Monu Kumar Shukla scite author profile

: Despite a great deal of efforts made by researchers and the advances in the technology, the treatment of cancer is very challenging. Significant advances in the field of cancer therapeutics have been made but due to the complexity of solid tumor microenvironment, specially their dense extracellular matrix (which make the conditions favorable for cancer growth, metastasis and act as a barrier to the chemotherapeutic drugs as well as nanomedicine), the treatment of solid tumors is difficult. Overexpression of extracellular matrix components such as collagen, hyaluronan and proteoglycans in solid tumor leads to high interstitial fluid pressure, hypoxia, vascular collapse and poor perfusion which hinders the diffusion and convection of the drugs into the tumor tissue. This leads to emergence of drug resistance and poor antitumor efficacy of the chemotherapeutics. A number of approaches are being investigated in order to modulate this barrier for improved outcome of cancer chemotherapy. In this review recent advances in the various approaches for the modulation of barrier of extracellular matrix of solid tumor is covered and significant findings are discussed in an attempt to facilitate more investigations in this potential area to normalize the tumor extracellular matrix for improving drug exposure to solid tumor.

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Role and Recent Advancements of Ionic Liquids in Drug Delivery Systems

Shukla

Tiwari

Verma

et al. 2023

Pharmaceutics

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Advancements in the fields of ionic liquids (ILs) broaden its applications not only in traditional use but also in different pharmaceutical and biomedical fields. Ionic liquids “Solutions for Your Success” have received a lot of interest from scientists due to a myriad of applications in the pharmaceutical industry for drug delivery systems as well as targeting different diseases. Solubility is a critical physicochemical property that determines the drug’s fate at the target site. Many promising drug candidates fail in various phases of drug research due to poor solubility. In this context, ionic liquids are regarded as effective drug delivery systems for poorly soluble medicines. ILs are also able to combine different anions/cations with other cations/anions to produce salts that satisfy the concept behind the ILs. The important characteristics of ionic liquids are the modularity of their physicochemical properties depending on the application. The review highlights the recent advancement and further applications of ionic liquids to deliver drugs in the pharmaceutical and biomedical fields.

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P141 NEUTROPHIL GELATINASE-ASSOCIATED LIPOCALIN (NGAL) IS PRODUCED BY IL-1ě-STIMULATED HUMAN OSTEOARTHRITIS CHONDROCYTES AND PROTECTS MMP-9 FROM DEGRADATION

Gupta¹,

Shukla²,

Malemud³

et al. 2006

Osteoarthritis and Cartilage

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Tumor micro-environment targeted collagenase-modified albumin nanoparticles for improved drug delivery

Shukla

Behera

Chakraborty

et al. 2022

Journal of Drug Delivery Science and Technology

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Metal‐based nanomaterials and nanocomposites as promising frontier in cancer chemotherapy

Kumar

Shukla

Sharma

et al. 2023

MedComm

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Cancer is a disease associated with complex pathology and one of the most prevalent and leading reasons for mortality in the world. Current chemotherapy has challenges with cytotoxicity, selectivity, multidrug resistance, and the formation of stemlike cells. Nanomaterials (NMs) have unique properties that make them useful for various diagnostic and therapeutic purposes in cancer research. NMs can be engineered to target cancer cells for early detection and can deliver drugs directly to cancer cells, reducing side effects and improving treatment efficacy. Several of NMs can also be used for photothermal therapy to destroy cancer cells or enhance immune response to cancer by delivering immune‐stimulating molecules to immune cells or modulating the tumor microenvironment. NMs are being modified to overcome issues, such as toxicity, lack of selectivity, increase drug capacity, and bioavailability, for a wide spectrum of cancer therapies. To improve targeted drug delivery using nano‐carriers, noteworthy research is required. Several metal‐based NMs have been studied with the expectation of finding a cure for cancer treatment. In this review, the current development and the potential of plant and metal‐based NMs with their effects on size and shape have been discussed along with their more effective usage in cancer diagnosis and treatment.

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Managing Apoptosis in Lung Diseases using Nano-assisted Drug Delivery System

Shukla

Dubey

Pandey

et al. 2022

CPD

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Several factors exist that limit the efficacy of lung cancer treatment. These may be tumor-specific delivery of therapeutics, airway geometry, humidity, clearance mechanisms, presence of lung diseases, and therapy against tumor cell resistance. Advancements in drug delivery using nanotechnology based multifunctional nanocarriers, have emerged as a viable method for treating lung cancer with more efficacy and fewer adverse effects. This review does a thorough and critical examination of effective nano-enabled approaches for lung cancer treatment, such as nano-assisted drug delivery systems. In addition, to therapeutic effectiveness, researchers have been working to determine several strategies to produce nanotherapeutics by adjusting the size, drug loading, transport, and retention. Personalized lung tumor therapies using sophisticated nano modalities have the potential to provide great therapeutic advantages based on individual unique genetic markers and disease profiles. Overall, this review provides comprehensive information on newer nanotechnological prospects for improving the management of apoptosis in lung cancer.

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Revisiting the therapeutic potential of gingerols against different pharmacological activities

Sharma

Shukla

Sharma

et al. 2022

Naunyn-Schmiedeberg's Arch Pharmacol

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The rhizomes of ginger have been in use in many forms of traditional and alternative medicines. Besides being employed as condiment and flavoring agent, it is used in the treatment of nausea, osteoarthritis, muscle pain, menstrual pain, chronic indigestion, Alzheimer’s disease, and cancer. Ginger rhizome contains volatile oils, phenolic compounds and resins, and characterization studies showed that [6]-gingerol, [6]-shogaol, and [6]-paradol are reported to be the pharmacologically active components. Gingerol is a major chemical constituent found as volatile oil in the rhizomes of ginger. It has several medicinal benefits and used for the treatment of rheumatoid arthritis, nausea, cancer, and diabetes. Many studies have been carried out in various parts of the world to isolate and standardize gingerol for their use as a complementary medicine. The present review summarizes wide range of research studies on gingerol and its pharmacological roles in various metabolic diseases. Graphical Abstract

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