior for enhanced in situ regeneration.
- Yi Li
- , Siyang Liu
- & Meifeng Zhu
-
Article
| Open AccessA 3D printable tissue adhesive
Tissue adhesives have received significant interest for their clinical utility but are typically incompatible with advanced manufacturing methods. Here, the authors introduce a 3D printable tissue adhesive for the fabrication of patches and devices for diverse biomedical applications.
- Sarah J. Wu
- , Jingjing Wu
- & Xuanhe Zhao
-
Article
| Open AccessMicrometer-thick and porous nanocomposite coating for electrochemical sensors with exceptional antifouling and electroconducting properties
It is vital but challenging to develop coating technologies for addressing reliability and durability issues of electrochemical sensors when exposed to diverse and complex biological environments. Here, the authors report a micrometer-thick, porous and robust nanocomposite coating that enables highly sensitive and stable electrochemical sensors.
- Jeong-Chan Lee
- , Su Yeong Kim
- & Donald E. Ingber
-
Article
| Open AccessProgrammed microalgae-gel promotes chronic wound healing in diabetes
The treatment of infected diabetic wounds faces obstacles of bacterial infection, hypoxia, hyperexpression of reactive oxygen species, and inflammation. Here, the authors address these issues by developing a programmed treatment strategy that utilizes live Haematococcus to promote healing of diabetic wounds in a comprehensive manner.
- Yong Kang
- , Lingling Xu
- & Xiaoyuan Ji
-
Article
| Open AccessTuning oxidant and antioxidant activities of ceria by anchoring copper single-site for antibacterial application
Nanozymes used for antibacterial therapy conventionally have complex catalytic activities that cause multiple pathways in parallel and unwanted outcome. Here, the authors report a Cu-CeO2 single site nanozyme in which Cu single site modification can enhance the peroxidase-like activity and inhibit the hydroxyl radical antioxidant capacity of CeO2 to optimise the antibacterial effects.
- Peng Jiang
- , Ludan Zhang
- & Yuguang Wang
-
Article
| Open AccessHydrogel dressings with intrinsic antibiofilm and antioxidative dual functionalities accelerate infected diabetic wound healing
Dressings for aiding in chronic wound healing can be beneficial, but often involve additional processes or leave residue. Here, the authors report a hydrogel dressing with antibiofilm and antioxidative properties for the treatment of infected diabetic wounds.
- Dicky Pranantyo
- , Chun Kiat Yeo
- & Mary B. Chan-Park
-
Article
| Open AccessIn-situ-sprayed therapeutic hydrogel for oxygen-actuated Janus regulation of postsurgical tumor recurrence/metastasis and wound healing
Surgery is a primary therapeutic modality for treating melanoma, but it is challenging to tackle tumor recurrence/metastasis and postsurgical wounds. Here the authors report a sprayable hydrogel capable of long-lasting and controllable oxygen supply for preventing tumor recurrence/metastasis and simultaneously promoting wound healing during the postsurgical treatment of melanoma.
- Shuiling Chen
- , Yang Luo
- & Shaobing Zhou
-
Article
| Open AccessA wearable electrostimulation-augmented ionic-gel photothermal patch doped with MXene for skin tumor treatment
A wearable biological patch capable of producing multiple responses to light and electricity without interfering with daily activities is desired for skin cancer treatment but remains elusive. Herein, the authors report a skin-mountable and dual-responsive electrothermal patch for melanoma treatment by the co-therapy of photothermal and electrical stimulations.
- Xingkai Ju
- , Jiao Kong
- & Yongdong Jin
-
Article
| Open AccessA drug-free cardiovascular stent functionalized with tailored collagen supports in-situ healing of vascular tissues
The efficacy of drug-eluting stents remains limited due to delayed reendothelialization, impaired intimal remodeling, and potentially increased late restenosis. Here the authors propose a one-produces-multi stent coating, a drug-free strategy that supports in situ healing of vascular tissues, as demonstrated in rabbit and porcine models.
- Haoshuang Wu
- , Li Yang
- & Yunbing Wang
-
Article
| Open AccessLithiated porous silicon nanowires stimulate periodontal regeneration
Prelithiation can introduce controllable amounts of lithium within porous silicon, however it yields a highly reactive material unsuitable for biomedicine. In this study, the authors present a strategy to lithiate porous silicon nanowires, resulting in a biocompatible and bioresorbable material.
- Martti Kaasalainen
- , Ran Zhang
- & Ciro Chiappini
-
Article
| Open AccessSelf-propelled assembly of nanoparticles with self-catalytic regulation for tumour-specific imaging and therapy
In vivo manipulation of the dynamics of nanoparticles’ is essential for disease-specific imaging and therapy, but tends to involve complex design processes. Here, the authors report a strategy for manipulating the assembly of nanoparticles in vivo through a self-catalysis-instructed dimerization of tyrosine, offering convenient fabrication, high reaction specificity and biocompatibility.
- Mengmeng Xia
- , Qiyue Wang
- & Daishun Ling
-
Article
| Open AccessA uniform data processing pipeline enables harmonized nanoparticle protein corona analysis across proteomics core facilities
Protein corona is crucial for the safety and efficacy of nanomedicines, and the protein composition of the corona layer is typically analysed using liquid chromatography-mass spectrometry. Here the authors report that the use of a uniform database search provides an opportunity for taking measures in good practice and quality control in protein corona research using mass spectroscopy technique.
- Hassan Gharibi
- , Ali Akbar Ashkarran
- & Morteza Mahmoudi
-
Article
| Open AccessHeparin-network-mediated long-lasting coatings on intravascular catheters for adaptive antithrombosis and antibacterial infection
Catheter-related infection and thrombosis are serious complications, and preventative coatings are not always suitable. Here, the authors report a heparin mediated coating for to address both infections and thrombosis from catheters simultaneously.
- Lin Liu
- , Huan Yu
- & Hengchong Shi
-
Article
| Open AccessAll-in-one porous membrane enables full protection in guided bone regeneration
Precise coupling of different or even contradictory material properties and biological characteristics is needed for tissue engineering but challenging. Here the authors report an all-in-one guided bone regeneration membrane that asymmetrically combines stiffness and flexibility, ingrowth barrier and ingrowth guiding, alongside anti-bacteria and cell-activation.
- Shuyi Wu
- , Shulu Luo
- & Yan Li
-
Article
| Open AccessIntranasal mask for protecting the respiratory tract against viral aerosols
The spread of many infectious diseases substantially relies on aerosol transmission to the respiratory tract. Here, the authors design an intranasal mask with the ability to intercept viral aerosols, entrap and inactivate virus, thus preventing respiratory tract infection.
- Xiaoming Hu
- , Shuang Wang
- & Wei Wei
-
Article
| Open AccessSoft ferroelectret ultrasound receiver for targeted peripheral neuromodulation
Neurostimulators are often bulky and uncomfortable. Researchers report a wireless, leadless, and battery-free ultrasound receiver that wraps around the target peripheral nerve and allows precise modulation of organ function, providing a framework for future bioelectronic medicines
- Tong Li
- , Zhidong Wei
- & Zhang-Qi Feng
-
Article
| Open AccessChiral metal-organic frameworks incorporating nanozymes as neuroinflammation inhibitors for managing Parkinson’s disease
The treatment of Parkinson’s disease (PD) is hampered by the lack of effective blood–brain barrier (BBB) traversing drugs. Here, the authors report nanozyme-integrated metal-organic frameworks with antioxidant activity and chiral-dependent BBB transendocytosis as anti-neuroinflammatory agents for PD treatment.
- Wei Jiang
- , Qing Li
- & Kelong Fan
-
Article
| Open AccessA click chemistry-mediated all-peptide cell printing hydrogel platform for diabetic wound healing
Diabetic wounds are challenging to heal, with vascular injury induced by high glucose a key pathological factor. Here, the authors report a hydrogel designed to interrupt the process of vascular injury, with angiogenic capacity.
- Jinjian Huang
- , Rong Yang
- & Jianan Ren
-
Article
| Open AccessUltra-durable cell-free bioactive hydrogel with fast shape memory and on-demand drug release for cartilage regeneration
Achieving successful in vivo cartilage regeneration remains challenging. Here they present a cell-free, multiple hydrogen-bond crosslinked hydrogel loaded with tannic acid and Kartogenin with ultra-durable mechanical properties and stage-dependent drug release behavior to promote cartilage regeneration.
- Yuxuan Yang
- , Xiaodan Zhao
- & Xuesi Chen
-
Article
| Open AccessA self-stabilized and water-responsive deliverable coenzyme-based polymer binary elastomer adhesive patch for treating oral ulcer
The therapeutic benefits of biomaterials-based treatments for oral ulcer have been limited by the materials’ poor adhesion and short-time retention in oral cavity. Here, the authors report a polymer binary elastomer adhesive patch that allows water-responsive sustainable delivery of bioactive small molecules and durable adhesion to oral mucosal wounds to achieve efficient therapy of oral ulcer.
- Chunyan Cui
- , Li Mei
- & Wenguang Liu
-
Article
| Open AccessBiofilm microenvironment triggered self-enhancing photodynamic immunomodulatory microneedle for diabetic wound therapy
The treatment of diabetic wounds tends to be hindered by complex wound environments, and the critical role of the microenvironment in the chronic diabetic wounds has not been explored for therapeutic development. Here, the authors develop a wound microenvironment-responsive microneedle bandage to achieve self-enhanced, catabolic and dynamic therapy of chronic wounds.
- Li Yang
- , Dan Zhang
- & Xiaowei Zeng
-
Article
| Open AccessBiofilm heterogeneity-adaptive photoredox catalysis enables red light-triggered nitric oxide release for combating drug-resistant infections
Biofilms are heterogeneous and difficult to treat. Here, the authors report the preparation of micellar nanoparticles specifically for the treatment of biofilm, that release nitric oxide through two distinct photoredox catalysis mechanisms.
- Jian Cheng
- , Guihai Gan
- & Jinming Hu
-
Article
| Open AccessDiatomic iron nanozyme with lipoxidase-like activity for efficient inactivation of enveloped virus
Enveloped viruses encased within a lipid bilayer membrane are highly contagious and cause diseases like influenza and COVID-19, so strategies for their prevention and inactivation are needed. Here, the authors develop a diatomic iron nanozyme with lipoxidase-like activity for the inactivation of enveloped viruses, where the diatomic iron sites destroy the viral envelope via lipid peroxidation.
- Beibei Li
- , Ruonan Ma
- & Yadong Li
-
Article
| Open AccessResorbable barrier polymers for flexible bioelectronics
Resorbable bioelectronic devices have potential as tools for monitoring physiological parameters, but short functional lifetimes have slowed translation. Here, the authors report succinate-based copolyesters with barrier properties able to extend the functional lifetime of devices.
- Samantha M. McDonald
- , Quansan Yang
- & Matthew L. Becker
-
Article
| Open AccessPathogenesis-adaptive polydopamine nanosystem for sequential therapy of ischemic stroke
Reperfusion is a main strategy for restoring blood supply after ischemic stroke, but it induces neuroinflammation that undergoes dynamic progression, hindering the treatment of ischemic stroke. Here, the authors report a pathogenesis-adaptive nanosystem for sequential and on-demand regulation of reperfusion-induced dynamic neuroinflammation for ischemic stroke therapy.
- Di Wu
- , Jing Zhou
- & Zhong Chen
-
Article
| Open AccessNanosensitizer-mediated augmentation of sonodynamic therapy efficacy and antitumor immunity
The dense stroma of desmoplastic tumor limits nanotherapeutic penetration and hampers the antitumor immune response. Here the authors use tin monosulfide nanoparticles as nano-sonosensitizers to overcome the stromal barrier in triple negative breast cancer and improve the efficacy of sonodynamic therapy and boost antitumor immunity.
- Yongjiang Li
- , Wei Chen
- & Wei Tao
-
Article
| Open AccessSelf-promoted electroactive biomimetic mineralized scaffolds for bacteria-infected bone regeneration
Infected bone defects are a major challenge in orthopedic treatment. Here, the authors develop an electroactive mineralized scaffold that achieves nearly complete in situ healing of infected bone in rats, rabbits and beagle dogs.
- Zixin Li
- , Danqing He
- & Yan Liu
-
Article
| Open AccessSingle-atom catalysts-based catalytic ROS clearance for efficient psoriasis treatment and relapse prevention via restoring ESR1
Psoriasis is a common inflammatory disease, and the overproduction of reactive oxygen species (ROS) in skin lesions plays a critical role in the progress of psoriasis. Here, the authors report the use of multienzyme-inspired biomimetic iron single-atom catalysts (FeN4O2-SACs) with broad-spectrum ROS-scavenging capability for psoriasis treatment and relapse prevention via related gene restoration.
- Xiangyu Lu
- , Le Kuai
- & Jianlin Shi
-
Article
| Open AccessNIR-dye bridged human serum albumin reassemblies for effective photothermal therapy of tumor
Human serum albumin (HSA) can be used as a drug delivery material for cancer therapy. Here, the authors report an HSA-based photothermal platform that improves drug loading and photothermal therapeutic performance in breast cancer mouse models.
- Zhaoqing Shi
- , Miaomiao Luo
- & Hongzhong Chen