OBJECTIVES: To compare the clinical effectiveness of combined therapy using SGLT2 inhibitor and metformin with monotherapy using metformin alone in HbA1c and body weight reduction.
METHOD: A systematic review of the randomized controlled trials has been carried out and Cochrane risk of bias tool was used for the quality assessment. Patient, Intervention, Comparison and Outcomes (PICO) technique is used to select the relevant articles to meet the objective.
RESULTS: The studies used in this article are multicenter, double-blinded randomized controlled trials on SGLT2 inhibitors with methformin, there were a total of 3897 participants, with a range of 182 to 1186 individual study size were included. Studies showed that combined therapy were more effective in HbA1c and body weight reduction as compared to monotherapy.
CONCLUSION: The combined therapy of SGLT2 inhibitor along with metformin is more effective in HbA1c reduction and weight reduction as compared to monotherapy using metformin alone. Among the three SGLT2 inhibitors such as dapagliflozin canagliflozin and empagliflozin do not differ much in the efficiency of weight reduction. However, Empagliflozin 25mg is effective in HbA1c reduction.
METHODS: Dendrimer mediated cancer therapy is advantageous over conventional chemotherapy, radiotherapy and surgical resection due to reduced systemic toxicity, and molecular level cell injury to cancerous mass, for an appreciable survival of the subject. Recently used dendrimer mediated nanotechnology for oncology aims to conquer these challenges. Dendrimers based nano-constructs are having architectures comparable to that of biological vesicles present in the human body.
RESULTS: Operating with dendrimer technology, proffers the exclusive and novel strategies with numerous applications in cancer management involving diagnostics, therapeutics, imaging, and prognostics by sub-molecular interactions. Dendrimers are designed to acquire the benefits of the malignant tumor morphology and characteristics, i.e. leaky vasculature of tumor, expression of specific cell surface antigen, and rapid proliferation.
CONCLUSION: Dendrimers mediated targeted therapy recommends innovatory function equally in diagnostics (imaging, immune-detection) as well as chemotherapy. Currently, dendrimers as nanomedicine has offered a strong assurance and advancement in drastically varying approaches towards cancer imaging and treatment. The present review discusses different approaches for cancer diagnosis and treatment such as, targeted and control therapy, photodynamic therapy, photo-thermal therapy, gene therapy, antiangiogenics therapy, radiotherapy etc.
METHODS: Polymeric nanocarriers are among one of the effective delivery systems, which has given promising results in the treatment of breast cancers. Nanocarriers does exert their anticancer effect either through active or passive targeting mode.
RESULTS: The use of nanocarriers has been resolute about the adverse effects of chemotherapeutic drugs such as poor solubility and less penetrability in tumor cells.
CONCLUSION: The present review is focused on recent developments regarding polymeric nanocarriers, such as polymeric micelles, polymeric nanoparticles, dendrimers, liposomes, nanoshells, fullerenes, carbon nanotubes (CNT) and quantum dots, etc. for their recent advancements in breast cancer therapy.
METHODS: Application of nanotechnology in medicine have perceived a great evolution during past few decades. Nanoemulsion, submicron sized thermodynamically stable distribution of two immiscible liquids, has gained extensive importance as a nanocarrier to improve chemotherapies seeking to overcome the limitations of drug solubilization, improving systemic delivery of the chemotherapeutics to the site of action to achieve a promising inhibitory in tumor growth profile with reduced systemic toxicity.
RESULTS AND CONCLUSION: This review has focused on potential application of nanoemulsion in the translational research and its role in chemotherapy using oral, parenteral and transdermal route to enhance systemic availability of poorly soluble drug. In summary, nanoemulsion is a multifunctional nanocarrier capable of enhancing drug delivery potential of cytotoxic agents, thereby, can improve the outcomes of cancer treatment by increasing the life-span of the patient and quality of life, however, further clinical research and characterization of interactive reactions should need to be explored.
OBJECTIVE: The aim of this paper is to introduce readers to the platforms on which Tuberculosis participants interact, to discuss reasons for and risks associated with TB-related activity, and to review research related to the potential impact of individual participation on TB outcomes.
METHODS: Research and online content related to Tuberculosis online activity is reviewed, however, the difficulty in accurate prescribing and adhering to these protocols and the emergence of M. tuberculosis strains resistant to multiple drugs and drug-drug interactions that interfere with optimal treatment of Tuberculosis and co-infected patients with the different disease has generated a pressing need for improved Tuberculosis therapies.
RESULTS: Together with the ominous global burden of Tuberculosis, those shortcomings of current medication have contributed to a renewed interest in the development of improved drugs and protocols for the medication of Tuberculosis. This article features obstacles related with the enhanced utilization of existing drugs and difficulties related with the advancement of enhanced products, concentrating on perspectives characteristic in Tuberculosis drug clinical improvement. The participation includes peer support, advocacy, self-expression, seeking and sharing TB information, improving approaches to Tuberculosis data management, and humour.
CONCLUSION: This article highlights hurdles related to the optimised use of existing drugs and challenges related to the development of improved products, focusing on aspects inherent in Tuberculosis drug clinical development. Concluding comments offer processes for more efficient development of Tuberculosis therapies and increase the quality of life.
OBJECTIVE: This review epigrammatically highlights the significance of targeted drug delivery and presents a comprehensive description of the principal barriers faced by the nucleus targeted drug delivery paradigm and ensuing complexities thereof. Eventually, the progress of nucleus targeting with nucleic acid aptamers and success achieved so far have also been reviewed.
METHODS: Systematic literature search was conducted of research published to date in the field of nucleic acid aptamers.
CONCLUSION: The review specifically points out the contribution of individual aptamers as the nucleustargeting agent rather than aptamers in conjugated form.
STATEMENT OF SIGNIFICANCE: It is well established that dendrimers have demonstrated promising potentials for drug delivery. However, the inherent toxicity poses challenges for its clinical translation. In this regard, PEGylation has helped mitigate some of the toxicity concerns of dendrimers and have paved the way forward for testing its translational potentials. The review is a collection of articles demonstrating the utility of PEGylation of the most studied PAMAM dendrimers. To our knowledge, this is a first such attempt to draw reader's attention, specifically, towards PEGylated PAMAM dendrimers.