Your search keyword '"Nanomedicine trends"' showing total 780 results

1. Cutting-edge advances in nano/biomedicine: A review on transforming thrombolytic therapy.

Author

Liu CH, Rethi L, Weng PW, Trung Nguyen H, and Chuang AE

Subjects

Humans, Animals, Nanomedicine methods, Nanomedicine trends, Thrombosis drug therapy, Plasminogen Activators administration & dosage, Plasminogen Activators therapeutic use, Nanoparticles chemistry, Nanoparticles administration & dosage, Drug Delivery Systems methods, Drug Delivery Systems trends, Thrombolytic Therapy methods, Thrombolytic Therapy trends, Fibrinolytic Agents therapeutic use, Fibrinolytic Agents administration & dosage

Abstract

Thrombotic blockages within blood vessels give rise to critical cardiovascular disorders, including ischemic stroke, venous thromboembolism, and myocardial infarction. The current approach to the therapy of thrombolysis involves administering Plasminogen Activators (PA), but it is hindered by fast drug elimination, narrow treatment window, and the potential for bleeding complications. Leveraging nanomedicine to encapsulate and deliver PA offers a solution by improving the efficacy of therapy, safeguarding the medicine from proteinase biodegradation, and reducing unwanted effects in in vivo trials. In this review, we delve into the underlying venous as well as arterial thrombus pathophysiology and provide an overview of clinically approved PA used to address acute thrombotic conditions. We explore the existing challenges and potential directions within recent pivotal research on a variety of targeted nanocarriers, such as lipid, polymeric, inorganic, and biological carriers, designed for precise delivery of PA to specific sites. We also discuss the promising role of microbubbles and ultrasound-assisted Sono thrombolysis, which have exhibited enhanced thrombolysis in clinical studies. Furthermore, our review delves into approaches for the strategic development of nano-based carriers tailored for targeting thrombolytic action and efficient encapsulation of PA, considering the intricate interaction in biology systems as well as nanomaterials. In conclusion, the field of nanomedicine offers a valuable method for the exact and effective therapy of severe thrombus conditions, presenting a pathway toward improved patient outcomes and reduced complications., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 Elsevier Inc. All rights reserved.)

Published

2024

2. Microenvironment-responsive nanomedicines: a promising direction for tissue regeneration.

Author

Xiong Y, Mi BB, Shahbazi MA, Xia T, and Xiao J

Subjects

Humans, Tissue Engineering methods, Tissue Engineering trends, Regenerative Medicine methods, Regenerative Medicine trends, Cellular Microenvironment physiology, Animals, Nanomedicine methods, Nanomedicine trends, Regeneration physiology, Regeneration drug effects

Abstract

Severe tissue defects present formidable challenges to human health, persisting as major contributors to mortality rates. The complex pathological microenvironment, particularly the disrupted immune landscape within these defects, poses substantial hurdles to existing tissue regeneration strategies. However, the emergence of nanobiotechnology has opened a new direction in immunomodulatory nanomedicine, providing encouraging prospects for tissue regeneration and restoration. This review aims to gather recent advances in immunomodulatory nanomedicine to foster tissue regeneration. We begin by elucidating the distinctive features of the local immune microenvironment within defective tissues and its crucial role in tissue regeneration. Subsequently, we explore the design and functional properties of immunomodulatory nanosystems. Finally, we address the challenges and prospects of clinical translation in nanomedicine development, aiming to propose a potent approach to enhance tissue regeneration through synergistic immune modulation and nanomedicine integration., (© 2024. The Author(s).)

Published

2024

3. Nanomedicine in Neuroprotection, Neuroregeneration, and Blood-Brain Barrier Modulation: A Narrative Review.

Author

Krsek A, Jagodic A, and Baticic L

Subjects

Humans, Nerve Regeneration drug effects, Nerve Regeneration physiology, Neuroprotective Agents therapeutic use, Drug Delivery Systems methods, Nervous System Diseases drug therapy, Nervous System Diseases therapy, Hydrogels therapeutic use, Nanomedicine methods, Nanomedicine trends, Blood-Brain Barrier, Neuroprotection physiology

Abstract

Nanomedicine is a newer, promising approach to promote neuroprotection, neuroregeneration, and modulation of the blood-brain barrier. This review includes the integration of various nanomaterials in neurological disorders. In addition, gelatin-based hydrogels, which have huge potential due to biocompatibility, maintenance of porosity, and enhanced neural process outgrowth, are reviewed. Chemical modification of these hydrogels, especially with guanidine moieties, has shown improved neuron viability and underscores tailored biomaterial design in neural applications. This review further discusses strategies to modulate the blood-brain barrier-a factor critically associated with the effective delivery of drugs to the central nervous system. These advances bring supportive solutions to the solving of neurological conditions and innovative therapies for their treatment. Nanomedicine, as applied to neuroscience, presents a significant leap forward in new therapeutic strategies that might help raise the treatment and management of neurological disorders to much better levels. Our aim was to summarize the current state-of-knowledge in this field.

Published

2024

4. Current advance of nanotechnology in diagnosis and treatment for malignant tumors.

Author

Wang B, Hu S, Teng Y, Chen J, Wang H, Xu Y, Wang K, Xu J, Cheng Y, and Gao X

Subjects

Humans, Nanoparticles therapeutic use, Nanoparticles chemistry, Nanotechnology trends, Nanomedicine trends, Drug Delivery Systems, Neoplasms diagnosis, Neoplasms therapy, Neoplasms diagnostic imaging, Neoplasms genetics

Abstract

Cancer remains a significant risk to human health. Nanomedicine is a new multidisciplinary field that is garnering a lot of interest and investigation. Nanomedicine shows great potential for cancer diagnosis and treatment. Specifically engineered nanoparticles can be employed as contrast agents in cancer diagnostics to enable high sensitivity and high-resolution tumor detection by imaging examinations. Novel approaches for tumor labeling and detection are also made possible by the use of nanoprobes and nanobiosensors. The achievement of targeted medication delivery in cancer therapy can be accomplished through the rational design and manufacture of nanodrug carriers. Nanoparticles have the capability to effectively transport medications or gene fragments to tumor tissues via passive or active targeting processes, thus enhancing treatment outcomes while minimizing harm to healthy tissues. Simultaneously, nanoparticles can be employed in the context of radiation sensitization and photothermal therapy to enhance the therapeutic efficacy of malignant tumors. This review presents a literature overview and summary of how nanotechnology is used in the diagnosis and treatment of malignant tumors. According to oncological diseases originating from different systems of the body and combining the pathophysiological features of cancers at different sites, we review the most recent developments in nanotechnology applications. Finally, we briefly discuss the prospects and challenges of nanotechnology in cancer., (© 2024. The Author(s).)

Published

2024

5. Recent Advances in Management of Neuropathic, Nociceptive, and Chronic Pain: A Narrative Review with Focus on Nanomedicine, Gene Therapy, Stem Cell Therapy, and Newer Therapeutic Options.

Author

Kataria S, Patel U, Yabut K, Patel J, Patel R, Patel S, Wijaya JH, Maniyar P, Karki Y, Makrani MP, Viswanath O, and Kaye AD

Subjects

Humans, Pain Management methods, Nociceptive Pain therapy, Nociceptive Pain physiopathology, Chronic Pain therapy, Neuralgia therapy, Genetic Therapy methods, Nanomedicine methods, Nanomedicine trends, Stem Cell Transplantation methods, Stem Cell Transplantation trends

Abstract

Purpose of Review: This manuscript summarizes novel clinical and interventional approaches in the management of chronic, nociceptive, and neuropathic pain., Recent Findings: Pain can be defined as a feeling of physical or emotional distress caused by an external stimulus. Pain can be grouped into distinct types according to characteristics including neuropathic pain, which is a pain caused by disease or lesion in the sensory nervous system; nociceptive pain, which is pain that can be sharp, aching, or throbbing and is caused by injury to bodily tissues; and chronic pain, which is long lasting or persisting beyond 6 months. With improved understanding of different signaling systems for pain in recent years, there has been an upscale of methods of analgesia to counteract these pathological processes. Novel treatment methods such as use of cannabinoids, stem cells, gene therapy, nanoparticles, monoclonal antibodies, and platelet-rich plasma have played a significant role in improved strategies for therapeutic interventions. Although many management options appear to be promising, extensive additional clinical research is warranted to determine best practice strategies in the future for clinicians., (© 2024. The Author(s).)

Published

2024

6. Developing future nanomedicines.

Author

Feliu N and Parak WJ

Subjects

Animals, Humans, Drug Delivery Systems, Drug Development, Tissue Distribution, Nanomedicine trends, Nanoparticles metabolism, Nanoparticles therapeutic use

Abstract

Quantitative analysis of biodistribution and clearance may improve nanoparticle development.

Published

2024

7. Inhaled nano-based therapeutics for inflammatory lung diseases: Recent advances and future prospects.

Author

Gulati N, Chellappan DK, MacLoughlin R, Dua K, and Dureja H

Subjects

Administration, Inhalation, Animals, Clinical Trials as Topic, Drug Delivery Systems, Humans, Liposomes, Mice, Nanomedicine trends, Nanoparticles classification, Nanoparticles administration & dosage, Pneumonia drug therapy

Abstract

Inflammatory lung diseases related morbidity and mortality impose a significant financial burden. Inflammation is a hallmark of many diseases of the respiratory system which is directly or indirectly linked to adverse health conditions, air pollution, rapid lifestyle changes, and regular outbreaks of microbial infections. The unique anatomical and physiological features of the lungs make them an ideal target organ in the treatment of inflammatory respiratory disease and with the help of inhaled therapy lungs can be targeted directly. The principal objective of this review is to present the comprehensive role of inhaled nano-based therapeutics such as liposomes, niosomes, nanoparticles, nanoemulsion, nanosuspension, and exosomes in the treatment and management of inflammatory respiratory diseases. Inhaled nanomedicines provide targeted diagnosis and treatment, improved drug solubility and distribution, prevent first-pass hepatic metabolism, improved patient compliance, and reduced drug side effects. They overcome several biological barriers in the human body and provide immediate, and quick-onset of action. Future research should be focused on improving the therapeutic efficiency of inhaled nanocarriers and to carry out in-depth mechanistic studies to translate current scientific knowledge for the efficient management of inflammatory lung diseases with minimal or no toxicity., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

8. Current trends and future perspectives of nanomedicine for the management of colon cancer.

Author

Wahab S, Alshahrani MY, Ahmad MF, and Abbas H

Subjects

Animals, Cell Line, Tumor, Clinical Trials as Topic, Colonic Neoplasms diagnosis, Colonic Neoplasms pathology, Disease Models, Animal, Humans, Nanomedicine methods, Xenograft Model Antitumor Assays, Antineoplastic Agents administration & dosage, Colonic Neoplasms drug therapy, Nanomedicine trends, Nanoparticle Drug Delivery System chemistry

Abstract

Colon cancer (CC) kills countless people every year throughout the globe. It persists as one of the highly lethal diseases to be treated because the overall survival rate for CC is meagre. Early diagnosis and efficient treatments are two of the biggest hurdles in the fight against cancer. In the present work, we will review thriving strategies for CC targeted drug delivery and critically explain the most recent progressions on emerging novel nanotechnology-based drug delivery systems. Nanotechnology-based animal and human clinical trial studies targeting CC are discussed. Advancements in nanotechnology-based drug delivery systems intended to enhance cellular uptake, improved pharmacokinetics and effectiveness of anticancer drugs have facilitated the powerful targeting of specific agents for CC therapy. This review provides insight into current progress and future opportunities for nanomedicines as potential curative targets for CC treatment. This information could be used as a platform for the future expansion of multi-functional nano constructs for CC's advanced detection and functional drug delivery., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

9. The ancillary effects of nanoparticles and their implications for nanomedicine.

Author

Stater EP, Sonay AY, Hart C, and Grimm J

Subjects

Clinical Decision-Making, Humans, Nanoparticles chemistry, Nanostructures chemistry, Nanomedicine trends, Nanoparticles therapeutic use, Nanostructures therapeutic use, Systems Biology trends

Abstract

Nanoparticles are often engineered as a scaffolding system to combine targeting, imaging and/or therapeutic moieties into a unitary agent. However, mostly overlooked, the nanomaterial itself interacts with biological systems exclusive of application-specific particle functionalization. This nanoparticle biointerface has been found to elicit specific biological effects, which we term 'ancillary effects'. In this Review, we describe the current state of knowledge of nanobiology gleaned from existing studies of ancillary effects with the objectives to describe the potential of nanoparticles to modulate biological effects independently of any engineered function; evaluate how these effects might be relevant for nanomedicine design and functional considerations, particularly how they might be useful to inform clinical decision-making; identify potential clinical harm that arises from adverse nanoparticle interactions with biology; and, finally, highlight the current lack of knowledge in this area as both a barrier and an incentive to the further development of nanomedicine., (© 2021. Springer Nature Limited.)

Published

2021

10. Nanodiagnostics: A review of the medical capabilities of nanopores.

Author

Lastra LS, Sharma V, Farajpour N, Nguyen M, and Freedman KJ

Subjects

Humans, Nanopores, Biosensing Techniques, Early Diagnosis, Nanomedicine trends, Nanotechnology trends

Abstract

Modern diagnostics strive to be accurate, fast, and inexpensive in addition to properly identifying the presence of a disease, infection, or illness. Early diagnosis is key; catching a disease in its early stages can be the difference between fatality and treatment. The challenge with many diseases is that detectability of the disease scales with disease progression. Since single molecule sensors, e.g., nanopores, can sense biomolecules at low concentrations, they have the potential to become clinically relevant in many of today's medical settings. With nanopore-based sensing, lower volumes and concentrations are required for detection, enabling it to be clinically beneficial. Other advantages to using nanopores include that they are tunable to an enormous variety of molecules and boast low costs, and fabrication is scalable for manufacturing. We discuss previous reports and the potential for incorporating nanopores into the medical field for early diagnostics, therapeutic monitoring, and identifying relapse/recurrence., (Published by Elsevier Inc.)

Published

2021

11. Nanomedicine: towards innovative solutions in the clinic.

Author

Fadeel B

Subjects

Humans, Nanomedicine trends

Published

2021

12. General sites of nanoparticle biodistribution as a novel opportunity for nanomedicine.

Author

Fleischmann D and Goepferich A

Subjects

Biological Availability, Blood Vessels cytology, Blood Vessels metabolism, Humans, Kidney cytology, Kidney metabolism, Liver cytology, Liver metabolism, Tissue Distribution, Drug Delivery Systems methods, Nanomedicine methods, Nanomedicine trends, Nanoparticles administration & dosage, Nanoparticles metabolism

Abstract

The development of nanomedical devices has led to a considerable number of clinically applied nanotherapeutics. Yet, the overall poor translation of nanoparticular concepts into marketable systems has not met the initial expectations and led to increasing criticism in recent years. Most novel nano approaches thereby use highly refined formulations including a plethora of active targeting sequences, but ultimately fail to reach their target due to a generally high off-target deposition in organs such as the liver or kidney. In this context, we argue that initial nanoparticle (NP) development should not entirely become set on conventional formulation aspects. In contrast, we propose a change of focus towards a prior analysis of general sites of NP in vivo deposition and an assessment of how accumulation in these organs or tissues can be harnessed to develop therapies for site-related pathologies. We therefore give a comprehensive overview of existing nanotherapeutic targeting strategies for specific cell types within three of the usual suspects, i.e. the liver, kidney and the vascular system. We discuss the physiological surroundings and relevant pathologies of described tissues as well as the implications for NP-mediated drug delivery. Additionally, successful cell-selective NP concepts using active targeting strategies are assessed. By bringing together both (patho)physiological aspects and concepts for cell-selective NP formulations, we hope to show a novel opportunity for the development of more promising nanotherapeutic devices., (Copyright © 2021 Elsevier B.V. All rights reserved.)

Published

2021

13. Nanotechnology for modern medicine: next step towards clinical translation.

Author

Sindhwani S and Chan WCW

Subjects

Humans, Nanomedicine trends, Nanotechnology

Abstract

The field of nanotechnology has been a significant research focus in the last thirty years. This emphasis is due to the unique optical, electrical, magnetic, chemical and biological properties of materials approximately ten thousand times smaller than the diameter of a hair strand. Researchers have developed methods to synthesize and characterize large libraries of nanomaterials and have demonstrated their preclinical utility. We have entered a new phase of nanomedicine development, where the focus is to translate these technologies to benefit patients. This review article provides an overview of nanomedicine's unique properties, the current state of the field, and discusses the challenge of clinical translation. Finally, we discuss the need to build and strengthen partnerships between engineers and clinicians to create a feedback loop between the bench and bedside. This partnership will guide fundamental studies on the nanoparticle-biological interactions, address clinical challenges and change the development and evaluation of new drug delivery systems, sensors, imaging agents and therapeutic systems., (© 2021 The Association for the Publication of the Journal of Internal Medicine.)

Published

2021

14. Recent advances in prodrug-based nanoparticle therapeutics.

Author

Chen KJ, Plaunt AJ, Leifer FG, Kang JY, and Cipolla D

Subjects

Humans, Nanomedicine methods, Prodrugs pharmacokinetics, Drug Carriers chemistry, Drug Development trends, Nanomedicine trends, Nanoparticles chemistry, Prodrugs administration & dosage

Abstract

Extensive research into prodrug modification of active pharmaceutical ingredients and nanoparticle drug delivery systems has led to unprecedented levels of control over the pharmacological properties of drugs and resulted in the approval of many prodrug or nanoparticle-based therapies. In recent years, the combination of these two strategies into prodrug-based nanoparticle drug delivery systems (PNDDS) has been explored as a way to further advance nanomedicine and identify novel therapies for difficult-to-treat indications. Many of the PNDDS currently in the clinical development pipeline are expected to enter the market in the coming years, making the rapidly evolving field of PNDDS highly relevant to pharmaceutical scientists. This review paper is intended to introduce PNDDS to the novice reader while also updating those working in the field with a comprehensive summary of recent efforts. To that end, first, an overview of FDA-approved prodrugs is provided to familiarize the reader with their advantages over traditional small molecule drugs and to describe the chemistries that can be used to create them. Because this article is part of a themed issue on nanoparticles, only a brief introduction to nanoparticle-based drug delivery systems is provided summarizing their successful application and unfulfilled opportunities. Finally, the review's centerpiece is a detailed discussion of rationally designed PNDDS formulations in development that successfully leverage the strengths of prodrug and nanoparticle approaches to yield highly effective therapeutic options for the treatment of many diseases., (Copyright © 2021 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2021

15. Clinical approval of nanotechnology-based SARS-CoV-2 mRNA vaccines: impact on translational nanomedicine.

Author

Milane L and Amiji M

Subjects

COVID-19 epidemiology, COVID-19 genetics, COVID-19 prevention & control, COVID-19 Vaccines genetics, Clinical Trials, Phase IV as Topic methods, Humans, Nanomedicine trends, Nanotechnology trends, RNA, Messenger administration & dosage, RNA, Messenger genetics, SARS-CoV-2 genetics, Translational Research, Biomedical trends, Vaccines, Synthetic genetics, mRNA Vaccines, COVID-19 Vaccines administration & dosage, Drug Approval methods, Nanomedicine methods, Nanotechnology methods, Translational Research, Biomedical methods, Vaccines, Synthetic administration & dosage

Abstract

One year after the first human case of SARS-CoV-2, two nanomedicine-based mRNA vaccines have been fast-tracked, developed, and have received emergency use authorization throughout the globe with more vaccine approvals on the heels of these first two. Several SARS-CoV-2 vaccine compositions use nanotechnology-enabled formulations. A silver lining of the COVID-19 pandemic is that the fast-tracked vaccine development for SARS-CoV-2 has advanced the clinical translation pathway for nanomedicine drug delivery systems. The laboratory science of lipid-based nanoparticles was ready and rose to the clinical challenge of rapid vaccine development. The successful development and fast tracking of SARS-CoV-2 nanomedicine vaccines has exciting implications for the future of nanotechnology-enabled drug and gene delivery; it demonstrates that nanomedicine is necessary and critical to the successful delivery of advanced molecular therapeutics such as nucleic acids, it is establishing the precedent of safety and the population effect of phase four clinical trials, and it is laying the foundation for the clinical translation of more complex, non-lipid nanomedicines. The development, fast-tracking, and approval of SARS-CoV-2 nanotechnology-based vaccines has transformed the seemingly daunting challenges for clinically translating nanomedicines into measurable hurdles that can be overcome. Due to the tremendous scientific achievements that have occurred in response to the COVID-19 pandemic, years, perhaps even decades, have been streamlined for certain translational nanomedicines.

Published

2021

16. Research progress and application opportunities of nanoparticle-protein corona complexes.

Author

Huang W, Xiao G, Zhang Y, and Min W

Subjects

Animals, Drug Delivery Systems, Humans, Particle Size, Nanomedicine trends, Nanoparticles chemistry, Protein Corona chemistry

Abstract

Nanoparticles (NPs) can be used to design for nanomedicines with different chemical surface properties owing to their size advantages and the capacity of specific delivery to targeted sites in organisms. The discovery of the presence of protein corona (PC) has changed our classical view of NPs, stimulating researchers to investigate the in vivo fate of NPs as they enter biological systems. Both NPs and PC have their specificity but complement each other, so they should be considered as a whole. The formation and characterization of NP-PC complexes provide new insights into the design, functionalization, and application of nanocarriers. Based on progress of recent researches, we reviewed the formation, characterization, and composition of the PC, and introduced those critical factors influencing PC, simultaneously expound the effect of PC on the biological function of NPs. Especially we put forward the opportunities and challenges when NP-PC as a novel nano-drug carrier for targeted applications. Furthermore, we discussed the pros versus cons of the PC, as well as how to make better PC in the future application of NPs., (Copyright © 2021 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2021

17. First-in-Class Phosphorus Dendritic Framework, a Wide Surface Functional Group Palette Bringing Noteworthy Anti-Cancer and Anti-Tuberculosis Activities: What Lessons to Learn?

Author

Mignani S, Bignon J, Shi X, and Majoral JP

Subjects

Animals, Antineoplastic Agents therapeutic use, Antitubercular Agents therapeutic use, Dendrimers chemistry, Humans, Molecular Structure, Nanomedicine methods, Nanoparticles chemistry, Nanoparticles therapeutic use, Neoplasms drug therapy, Phosphorus chemistry, Tuberculosis drug therapy, Dendrimers pharmacology, Nanomedicine trends, Phosphorus pharmacology

Abstract

Based on phenotypic screening, the major advantages of phosphorus dendrimers and dendrons as drugs allowed the discovery of new therapeutic applications, for instance, as anti-cancer and anti-tuberculosis agents. These biological activities depend on the nature of the chemical groups (neutral or cationic) on their surface as well as their generation. As lessons to learn, in the oncology domain, the increase in the generation of metallo-dendrimers is in the same direction as the anti-proliferative activities, in contrast to the development of polycationic dendrimers, where the most potent anti-tuberculosis phosphorus dendrimer was observed to have the lowest generation (G0). The examples presented in this original analysis of phosphorus dendrimers and dendrons provide support for the lessons learned and for the development of new nanoparticles in nanomedicine.

Published

2021

18. How has nanomedical innovation contributed to the COVID-19 vaccine development?

Author

Figueiró Longo JP and Muehlmann LA

Subjects

Humans, Inventions, COVID-19, COVID-19 Vaccines, Nanomedicine trends, Nanotechnology trends

Published

2021

19. Special Focus Issue - Applications of nanotechnology against COVID-19: a special focus issue by Nanomedicine .

Author

Bough A

Subjects

Antiviral Agents therapeutic use, Humans, COVID-19, Nanomedicine trends, Nanotechnology trends

Published

2021

20. Advances in Nanodelivery of Green Tea Catechins to Enhance the Anticancer Activity.

Author

Jiang Y, Jiang Z, Ma L, and Huang Q

Subjects

Administration, Oral, Animals, Anti-Infective Agents pharmacology, Anti-Inflammatory Agents pharmacology, Antioxidants pharmacology, Cell Cycle drug effects, Cell Proliferation, Drug Carriers, Drug Delivery Systems, Gastrointestinal Microbiome drug effects, Humans, Lipids chemistry, Mice, Nanomedicine trends, Neoplasm Metastasis drug therapy, Antineoplastic Agents pharmacology, Catechin chemistry, Nanomedicine methods, Neoplasms drug therapy, Phenol chemistry, Tea

Abstract

Cancer is one of the leading causes of death globally. A variety of phenolic compounds display preventative and therapeutic effects against cancers. Green teas are rich in phenolics. Catechins are the most dominant phenolic component in green teas. Studies have shown that catechins have anticancer activity in various cancer models. The anticancer activity of catechins, however, may be compromised due to their low oral bioavailability. Nanodelivery emerges as a promising way to improve the oral bioavailability and anticancer activity of catechins. Research in this area has been actively conducted in recent decades. This review provides the molecular mechanisms of the anticancer effects of catechins, the factors that limit the oral bioavailability of catechins, and the latest advances of delivering catechins using nanodelivery systems through different routes to enhance their anticancer activity.

Published

2021

21. Antitumor Activity and Potential Mechanism of Novel Fullerene Derivative Nanoparticles.

Author

Ye L, Kollie L, Liu X, Guo W, Ying X, Zhu J, Yang S, and Yu M

Subjects

Animals, Cell Cycle, Cell Line, Tumor, Cell Proliferation, Chemistry, Pharmaceutical methods, Chemistry, Pharmaceutical trends, Drug Delivery Systems, Drug Design, Drug Screening Assays, Antitumor, Humans, Mice, Neoplasm Metastasis, Neoplasms immunology, Neovascularization, Pathologic, Antineoplastic Agents chemistry, Fullerenes chemistry, Nanomedicine methods, Nanomedicine trends, Nanoparticles chemistry, Neoplasms drug therapy

Abstract

The development of novel nanoparticles as a new generation therapeutic drug platform is an active field of chemistry and cancer research. In recent years, fullerene nanoparticles have received extensive attention due to their unique physical and chemical properties. Properly modified fullerene nanoparticles have excellent biocompatibility and significant anti-tumor activity, which makes them have broad application prospects in the field of cancer therapy. Therefore, understanding the anti-tumor mechanism of fullerene nanoparticles is of great significance for the design and development of anti-tumor drugs with low toxicity and high targeting. This review has focused on various anti-tumor mechanisms of fullerene derivatives and discusses their toxicity and their distribution in organisms. Finally, the review points out some urgent problems that need solution before fullerene derivatives as a new generation of anti-tumor nano-drug platform enter clinical research.

Published

2021

22. Near-Infrared Light Brightens Bacterial Disinfection: Recent Progress and Perspectives.

Author

Han Q, Lau JW, Do TC, Zhang Z, and Xing B

Subjects

Bacterial Infections prevention & control, Humans, Photochemotherapy, Photothermal Therapy, Bacteria radiation effects, Disinfection methods, Infrared Rays, Nanomedicine trends

Abstract

Bacterial infection is a universal threat to public health, which not only causes many serious diseases but also exacerbates the condition of the patients of cancer, pandemic diseases, e.g. , COVID-19, and so on. Antibiotic therapy has been used to be an effective way for common bacterial disinfection. However, due to the misuse and abuse of antibiotics, more and more antibiotic-resistant bacteria have emerged as fatal threats to human beings. At present, more than 700,000 patients die every year with bacterial infections because of the lack of effective treatment. It is frustrating that the pace of development of antibiotics lags far behind that of bacterial resistance, with an estimation of 10 million deaths per year from bacterial infections after 2050. Facing such a rigorous challenge, approaches for bacterial disinfection are urgently demanded. The recently developed near-infrared (NIR) light-irradiation-based bacterial disinfection is highly promising to shatter bacterial resistance by employing NIR light-responsive materials as mediums to generate antibacterial factors such as heat, reactive oxygen species (ROS), and so on. This treatment approach is proved to be a potent candidate to accurately realize spatiotemporal control, while effectively eradicating multidrug-resistant bacteria and inhibiting antibiotic resistance. Herein, we summarize the latest progress of NIR light-based bacterial disinfection. Ultimately, current challenges and perspectives in this field are discussed.

Published

2021

23. Nanostrategies to Develop Current Antiviral Vaccines.

Author

Rodrigues G, Gonçalves da Costa Sousa M, da Silva DC, Berto Rezende TM, de Morais PC, and Franco OL

Subjects

Adaptive Immunity, COVID-19 Vaccines, Humans, Immunity, Innate, Vaccines, DNA, Vaccines, Subunit, Vaccines, Synthetic, mRNA Vaccines, Nanomedicine trends, Vaccine Development trends, Viral Vaccines immunology, Virus Diseases prevention & control

Abstract

Infectious diseases are a worldwide concern. They are responsible for increasing the mortality rate and causing economic and social problems. Viral epidemics and pandemics, such as the COVID-19 pandemic, force the scientific community to consider molecules with antiviral activity. A number of viral infections still do not have a vaccine or efficient treatment and it is imperative to search for vaccines to control these infections. In this context, nanotechnology in association with the design of vaccines has presented an option for virus control. Nanovaccines have displayed an impressive immune response using a low dosage. This review aims to describe the advances and update the data in studies using nanovaccines and their immunomodulatory effect against human viruses.

Published

2021

24. The application of multifunctional nanomaterials in Alzheimer's disease: A potential theranostics strategy.

Author

Xu Y, Zhao M, Zhou D, Zheng T, and Zhang H

Subjects

Animals, Blood-Brain Barrier metabolism, Humans, Nanomedicine trends, Precision Medicine, Alzheimer Disease diagnosis, Alzheimer Disease drug therapy, Nanostructures therapeutic use

Abstract

By virtue of their small size, nanomaterials can cross the blood-brain barrier and, when modified to target specific cells or regions, can achieve high bioavailability at the intended site of action. Modified nanomaterials are therefore promising agents for the diagnosis and treatment of neurodegenerative diseases such as Alzheimer's disease (AD). Here we review the roles and mechanisms of action of nanomaterials in AD. First, we discuss the general characteristics of nanomaterials and their application to nanomedicine. Then, we summarize recent studies on the diagnosis and treatment of AD using modified nanomaterials. These studies indicate that using nanomaterials is a potential strategy for AD treatment by slowing the progression of AD through enhanced therapeutic effects., (Copyright © 2021 The Authors. Published by Elsevier Masson SAS.. All rights reserved.)

Published

2021

25. Application of nanotechnology in drug delivery systems for respiratory diseases (Review).

Author

Luo MX, Hua S, and Shang QY

Subjects

Drug Carriers chemistry, Drug Carriers therapeutic use, Humans, Liposomes chemistry, Liposomes therapeutic use, Lung Diseases pathology, Nanomedicine trends, Nanoparticles chemistry, Drug Delivery Systems, Lung Diseases drug therapy, Nanoparticles therapeutic use, Nanotechnology trends

Abstract

Respiratory disease is a common disease with a high incidence worldwide, which is a serious threat to human health, and is considered a societal and economic burden. The application of nanotechnology in drug delivery systems has created new treatments for respiratory diseases. Within this context, the present review systematically introduced the physicochemical properties of nanoparticles (NPs); reviewed the current research status of different nanocarriers in the treatment of respiratory diseases, including liposomes, solid lipid nanocarriers, polymeric nanocarriers, dendrimers, inorganic nanocarriers and protein nanocarriers; and discussed the main advantages and limitations of therapeutic nanomedicine in this field. The application of nanotechnology overcomes drug inherent deficiencies to a certain extent, and provides unlimited potential for the development of drugs to treat respiratory diseases. However, most of the related research work is in the preclinical experimental stage and safety assessment is still a challenging task. Future studies are needed to focus on the performance modification, molecular mechanism and potential toxicity of therapeutic nanomedicine.

Published

2021

26. The File Drawer Problem in Nanomedicine.

Author

Ashkarran AA, Swann J, Hollis L, and Mahmoudi M

Subjects

Research standards, Nanomedicine standards, Nanomedicine trends, Periodicals as Topic

Abstract

The role of the 'file drawer' problem in nanomedicine, which partly drives the current limited clinical success of therapeutic nanoparticles, has been poorly investigated. We propose an integrated functioning of all stakeholders as the only effective way to address the file drawer problem in an efficient and timely manner., (Copyright © 2021 Elsevier Ltd. All rights reserved.)

Published

2021

27. Nanotechnology shaping stem cell therapy: Recent advances, application, challenges, and future outlook.

Author

Dong Y, Wu X, Chen X, Zhou P, Xu F, and Liang W

Subjects

Animals, Diffusion of Innovation, Drug Delivery Systems trends, Forecasting, Gene Transfer Techniques trends, Humans, Nanoparticles, Neoplasms genetics, Neoplasms immunology, Neoplasms metabolism, Genetic Therapy trends, Immunotherapy trends, Nanomedicine trends, Neoplasms therapy, Stem Cell Transplantation trends

Abstract

Currently, stem cell nanotechnology is one of the novel and exciting fields. Certain experimental studies conducted on the interaction of stem cells with nanostructures or nanomaterials have made significant progress. The significance of nanostructures, nanotechnology, and nanomaterials in the development of stem cell-based therapies for degenerative diseases and injuries has been well established. Specifically, the structure and properties of nanomaterials affecting the propagation and differentiation of stem cells have become a new interdisciplinary frontier in material science and regeneration medicines. In the current review, we highlight the recent major progress in this field, explore the application prospects, and discuss the issues, approaches, and challenges, to improve the applications of nanotechnology in the research and development of stem cells., (Copyright © 2021 The Author(s). Published by Elsevier Masson SAS.. All rights reserved.)

Published

2021

28. Nanoceutical Adjuvants as Wound Healing Material: Precepts and Prospects.

Author

Banerjee K, Madhyastha R, Nakajima Y, Maruyama M, and Madhyastha H

Subjects

Anti-Infective Agents, Local therapeutic use, Bandages, Biocompatible Materials, Humans, Hydrogels, Neovascularization, Physiologic, Phytotherapy, Re-Epithelialization, Regeneration, Skin immunology, Skin injuries, Skin pathology, Skin Physiological Phenomena, Skin Transplantation, Wound Closure Techniques, Wound Infection prevention & control, Adjuvants, Pharmaceutic therapeutic use, Nanomedicine trends, Nanoparticles therapeutic use, Wound Healing drug effects

Abstract

Dermal wound healing describes the progressive repair and recalcitrant mechanism of 12 damaged skin, and eventually, reformatting and reshaping the skin. Many probiotics, nutritional supplements, metal nanoparticles, composites, skin constructs, polymers, and so forth have been associated with the improved healing process of wounds. The exact mechanism of material-cellular interaction is a point of immense importance, particularly in pathological conditions such as diabetes. Bioengineered alternative agents will likely continue to dominate the outpatient and perioperative management of chronic, recalcitrant wounds as new products continue to cut costs and improve the wound healing process. This review article provides an update on the various remedies with confirmed wound healing activities of metal-based nanoceutical adjuvanted agents and also other nano-based counterparts from previous experiments conducted by various researchers.

Published

2021

29. Drug Resistance in Metastatic Breast Cancer: Tumor Targeted Nanomedicine to the Rescue.

Author

Gote V, Nookala AR, Bolla PK, and Pal D

Subjects

Drug Delivery Systems, Drug Resistance, Multiple drug effects, Drug Resistance, Neoplasm drug effects, Drug Resistance, Neoplasm genetics, Female, Genetic Therapy methods, Humans, Molecular Targeted Therapy, Nanomedicine trends, Nanoparticles therapeutic use, Neoplasm Recurrence, Local drug therapy, Neoplastic Stem Cells metabolism, Precision Medicine, Triple Negative Breast Neoplasms drug therapy, Breast Neoplasms drug therapy, Nanomedicine methods

Abstract

Breast cancer, specifically metastatic breast, is a leading cause of morbidity and mortality in women. This is mainly due to relapse and reoccurrence of tumor. The primary reason for cancer relapse is the development of multidrug resistance (MDR) hampering the treatment and prognosis. MDR can occur due to a multitude of molecular events, including increased expression of efflux transporters such as P-gp, BCRP, or MRP1; epithelial to mesenchymal transition; and resistance development in breast cancer stem cells. Excessive dose dumping in chemotherapy can cause intrinsic anti-cancer MDR to appear prior to chemotherapy and after the treatment. Hence, novel targeted nanomedicines encapsulating chemotherapeutics and gene therapy products may assist to overcome cancer drug resistance. Targeted nanomedicines offer innovative strategies to overcome the limitations of conventional chemotherapy while permitting enhanced selectivity to cancer cells. Targeted nanotheranostics permit targeted drug release, precise breast cancer diagnosis, and importantly, the ability to overcome MDR. The article discusses various nanomedicines designed to selectively target breast cancer, triple negative breast cancer, and breast cancer stem cells. In addition, the review discusses recent approaches, including combination nanoparticles (NPs), theranostic NPs, and stimuli sensitive or "smart" NPs. Recent innovations in microRNA NPs and personalized medicine NPs are also discussed. Future perspective research for complex targeted and multi-stage responsive nanomedicines for metastatic breast cancer is discussed., Competing Interests: The authors declare no conflict of interest.

Published

2021

30. Recent progress in nanomedicine for enhanced cancer chemotherapy.

Author

Wei G, Wang Y, Yang G, Wang Y, and Ju R

Subjects

Angiogenesis Inhibitors administration & dosage, Angiogenesis Inhibitors therapeutic use, Antineoplastic Agents administration & dosage, Antineoplastic Agents pharmacokinetics, Antineoplastic Combined Chemotherapy Protocols therapeutic use, Clinical Trials as Topic, Combined Modality Therapy, Drug Carriers, Drug Delivery Systems, Drug Resistance, Multiple, Drug Resistance, Neoplasm, Extracellular Matrix drug effects, Gases therapeutic use, Genetic Therapy, Humans, Immunotherapy, Molecular Targeted Therapy, Nanomedicine methods, Nanoparticles administration & dosage, Neoplasms radiotherapy, Neoplasms therapy, Organelles drug effects, Particle Size, Photochemotherapy, Photothermal Therapy, Static Electricity, Tissue Distribution, Antineoplastic Agents therapeutic use, Nanomedicine trends, Neoplasms drug therapy

Abstract

As one of the most important cancer treatment strategies, conventional chemotherapy has substantial side effects and leads easily to cancer treatment failure. Therefore, exploring and developing more efficient methods to enhance cancer chemotherapy is an urgently important problem that must be solved. With the development of nanotechnology, nanomedicine has showed a good application prospect in improving cancer chemotherapy. In this review, we aim to present a discussion on the significant research progress in nanomedicine for enhanced cancer chemotherapy. First, increased enrichment of drugs in tumor tissues relying on different targeting ligands and promoting tissue penetration are summarized. Second, specific subcellular organelle-targeted chemotherapy is discussed. Next, different combinational strategies to reverse multidrug resistance (MDR) and improve the effective intracellular concentration of therapeutics are discussed. Furthermore, the advantages of combination therapy for cancer treatment are emphasized. Finally, we discuss the major problems facing therapeutic nanomedicine for cancer chemotherapy, and propose possible future directions in this field., Competing Interests: Competing Interests: The authors have declared that no competing interest exists., (© The author(s).)

Published

2021

31. Recent advances in breast cancer immunotherapy: The promising impact of nanomedicines.

Author

Hashemzadeh N, Dolatkhah M, Adibkia K, Aghanejad A, Barzegar-Jalali M, Omidi Y, and Barar J

Subjects

Biomarkers, Tumor immunology, Breast Neoplasms immunology, Cancer Vaccines administration & dosage, Cancer Vaccines immunology, Combined Modality Therapy methods, Humans, Immunotherapy trends, Nanomedicine trends, Breast Neoplasms therapy, Immunotherapy methods, Nanomedicine methods

Abstract

Breast cancer (BC) is one of the prevalent cancers among women. Generally, the treatment of BC is mostly based on several prominent strategies, including chemotherapy, surgery, endocrine therapy, molecular targeted therapy, and radiation. Owing to the growing knowledge about the complexity of BC pathobiology, immunotherapy as a promising treatment modality has substantially improved the patients' care in the clinic. Immunotherapy is used to harness the patient's immune system to recognize and battle devious cancer cells. As a novel therapy approach, this emerging strategy targets the key molecular entities of tumor tissue. To achieve maximal therapeutic impacts, the dynamic interplay between cancer and immune cells needs to be fully comprehended. The key molecular machinery of solid tumors can be targeted by nanoscale immunomedicines. While discussing the potential biomarkers involved in the initiation and progression of BC, we aimed to provide comprehensive insights into the immunotherapy and articulate the recent advances in terms of the therapeutic strategies used to control this disease, including immune checkpoint inhibitors, vaccines, chimeric antigen receptor T cells therapy, and nanomedicines., (Copyright © 2021 Elsevier Inc. All rights reserved.)

Published

2021

32. COVID-19 may become nanomedicine's finest hour yet.

Author

Friedrichs S and Bowman DM

Subjects

2019-nCoV Vaccine mRNA-1273, BNT162 Vaccine, COVID-19 epidemiology, COVID-19 immunology, Drug Approval, Drug Delivery Systems methods, Drug Development methods, Drug Development trends, Global Health, Humans, Nanomedicine trends, Nanotechnology methods, Nanotechnology trends, RNA, Messenger genetics, Time Factors, Vaccines, Synthetic pharmacology, mRNA Vaccines, COVID-19 prevention & control, COVID-19 Vaccines pharmacology, Nanomedicine methods, Pandemics prevention & control, SARS-CoV-2 genetics, SARS-CoV-2 immunology

Published

2021

33. Functionalized Reduced Graphene Oxide as a Versatile Tool for Cancer Therapy.

Author

Dash BS, Jose G, Lu YJ, and Chen JP

Subjects

Antineoplastic Agents chemistry, Antineoplastic Agents therapeutic use, Doxorubicin chemistry, Doxorubicin therapeutic use, Drug Carriers chemistry, Drug Carriers therapeutic use, Graphite chemistry, Humans, Nanostructures chemistry, Neoplasms pathology, Photochemotherapy methods, Phototherapy methods, Graphite therapeutic use, Nanomedicine trends, Nanostructures therapeutic use, Neoplasms therapy

Abstract

Cancer is one of the deadliest diseases in human history with extremely poor prognosis. Although many traditional therapeutic modalities-such as surgery, chemotherapy, and radiation therapy-have proved to be successful in inhibiting the growth of tumor cells, their side effects may vastly limited the actual benefits and patient acceptance. In this context, a nanomedicine approach for cancer therapy using functionalized nanomaterial has been gaining ground recently. Considering the ability to carry various anticancer drugs and to act as a photothermal agent, the use of carbon-based nanomaterials for cancer therapy has advanced rapidly. Within those nanomaterials, reduced graphene oxide (rGO), a graphene family 2D carbon nanomaterial, emerged as a good candidate for cancer photothermal therapy due to its excellent photothermal conversion in the near infrared range, large specific surface area for drug loading, as well as functional groups for functionalization with molecules such as photosensitizers, siRNA, ligands, etc. By unique design, multifunctional nanosystems could be designed based on rGO, which are endowed with promising temperature/pH-dependent drug/gene delivery abilities for multimodal cancer therapy. This could be further augmented by additional advantages offered by functionalized rGO, such as high biocompatibility, targeted delivery, and enhanced photothermal effects. Herewith, we first provide an overview of the most effective reducing agents for rGO synthesis via chemical reduction. This was followed by in-depth review of application of functionalized rGO in different cancer treatment modalities such as chemotherapy, photothermal therapy and/or photodynamic therapy, gene therapy, chemotherapy/phototherapy, and photothermal/immunotherapy.

Published

2021

34. Key principles and methods for studying the endocytosis of biological and nanoparticle therapeutics.

Author

Rennick JJ, Johnston APR, and Parton RG

Subjects

Biological Transport genetics, Endocytosis drug effects, Humans, Molecular Targeted Therapy trends, Drug Delivery Systems, Endocytosis genetics, Nanomedicine trends, Nanoparticles therapeutic use

Abstract

Endocytosis is a critical step in the process by which many therapeutic nanomedicines reach their intracellular targets. Our understanding of cellular uptake mechanisms has developed substantially in the past five years. However, these advances in cell biology have not fully translated to the nanoscience and therapeutics literature. Misconceptions surrounding the role of different endocytic pathways and how to study these pathways are hindering progress in developing improved nanoparticle therapies. Here, we summarize the latest insights into cellular uptake mechanisms and pathways. We highlight limitations of current systems to study endocytosis, particularly problems with non-specific inhibitors. We also summarize alternative genetic approaches to robustly probe these pathways and discuss the need to understand how cells endocytose particles in vivo. We hope that this critical assessment of the current methods used in studying nanoparticle uptake will guide future studies at the interface of cell biology and nanomedicine.

Published

2021

35. Recent advances on drug delivery nanocarriers for cerebral disorders.

Author

Zhou Z, Sun T, and Jiang C

Subjects

Animals, Blood-Brain Barrier drug effects, Brain, Chemistry, Pharmaceutical trends, Chronic Disease, Humans, Hydrogels chemistry, Inflammation, Inorganic Chemicals, Lipids chemistry, Liposomes, Polymers chemistry, Silicon Dioxide, Brain Diseases drug therapy, Drug Carriers, Drug Delivery Systems, Nanomedicine trends, Nanoparticles chemistry

Abstract

Pharmacotherapies for brain disorders are generally faced with obstacles from the blood-brain barrier (BBB). There are a variety of drug delivery systems that have been put forward to cross or bypass the BBB with the access to the central nervous system. Brain drug delivery systems have benefited greatly from the development of nanocarriers, including lipids, polymers and inorganic materials. Consequently, various kinds of brain drug delivery nano-systems have been established, such as liposomes, polymeric nanoparticles (PNPs), nanomicelles, nanohydrogels, dendrimers, mesoporous silica nanoparticles and magnetic iron oxide nanoparticles. The characteristics of their carriers and preparations usually differ from each other, as well as their transportation mechanisms into intracerebral lesions. In this review, different types of brain drug delivery nanocarriers are classified and summarized, especially their significant achievements, to present several recommendations and directions for future strategies of cerebral delivery.

Published

2021

36. The nanomedicine rush: New strategies for unmet medical needs based on innovative nano DDS.

Author

Sato Y, Nakamura T, Yamada Y, and Harashima H

Subjects

Animals, COVID-19, Drug Compounding, Humans, Immunotherapy, Lipids chemistry, COVID-19 Vaccines chemistry, Drug Delivery Systems, Nanomedicine trends

Abstract

The era of Nanomedicine has arrived with the approval of ONPATTRO™ by the FDA in 2018. Lipid nanoparticle (LNP) technology has succeeded in delivering siRNA to the human liver in genetic diseases and has also been applied to mRNA vaccinations for COVID-19 using a similar LNP technology. In this review, we focus on the current status of new lipids for use in LNP formulations including our original lipids (CL4H6/CL4C6/CL4D6) as well as mechanisms of targeting without a ligand. Clinical applications of nano DDS are moving forward rapidly in the field of cancer immunology since the successful introduction of OPDIVO™ in 2014. Antigen presentation and the maturation of immune cells can be controlled by nano DDS for cancer immunotherapy. YSK12-C4, a newly designed ionizable amino lipid can induce successful immune activation by silencing mRNA in DC and NK cells, which are expected to be evaluated for clinical use. Finally, new cancer therapy by targeting mitochondria involving the use of a MITO-Porter, a membrane fusion-type mitochondrial delivery system, has been introduced. The importance of delivering a photo sensitizer to mitochondria was clearly demonstrated in photodynamic cancer therapy. Clinical applications of MITO-Porters started in collaborative efforts with LUCA Science Co., Ltd. And was established in 2018. The future direction of Nanomedicine is discussed., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2021

37. Recent progress in development and applications of second near-infrared (NIR-II) nanoprobes.

Author

Shinn J, Lee S, Lee HK, Ahn J, Lee SA, Lee S, and Lee Y

Subjects

Animals, Drug Development trends, Fluorescent Dyes chemical synthesis, Humans, Nanomedicine trends, Nanostructures chemistry, Neoplasms diagnostic imaging, Neoplasms therapy, Optical Imaging methods, Optical Imaging trends, Photochemotherapy methods, Photochemotherapy trends, Spectroscopy, Near-Infrared methods, Spectroscopy, Near-Infrared trends, Theranostic Nanomedicine methods, Theranostic Nanomedicine trends, Tumor Microenvironment physiology, Drug Development methods, Fluorescent Dyes administration & dosage, Nanomedicine methods, Nanostructures administration & dosage, Tumor Microenvironment drug effects

Abstract

Optical probes for near-infrared (NIR) light have clear advantages over UV/VIS-based optical probes, such as their low levels of interfering auto-fluorescence and high tissue penetration. The second NIR (NIR-II) window (1000-1350 nm) offers better light penetration, lower background signal, higher safety limit, and higher maximum permitted exposure than the first NIR (NIR-I) window (650-950 nm). Therefore, NIR-II laser-based photoacoustic (PA) and fluorescence (FL) imaging can offer higher sensitivity and penetration depth than was previously available, and deeper lesions can be treated in vivo by photothermal therapy (PTT) and photodynamic therapy (PDT) with an NIR-II laser than with an NIR-I laser. Advances in creation of novel nanomaterials have increased options for improving light-induced bioimaging and treatment. Nanotechnology can provide advantages such as good disease targeting ability and relatively long circulation times to supplement the advantages of optical technologies. In this review, we present recent progress in development and applications of NIR-II light-based nanoplatforms for FL, PA, image-guided surgery, PDT, and PTT. We also discuss recent advances in smart NIR-II nanoprobes that can respond to stimuli in the tumor microenvironment and inflamed sites. Finally, we consider the challenges involved in using NIR-II nanomedicine for effective diagnosis and treatment.

Published

2021

38. COVID-19: fighting the invisible enemy with microRNAs.

Author

Chauhan N, Jaggi M, Chauhan SC, and Yallapu MM

Subjects

Betacoronavirus physiology, Genome, Viral, Humans, COVID-19 genetics, COVID-19 physiopathology, MicroRNAs genetics, MicroRNAs immunology, Nanomedicine methods, Nanomedicine trends, SARS-CoV-2 physiology

Abstract

Introduction: The novel coronavirus (CoV) disease 2019 (COVID-19) is a viral infection that causes severe acute respiratory syndrome (SARS). It is believed that early reports of COVID-19 cases were noticed in December 2019 and soon after it became a global public health emergency. It is advised that COVID-19 transmits through human to human contact and in most cases, it remains asymptomatic. Several approaches are being utilized to control the outbreak of this fatal viral disease. microRNAs (miRNAs) are known signature therapeutic tool for the viral diseases; they are small non-coding RNAs that target the mRNAs to inhibit their post-transcriptional expression, therefore, impeding their functions, can serve as watchdogs or micromanagers in the cells., Areas Covered: This review work delineated COVID-19 and its association with SARS and Middle East respiratory syndrome (MERS), the possible role of miRNAs in the pathogenesis of COVID-19, and therapeutic potential of miRNAs and their effective delivery to treat COVID-19., Expert Opinion: This review highlighted the importance of various miRNAs and their potential role in fighting with this pandemic as therapeutic molecules utilizing nanotechnology.

Published

2021

39. Nanomedicine for the SARS-CoV-2: State-of-the-Art and Future Prospects.

Author

Varahachalam SP, Lahooti B, Chamaneh M, Bagchi S, Chhibber T, Morris K, Bolanos JF, Kim NY, and Kaushik A

Subjects

Animals, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, COVID-19 epidemiology, COVID-19 prevention & control, Humans, Nanotechnology, Pandemics prevention & control, SARS-CoV-2 drug effects, COVID-19 therapy, COVID-19 virology, Nanomedicine trends, SARS-CoV-2 physiology

Abstract

The newly emerged ribonucleic acid (RNA) enveloped human beta-coronavirus, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection caused the COVID-19 pandemic, severely affects the respiratory system, and may lead to death. Lacking effective diagnostics and therapies made this pandemic challenging to manage since the SARS-CoV-2 transmits via human-to-human, enters via ACE2 and TMPSSR2 receptors, and damages organs rich in host cells, spreads via symptomatic carriers and is prominent in an immune-compromised population. New SARS-CoV-2 informatics (structure, strains, like-cycles, functional sites) motivated bio-pharma experts to investigate novel therapeutic agents that act to recognize, inhibit, and knockdown combinations of drugs, vaccines, and antibodies, have been optimized to manage COVID-19. However, successful targeted delivery of these agents to avoid off-targeting and unnecessary drug ingestion is very challenging. To overcome these obstacles, this mini-review projects nanomedicine technology, a pharmacologically relevant cargo of size within 10 to 200 nm, for site-specific delivery of a therapeutic agent to recognize and eradicate the SARS-CoV-2, and improving the human immune system. Such combinational therapy based on compartmentalization controls the delivery and releases of a drug optimized based on patient genomic profile and medical history. Nanotechnology could help combat COVID-19 via various methods such as avoiding viral contamination and spraying by developing personal protective equipment (PPE) to increase the protection of healthcare workers and produce effective antiviral disinfectants surface coatings capable of inactivating and preventing the virus from spreading. To quickly recognize the infection or immunological response, design highly accurate and sensitive nano-based sensors. Development of new drugs with improved activity, reduced toxicity, and sustained release to the lungs, as well as tissue targets; and development of nano-based immunizations to improve humoral and cellular immune responses. The desired and controlled features of suggested personalized therapeutics, nanomedicine, is a potential therapy to manage COVID-19 successfully. The state-of-the-art nanomedicine, challenges, and prospects of nanomedicine are carefully and critically discussed in this report, which may serve as a key platform for scholars to investigate the role of nanomedicine for higher efficacy to manage the COVID-19 pandemic., Competing Interests: The authors declare no competing financial interest and no conflicts of interest for this work., (© 2021 Varahachalam et al.)

Published

2021

40. Nanodiamonds for bioapplications, recent developments.

Author

Bondon N, Raehm L, Charnay C, Boukherroub R, and Durand JO

Subjects

Animals, Anti-Infective Agents administration & dosage, Anti-Infective Agents chemistry, Antineoplastic Agents administration & dosage, Antineoplastic Agents chemistry, Drug Carriers administration & dosage, Drug Delivery Systems methods, Humans, Nanodiamonds administration & dosage, Particle Size, Wound Healing drug effects, Wound Healing physiology, Drug Carriers chemistry, Drug Development methods, Nanodiamonds chemistry, Nanomedicine trends

Abstract

The world of biomedical research is in constant evolution, requiring more and more conditions and norms through pre-clinic and clinic studies. Nanodiamonds (NDs) with exceptional optical, thermal and mechanical properties emerged on the global scientific scene and recently gained more attention in biomedicine and bioanalysis fields. Many problematics have been deliberated to better understand their in vitro and in vivo efficiency and compatibility. Light was shed on their synthesis, modification and purification steps, as well as particle size and surface properties in order to find the most suitable operating conditions. In this review, we present the latest advances of NDs use in bioapplications. A large variety of subjects including anticancer and antimicrobial systems, wound healing and tissue engineering management tools, but also bioimaging and labeling probes are tackled. The key information resulting from these recent works were evidenced to make an overview of the potential features of NDs, with a special look on emerging therapeutic and diagnosis combinations.

Published

2020

41. Issues affecting nanomedicines on the way from the bench to the market.

Author

Longo JPF, Mussi S, Azevedo RB, and Muehlmann LA

Subjects

Animals, Clinical Trials as Topic methods, Drug Development methods, Drug Evaluation, Preclinical methods, Humans, Inventions trends, Nanomedicine trends, Nanotechnology methods, Nanotechnology trends, Drug Development trends, Nanomedicine methods, Nanoparticles administration & dosage

Abstract

The development of innovative nanomedicine has raised the standards over the last few decades. The establishment of research institutes with robust budgets dedicated to nanomedicine has created promise for the development of products based on biomedical applications of nanotechnology. Currently, this development meets obstacles because some of the scientific community has raised concerns regarding the launch of nanomedicine in the market. In this review highlight, we aimed to discuss some of these concerns and contribute to this discussion. For this purpose, we enumerated three issues that should be deeply discussed by the nanotech community to improve the translation of innovation from the laboratory to the market: (1) set-up more effective scaled-up industrial processes; (2) correlate data from preclinical and clinical studies with nanomedical developments; (3) optimize the incorporation of nanoparticles in a compatible final pharmaceutical form. Other issues are also important for this discussion, but we believe that these three are fundamental aspects to bridge the gap between basic nanoscience knowledge to market nanomedical innovations.

Published

2020

42. Nanomedicine and the COVID-19 vaccines.

Subjects

Clinical Trials, Phase III as Topic, Humans, Lipids chemistry, Nanoparticles chemistry, RNA, Messenger genetics, RNA, Messenger therapeutic use, Spike Glycoprotein, Coronavirus genetics, Spike Glycoprotein, Coronavirus therapeutic use, United States, United States Food and Drug Administration, COVID-19 prevention & control, COVID-19 Vaccines therapeutic use, Nanomedicine trends

Published

2020

43. COVID-19 and picotechnology: Potential opportunities.

Author

Rabiee N, Rabiee M, Bagherzadeh M, and Rezaei N

Subjects

Biomedical Engineering, Coronavirus Envelope Proteins chemistry, Host Microbial Interactions, Humans, Nanomedicine methods, Nanomedicine trends, Nanotechnology trends, Pandemics, Spike Glycoprotein, Coronavirus chemistry, Viral Matrix Proteins chemistry, COVID-19 virology, Nanotechnology methods, SARS-CoV-2 chemistry

Abstract

Humanity's challenges are becoming increasingly difficult, and as these challenges become more advanced, the need for effective and intelligent action becomes more apparent. Meanwhile, the novel coronavirus disease (COVID-19) pandemic, which has plagued the world, could be considered as an opportunity to take a step toward the need for atomic engineering, compared to molecular engineering, as well as to accelerate this type of research. This approach, which can be expressed in terms of picotechnology, makes it possible to identify living cell types or in general, chemical and biological surfaces using their atomic arrays, and applied for early diagnosis even treatment of the disease., (Copyright © 2020 Elsevier Ltd. All rights reserved.)

Published

2020

44. Nanomedicine: a new paradigm to overcome drug incompatibilities.

Author

Abdelkader A, Fathi HA, Hamad MA, and Elsabahy M

Subjects

Animals, Drug Carriers pharmacokinetics, Drug Interactions physiology, Humans, Medication Errors prevention & control, Nanomedicine methods, Drug Carriers administration & dosage, Drug Incompatibility, Nanomedicine trends, Nanostructures administration & dosage

Abstract

Objectives: Drug incompatibilities may compromise the safety and effectiveness of combined drugs and result in mild-to-serious clinical complications, such as catheter obstruction, loss of drug efficacy, formation of toxic derivatives and embolism. Various preventive strategies have been implemented to overcome drug incompatibilities with limited success. This review presents an innovative approach to prevent drug incompatibilities via isolating the incompatible drugs into nanostructures., Key Findings: Several examples of incompatible drugs may be loaded separately into nanostructures of various types. Physicochemical characteristics and biocompatibility of the nanomaterials that are being utilized to prevent physicochemical incompatibilities should be carefully considered., Conclusions: There is a new era of exploiting nanomaterials in overcoming various types of physicochemical incompatibilities, with additional benefits of further improvements in pharmacokinetic profiles and pharmacological actions of the administered drugs., (© 2020 Royal Pharmaceutical Society.)

Published

2020

45. Exploiting disease-induced changes for targeted oral delivery of biologics and nanomedicines in inflammatory bowel disease.

Author

Zhang Y, Thanou M, and Vllasaliu D

Subjects

Administration, Oral, Animals, Biological Products administration & dosage, Drug Delivery Systems trends, Gastrointestinal Agents administration & dosage, Humans, Inflammatory Bowel Diseases drug therapy, Intestinal Absorption drug effects, Intestinal Mucosa drug effects, Intestinal Mucosa metabolism, Nanomedicine trends, Biological Products metabolism, Drug Delivery Systems methods, Gastrointestinal Agents metabolism, Inflammatory Bowel Diseases metabolism, Intestinal Absorption physiology, Nanomedicine methods

Abstract

Inflammatory bowel disease (IBD) is a chronic and progressive disorder with destructive inflammation in the gastrointestinal tract (GIT). Biologics have changed the management of IBD, but have serious limitations, which is associated with their systemic administration via injection. Oral administration is the most accepted route of drug administration. However, the physiological barriers of the GIT pose significant challenges for oral administration of biologics, making this route of administration currently unavailable. The status of tissue barriers to oral drug delivery is altered in IBD. This may bring more challenges, but also present opportunities for oral delivery of biologics. This article provides an overview of disease-induced alterations of GIT barriers in IBD and discusses challenges, opportunities and commonly-utilised strategies for oral delivery of complex therapeutics, including biologics and nanomedicines., Competing Interests: Declaration of Competing Interest The authors declare no competing financial interest., (Copyright © 2020 Elsevier B.V. All rights reserved.)

Published

2020

46. A custom-made functionalization method to control the biological identity of nanomaterials.

Author

Padín-González E, Navarro-Palomares E, Valdivia L, Iturrioz-Rodríguez N, Correa MA, Valiente R, and Fanarraga ML

Subjects

Humans, Nanoparticles analysis, Nanoparticles therapeutic use, Nanostructures analysis, Nanostructures therapeutic use, Protein Binding drug effects, Protein Domains drug effects, Proteins chemistry, Drug Delivery Systems, Nanomedicine trends, Nanoparticles chemistry, Nanostructures chemistry

Abstract

Here we propose a one-step strategy to endow nanomaterials with a custom-designed bio-identity. This study designs a universal 'nanomaterial binding domain' that can be genetically attached to any protein ensuring precise and spontaneous protein orientation. We demonstrate how, despite the simplicity of the method, the bioconjugation achieved: (i) is highly efficient, even in the presence of competing proteins, (ii) is stable at extreme physiological conditions (pH ranges 5.2-9.0; NaCl concentrations 0-1 M); (iii) prevents unwanted protein biofouling days after incubation in biologically-relevant conditions; and finally, (iv) avoids nanoparticle interaction with promiscuous unspecific receptors. In summary, this protein biocoating technique, applicable to a wide array of nano-designs, integrates material science and molecular biology procedures to create hybrid nanodevices with well-defined surfaces and predictable biological behaviors, opening a chapter in precision nanodiagnostics, nanosensing or nanotherapeutic applications., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

47. Gold-based therapy: From past to present.

Author

Balfourier A, Kolosnjaj-Tabi J, Luciani N, Carn F, and Gazeau F

Subjects

Arthritis, Rheumatoid drug therapy, Gold adverse effects, Humans, Metal Nanoparticles adverse effects, Nanomedicine methods, Gold administration & dosage, Metal Nanoparticles administration & dosage, Nanomedicine trends

Abstract

Despite an abundant literature on gold nanoparticles use for biomedicine, only a few of the gold-based nanodevices are currently tested in clinical trials, and none of them are approved by health agencies. Conversely, ionic gold has been used for decades to treat human rheumatoid arthritis and benefits from 70-y hindsight on medical use. With a view to open up new perspectives in gold nanoparticles research and medical use, we revisit here the literature on therapeutic gold salts. We first summarize the literature on gold salt pharmacokinetics, therapeutic effects, adverse reactions, and the present repurposing of these ancient drugs. Owing to these readings, we evidence the existence of a common metabolism of gold nanoparticles and gold ions and propose to use gold salts as a "shortcut" to assess the long-term effects of gold nanoparticles, such as their fate and toxicity, which remain challenging questions nowadays. Moreover, one of gold salts side effects (i.e., a blue discoloration of the skin exposed to light) leads us to propose a strategy to biosynthesize large gold nanoparticles from gold salts using light irradiation. These hypotheses, which will be further investigated in the near future, open up new avenues in the field of ionic gold and gold nanoparticles-based therapies., Competing Interests: The authors declare no competing interest.

Published

2020

48. Above and Beyond Cancer Therapy: Translating Biomaterials into the Clinic.

Author

Conde J

Subjects

Animals, Disease Models, Animal, Drug Evaluation, Preclinical trends, Humans, Nanomedicine trends, Nanoparticles therapeutic use, Research Design trends, Translational Research, Biomedical trends, Biocompatible Materials therapeutic use, Clinical Trials as Topic, Nanomedicine methods, Neoplasms therapy, Translational Research, Biomedical methods

Abstract

Given extensive reports of anticancer nanomedicines in preclinical studies, why is there such a paucity of clinical trials using these therapies? Nanotechnology can certainly deliver, but we need to tackle the limitations that are impeding the translation of nanomedicines into the clinic and start benefiting from their full potential., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

49. Pancreatic Adenocarcinoma: Unconventional Approaches for an Unconventional Disease.

Author

Gromisch C, Qadan M, Machado MA, Liu K, Colson Y, and Grinstaff MW

Subjects

Adenocarcinoma pathology, Animals, Antineoplastic Agents isolation & purification, Carcinoma, Pancreatic Ductal drug therapy, Carcinoma, Pancreatic Ductal pathology, Drug Delivery Systems methods, Drug Delivery Systems trends, Drug Development trends, Drug Screening Assays, Antitumor trends, Humans, Nanomedicine methods, Nanomedicine trends, Pancreatic Neoplasms pathology, Therapies, Investigational trends, Adenocarcinoma drug therapy, Antineoplastic Agents therapeutic use, Molecular Targeted Therapy methods, Molecular Targeted Therapy trends, Pancreatic Neoplasms drug therapy

Abstract

This review highlights current treatments, limitations, and pitfalls in the management of pancreatic cancer and discusses current research in novel targets and drug development to overcome these clinical challenges. We begin with a review of the clinical landscape of pancreatic cancer, including genetic and environmental risk factors, as well as limitations in disease diagnosis and prevention. We next discuss current treatment paradigms for pancreatic cancer and the shortcomings of targeted therapy in this disease. Targeting major driver mutations in pancreatic cancer, such as dysregulation in the KRAS and TGFβ signaling pathways, have failed to improve survival outcomes compared with nontargeted chemotherapy; thus, we describe new advances in therapy such as Ras-binding pocket inhibitors. We then review next-generation approaches in nanomedicine and drug delivery, focusing on preclinical advancements in novel optical probes, antibodies, small-molecule agents, and nucleic acids to improve surgical outcomes in resectable disease, augment current therapies, expand druggable targets, and minimize morbidity. We conclude by summarizing progress in current research, identifying areas for future exploration in drug development and nanotechnology, and discussing future prospects for management of this disease., (©2020 American Association for Cancer Research.)

Published

2020

50. Past, Present, and Future of Anticancer Nanomedicine.

Author

Kim K and Khang D

Subjects

Cancer Vaccines immunology, Humans, Immunotherapy, Stem Cell Transplantation, Tumor Microenvironment, Antineoplastic Agents pharmacology, Nanomedicine trends

Abstract

This review aims to summarize the methods that have been used till today, highlight methods that are currently being developed, and predict the future roadmap for anticancer therapy. In the beginning of this review, established approaches for anticancer therapy, such as conventional chemotherapy, hormonal therapy, monoclonal antibodies, and tyrosine kinase inhibitors are summarized. To counteract the side effects of conventional chemotherapy and to increase limited anticancer efficacy, nanodrug- and stem cell-based therapies have been introduced. However, current level of understanding and strategies of nanodrug and stem cell-based therapies have limitations that make them inadequate for clinical application. Subsequently, this manuscript reviews methods with fewer side effects compared to those of the methods mentioned above which are currently being investigated and are already being applied in the clinic. The newer strategies that are already being clinically applied include cancer immunotherapy, especially T cell-mediated therapy and immune checkpoint inhibitors, and strategies that are gaining attention include the manipulation of the tumor microenvironment or the activation of dendritic cells. Tumor-associated macrophage repolarization is another potential strategy for cancer immunotherapy, a method which activates macrophages to immunologically attack malignant cells. At the end of this review, we discuss combination therapies, which are the future of cancer treatment. Nanoparticle-based anticancer immunotherapies seem to be effective, in that they effectively use nanodrugs to elicit a greater immune response. The combination of these therapies with others, such as photothermal or tumor vaccine therapy, can result in a greater anticancer effect. Thus, the future of anticancer therapy aims to increase the effectiveness of therapy using various therapies in a synergistic combination rather than individually., Competing Interests: The authors declare that there is no conflict of interest in this work., (© 2020 Kim and Khang.)

Published

2020