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Papers
20 resultsShowing papers similar to Converging frontiers in cancer treatment: the role of nanomaterials, mesenchymal stem cells, and microbial agents—challenges and limitations
ClearNanotechnology in cancer treatment: revolutionizing strategies against drug resistance
This review explores how nanotechnology is being used to overcome drug resistance in cancer treatment, using materials like carbon nanotubes, dendrimers, and liposomes to deliver drugs more precisely to tumors. While not directly about microplastics, the nanomaterial strategies discussed share relevance with understanding how nano-sized plastic particles interact with human cells and tissues.
Nanobiotics against antimicrobial resistance: harnessing the power of nanoscale materials and technologies
Researchers review how nanoscale materials — tiny particles engineered at the billionth-of-a-meter scale — offer a promising alternative to traditional antibiotics as bacteria develop resistance to conventional drugs. These "nanobiotics" can penetrate bacterial defenses and biofilms in ways that standard antibiotics cannot, potentially helping avert a global post-antibiotic health crisis.
Nanomaterials in Drug Delivery: Strengths and Opportunities in Medicine
This review covers how nanomaterials are being used to improve drug delivery for treating cancer and infections, offering better targeted therapy with fewer side effects. While not directly about microplastics, the research on how nanoparticles interact with human tissues provides insight into how similarly sized nanoplastics might behave once inside the body.
Function of nanomaterials in the treatment of emerging pollutants in wastewater
Researchers reviewed the application of nanomaterials for treating emerging pollutants in wastewater, including microplastics, antibiotics, and endocrine disruptors. The study suggests that nanotechnology-based approaches offer promising advantages over conventional treatment methods in terms of efficiency and sustainability for addressing new types of water contaminants.
Could Nanotechnology Help to End the Fight Against COVID-19? Review of Current Findings, Challenges and Future Perspectives
This review assessed the potential role of nanotechnology in combating COVID-19, covering nano-enabled diagnostics, drug delivery systems, and vaccines, while noting that most applications were still in early development stages and faced significant regulatory and safety challenges.
Advances in Drug Targeting, Drug Delivery, and Nanotechnology Applications: Therapeutic Significance in Cancer Treatment
This review covers advances in targeted drug delivery using nanotechnology, including nanoparticles and liposomes designed to release medications precisely where needed in the body. While focused on cancer treatment, the drug delivery technologies discussed are relevant to understanding how nanoscale plastic particles may also travel through the body and accumulate in specific tissues.
Nanoteknolojinin Tıp ve Mühendislik Uygulamaları
This review covers nanotechnology applications in medicine and engineering, summarizing advancements in nanomaterial development and their utilization across biomedical and engineering domains.
Intratumoural microbiota: from theory to clinical application
Researchers reviewed how bacteria living inside tumors — called intratumoural microbiota — influence cancer development, immune responses, and treatment outcomes. They highlight that while some tumor-resident microbes drive cancer progression by damaging DNA and disrupting immune signaling, engineered bacteria could be harnessed as novel therapeutic tools to target tumors directly.
Exploring Metal Nanoparticles Interaction with Cancer Cells
This paper is not relevant to microplastics research — it reviews the uses of metal nanoparticles in biomedical applications, particularly cancer treatment, and discusses their toxicity profiles.
Developments in the Application of Nanomaterials for Water Treatment and Their Impact on the Environment
This review covers the application of nanomaterials for water treatment and remediation, evaluating how nanomaterial properties enable removal of pollutants including heavy metals, organic contaminants, and microplastics. It surveys the current state of research and discusses practical challenges for scaling up nanomaterial-based water treatment.
Modern Wastewater Treatment Technologies: Trends, Problems, and Prospects
This review examines modern wastewater treatment technologies including mechanical, biological, and physicochemical methods, highlighting that conventional systems inadequately remove emerging micropollutants such as pharmaceuticals, pesticides, microplastics, and nanoparticles. The authors identify key barriers to progress including high costs, aging infrastructure, and weak governance, and advocate for integrated approaches combining membrane technologies, nanomaterials, and circular economy principles.
Nanotechnology-Based Approaches for the Removal of Emerging Contaminants from Water: Recent Advances and Future Perspectives
This review examines nanotechnology-based approaches for removing emerging contaminants including pharmaceuticals, endocrine disruptors, and microplastics from water, comparing the removal efficiencies of nanomaterial adsorbents, photocatalysts, and membrane systems against conventional treatment methods.
Emerging micropollutants in aquatic ecosystems and nanotechnology-based removal alternatives: A review
This review examines emerging micropollutants in water systems, including microplastics, pharmaceuticals, pesticides, and heavy metals, and how nanotechnology-based approaches can help remove them. These contaminants threaten drinking water safety and aquatic ecosystems worldwide. The paper evaluates various nanomaterial-based filtration and degradation methods as promising solutions for cleaning up contaminated water.
How to Treat Melanoma? The Current Status of Innovative Nanotechnological Strategies and the Role of Minimally Invasive Approaches like PTT and PDT
This review summarizes advances in nanotechnology-based treatments for melanoma, including photothermal and photodynamic therapies using engineered nanoparticles as drug carriers and light absorbents. While nanoparticle-based therapies show promise for improving treatment outcomes, the environmental fate of these engineered nanomaterials remains a concern, as nanoparticles can behave similarly to microplastics when released into ecosystems.
Nano-biotechnology, an applicable approach for sustainable future
Researchers reviewed how nanobiotechnology—combining nanotechnology with biological systems—has improved efficiency across medical drug delivery, environmental remediation, agricultural applications, and industrial enzyme processes, with nano-scale materials enabling precision and reduced side effects compared to conventional methods.
Nanomaterials for Microplastic Removal from Wastewater: Current State of the Art Nanomaterials and Future Prospects
This review surveys recent advances in using nanomaterials to remove microplastics and nanoplastics from wastewater, since conventional treatment plants struggle to capture these tiny particles. Researchers evaluate different nanomaterial approaches including magnetic nanoparticles, photocatalysts, and membrane technologies. The study identifies promising strategies but notes that challenges around scalability, cost, and potential environmental risks of the nanomaterials themselves still need to be addressed.
The impact of nanomaterials in enhancing wastewater treatment processes: A review
This review examines how nanomaterials can improve wastewater treatment, including the removal of emerging contaminants like microplastics that traditional methods struggle to capture. Nanoparticles, nanocomposites, and nanocatalysts can enhance pollutant removal through better filtering, chemical breakdown, and adsorption. While promising, the review also notes that nanomaterials themselves could pose environmental risks if not managed carefully during and after the treatment process.
Nanomaterials for the remediation of microplastics in wastewater
This review evaluates how engineered nanomaterials can be used to capture and break down microplastics in wastewater, highlighting approaches based on metal oxide nanoparticles, carbon-based materials, and magnetic composites. Researchers found that these nanomaterials offer high surface area and reactivity advantages over conventional treatment methods. The study identifies scalability, cost, and potential secondary pollution from the nanomaterials themselves as key challenges to address before widespread adoption.
Cutting edge technology for wastewater treatment using smart nanomaterials: recent trends and futuristic advancements
This review examines how advanced nanomaterials -- including cellulose nanocrystals, carbon nanotubes, and magnetic nanoparticles -- can be used to remove microplastics, nanoplastics, and other toxic substances from wastewater more effectively than conventional treatment methods. These "smart" nanomaterials work through absorption and adsorption and represent a promising technology for reducing the amount of plastic contamination that reaches drinking water sources.
The micro(nano)plastics perspective: exploring cancer development and therapy
This review explores the emerging link between microplastics and cancer development. Microplastics can trigger chronic inflammation, oxidative stress, and hormone disruption, all of which are known pathways that may promote cancer growth. Interestingly, researchers are also studying whether engineered microplastics could be used as drug carriers for cancer therapy, though long-term effects remain unclear.