Themed collection Targeted biomedical applications of nanomaterials

44 items
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Unlocking new possibilities: application of MXenes in 3D bioprinting for advanced therapy

This article presents MXenes' potential in 3D bioprinting, discussing their benefits for bio-printed scaffolds, 3D bioprinting techniques, bio-ink criteria, applications of MXene-incorporated constructs, current challenges, and future directions.

Graphical abstract: Unlocking new possibilities: application of MXenes in 3D bioprinting for advanced therapy
From the themed collection: Recent Review Articles
Review Article

DNA-templated fluorescent metal nanoclusters and their illuminating applications

After the discovery of DNA during the mid-20th century, a multitude of novel methodologies have surfaced which exploit DNA for its various properties.

Graphical abstract: DNA-templated fluorescent metal nanoclusters and their illuminating applications
Review Article

Surface engineering of orthopedic implants for better clinical adoption

Enhancing cell-material interactions through surface engineering to create biomimetic environments and extend implant life.

Graphical abstract: Surface engineering of orthopedic implants for better clinical adoption
Review Article

Bioactive glass–polymer nanocomposites: a comprehensive review on unveiling their biomedical applications

A comprehensive overview of bioactive glass–polymer nanocomposites highlighting the various fabrication strategies, the materials involved and the major biomedical applications.

Graphical abstract: Bioactive glass–polymer nanocomposites: a comprehensive review on unveiling their biomedical applications
Review Article

Unleashing nanotechnology to redefine tumor-associated macrophage dynamics and non-coding RNA crosstalk in breast cancer

Nanocarrier-based targeting tumor-associated macrophages can reprogram pro-tumor M2 macrophages into anti-tumor M1 macrophages, offering a promising approach for advanced breast cancer treatment. Image created in BioRender.com.

Graphical abstract: Unleashing nanotechnology to redefine tumor-associated macrophage dynamics and non-coding RNA crosstalk in breast cancer
Open Access Review Article

Biopolymeric and lipid-based nanotechnological strategies for the design and development of novel mosquito repellent systems: recent advances

This review critically examines the recent advances in the innovative use of biopolymeric and lipid-based nanomaterials in developing safer and more effective mosquito-repellent formulations to prevent mosquito-transmitted diseases.

Graphical abstract: Biopolymeric and lipid-based nanotechnological strategies for the design and development of novel mosquito repellent systems: recent advances
Review Article

Light-responsive functional nanomaterials as pioneering therapeutics: a paradigm shift to combat age-related disorders

Aging leads to diseases marked by plaque formation, increased senescent cells, and compromised body organ systems. Light-responsive nanomaterials offer a promising therapeutic approach to address the various aspects of age-related pathologies.

Graphical abstract: Light-responsive functional nanomaterials as pioneering therapeutics: a paradigm shift to combat age-related disorders
Open Access Review Article

Biosensors for detection of airborne pathogenic fungal spores: a review

An overview of biosensors for airborne pathogenic fungal spore detection.

Graphical abstract: Biosensors for detection of airborne pathogenic fungal spores: a review
Review Article

Advancements in rheumatoid arthritis therapy: a journey from conventional therapy to precision medicine via nanoparticles targeting immune cells

Advancements in RA therapy from conventional drugs to nanomedicines based on immune cell therapy, which increases the specificity of the treatment and decreases the off-site effects, are reported. Images are created with BioRender.com.

Graphical abstract: Advancements in rheumatoid arthritis therapy: a journey from conventional therapy to precision medicine via nanoparticles targeting immune cells
Review Article

DNA functionalized programmable hybrid biomaterials for targeted multiplexed applications

With the advent of DNA nanotechnology, DNA-based biomaterials have emerged as a unique class of materials at the center of various biological advances.

Graphical abstract: DNA functionalized programmable hybrid biomaterials for targeted multiplexed applications
Open Access Review Article

Revolutionizing cancer therapy using tetrahedral DNA nanostructures as intelligent drug delivery systems

DNA nanostructures have surfaced as intriguing entities with vast potential in biomedicine, notably in the drug delivery area.

Graphical abstract: Revolutionizing cancer therapy using tetrahedral DNA nanostructures as intelligent drug delivery systems
From the themed collection: Recent Review Articles
Open Access Review Article

Self-healing, injectable chitosan-based hydrogels: structure, properties and biological applications

Conventional biomaterials suffer from mechanical stresses and biochemical degradation, compromising performance and structural integrity.

Graphical abstract: Self-healing, injectable chitosan-based hydrogels: structure, properties and biological applications
Paper

3D-printed biomimetic scaffolds loaded with ADSCs and BMP-2 for enhanced rotator cuff repair

The schematic diagram of a 3D-printed biomimetic scaffold applied to tendon–bone interface repair.

Graphical abstract: 3D-printed biomimetic scaffolds loaded with ADSCs and BMP-2 for enhanced rotator cuff repair
Paper

Rebamipide nanocrystal with improved physicomechanical properties and its assessment through bio-mimicking 3D intestinal permeability model

This study investigated the development and evaluation of rebamipide nanocrystals (REB-NCs) a BCS class IV drug for enhancing solubility and permeability, and used as anti-ulcer medication.

Graphical abstract: Rebamipide nanocrystal with improved physicomechanical properties and its assessment through bio-mimicking 3D intestinal permeability model
Paper

Development of a two-dimensional peptide functionalized-reduced graphene oxide biomaterial for wound care applications

Peptide functionalized-reduced graphene oxide biomaterial for wound care applications.

Graphical abstract: Development of a two-dimensional peptide functionalized-reduced graphene oxide biomaterial for wound care applications
Open Access Paper

Photophysical, thermal and imaging studies on vancomycin functional branched poly(N-isopropyl acrylamide) of differing degrees of branching containing nile red for detection of Gram-positive bacteria

Highly branched poly(N-isopropyl acrylamide) additives chain end functionalised with vancomycin have been designed to agglutinate and report on targetted Gram-positive strains of bacteria (S. aureus).

Graphical abstract: Photophysical, thermal and imaging studies on vancomycin functional branched poly(N-isopropyl acrylamide) of differing degrees of branching containing nile red for detection of Gram-positive bacteria
Paper

Post-therapy via integrated curcumin and doxorubicin modified cerium-based UiO-66 MOFs using an antioxidant and anticancer therapeutic strategy

The integration capitalizes on the free radical scavenging abilities of cerium-based materials, boosting the system's antioxidant capacity. This novel drug delivery preserves the tumor suppressive impact of the anticancer drugs.

Graphical abstract: Post-therapy via integrated curcumin and doxorubicin modified cerium-based UiO-66 MOFs using an antioxidant and anticancer therapeutic strategy
Paper

Selective assembly and insertion of ubiquicidin antimicrobial peptide in lipid monolayers

The selective assembly of ubiquicidin antimicrobial peptide near a lipid monolayer was explored in this article aiming to understand the role of available lipids in a bacterial membrane.

Graphical abstract: Selective assembly and insertion of ubiquicidin antimicrobial peptide in lipid monolayers
Paper

Folic acid-targeted redox responsive polylactic acid-based nanoparticles co-delivering pirarubicin and salinomycin suppress breast cancer tumor growth in vivo

Schematic illustration of design, administration, and mechanism of action of Pira/Sal dual-loaded FA-conjugated redox responsive [S-(PLA-b-PEG-CONH)]2 block copolymeric nanoparticles.

Graphical abstract: Folic acid-targeted redox responsive polylactic acid-based nanoparticles co-delivering pirarubicin and salinomycin suppress breast cancer tumor growth in vivo
Paper

A bioinspired porous and electroactive reduced graphene oxide hydrogel based biosensing platform for efficient detection of tumor necrosis factor-α

Synthesis of an L-cys_rGO hydrogel and fabrication of a BSA/anti-TNF-α/L-cys_rGO hydrogel/gSPE immunosensor.

Graphical abstract: A bioinspired porous and electroactive reduced graphene oxide hydrogel based biosensing platform for efficient detection of tumor necrosis factor-α
Paper

In situ thermosensitive H2O2/NO self-sufficient hydrogel for photothermal ferroptosis of triple-negative breast cancer

Schematic illustrating calcium peroxide (CaO2) nanoparticles capable of supplying H2O2/NO upon NIR trigger, synergising with a ferroptosis inducer, RSL-3 (CPIR NPs) for photothermal ferroptosis through mitochondrial damage and lipid peroxidation.

Graphical abstract: In situ thermosensitive H2O2/NO self-sufficient hydrogel for photothermal ferroptosis of triple-negative breast cancer
Paper

Encapsulation of telmisartan inside insulinoma-cell-derived extracellular vesicles outperformed biomimetic nanovesicles in modulating the pancreatic inflammatory microenvironment

Diabetes mellitus (DM) is a chronic metabolic condition, characterized by hyperglycaemia, oxidative imbalance, pancreatic β-cell death, and insulin insufficiency.

Graphical abstract: Encapsulation of telmisartan inside insulinoma-cell-derived extracellular vesicles outperformed biomimetic nanovesicles in modulating the pancreatic inflammatory microenvironment
Open Access Paper

Influence of lipid vesicle properties on the function of conjugation dependent membrane active peptides

Membrane active peptides (MAPs) can provide novel means to trigger the release of liposome encapsulated drugs to improve the efficacy of liposomal drug delivery systems.

Graphical abstract: Influence of lipid vesicle properties on the function of conjugation dependent membrane active peptides
Paper

Surface modification of medical grade biomaterials by using a low-temperature-processed dual functional Ag–TiO2 coating for preventing biofilm formation

Ag–TiO2 coating on various medical-grade biomaterials demonstrates their antibacterial and antibiofilm properties.

Graphical abstract: Surface modification of medical grade biomaterials by using a low-temperature-processed dual functional Ag–TiO2 coating for preventing biofilm formation
Open Access Paper

Cellular uptake and viability switching in the properties of lipid coated carbon quantum dots for potential bioimaging and therapeutics

Carbon quantum dots derived from mango leaves exhibited red fluorescence.

Graphical abstract: Cellular uptake and viability switching in the properties of lipid coated carbon quantum dots for potential bioimaging and therapeutics
Paper

Incorporation of green synthesized ZnO with the support of rGO sheets into PVDF membranes to improve their filtration and antifouling properties for wastewater treatment

A rGO/ZnO nanocomposite membrane had excellent filtration properties with good antifouling behaviour.

Graphical abstract: Incorporation of green synthesized ZnO with the support of rGO sheets into PVDF membranes to improve their filtration and antifouling properties for wastewater treatment
Paper

Nordihydroguaiaretic acid microparticles are effective in the treatment of osteoarthritis

Sustained delivery of NDGA via polymeric microparticles maintains therapeutic levels in joints, reduces cartilage damage, and alleviates post-traumatic osteoarthritis (PTOA) in mice through ROS modulation and autophagy induction.

Graphical abstract: Nordihydroguaiaretic acid microparticles are effective in the treatment of osteoarthritis
Open Access Paper

Engineering hemin-loaded hyaluronan needle-like microparticles with photoprotective properties against UV-induced tissue damage

Hemin-loaded hyaluronan needle-like microparticles can protect against the UV-induced damage of dermal fibroblasts and the accompanied oxidative and nitrosative stress.

Graphical abstract: Engineering hemin-loaded hyaluronan needle-like microparticles with photoprotective properties against UV-induced tissue damage
Open Access Paper

Liposome biodistribution mapping with in vivo X-ray fluorescence imaging

X-ray fluorescence imaging tracks liposomes with high resolution and penetration depth. The encapsulated ruthenium(II) polypyridyl dye enables dual mode imaging.

Graphical abstract: Liposome biodistribution mapping with in vivo X-ray fluorescence imaging
Paper

Iron oxide nanoparticle-stabilized Pickering emulsion-templated porous scaffolds loaded with polyunsaturated fatty acids (PUFAs) for bone tissue engineering

Polyunsaturated fatty acids (PUFAs) loaded onto the porous acrylate-based scaffolds significantly enhance the expression of osteogenic markers.

Graphical abstract: Iron oxide nanoparticle-stabilized Pickering emulsion-templated porous scaffolds loaded with polyunsaturated fatty acids (PUFAs) for bone tissue engineering
Paper

Soft nanoparticles as antimicrobial agents and carriers of microbiocides for enhanced inhibition activity

Antibiotic resistance continues to pose significant health challenges. Dual action soft nanoparticles provide an advantageous platform to address it.

Graphical abstract: Soft nanoparticles as antimicrobial agents and carriers of microbiocides for enhanced inhibition activity
Open Access Paper

L-cysteine capped MoS2 QDs for dual-channel imaging and superior Fe3+ ion sensing in biological systems

L-Cysteine capped MoS2 QDs are synthesized and employed for dual-channel imaging and superior Fe3+ ion sensing in biological systems.

Graphical abstract: l-cysteine capped MoS2 QDs for dual-channel imaging and superior Fe3+ ion sensing in biological systems
Paper

Design and synthesis of a shikimoyl-functionalized cationic di-block copolypeptide for cancer cell specific gene transfection

Targeted and efficient gene delivery systems hold tremendous potential for the improvement of cancer therapy by enabling appropriate modification of biological processes and the strategic design of the delivery vector plays a critical role in the improved efficacy.

Graphical abstract: Design and synthesis of a shikimoyl-functionalized cationic di-block copolypeptide for cancer cell specific gene transfection
Open Access Paper

Shape anisotropy induced jamming of nanoparticles at liquid interfaces: a tensiometric study

Self-assembly phenomena at the liquid–liquid interface measured using inverted pendant drop tensiometry, provide insights into the jamming of nanocolloids governed through structural organization at the nanoscale due to their shape anisotropy.

Graphical abstract: Shape anisotropy induced jamming of nanoparticles at liquid interfaces: a tensiometric study
Open Access Paper

G4-Hemin-loaded 2D nanosheets for combined and targeted chemo-photodynamic cancer therapy

A supramolecular strategy for the fabrication of a PDT-active 2D nanosheet loaded with a POD-mimicking DNAzyme for the synergetic combination of PDT and CDT for targeted cancer therapy is reported.

Graphical abstract: G4-Hemin-loaded 2D nanosheets for combined and targeted chemo-photodynamic cancer therapy
Paper

Quorum sensing inhibiting dihydropyrrol-2-ones embedded polymer/graphene oxide nanocomposite waterborne antimicrobial coatings

This work reports the fabrication of nanocomposite antimicrobial films loaded with quorum sensing inhibiting compounds exhibiting maximum ~7log10 reduction in bacterial cell viability highlighting the role of preparation strategy in microbial coatings.

Graphical abstract: Quorum sensing inhibiting dihydropyrrol-2-ones embedded polymer/graphene oxide nanocomposite waterborne antimicrobial coatings
Open Access Paper

NIR-responsive porous gold nanorod dispersed in a 3D gelatin scaffold for stimulus-responsive drug release and synergistic therapy

Biodegradable porous nanomaterials have emerged as a promising avenue for tumor drug delivery owing to their capacity to encapsulate large quantities of drugs and their compatibility with biological systems.

Graphical abstract: NIR-responsive porous gold nanorod dispersed in a 3D gelatin scaffold for stimulus-responsive drug release and synergistic therapy
Paper

DNA tetrahedral nanocages as a promising nanocarrier for dopamine delivery in neurological disorders

DNA cages loaded with Dopamine as carriers for dopamine release in neuronal cells for applications in neurological disorders.

Graphical abstract: DNA tetrahedral nanocages as a promising nanocarrier for dopamine delivery in neurological disorders
Open Access Paper

Laser-patterned epoxy-based 3D microelectrode arrays for extracellular recording

Epoxy-based 3D microelectrode arrays facilitate extracellular recordings in non-planar environments.

Graphical abstract: Laser-patterned epoxy-based 3D microelectrode arrays for extracellular recording
Paper

Nitrogen-doped carbon dots: a novel biosensing platform for selective norfloxacin detection and bioimaging

Nitrogen-based quantum dots (N-Ch-CQDs) serve as an efficient biosensor platform with bioimaging capabilities to combat antibiotic resistance resulting from norfloxacin residues, which pose a significant public health threat due to their incomplete metabolism and non-biodegradable nature.

Graphical abstract: Nitrogen-doped carbon dots: a novel biosensing platform for selective norfloxacin detection and bioimaging
Paper

Efficient detection of p-nitrophenol via a polypyrrole flower-decorated nickel foam-based electrochemical sensor

PPy flower/Ni foam-based electrode has been used for the selective detection of p-NP which showed linear detection of 0.01–20 nM, LOD of 7.18 pM and high sensitivity of 5.37 μA nM−1 cm−2.

Graphical abstract: Efficient detection of p-nitrophenol via a polypyrrole flower-decorated nickel foam-based electrochemical sensor
Paper

Design and synthesis of a nucleobase functionalized peptide hydrogel: in vitro assessment of anti-inflammatory and wound healing effects

Over the past several years, a significant increase in the expanding field of biomaterial sciences has been observed due to the development of biocompatible materials based on peptide derivatives that have intrinsic therapeutic potential.

Graphical abstract: Design and synthesis of a nucleobase functionalized peptide hydrogel: in vitro assessment of anti-inflammatory and wound healing effects
Accepted Manuscript - Paper

Functionalized Graphitic Carbon Nitride as an Efficient Electro-Analytical Platform for the Label-free Electrochemical Sensing of Interleukin-8 in Saliva Samples

Open Access Paper

Titania (TiO2) nanotube surfaces doped with zinc and strontium for improved cell compatibility

Titanium-based orthopedic implants are gaining popularity in recent years due to their excellent biocompatibility, superior corrosion resistance and lightweight properties.

Graphical abstract: Titania (TiO2) nanotube surfaces doped with zinc and strontium for improved cell compatibility
44 items

About this collection

Nano-biomaterials, i.e., nanomaterials derived or inspired from biological molecules, have gained substantial influence in recent times in terms of their fine tunability, scale-up potential, excellent interface and adaptation with biological systems. Multiple different approaches involving physical and computational modelling, chemical structure synthesis and characterization and biological modifications have been used to develop next generation bionanodevices that can interface with biological systems in a very focused manner. Some of the recent devices have already made their way to clinical trials and many others are in different stages of the pipeline for translational applications.

This new collection in Nanoscale, Journal of Materials Chemistry B, Nanoscale Advances and Materials Advances will focus on the design of multifunctional hybrid nanomaterials for different applications and on interfacing nanomaterials with biological systems for translational studies. The scope of this collection loosely aligns with the 2023 International Conference on Nanomaterials in Biology (ICNB 2023), held at the Indian Institute of Technology Gandhinagar along with Soft Materials Research Society, from 19–22 November 2023.

This collection is guest edited by Professor Dhiraj Bhatia (IIT Gandhinagar, India), Professor Mukesh Dhanka (IIT Gandhinagar, India), Dr Anjali Awasthi (University of Rajasthan, India), Professor Kamlendra Awasthi (Malaviya National Institute of Technology Jaipur, India) and Professor Kaushik Chatterjee (IISc Bangalore, India).

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