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Under the umbrella of targeted drug delivery systems, several techniques are unleashed in the market that allow a drug or other pharmacologically active material to be delivered to the target cell to treat a condition or health problem. The improvement of the pharmaceutical delivery systems' effectiveness, safety, and stability is accomplished through the Formulation of the nano-gel-based delivery system. Nanogels are aqueous dispersions of submicronsized, three-dimensional, strongly cross-linked networks of hydrophilic polymers that are inflated by water. Through a variety of delivery routes, such as oral, pulmonary, nasal, parenteral, and intraocular, an active pharmaceutical agent or therapeutic agent with a high or low molecular weight can be easily encapsulated into nanogels. Nanogels have been researched as drug delivery systems due to their beneficial qualities, such as biocompatibility, high stability, flexible particle size, drug loading capacity, and potential surface modification for active targeting by attaching ligands that recognize cognate receptors on target cells or tissues. By responding to internal or external stimuli, including pH, temperature, light, and redox, nano gels can be made to be stimulus-responsive, allowing for regulated drug release. Thus, in the fact of said characteristics' of nano gels, this review manuscript aims to provide an overview of characterization, evaluation, formulation technique, recent applications, and patents of nano gels.

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The current review intends to regulate and accurately evaluate genotoxic contaminants in drug substance and drug product method and formulation process development, validation, and degradation pathways. The Quality by Design (QbD) principles can be applied to the systematic evaluation and control of impurities enabled by the development of modern analytical techniques, including the performance of risk assessment, the screening of Critical Process Parameters (CPPs), and the identification of the most influential variables in the optimization of the evaluation and control methods. Current difficulties in removing genotoxic contaminants and the procedures for doing so have been outlined in this review, along with the steps necessary to acquire optimum techniques and the most acceptable formulations. In addition to this, division, characterization, assessment, quantification, and formation of genotoxic impurities sources and control strategy for genotoxic impurities, handling of nitrosamine assay content of drug products in different industrial methodologies and their chemometric prospects and associated recent patents are also explored.

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INTRODUCTION: In the present study, we have examined different aspects and potentials of stem cells for the management of patients infected with COVID-19. BACKGROUND: The novel coronavirus disease (COVID-19) has been reported in most of the countries and territories (>230) of the world with .686 million confirmed cases (as of Apr. 22, 2023). While the scientific community is working to develop vaccines and develop drugs against the COVID-19 pandemic, novel alternative therapies may reduce the mortality rate. Recently, the application of stem cells for critically ill COVID-19 patients in a small group of patients has been examined. METHODS: We searched PubMed, Web of Science, and Google Scholar up to July 2022. Those studies that reviewed COVID-19 and cell therapy potentials were entered into the study. Moreover, some recently published patents were exploited and reviewed. Patentscope, USPTO, Espacenet, Free Patents Online, and Google Patents were used for patent searches. RESULTS: Cell-based therapy as a modality of regenerative medicine is considered one of the most promising disciplines in the fields of modern science and medicine. Such an advanced technology offers endless possibilities for transformative and potentially curative treatments for some of the most life-threatening diseases. This therapeutic tool can be useful to reduce the rate of mortality. There have been several published patents for different stem cell therapy platforms in recent years. CONCLUSION: Stem cell therapy could be considered a safe and effective therapeutic strategy to reduce death cases in patients infected with COVID-19. Besides, stem cell therapy might increase the pulmonary functions in the patients, it suppresses the occurring inflammations and ameliorates the symptoms.

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Three-dimensional printing (3DP) is emerging as an innovative manufacturing technology for biomedical and pharmaceutical applications, since the US FDA approval of Spritam as a 3D-printed drug. In the present review, we have highlighted the potential benefits of 3DP technology in healthcare, such as the ability to create patient-specific medical devices and implants, as well as the possibility of on-demand production of drugs and personalized dosage forms. We have further discussed future research to optimize 3DP processes and materials for pharmaceutical and biomedical applications. Cohesively, we have put forward the current state of active patents and applications related to 3DP technology in the healthcare and pharmaceutical industries including hearing aids, prostheses, medical devices and drug-delivery systems.

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BACKGROUND: Nowadays, the CRISPR-Cas9 genome editing system has become a popular bioengineering-based tool for various applications. Owing to its high-target specificity, efficiency, versatility, and simplicity, it has gained attention as a robust tool for molecular biology research, which unveils the biological functions of unexplored genes and engineers the metabolic pathways. Chinese hamster ovary (CHO) cells and Escherichia coli are regarded as the most commonly used expression platforms for industrial- scale production of recombinant proteins. The emergence of the CRISPR-Cas9 genome editing system promotes the current status of expression hosts towards controllable and predictable strains. OBJECTIVE: This paper presents the current status of expression hosts for biopharmaceutical production. Some major accomplishments in the utilization of the CRISPR-Cas9 genome editing tool in the different prokaryotic and eukaryotic systems are discussed, and more importantly, the future directions of this newly arrived technology to make the next-generation cell factories with improved or novel properties are suggested. Moreover, the challenges faced in recent patents in this field are also discussed. RESULTS AND CONCLUSION: The CRISPR-Cas9 genome-editing tool has been adopted to be utilized in some major expression platforms. CRISPeering has been successfully employed for genome editing in different prokaryotic and eukaryotic host cells. The emergence of systems metabolic engineering, systems biology, and synthetic biology fortify the current situation of the CRISPR-Cas9 genome editing system.

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Skin cancer, among the various kinds of cancers, is a type that emerges from skin due to the growth of abnormal cells. These cells are capable of spreading and invading the other parts of the body. The occurrence of non-melanoma and melanoma, which are the major types of skin cancers, has increased over the past decades. Exposure to ultraviolet radiations (UV) is the main associative cause of skin cancer. UV exposure can inactivate tumor suppressor genes while activating various oncogenes. The conventional techniques like surgical removal, chemotherapy and radiation therapy lack the potential for targeting cancer cells and harm the normal cells. However, the novel therapeutics show promising improvements in the effectiveness of treatment, survival rates and better quality of life for patients. Different methodologies are involved in the skin cancer therapeutics for delivering the active ingredients to the target sites. Nano carriers are very efficient as they have the ability to improve the stability of drugs and further enhance their penetration into the tumor cells. The recent developments and research in nanotechnology have entitled several targeting and therapeutic agents to be incorporated into nanoparticles for an enhancive treatment of skin cancer. To protect the research works in the field of nanolipoidal systems various patents have been introduced. Some of the patents acknowledge responsive liposomes for specific targeting, nanocarriers for the delivery or co-delivery of chemotherapeutics, nucleic acids as well as photosensitizers. Further recent patents on the novel delivery systems have also been included here.

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BACKGROUND: The immense development in the field of anticancer research has led to an increase in the research of bioactive compounds with anticancer potential. It has been known that many bioactive natural compounds have low solubility (and low bioavailability) as their main drawback when it comes to the formulation and drug delivery to specific sites. OBJECTIVE: As many attempts have been made to overcome this issue, this review gives a summary of the current accomplishments regarding the development of new Drug Delivery Systems (DDSs) represented by nanoparticles (NPs) and exosomes. METHODS: We analyzed the published data concerning selected compounds that present the most prominent plant secondary metabolites with anticancer potential, specifically flavone (quercetin), isoflavone (genistein and curcumin) and stilbene (resveratrol) groups that have been formulated as NPs and exosomes. In addition, we summarized the patent literature published from 2015-2018 that address these formulations. RESULTS: Although the exact mechanism of action for the selected natural compounds still remains unclear, the anticancer effect is evident and the main research efforts are directed to finding the most suitable delivery systems. Recent patents in this field serve as evidence that these newly designed natural compound delivery systems could be powerful new anticancer agents in the very near future if the noted difficulties are overcome. CONCLUSION: The focus of recent research is not only to clarify the exact mechanisms of action and therapeutic effects, but also to answer the issue of suitable delivery systems that can transport sufficient doses of bioactive compounds to the desired target.

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BACKGROUND: Treatment of Epithelial Ovarian Cancer (EOC), historically based on surgery and platinum doublet chemotherapy, is associated with high risk of relapse and poor prognosis for recurrent disease. In this landscape, the innovative treatment with PARP inhibitors (PARPis) demonstrated an outstanding activity in EOC, and is currently changing clinical practice in BRCA mutant patients. OBJECTIVES: The study aimed to highlight the mechanism of action, pharmacokinetics, clinical activity, indications and current strategies of development of Olaparib, Niraparib, Rucaparib, Talazoparib and Veliparib, the 5 most relevant PARPis. METHODS: We performed a review on Pubmed using 'ovarian cancer' and the name of each PARPi (PARP inhibitor) discussed in the review as Medical Subject Headings (MeSH) keywords. The same search was performed on "clinicaltrial.gov" to identify ongoing clinical trials and on "google. com/patents" and "uspto.gov" for recent patents exploring PARPIs in ovarian cancer. RESULTS: Olaparib, Niraparib and Rucaparib are already approved for the treatment of recurrent EOC and their indications are partially overlapping. Talazoparib and Veliparib are promising PARPis, but currently under investigation in early phase trials. Several studies are evaluating PARPis in monotherapy or in associations, in a wide range of settings (i.e. first line, neoadjuvant, platinum-sensitive and resistant disease). CONCLUSION: PARPis are valuable options in patients with recurrent ovarian cancer with promising activity in different stages of this disease. Further studies are required to better define optimal clinical settings, predictors of response beyond BRCA mutations and strategies to overcome secondary resistance of PARPis therapy in EOC.

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BACKGROUND: Tumor cells may be expressed as a result of oxidative stress. The extent of oxidative stress correlates with the aggressive and metastatic potency of cancer. OBJECTIVE: One simple way to control prostate cancer is through chemoprevention which refers to the administration of natural or synthetic agents to block, reverse, or delay the process of carcinogenesis. The most chemopreventive agents are antioxidants in nature. METHODS: In this review, we summarized the effects of dietary antioxidants with a focus on their molecular mechanisms and possible roles in the treatment of prostate cancer cells. We also reported the recent outcomes of laboratory and/or clinical trials of antioxidants in prostate cancer patients. RESULTS: Numerous pre-clinical studies showed that antioxidants protect DNA against being damaged by Reactive Oxygen Species (ROS), thereby genetic mutations causing cancer are likely to be prevented. However, the clinical trial results showed that antioxidants have yielded mixed outcomes or benefitted only a subgroup of the population. CONCLUSION: A greater understanding of the molecular events associated with antioxidants will enhance the development of treatment and could result in better strategies for the chemoprevention of prostate cancer. Recent patents also suggest that anti-oxidant compounds can be effective for the prevention and the treatment of prostate cancer.

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