A smart magnetic nanoplatform for synergistic anticancer therapy: manoeuvring mussel-inspired functional magnetic nanoparticles for pH responsive anticancer drug delivery and hyperthermia

Sasikala, Arathyram Ramachandra Kurup; GhavamiNejad, Amin; Unnithan, Afeesh Rajan; Thomas, Reju George; Moon, Myeong-Ju; Jeong, Yong Yeon; Park, Chan Hee; Kim, Cheol Sang

doi:10.1039/c5nr05844a

Cited by 57 publications

(32 citation statements)

References 50 publications

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“…Then, the DP were dispersed in a deionized water/DMSO mixture (V/V = 10:1) and predetermined amounts of BTZ were added into the DP dispersion to start complexation between the catechol functionalities and the boronic acid active site of BTZ. It should be mentioned that the possibility of complexation between BTZ and catechol groups has been deeply studied in our previous works 17 27 . The resulting BTZ-loaded nanoparticles still kept the properties of DP nanoparticles, including strong photothermal conversion efficiency and excellent dispersibility in water.…”

Section: Resultsmentioning

confidence: 99%

pH/NIR Light-Controlled Multidrug Release via a Mussel-Inspired Nanocomposite Hydrogel for Chemo-Photothermal Cancer Therapy

GhavamiNejad

Samarikhalaj

Aguilar

et al. 2016

Sci Rep

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118

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This study reports on an intelligent composite hydrogel with both pH-dependent drug release in a cancer environment and heat generation based on NIR laser exposure, for the combined application of photothermal therapy (PTT) and multidrug chemotherapy. For the first time in the literature, Dopamine nanoparticle (DP) was incorporated as a highly effective photothermal agent as well as anticancer drug, bortezomib (BTZ) carrier inside a stimuli responsive pNIPAAm-co-pAAm hydrogel. When light is applied to the composite hydrogel, DP nanoparticle absorbs the light, which is dissipated locally as heat to impact cancer cells via hyperthermia. On the other hand, facile release of the anticancer drug BTZ from the surface of DP encapsulated hydrogel could be achieved due to the dissociation between catechol groups of DP and the boronic acid functionality of BTZ in typical acidic cancer environment. In order to increase the synergistic effect by dual drug delivery, Doxorubicin (DOXO) were also loaded to pNIPAAm-co-pAAm/DP-BTZ hydrogel and the effect of monotherapy as well as combined therapy were detailed by a complete characterization. Our results suggest that these mussel inspired nanocomposite with excellent heating property and controllable multidrug release can be considered as a potential material for cancer therapy.

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Section: Resultsmentioning

confidence: 99%

pH/NIR Light-Controlled Multidrug Release via a Mussel-Inspired Nanocomposite Hydrogel for Chemo-Photothermal Cancer Therapy

GhavamiNejad

Samarikhalaj

Aguilar

et al. 2016

Sci Rep

Self Cite

118

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“…The pH of the solution was increased to 9.0 to ensure the binding between catechol moiety and the boronic acid drug. It should be mentioned that the possibility of complexation between BTZ and catechol groups has been deeply studied in our previous works 14 , 27 , 28 .…”

Section: Resultsmentioning

confidence: 99%

Functionalized Non-vascular Nitinol Stent via Electropolymerized Polydopamine Thin Film Coating Loaded with Bortezomib Adjunct to Hyperthermia Therapy

Aguilar

Tumurbaatar

GhavamiNejad

et al. 2017

Sci Rep

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Gastrointestinal malignancies have been a tremendous problem in the medical field and cover a wide variety of parts of the system, (i.e. esophagus, duodenum, intestines, and rectum). Usually, these malignancies are treated with palliation with the use of non-vascular nitinol stents. However, stenting is not a perfect solution for these problems. While it can enhance the quality of life of the patient, in time the device will encounter problems such as re-occlusion due to the rapid growth of the tumor. In this study, we propose a functionalization technique using electropolymerization of polydopamine directly onto the nitinol stent struts for the combined application of hyperthermia and chemotherapy. The coating was characterized using FESEM, XPS, and FT-IR. Drug release studies show that facile release of the anticancer drug BTZ from the surface of the polydopamine-coated stent could be achieved by the dissociation between catechol groups of polydopamine and the boronic acid functionality of BTZ in a pH-dependent manner. The anti-cancer property was also evaluated, and cytotoxicity on ESO26 and SNU-5 cancer cell lines were observed. Our results suggest that the introduced approach can be considered as a potential method for therapeutic stent application.

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“…The magnetic field is created using strong permanent magnets, usually of the neodymium kind. In order to localize the nanoparticles in the target tissue, one must focus the magnetic field on a specific area to which the IONP (with the incorporated drug) are drawn [103,104]. The power and location of the magnetic field are adaptable, which means that we may control the nanoparticle accumulation, which lessens the unwanted cytotoxic effects on healthy tissues [105].…”

Section: Magnetic Activation Magnetic Nanoparticles (Mnps)mentioning

confidence: 99%

Skin Cancer and Its Treatment: Novel Treatment Approaches with Emphasis on Nanotechnology

Orthaber

Pristovnik

Skok

et al. 2017

Journal of Nanomaterials

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The life expectancy in the Western world is increasing for a long time, which is the courtesy of a higher life standard, a more thorough hygiene, and, of course, the progress of modern medicine. Nevertheless, one of the illnesses that still proves to be a great challenge regardless of the recent advancements in medicine is cancer. Skin cancer is, according to the World Health Organization, the most common malignancy for the white population. The beginning of the paper offers a brief overview of the latest available information concerning epidemiology, aetiology, diagnostics, and treatment options for skin cancer, whereas the rest of the article deals with modern approaches to skin cancer treatment, highlighting recent development of nanotechnology based treatment approaches. Among these, we focus especially on the newest nanotechnological approaches combined with chemotherapy, a field which specialises in target specificity, drug release control, and real time monitoring with the goal being to diminish unwanted side effects and their severity, achieving a cheaper treatment and a generally more efficient chemotherapy. The field of nanotechnology is a rapidly developing one, judging by already approved clinical studies or by new theranostic agents that combine both the therapeutic and diagnostic modalities.

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A smart magnetic nanoplatform for synergistic anticancer therapy: manoeuvring mussel-inspired functional magnetic nanoparticles for pH responsive anticancer drug delivery and hyperthermia

Cited by 57 publications

References 50 publications

pH/NIR Light-Controlled Multidrug Release via a Mussel-Inspired Nanocomposite Hydrogel for Chemo-Photothermal Cancer Therapy

pH/NIR Light-Controlled Multidrug Release via a Mussel-Inspired Nanocomposite Hydrogel for Chemo-Photothermal Cancer Therapy

Functionalized Non-vascular Nitinol Stent via Electropolymerized Polydopamine Thin Film Coating Loaded with Bortezomib Adjunct to Hyperthermia Therapy

Skin Cancer and Its Treatment: Novel Treatment Approaches with Emphasis on Nanotechnology

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