Bridging the Knowledge of Different Worlds to Understand the Big Picture of Cancer Nanomedicines

Balasubramanian, Vimalkumar; Liu, Zehua; Hirvonen, Jouni; Santos, Hélder A.

doi:10.1002/adhm.201700432

Cited by 31 publications

(20 citation statements)

References 226 publications

(244 reference statements)

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“…However, advances in new therapies are essential to find ways to selectively act on fast-growing malignant cells that do not affect healthy cells [5]. Significant progress has been made in nanomedicine to facilitate drug delivery and improve its adsorption, directly acting on the site of damage and reducing multiple side effects in patients [6,7]. Furthermore, the possibility of the controlled manipulation of material at the nanometerlength scale, facile functionalization with different drugs, improved solubility, permeability, mational change in the new nanocomplexes was remarkable; that is, the Au@16-Ph-16 precursor specifically induced the reversible DNA-5-Fu compaction at the appropriate Au@16-Ph-16/DNA molar ratio.…”

Section: Introductionmentioning

confidence: 99%

Biocompatible DNA/5-Fluorouracil-Gemini Surfactant-Functionalized Gold Nanoparticles as Promising Vectors in Lung Cancer Therapy

et al. 2021

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The design and preparation of novel nanocarriers to transport cancer drugs for chemotherapy purposes is an important line of research in the medical field. A new 5-fluorouracil (5-Fu) transporter was designed based on the use of two new biocompatible gold nanosystems: (i) a gold nanoparticle precursor, Au@16-Ph-16, stabilized with the positively charged gemini surfactant 16-Ph-16, and (ii) the compacted nanocomplexes formed by the precursor and DNA/5-Fu complexes, Au@16-Ph-16/DNA–5-Fu. The physicochemical properties of the obtained nanosystems were studied by using UV–visible spectroscopy, TEM, dynamic light scattering, and zeta potential techniques. Method tuning also requires the use of circular dichroism, atomic force microscopy, and fluorescence spectroscopy techniques for the prior selection of the optimal relative Au@16-Ph-16 and DNA concentrations (R = CAu@16-Ph-16/CDNA), biopolymer compaction/decompaction, and 5-Fu release from the DNA/5-Fu complex. TEM experiments revealed the effective internalization of the both precursor and Au@16-Ph-16/DNA–5-Fu-compacted nanosystems into the cells. Moreover, cytotoxicity assays and internalization experiments using TEM and confocal microscopy showed that the new strategy for 5-Fu administration enhanced efficacy, biocompatibility and selectivity against lung cancer cells. The differential uptake among different formulations is discussed in terms of the physicochemical properties of the nanosystems.

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Section: Introductionmentioning

confidence: 99%

Biocompatible DNA/5-Fluorouracil-Gemini Surfactant-Functionalized Gold Nanoparticles as Promising Vectors in Lung Cancer Therapy

et al. 2021

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“…Notwithstanding the reported advantages provided by nanotechnology and the optimistic predictions about anti-inflammatory nanomedicines made by researchers on the basis of development of different generations of nanosystems by vascular permeability, overexpression of biomarkers, immunomodulation and macrophage repolarization [28], anti-inflammatory nanomedicines have not been yet fully established commercially. In this context, only certain areas such as cancer therapeutics have been increased in the clinical translation and commercialization [29].…”

Section: Anti-inflammatory Nanomedicines: a Future Perspectivementioning

confidence: 99%

Anti-Inflammatory Nanomedicines: What Does The Future Hold?

Rivero-Sánchez

Calpena

Soriano

et al. 2020

Nanomedicine (Lond.)

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Anti-inflammatory drugsAnti-inflammatory drugs constitute the backbone of treatment for most diseases. In fact, there is a direct relationship between chronic inflammation and many emerging disorders like cancer, oral diseases, kidney diseases, fibromyalgia, GI chronic diseases or rheumatic diseases [1]. Steroidal anti-inflammatory drugs (SAIDs) and nonsteroidal antiinflammatory drugs (NSAIDs) are key contributors in the treatment of acute inflammatory pain conditions such as headache, postoperative pain and orthopedic fractures as well as in the management of chronic inflammatory pain and inflammatory diseases like rheumatoid arthritis, osteoarthritis and gout and for ocular diseases [2]. The principal therapeutic applications of NSAIDs are related to pain, fever and they can also be used as a prophylaxis treatment after first coronary or cerebrovascular ischemic event, this is one of the most important usages of acetylsalicylic acid (ASA) [3]. Principal therapeutic areas for SAIDs are allergic rhinitis (nasally administered) [4], asthma [5], nasal polyposis and chronic rhinosinusitis [6,7]. Orally administered prednisolone, a SAID, is indicated in bronchial asthma, allergic and inflammatory disorders, rheumatoid arthritis and other collagenopathies, dermatitis and dermatoses such as subacute and chronic eczema, psoriasis and pemphigus. Worldwide anti-inflammatory drug consumptionNowadays, anti-inflammatory medications are one of the most consumed type of drugs worldwide. According to the commercial source of drug utilization IQVIA [8] in 2019, ASA, diclofenac (DIC) and ibuprofen were the three main NSAIDs consumed worldwide. From September 2018 to September 2019, more than 335,000 million standard units or doses were sold. NSAIDs consumption is reported to be a bit higher than SAIDs. The leading market share of NSAIDs and SAIDs market is located in Europe and southeast Asia.In Europe, the market is dominated by NSAIDs, with sales of ASA, DIC and ibuprofen exceeding 12,000 million standard units a year and 16,000 million in the case of ASA. SAIDs also represent a huge market in Europe, among them (in decreasing order) mometasone, beclomethasone, fluticasone and the combination of beclomethasone and formoterol.Concerning the delivery routes of the three most consumed SAIDs worldwide mometasone, fluticasone and prednisolone, the nasal route is predominant (54.7%), followed by the oral (21.6%) and ophthalmic routes (9.9%), but it depends on the drug. These data refer to the year 2019 [8]. Limitations of convectional anti-inflammatory therapiesUnfortunately, current anti-inflammatory therapies are unable to achieve the best conditions of efficacy and safety. It is also important to highlight that anti-inflammatory drugs lead to very expensive and serious adverse events, Nanomedicine (Lond.

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“…In the last decade, several studies have found that NP surfaces have a major influence in the nanocarrier performance, because they are responsible for establishing contact with biological systems. In this regard, NP surface engineering plays a main role in DDS performance in vivo, including stability in biological milieu, and could help in overcoming the limitations of other DDS (Balasubramanian et al 2018).…”

Section: 6mentioning

confidence: 99%