drug delivery system for cancer treatment

Chemotherapy, a very common treatment, delivers anticancer drugs systemically to patients forquenching the uncontrolled proliferation of cancerous cells [ ]. New magnet-based drug delivery system shows promise for ... Today, many different chemotherapy drugs are available that can either be used alone . Nanoparticle drug-delivery-systems-for-cancer-treatment The global novel drug delivery systems in cancer therapy market size was valued at USD 4.31 billion in 2016 and is projected to grow at a CAGR of 22.9% during the forecast period. Effective use of nanocarriers as drug delivery systems for the treatment of selected tumors. Carbon nanotubes drug delivery system for cancer treatment ... * Corresponding authors. Chemotherapy is a drug treatment typically used to kill fast-growing cells in the body, such as cancer cells. Conventional chemotherapeutics possess some serious side effects including damage of the immune system and other organs with rapidly proliferating cells due to nonspecific targeting, lack of solubility, and . In conclusion, a promising technique is presented for increasing the efficacy, selectivity, and effectiveness of candidate drug carriers in the treatment of breast cancer. 2 Department of Pharmaceutics, Smriti College of Pharmaceutical Education, Indore (Madhya Pradesh), India. There is a wide range of nano-sized drug delivery systems that have been extensively investigated in cancer treatment. Following the successful use of CNTs for in vitro drug delivery, CNT-based drug carriers have been further utilized for in vivo cancer treatment in animal models. 2011;12(8):1151-1165. Carbon Nanotubes in Cancer Therapy and Drug Delivery Nanoparticle Drug Delivery Systems for Cancer Treatment ... 2 TABLE OF CONTENT 1. The practice of drug delivery has changed dramatically in the past few decades and even greater changes are anticipated in the near future. 75. Sindt JE, Larsen SD, Dalley AP, et al. E-mail: bmeliu@gmail.com. 1. This NPs above possessed several features: (a) excellent biocompatibility, (b) good drug carrier capacity, (c) significantly high targeting efficiency in vitro. Singh. Pulmonary Nano-Drug Delivery Systems for Lung Cancer: Current Knowledge and Prospects. Nanoparticles: A Suitable Drug Delivery System for Cancer Treatment. Nanoparticle drug-delivery-systems-for-cancer-treatment 1. Intoduction to Therapeutic Strategy - Drug Delivery System Promising Therapeutic Strategy Potential Therapeutic Strategy Novel Therapeutic Strategy New Therapeutic Strategy Effective Therapeutic Strategy Alternative Therapeutic Strategy Optimal Therapeutic Strategy Attractive Therapeutic Strategy Viable Therapeutic Strategy Possible Therapeutic Strategy Explore More 3-5 Of these systems, liposomal drug delivery is the most successful and is used to treat breast and ovarian cancers and Kaposi's . 74. New magnet-based drug delivery system shows promise for cancer treatment Date: January 31, 2018 Source: University of Georgia Summary: A team of researchers has developed a non-invasive method of . Curr Drug Targets. PDF Nanoparticles Smart Drug Delivery System for Cancer Nanoparticles in Cancer Treatment: Types and Preparation Methods. Nanoparticle-based drug delivery systems include liposomes, micelles, and albumin microparticles. Introduction. You et al recently synthesized multifunctional nano-noisome through loading anti-cancer drugs curcumin and folic acid in the Fe 3 O 4 @PLGA-PEG drug delivery system. BACKGROUND OF THE DOMAIN 3 2. targeted drug delivery in cancer, and to provide an insight into the issues related to the development of targeted drug delivery systems for cancer. A targeted drug delivery system (TDDS) is a system, which releases the drug at a preselected biosite in a controlled manner. For example, liposomes [5], polymeric nanoparticles [6], nanaoemulsion [2], solid lipid nanoparticles [7], polymeric micelles [8], carbon nanotubes [9], dendrimers [4], etc. drug delivery mechanism (Daraee et al., 2016) (Fig. Lipid-Based Drug Delivery Systems for Cancer Treatment ... Simultaneous drug and gene delivery to cancer cells has been introduced to provide advantages of the synergistic effects of gene to sensitize the cancer cells to chemotherapeutic agent. In cancer treatment, where chemotherapeutic and radiotherapeutic options Download it once and read it on your Kindle device, PC, phones or tablets. Chemotherapy, tog ether with surgery, are the most used cancer treatments in oncology. 2 TABLE OF CONTENT 1. Small amount of drug reaches the cancer cells 8. Cancer Treatment: Nanomedicines Improve Drug Delivery ... Smart Drug Delivery Systems for Cancer Treatment Using ... UNMET NEEDS OF CONVENTIONAL DOSAGE 5 3. Applications of liposomes in different cancers Cancer is one of the major reasons of death globally which can affect any body organ i.e. 6,7 TABLE 1 lists some drug delivery system technologies or platforms that have been approved for cancer therapy. The Role of Nanoparticles in Cancer Therapy through Apoptosis Induction. Breast cancer remains one of the world's most dangerous diseases because of the difficulty of finding cost-effective and specific targets for effective and efficient treatment methods. Recently, there has been enormous developments in the field of delivery systems to provide therapeutic agents or natural based active compounds to its target location for treatment of various aliments [33, 34].There are a number of drug delivery systems successfully employed in the recent times, however there are still certain challenges that need to be addresses and an advanced technology . Recently drug delivery systems have been used to deliver immunotherapy or chemotherapy agents, which could augment the efficacy of surgical resection. Nanoparticle-based drug delivery system (DDS) is considered promising for cancer treatment. Passive accumulation through EPR effect is the most acceptable drug delivery system for solid tumor treatment. Epub 2015 Nov 7. Poonam Jaggi 1 *, Harshit Joshi 2 and Jagmeet Singh 3. Poor targeting of heterogenic tumours 7. Request PDF | Lipid-Based Drug Delivery Systems for Cancer Treatment | It is a fact that chemotherapy agents have little specificity for cancer cells, this leading to low concentrations into the . targeted drug delivery in cancer, and to provide an insight into the issues related to the development of targeted drug delivery systems for cancer. Drugs have long been used to improve health and extend lives. Cancer is still an insurmountable disease in the medical field. Drug resistance 2. Arias Clares L. Lipid-based drug delivery systems for cancer treatment. Drug delivery systems can in principle provide enhanced efficacy and/or reduced toxicity for anticancer agents. Carbon nanotubes (CNTs) have attracted considerable . Delivery system for Breast cancer Cite as: P. Mittal, S. Singh, A. Singh, I.K. Lack of selectivity 3. Nanoparticle-based drugs are now widely regarded as a safer, more precise, and more effective mode of cancer therapy, considering their ability to enhance drug bioavailability, improve site-specific drug delivery, and protect nontarget tissues from toxic therapeutic drugs. Nanotechnology based delivery systems are making a significant impact on cancer treatment and the polymers play key role in the development of nanopraticlulate carriers for cancer therapy. Liposomes as Targeted Drug Delivery System for Cancer Treatment. In the current review, we give an overview of drug delivery systems which can deliver drugs to the tumor microenvironment and initiate the drug release in response to specific enzymes highly expressed in particular tumor tissues. Lack of drug solubility 4. POTENTIAL DRIVERS 6 4. 1 Encapsulated drug delivery systems offer the possibility to target therapies locally at adequate concentrations, maximizing the effect . An ideal nanocarrier for drug delivery and cancer treatment should meet a number of criteria including avoidance of the cleansing by the reticuloendothelial system (RES) and release and accumulation of the cargo at the targeted site with the desired therapeutic dose . R. Chouaib et al. The practice of drug delivery has changed dramatically in the past few decades and even greater changes are anticipated in the near future. The practice of drug delivery has changed dramatically in the last few Magnet-based drug delivery system shows promise for cancer treatment. 492-502. M. Rahmati et al. Mitochondria-targeted drug delivery system for cancer treatment J Drug Target. It then focuses on the role of various nanocomposites in diagnosis, drug delivery, and treatment of diseases like cancer, Alzheimer's disease, diabetes, and many others. In addition, hydrogels have excellent biocompatibility and biodegradability and lower toxicity than nanoparticle carriers. Nanoparticle Drug Delivery Systems for Cancer Treatment 1. This approach could revolutionize combination drug delivery across the blood-brain barrier for the effective targeting and treatment of brain cancer (Li et al. Authors Zhi-Peng Chen 1 . Drugs have long been used to improve health and extend lives. In recent years, with the development of nanomaterials, the research of drug delivery systems has become a new field of cancer therapy. Introduction. PO Box 550, Truro, NS, B2N 5E3, Canada. Combined and targeted drugs delivery system for colorectal cancer treatment: Conatumumab decorated, reactive oxygen species sensitive irinotecan prodrug and quercetin co-loaded nanostructured lipid carriers Expand Nanoparticle-based drugs are now widely regarded as a safer, more precise, and more effective mode of cancer therapy, considering their ability to enhance drug bioavailability, improve site-specific drug delivery, and protect nontarget tissues from toxic therapeutic drugs. 1). Mitochondria-targeted drug delivery system for cancer treatment. [25] Abstract and Figures. Nanoparticles as Drug Delivery Systems for Cancer Treatment: Applications in Targeted Therapy and Personalized Medicine book. [24] Recently, several interests were introduced in the field of Drug Delivery Systems (DDS) in order to enhance the therapeutic effect and decrease the side effects of anticancer drugs. ChNPs can transfer various antitumor drugs to targeted sites . In present study, we describe a promising radiolabeled drug delivery system for Methotrexate (MTX), an anticancer drug used in the treatment of breast cancer. [24] Recently, several interests were introduced in the field of Drug Delivery Systems (DDS) in order to enhance the therapeutic effect and decrease the side effects of anticancer drugs. 2014c). We studied a new drug delivery system comprising microspheres, with unique properties allowing delivery of large amounts of drugs to tumors for a prolonged time, thereby decreasing plasma levels. 1 Department of Biotechnology, Amity University, Noida, New-Delhi, India. A hydrogel drug carrier can cause less severe side effects than systemic chemotherapy and can achieve sustained delivery of a drug at tumor sites. The most recent application of these Nanorobots in drug delivery are in brain targeting, glucose monitoring in diabetes patients, bone reconstruction, cancer treatment, in removal of blood clot, nerve regeneration, and protein and peptide drug delivery system. This discovery promises to be faster, safer, more effective, and better suited for gene therapy, cancer treatment, and vaccine delivery, including mRNA-based vaccines such as those currently used . Journal of Drug Targeting: Vol. CURRENT RESEARCH 7 5. Click here to navigate to parent product. . BACKGROUND OF THE DOMAIN 3 2. Dynamic changes of cancer cells 5. As an emerging drug carrier, hydrogels have been widely used for tumor drug delivery. 2016;24(6):492-502. doi: 10.3109/1061186X.2015.1108325. (2016). drug carriers and their potential for delivering localized cancer treatments to target lung cancer with minimal adverse side effects. UNMET NEEDS OF CONVENTIONAL DOSAGE 5 3. Nanobiotechnology in Diagnosis, Drug Delivery and Treatment starts by introducing how nanotechnology has revolutionized drug delivery, diagnosis, and treatments of diseases. Zhe Yang, † a Di Gao, † a Zhong Cao,a Chao Zhang,a Du Cheng,b Jie Liu *a and Xintao Shuai *b. a Department of Biomedical Engineering, School of Engineering, Sun Yat-sen University, Guangzhou, Guangdong 510006, China. Nanotechnology has been extensively studied and exploited for cancer treatment as nanoparticles can play a significant role as a drug delivery system. The rate of infectious complications after intrathecal drug delivery system implant for cancer-related pain is low despite frequent concurrent anticancer treatment or leukopenia. CURRENT RESEARCH 7 5. 1 NANOPARTICLE DRUG DELIVERY SYSTEMS FOR CANCER TREATMENT By Anup Patwa Associate, Technology and Patent Research www.aranca.com 2. By Racha Chouaib, Rana Sarieddine, Hala Gali-Muhtasib. In present study, we describe a promising radiolabeled drug delivery system for Methotrexate (MTX), an anticancer drug used in the treatment of breast cancer. Advancements in liposomal vesicle development have achieved both controlled drug release and targeted drug delivery (disease-specific localisation). This book compiles and details cutting-edge research in nanomedicine . Nanoparticles as Drug Delivery Systems for Cancer Treatment: Applications in Targeted Therapy and Personalized Medicine. 24, No. Compared to conventional drugs, nanoparticle-based drug delivery has specific advantages, such as improved stability and biocompatibility, enhanced permeability and retention effect, and precise targeting. Drug and gene co-delivery systems for cancer treatment. Nanoparticles Smart Drug Delivery System for Cancer With the advancement in technology, intelligent nanoparticles are developed which must have a high capacity for cargo, and an envelope that is compatible with biological membranes and can present ligands that bind to specific receptors on target cells. This strategy offers a versatile platform for intelligent drug release at the site of action. system, ChNPs provided and significantly improved the delivery of drugs into specific breast cancer cells (MDA-MB-231, 4T1 cells, SK-BR-3, MCF-7, T47D). Author affiliations. "Nanorobotics in Drug Delivery Systems for Treatment of Cancer： A Review"出自《材料科学与工程：中英文A版》期刊2016年第3期文献，主题关键词涉及有纳米机器人、癌症治疗、抗癌药物、输送系统、分子生物学、生物技术、综述、医学发展等。钛学术提供该文献下载服务。 2020;131(1):280-287. Keywords: Conjugation, D-glucose, eugenol, Drug Delivery Systems (DDS), cancer treatment, osteosarcoma (K7M2). Need for Targeted Drug Delivery The quest for specificity of therapeutic agents is implicit in all treatment modal-ities. Liposomal anthracyclines have achieved highly efficient drug encapsulation, resulting in significant anticancer . However, size or molecular weight of the nanoparticles is not the sole determinant of the EPR effect, other factors such as surface charge, biocompatibility and in vivo surveillance system for macromolecules should not be ignored in . DOI: 10.1016/J.MATPR.2018.06.498 Corpus ID: 69423892; Smart Drug Delivery Systems for Cancer Treatment Using Nanomaterials @article{Prasanna2018SmartDD, title={Smart Drug Delivery Systems for Cancer Treatment Using Nanomaterials}, author={Akshatha Prasanna and Rani Pooja and V. G. Suchithra and Akhil Ravikumar and Praveen Kumar Gupta and Vidya Niranjan}, journal={Materials Today: Proceedings . This paper paper will discuss the therapeutic applications of CNTs with a major focus on their applications for the treatment of cancer. Nanoparticles are rapidly being developed and trialed to overcome several limitations of traditional drug delivery systems and are coming up as a distinct therapeutics for cancer treatment. Nanoparticle Drug Delivery Systems for Cancer Treatment - Kindle edition by Gali-Muhtasib, Hala, Chouaib, Racha. In 2008, our group, for the first time, reported in vivo cancer treatment using paclitaxel (taxol) conjugated branched PEG-functionalized SWNTs in a 4T1 murine breast cancer model66 . Pulmonary drug delivery, absorption, metabolism, and clearance Drug delivery and distribution The respiratory system coordinates with the circulatory system to supply oxygen from the outside environment "Nanorobotics in Drug Delivery Systems for Treatment of Cancer： A Review"出自《材料科学与工程：中英文A版》期刊2016年第3期文献，主题关键词涉及有纳米机器人、癌症治疗、抗癌药物、输送系统、分子生物学、生物技术、综述、医学发展等。钛学术提供该文献下载服务。 Need for Targeted Drug Delivery The quest for specificity of therapeutic agents is implicit in all treatment modal-ities. 1 Department of Plant, Food, and Environmental Sciences, Faculty of Agriculture, Dalhousie University, Rm 219-C, Cox Institute Building, 50 Pictou Rd. POTENTIAL DRIVERS 6 4. the treatment of cancer each of which has some signi cant limitations and side e ects [ ]. Serious side effects of chemotherapy 6. By controlling the timing of the interaction, researchers could pinpoint delivery of the drug to a precise location, thus preventing side common side effects of chemotherapy, such as hair loss or cardiac toxicity. This review is focused on the chemical design and synthesis of polymer-based drug delivery systems, in particular with stimuli-responsive nanoplatforms for cancer treatment . These criteria are directly dependent upon the particle size, surface . 9. breast, lung, liver, cervical spine, pancreases, stomach, skin, brain, head and neck. An ideal nanocarrier for drug delivery and cancer treatment should meet a number of criteria including avoidance of the cleansing by the reticuloendothelial system (RES) and release and accumulation of the cargo at the targeted site with the desired therapeutic dose . Liposome-based drug delivery system has found Worldwide increasing incidence of cancer, availability of research funding, increase in awareness about alternative methods for treatment, and favorable reimbursement . Cancer treatment includes surgical removal, chemotherapy, radiation, and hormone therapy. Unfortunately, chemotherapeutic agents are applied systemically destroying both tumor and healthy cells and resulting in many of undesirable side effects. Therefore, the present study suggests that D-glucose-eugenol has high potential to act as an anti-proliferative agent who may promise a new modality or approach as the drug delivery treatment for cancer or chemotherapeutic agent. SYRACUSE, N.Y., March 16, 2011 /PRNewswire/ -- Scientists in Syracuse University 's Chemistry Department have created a new drug delivery system expected to advance the effectiveness of cancer . The biodegradability and biocompatibility properties of chitosan-based nanoparticles (ChNPs) have good prospects for targeted drug delivery systems. Nonspecific targeting of conventional . ( 2015 ) presented the use of multidrug (paclitaxel and chloroquine phosphate)-loaded liposomes to treat paclitaxel-resistant carcinoma. 6, pp. Int J Nanomedicine. Targeted treatments against solid tumors generally lead to dramatic regressions, but, unfo … In this review, we have summarized the efficacy and the recent progress of controlled drug delivery systems based approaches for post-surgical cancer treatment. Due to the broad scope of possible EV applications, this review focuses on the use and efficacy of EVs derived from eukaryotic cells as drug delivery systems for cancer treatment. This property is essentially helpful for cancer treatment as surgical resection, radiation therapy, and chemotherapy are the first . January 31, 2018. . However, the systemic toxicity and drug resistance brought by chemotherapy drugs lead to the increase of failure rate [].In recent years, researchers have focused on the study of drug encapsulation by cells or nanoparticles (NPs). In recent year the development of molecule targeted drug has progressed remarkably and neumerous clinical studies have been carried out on molecular targeted drugs for cancer treatment. Drug delivery systems are engineered technologies for the targeted delivery and/or controlled release of therapeutic agents. Abstract. Book Nanoparticle Drug Delivery Systems for Cancer Treatment. Drug delivery systems are engineered technologies for the targeted delivery and/or controlled release of therapeutic agents. Chemotherapy is the main treatment for cancer. Use features like bookmarks, note taking and highlighting while reading Nanoparticle Drug Delivery Systems for Cancer Treatment. In another interesting study, Gao et al. Muhamad, N., Plengsuriyakarn, T. & Na-Bangchang, K. Application of active targeting nanoparticle delivery system for chemotherapeutic drugs and traditional/herbal medicines in cancer therapy: a . Novel drug delivery systems promise a bright future for cancer treatment in the next decade or so; they might become major arsenal for safer and more efficient treatments by ensuring proper drug . Madumani Amararathna 1, Kerry Goralski 2, David W. Hoskin 3,4, H. P. Vasantha Rupasinghe 1,3 *. Current advances in drug delivery systems for treatment of Triple negative breast cancer (TNBC). Cancer is still the main cause of death for patients worldwide with increasing incidence [1, 2], and the research into cancer treatment is under the spotlight.Surgery, radiotherapy, chemotherapy and immunotherapy, as well as those combinational regimens are now the main clinical strategies [].Among those, immunotherapy is now considered as the potentially powerful approach to overcome the . This book compiles and details cutting-edge research in nanomedicine . Unfortu- Long circulating macromolecular carriers such as liposomes can exploit the 'enhanced permeability and retention' effect for preferential extravasation from tumor vessels. The development of polymeric drug delivery systems that have based on natural and synthetic polymers are rapidly emerging to pharmaceutical fields. Drugs have long been used to improve health and extend lives. Drug delivery systems are engineered technologies for the targeted delivery and/or controlled release of therapeutic agents. The fruitful progresses have made in the application of biocompatible and bio-related copolymers and dendrimers to cancer treatment, including their use as delivery systems for potent anticancer drugs. J. Ahlawat et al. 1 NANOPARTICLE DRUG DELIVERY SYSTEMS FOR CANCER TREATMENT By Anup Patwa Associate, Technology and Patent Research www.aranca.com 2. This review is focused on the chemical design and synthesis of polymer-based drug delivery systems, in particular with stimuli-responsive nanoplatforms for cancer treatment. The application and development of . [25] Background: In the fight against cancer, new drug delivery systems are attractive to improve drug targeting of tumors, maximize drug potency, and minimize systemic toxicity. CONCLUSION Targeted drug delivery is very useful as it improves the therapeutic outcome when treated lung cancer. Other approaches involving EV-like particles used as anti-cancer vaccines 13 or antiviral therapeutics 13 are not reviewed. The main objective of nanomedicine research is the development of nanoparticles as drug delivery systems or drugs per se to tackle diseases as cancer, which are a leading cause of death with developed nations. 3 Department of Biotechnology, Lovely Professional University, Jalandhar, India These criteria are directly dependent upon the particle size, surface . 2017;12:7291. Compared with conventional antitumor drugs, drug delivery systems such as drug nanoparticles (NPs) are expected to have more advantages in antineoplastic effects, including easy preparation, high efficiency, low toxicity, especially active tumor-targeting ability. Din F, Aman W, Ullah I, et al. pharmaceutics Review Targeting Strategies for the Combination Treatment of Cancer Using Drug Delivery Systems Janel Kydd 1,†, Rahul Jadia 1,†, Praveena Velpurisiva 1, Aniket Gad 2, Shailee Paliwal 3 and Prakash Rai 1,3,* 1 Department of Biomedical Engineering and Biotechnology, University of Massachusetts, 1 University Ave, Lowell, MA 01854, USA; janel_kydd@student.uml.edu (J.K.); Rahul . THE CONVENTIONAL DRUG DELIVERY SYSTEM HAS THE FOLLOWING DISADVANTAGES: 1. The major aim of developing nanocarrier drug delivery systems is to enhance the therapeutic effect or reduce toxicity of therapeutically active materials. Compared with traditional DDS, the nanoparticle-based DDS shows improved efficacy by: 1) increasing half-life of vulnerable drugs and proteins, 2) improving the solubility of hydrophobic drugs, and 3) allowing controlled and targeted release of drugs in diseased site. In cancer treatment, where chemotherapeutic and radiotherapeutic options Anesth Analg. Smart hydrogels can respond to stimuli . We provide a brief description of the properties, synthesis and advantages of amphiphilic block copolymers, including polyether-polyester and polyether-polyanhydride. , liver, cervical spine, pancreases, stomach, skin, brain, head and.... Surgical resection, radiation, and hormone therapy AP, et al disease-specific localisation ) drugs. Is implicit in all treatment modal-ities > Introduction or antiviral therapeutics 13 are not reviewed nanoparticles ( ChNPs have. Nanoparticle-Based drug delivery systems for cancer treatment use features like bookmarks, note taking and highlighting reading! > ( 2016 ) of infectious complications after intrathecal drug delivery systems cancer! Based approaches for post-surgical cancer treatment < /a > Introduction of therapeutically active materials '' > Nanocluster-Based drug systems. 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Patients forquenching the uncontrolled proliferation of cancerous cells [ ] treatment of selected tumors nanocarriers!, resulting in significant anticancer 1 NANOPARTICLE drug delivery system for cancer treatment delivery systems for treatment of Triple negative breast cancer ( ). Both tumor and healthy cells and resulting in significant anticancer Guangdong 510006, China brain, head and.... In different cancers cancer is one of the major aim of developing nanocarrier drug delivery systems cancer. Cutting-Edge research in nanomedicine delivery has changed dramatically in the near future to improve health and extend lives,. Of Engineering, Sun Yat-sen University, Guangzhou, Guangdong 510006, China *, Harshit 2!, a very common treatment, and treatment < /a > 9 1 lists some drug delivery,. Anticipated in the near future with stimuli-responsive nanoplatforms for cancer treatment By Anup Patwa Associate Technology! In significant anticancer Racha Chouaib, Rana Sarieddine, Hala Gali-Muhtasib, increase in awareness about alternative Methods treatment! Review is focused on the chemical design and synthesis of polymer-based drug delivery based., Indore ( Madhya Pradesh ), India system technologies or platforms drug delivery system for cancer treatment..., increase in awareness about alternative Methods for treatment of Triple negative breast cancer TNBC! //Onlinelibrary.Wiley.Com/Doi/Book/10.1002/9781119671732 '' > Nanocluster-Based drug delivery system technologies or platforms that have been for! Chemotherapy and can achieve sustained delivery of a drug at tumor sites compiles and details cutting-edge research in nanomedicine of!