Empowering lung cancer treatment: Harnessing the potential of natural phytoconstituent-loaded nanoparticles.

Lung cancer, the second leading cause of cancer-related deaths, accounts for a substantial portion, representing 18.4% of all cancer fatalities. Despite advances in treatment modalities such as chemotherapy, surgery, and immunotherapy, significant challenges persist, including chemoresistance, non-specific targeting, and adverse effects. Consequently, there is an urgent need for innovative therapeutic approaches to overcome these limitations. Natural compounds, particularly phytoconstituents, have emerged as promising candidates due to their potent anticancer properties and relatively low incidence of adverse effects compared to conventional treatments. However, inherent challenges such as poor solubility, rapid metabolism, and enzymatic degradation hinder their clinical utility. To address these obstacles, researchers have increasingly turned to nanotechnology-based drug delivery systems (DDS). Nanocarriers offer several advantages, including enhanced drug stability, prolonged circulation time, and targeted delivery to tumor sites, thereby minimizing off-target effects. By encapsulating phytoconstituents within nanocarriers, researchers aim to optimize their bioavailability and therapeutic efficacy while reducing systemic toxicity. Moreover, the integration of nanotechnology with phytoconstituents allows for a nuanced understanding of the intricate molecular pathways involved in lung cancer pathogenesis. This integrated approach holds promise for modulating key cellular processes implicated in tumor growth and progression. Additionally, by leveraging the synergistic effects of phytoconstituents and nanocarriers, researchers seek to develop tailored therapeutic strategies that maximize efficacy while minimizing adverse effects. In conclusion, the integration of phytoconstituents with nanocarriers represents a promising avenue for advancing lung cancer treatment. This synergistic approach has the potential to revolutionize current therapeutic paradigms by offering targeted, efficient, and minimally toxic interventions. Continued research in this field holds the promise of improving patient outcomes and addressing unmet clinical needs in lung cancer management.

Modification and Functionalization of Polymers for Targeting to Bone Cancer and Bone Regeneration.

Bone is one of the most complex, inaccessible body structures, responsible for calcium storage and haematopoiesis. The second highest cause of death across the world is cancer. Amongst all the types of cancers, bone cancer treatment modalities are limited due to the structural complexity and inaccessibility of bones. The worldwide incidence of bone diseases and bone defects due to cancer, infection, trauma, age-related bone degeneration is increasing. Currently different conventional therapies are available for bone cancer such as chemotherapy, surgery and radiotherapy, but they have several disadvantages associated with them. Nanomedicine is being extensively researched as viable therapeutics to mitigate drug resistance in cancer therapy and promote bone regeneration. Several natural polymers such as chitosan, dextran, alginate, hyaluronic acid, and synthetic polymers like polyglycolic acid, poly(lactic-co-glycolic acid), polycaprolactone are investigated for their application in nanomedicine for bone cancer treatment and bone regeneration. Nanocarriers have shown promising results in preclinical experimental studies. However, they still face a major drawback of inadequate targetability. The paper summarizes the status of research and the progress made so far in modifications and functionalization of natural polymers for improving their site specificity and targeting for effective treatment of bone cancer and enhancing bone regeneration.

Colorectal Cancer Management by Herbal Drug-Based Nanocarriers: An Overview.

Colorectal cancer is the third most common cancer in the world, affecting both men and women, and it is one of the leading causes of cancer related deaths worldwide. Current treatment modalities employed for colorectal cancer management have their own share of drawbacks, such as toxicity due to nonspecific action and chemoresistance that may develop during treatment. The quest and pursuit for newer drugs which can overcome these drawbacks has led to extensive research on plant derived phytoconstituents. Herbal molecules are known to have promising therapeutic efficacy and less toxicity as compared to the current chemotherapeutic drugs of allopathic regimen. However most of these herbal molecules have low bioavailability as a result their therapeutic efficacy gets compromised. Integration of modern delivery approaches with these herbal molecules and presenting them in the form of nanocarriers will help alleviate these drawbacks. This review describes herbal drugs that have potential for treatment of colorectal cancer and nanotechnology strategies widely investigated for the delivery of these herbal molecules. Targeted delivery methods include use of such components as polymeric nanoparticles, liposomes, dendrimers, magnetic nanoparticles, solid lipid nanoparticles, and nanoemulsions. The paper also discusses in detail the formulation aspects of herbal nanocarriers, their design development, and preclinical assessment.