Pharmaceutical Science, Pharmacology, Toxicology and Pharmaceutics, General Pharmacology, Toxicology and Pharmaceutics, Drug Discovery
16
Scopus Publications
140
Scholar Citations
8
Scholar h-index
8
Scholar i10-index
Scopus Publications
Development and Characterization of Nanoparticulate Hydrogel Loaded with Extract of Fernandoa Adenophylla Roshan Yadav, Himmat Singh Chawra, Gaurav Dubey, Md Sabir Alam, Vikram Kumar, Tejpal Yadav Current Nanomedicine, 2026 Background: This study aims to construct a hydrogel that contains PEG 4000 nanopar-ticles loaded with an extract from Fernandoa adenophylla (FA). Since Fernandoa Adenophylla fruit extract has been shown to have anti-inflammatory and antifungal properties, an effort was made to increase the extract's effectiveness by forming it into nanoparticulate hydrogel, which may be a viable substitute for traditional formulations of Fernandoa Adenophylla extract by providing the added advantages of transdermal application's superior penetration qualities and prolonged release. Objective: The objective of this formulation is to develop a formulation for transdermal delivery to get maximum penetration and prolong the release of phytoconstituents present in the extract of Fernandoa adenophylla and to use the maximum potential of FA phytoconstituents in the form of various pharmacological activities like anti-inflammatory, antibacterial, antifungal, and skin dis-eases, etc. Methods: In this work, the fruit of Fernandoa Adenophylla was macerated in hot water with methanol to extract the active components. By employing the nanoprecipitation technique with PEG 4000 as the polymer, Tween 80 as the surfactant, and dimethyl sulfoxide as the organic phase solvent, the crude extracts were transformed into polymeric nanoparticles. The gel matrix, containing Carbopol 940 as the base, was combined with the polymeric nanoparticles. Results: The polymeric nanoparticles exhibited a somewhat spherical shape, with a z-average of 323.7 to 882.6 nm, PDI between 0.301 to 0.692, and zeta potential between -13.1 and -18.0 mV, with a maximum drug entrapment percentage of 90.36%. High viscosity, neutral pH, and good spreadability were demonstrated by nanoparticulate hydrogel compositions, making them appro-priate for transdermal application. A sustained drug release of 93.30% from the improved formu-lation was seen in vitro for up to 24 hours. Conclusion: Nanoparticlulate hydrogel can be employed as a carrier to deliver Fernandoa Ad-enophylla extract transdermally.
Harnessing Phytochemicals and Nanotechnology Synergy for Molecular, Epigenetic, and Microbiota-Driven Regulation in Type 2 Diabetes Mellitus Gagan Prakash, Anis Ahmad Chaudhary, Ruchita Tanu, Mohamed A. M. Ali, Fehmi Boufahja, Pushpender K. Sharma, Sudarshan Singh Lakhawat, Tejpal Yadav, Navneet Kumar Upadhyay, Vikram Kumar Pharmaceutics, 2026 Type 2 diabetes mellitus (T2DM) is a multifaceted metabolic disorder marked by impaired insulin action, pancreatic β-cell dysfunction, and the involvement of several interconnected mechanisms, including inflammation, oxidative stress, and epigenetic alterations. Despite progress in conventional therapies, achieving durable glycemic control and minimizing complications remain major challenges. This review discusses the emerging role of bioactive phytochemicals—such as curcumin, berberine, resveratrol, flavonoids, and polysaccharides—in modulating essential molecular pathways including AMPK, PI3K/AKT, and cAMP/PKA, which contribute to enhanced insulin sensitivity, glucose regulation, and β-cell protection. These natural compounds also influence gut microbiota modulation and epigenetic mechanisms, offering additional metabolic and anti-inflammatory benefits. This review synthesizes evidence from peer-reviewed studies published between 2000 and 2024, incorporating bibliometric trends showing an increasing research focus on phytochemicals for T2DM management. However, limitations such as low solubility, instability, and poor absorption restrict their clinical application. Advances in nanotechnology-based delivery systems, including nanoparticles, liposomes, and nanoemulsions, have shown potential to overcome these barriers by improving stability, bioavailability, and targeted delivery of phytochemicals. The integration of gut microbiota modulation with nanocarrier-enabled phytochemical therapy supports a precision medicine approach for managing T2DM. Preliminary clinical evidence highlights significant improvements in glycemic control and inflammatory status, yet further large-scale, well-controlled trials are essential to ensure safety, optimize dosages, and standardize combination regimens. Overall, phytochemical therapies, reinforced by nanotechnology and microbiota modulation, present a promising, safe, and holistic strategy for T2DM management. Continued interdisciplinary research and clinical validation are crucial for translating these advances into effective therapeutic applications and reducing the global diabetes burden.
COMPREHENSIVE QUALITY ASSURANCE OF MEDICINAL Curcuma longa: PHYTOCHEMICAL, PHYSICOCHEMICAL, AND GC-MS ANALYSIS D. Lashkari, T. Yadav, P. K. Sharma, S. K. Garg, V. Kumar Rasayan Journal of Chemistry, 2025 Curcuma longa Linn., commonly known as Haridra, is a widely used medicinal plant valued for its diversepharmacological properties, including antimicrobial, anti-inflammatory, antioxidant, antidiabetic, and anticancer activities. These therapeutic effects are primarily attributed to its rich phytochemical profile. This study aimedtoperform a comprehensive quality assessment of Curcuma longa through phytochemical screening, physicochemical analysis, thin-layer chromatography (TLC), and gas chromatography–mass spectrometry (GC-MS). Standardizationwas conducted in accordance with the Ayurvedic Pharmacopoeia of India (API) guidelines. Organoleptic andpowder microscopy confirmed authenticity, while physicochemical parameters such as moisture content (9.65%), total ash (4.9%), acid-insoluble ash (0.71%), and water-soluble ash (4.21%) were all within API limits. Extractivevalues for aqueous and alcoholic extracts were 17.23% and 9.98%, respectively, indicating the presence of significant bioactive compounds. Phytochemical analysis revealed the presence of carbohydrates, alkaloids, saponins, tannins, proteins, amino acids, and flavonoids in both extracts. TLC analysis showed the presence of curcumin, a key active compound, through distinct Rf values. GC-MS profiling identified 16 volatile compoundswith high match factors (>92.0), confirming the presence of bioactive constituents such as o-Cymene, Linalool, Cyclohexene derivatives, and turmerone-related compounds. These findings support the therapeutic relevance of Curcuma longa and provide a validated framework for its quality control and standardization. The integrationof multiple analytical methods ensures the reliability and consistency of this herbal drug for medicinal use.
IMPACT OF CARBOPOL-LOADED CURCUMIN NANOEMULSION ON PSORIASIS: INVESTIGATING TREATMENT EFFICACY AND HISTOPATHOLOGICAL CHANGES IN AN ANIMAL MODEL DEEPA LASHKARI, TEJPAL YADAV, SHIV KUMAR GARG, Vikram Kumar Asian Journal of Pharmaceutical and Clinical Research, 2025 Objectives: This study sought to evaluate the medicinal and therapeutic advantages of a locally used herbal preparation for psoriasis management. It specifically assessed the efficacy of curcumin-based nanoemulsions and nanoemulgels in a rat model of psoriasis produced by complete Freund’s adjuvant and formaldehyde. The formulations were tested against the conventional corticosteroid treatment, triamcinolone acetonide. Methods: Thirty albino Wistar rats were placed into five groups: Control, placebo, standard, F1 (CURNE 5%), and F2 (CURNE 10%). The psoriasis area and severity index were used to determine the severity of erythema, scaling, and skin thickness. To compare the treatment effects, histopathological investigation was performed, followed by statistical analysis using one-way analysis of variance. Results: The study found substantial disparities in treatment efficacy. The 10% F2 formulation (Carbopol-loaded curcumin nanoemulsion) significantly improved skin health (p<0.0001). When used as an ointment, both the 5% F1 and 10% F2 formulations had positive outcomes, but they did not outperform the usual corticosteroid therapy. Histopathological study revealed that the F2 10% formulation resulted in normal epidermal thickness, decreased mitotic activity, and a less nucleated stratum corneum. Conclusion: Curcumin-based nanoemulsions, particularly the 10% F2 formulation, show promise in dermatological treatment for psoriasis control. The findings underline the need of continuing to enhance drug delivery technologies, particularly nanoemulsions, to improve psoriasis therapy choices.
The treatment of psoriasis via herbal formulation and nano-polyherbal formulation: A new approach Tejpal Yadav, Hemant Kumar Singh Yadav, Abhay Raizaday, Md Sabir Alam Bioimpacts, 2025 Psoriasis is a chronic condition that can strike at any age. This sickness is associated with inflammatory problems that impact all humans in the world. Psoriasis is more common in Scandinavians than in Asian and African populations due to a combination of factors such as age, gender, geographic location, ethnicity, genetic and environmental factors. Immune stimulation, genetic contribution, antimicrobial peptides, and other significant triggers such as medicines, immunizations, infections, trauma, stress, obesity, alcohol intake, smoking, air pollution, sun exposure, and particular disorders cause psoriasis. Numerous clinical research investigations are now underway, and therapeutic alternatives are available. However, these therapies only improve symptoms and do not accomplish a complete cure; they also have dangerous and undesirable side effects. Natural products have gained popularity recently due to their great effectiveness, safety, and low toxicity. Natural formulations of various nanocarriers like liposomes, lipospheres, nanogels, emulgel, nanostructured lipid carriers, nanosponge, nanofibers, niosomes, nanomiemgel, nanoemulsions, nanospheres, cubosomes, microneedles, nanomicelles, ethosomes, nanocrystals, and foams, have significantly contributed and encouraged advancement in psoriasis disease treatment. These phytochemical-loaded new nanoformulations address several issues associated with natural products in conventional dosage forms, such as instability, poor solubility, and limited bioavailability. This article reviews some of the intriguing phytochemicals, as well as their possible molecular target locations and mechanisms of action, which may assist in the development of more specific and selective antipsoriatic medicines. Exploring and understanding phytochemicals' functions will allow for more site-specific psoriasis treatment techniques. This review concluded the psoriasis disease with phytoconstituent loaded herbal or polyherbal nanocarriers and their mechanistic approach.
Herbal based nanoparticles as a possible and potential treatment of cancer: a review Roshan Yadav, Himmat Singh Chawra, Gaurav Dubey, Md Sabir Alam, Vikram Kumar, Pragya Sharma, Navneet Kumar Upadhayay, Tejpal Yadav Exploration of Targeted Anti Tumor Therapy, 2025 Cancer is the greatest cause of mortality worldwide. Various drug classes treat various cancers. Nanoformulations made from natural sources are being studied for treating several diseases, including cancer. Surgery, chemotherapy, immunotherapy, and radiation have mostly failed to treat cancer. These drugs may damage quickly dividing healthy tissues, structural anomalies, bodily toxicity, long-term side effects, tumor cell drug resistance, and psychiatric disturbances. Researchers are developing nanoscale medicines using natural medications like Malva sylvestris and Curcumin to lower concentrations and improve target specificity. Nanoparticles’ small size and unique properties make them beneficial. They encapsulate medicinal ingredients, improving solubility, medication release, cellular absorption, and delivery. Nanoparticles may better identify and bind to cancer cells when functionalized with ligands. Natural chemicals and nanotechnology may improve medication availability, distribution, and targeting to cancer cells, making cancer treatments more effective and safe. Nanomedicine, which employs nanoparticles to treat cancer and malignant cells, has grown rapidly because nanodrugs are more effective and have fewer side effects than current commercial cancer drugs. Nanotechnology-based natural chemicals and pharmaceutical delivery methods for cancer therapy are covered in this review article. The paper discusses nanoparticle pros and cons and natural chemicals’ cancer-fighting appeal.
Exploring the potential of photodynamic therapy in overcoming multidrug resistance: mechanisms, synergies, and clinical advancements in infectious diseases Ruchita Tanu, Anis Ahmad Chaudhary, Gagan Prakash, Nusrath Yasmeen, Mohamed A. M. Ali, et al. Frontiers in Cellular and Infection Microbiology, 2025 Multidrug resistance (MDR) in bacterial and fungal pathogens poses a growing global health crisis, rendering many conventional antimicrobial therapies ineffective. The rise of MDR strains complicates treatment, prolongs illness, increases healthcare costs, and contributes to higher mortality rates. Mechanisms driving MDR include enzymatic drug inactivation, target modification, efflux pump activity, decreased permeability, and biofilm formation-often fueled by horizontal gene transfer and selective pressure from antimicrobial overuse. In response to the urgent need for novel therapeutic strategies, photodynamic therapy (PDT) has emerged as a promising, non-traditional approach. PDT utilizes a photosensitizing agent, light of a specific wavelength, and oxygen to generate reactive oxygen species (ROS) that inflict oxidative damage on microbial or cancer cells. This mechanism circumvents conventional resistance pathways, offering targeted, minimally invasive, and effective treatment for infections and malignancies. PDT is particularly adept at penetrating biofilms and resistant microbial populations, thus broadening its clinical applicability. In addition to direct microbial eradication, PDT may stimulate immune responses and demonstrates a favorable safety profile compared to traditional antibiotics or chemotherapy. Furthermore, advances in Antimicrobial Blue Light (aBL) and next-generation photosensitizers enhance PDT's effectiveness while minimizing resistance development. This review explores the biological mechanisms underlying MDR, the principles and evolution of PDT, and its synergistic potential in managing infectious diseases. By addressing critical gaps in antimicrobial therapy, PDT stands out as a transformative modality in the ongoing battle against drug-resistant pathogens.
Polyherbal Formulation Development for Parkinson's Disease: Comprehensive Quality Control and Toxicological Evaluation Gaurav Sharma, Tejpal Yadav, Sanjeev Sharma, Vikram Kumar International Journal of Drug Delivery Technology, 2024 Background and objectives: In this study, extracts from eight herbal medicines Withania somnifera, Nardostachys jatamansi, Convolvulus pluricaulis, Mucuna pruriens, Centella asiatica, Bacopa monnieri, Tinospora cordifolia, and Ginkgo biloba were combined to create a potential medication. Methods: Quality Control study had been done according guideline or procedure drafted by CCRAS, Ministry of AYUSH, Govt. of India, Oral Acute and Repeated Dose 28-day Toxicity Study had been done according to OECD 423 and 407 guidelines. Results: The polyherbal formulation's physiochemical characteristics, phytochemical content, safety profile, and possible impacts on physiological parameters were all carefully assessed. The formulation was establish to be safe at a single administration dose of 2000 mg/kg and safe at repeated doses up to 1000 mg/kg over the course of 28 days. Conclusion: This study highlights the polyherbal formulation's potential for therapeutic application in the cure of Parkinson's disease by offering insightful information on its toxicological properties and quality control.
Harnessing Phytochemicals and Nanotechnology Synergy for Molecular, Epigenetic, and Microbiota-Driven Regulation in Type 2 Diabetes Mellitus G Prakash, AA Chaudhary, R Tanu, MAM Ali, F Boufahja, PK Sharma, ... Pharmaceutics 18 (1), 113 , 2026 2026 Citations: 1
ANTI-PSORIATIC POTENTIAL OF FERNANDOA ADENOPHYLLA: PHYTOCHEMICAL PROFILING, IN-VIVO EFFICACY AND IN-SILICO INSIGHTS R Yadav, A Upadhayay, V Kumar, P Sharma, S Khan, T Yadav 2026
Fabrication and Evaluation of Pemetrexed Disodium Transdermal Patches Using a DoE Approach T Yadav, HKS Yadav, R Gilhotra Journal of Applied Polymer Science 142 (42), e57618 , 2025 2025 Citations: 1
COMPREHENSIVE QUALITY ASSURANCE OF MEDICINAL Curcuma longa: PHYTOCHEMICAL, PHYSICOCHEMICAL, AND GC-MS ANALYSIS D Lashkari, T Yadav, PK Sharma, SK Garg, V Kumar Rasayan J. Chem. 18 (4), 2152-2158 , 2025 2025
IMPACT OF CARBOPOL-LOADED CURCUMIN NANOEMULSION ON PSORIASIS: INVESTIGATING TREATMENT EFFICACY AND HISTOPATHOLOGICAL CHANGES IN AN ANIMAL MODEL VK DEEPA LASHKARI, TEJPAL YADAV, SHIV KUMAR GARG Asian Journal of Pharmaceutical and Clinical Research 18 (5), 105-110 , 2025 2025
Assessment of antipsoriatic potential of novel pemetrexed disodium–loaded transdermal patches in an imiquimod-induced mouse model T Yadav, HKS Yadav, R Gilhotra Immunologic Research 73 (1), 81 , 2025 2025 Citations: 2
EXPLORING GENERAL AWARENESS AND ATTITUDES TOWARDS DISPOSAL PRACTICE & STORAGE CONDITION OF MEDICATION AMONG THE GENERAL PUBLIC AT ACHROL, JAIPUR, RAJASTHAN (INDIA): A CROSS … TY Mazhar Jamil, Ashutosh Upadhayay, Md Sabir Alam, Vikram Kumar, Aafrin ... Indian Journal of Health Care, Medical & Pharmacy Practice 6 (1), 49-60 , 2025 2025
Herbal based nanoparticles as a possible and potential treatment of cancer: a review R Yadav, HS Chawra, G Dubey, MS Alam, V Kumar, P Sharma, ... Exploration of Targeted Anti-tumor Therapy 6, 1002285 , 2025 2025 Citations: 20
Exploring the Potential of Photodynamic Therapy in Overcoming Multidrug Resistance: Mechanisms, Synergies, and Clinical Advancements in Infectious Diseases R Tanu, AA Chaudhary, G Prakash, N Yasmeen, MAM Ali, N Raza, ... Frontiers in Cellular and Infection Microbiology 15, 1624036 , 2025 2025 Citations: 15
The treatment of psoriasis via herbal formulation and nano-polyherbal formulation: A new approach T Yadav, HKS Yadav, A Raizaday, MS Alam BioImpacts , 2025 2025 Citations: 11
Polyherbal Formulation Development for Parkinson's disease: Comprehensive Quality Control and Toxicological Evaluation G Sharma, T Yadav, S Sharma, V Kumar International Journal of Drug Delivery Technology 14 (4), 2073-2080 , 2024 2024
Development and Characterization of Nanoparticulate Hydrogel Loaded with Extract of Fernandoa Adenophylla Tejpal Yadav*,Roshan Yadav, Himmat Singh Chawra, Gaurav Dubey, Md. Sabir ... Current Nanomedicine , 2024 2024 Citations: 1
The Influence of Phytoconstituents for the Management of Antipsoriatic Activity in Various Animal Models R Yadav, T Yadav, A Upadhayay, MS Alam, G Dubey, V Kumar, A Sahu Anti-Inflammatory & Anti-Allergy Agents in Medicinal Chemistry , 2024 2024 Citations: 2
SMART AND TRANSPORTABLE TABLET SPRAYDRYING APPARATUS SM Mahaveer Singh, Deepak Shrivastava, Anirudha Vasant Munde, Tejpal Yadav IN Patent 18/2,024 , 2024 2024
Tablet dissolution test device with an active timing mechanism RN NITISH KUMAR SINGH, PUDI ASWINI LAVANYA, TEJPAL YADAV, SURAJ MANDAL ... IN Patent 18/2,024 , 2024 2024
Trends in Theranostic Applications of Metallic Nanoparticles MS Alam, V Bhalla, P Kumari, R Kadyan, MM Anjum, T Yadav, M Yadav, ... Metallic Nanoparticles for Health and the Environment, 121-159 , 2024 2024 Citations: 5
Metallic nanoparticles for health and the environment MS Alam, MN Javed, JR Ansari CRC Press , 2023 2023 Citations: 12
PHYLLANTHUS EMBLICA: PHYTOCHEMISTRY & PHARMACOLOGICAL ACTIVITIES M Moeenuddin, G Dubey, T Yadav, A Sharma 2023
Polyherbal formulation for wound healing and a process for the preparation thereof GD Tejpal Yadav IN Patent App. 202,311,004,263 , 2023 2023
Formulation and Evaluation of Transdermal patches with Fernandoa Adenophylla Extract as a possible treatment for psoriasis T Yadav, HKS Yadav, A Raizaday, MS Alam Suresh Gyan Vihar University Journal of Pharmaceutical Research & Education … , 2023 2023
MOST CITED SCHOLAR PUBLICATIONS
Herbal based nanoparticles as a possible and potential treatment of cancer: a review R Yadav, HS Chawra, G Dubey, MS Alam, V Kumar, P Sharma, ... Exploration of Targeted Anti-tumor Therapy 6, 1002285 , 2025 2025 Citations: 20
Precautions & Possible Therapeutic approaches of health hazards of Astronauts in Microgravity RSRPS Tejpal Yadav, Nikita Pal , Shambaditya Goswami The International Journal of Aerospace Psychology , 2021 2021 Citations: 16
Exploring the Potential of Photodynamic Therapy in Overcoming Multidrug Resistance: Mechanisms, Synergies, and Clinical Advancements in Infectious Diseases R Tanu, AA Chaudhary, G Prakash, N Yasmeen, MAM Ali, N Raza, ... Frontiers in Cellular and Infection Microbiology 15, 1624036 , 2025 2025 Citations: 15
Treatment opportunities with Fernandoa adenophylla and recent novel approaches for natural medicinal phytochemicals as a drug delivery system Tejpal Yadav, Sangeet Kumar Mall, Aafrin Waziri, Md Sabir Alam Exploration of medicine 2022 (3), 516–39 , 2022 2022 Citations: 15
Electrically Conducting Smart Biodegradable Polymers and Their Applications MASAMSA Meena Bhandari, Dilraj Preet Kaur, Seema Raj, Tejpal Yadav Handbook of Biodegradable Materials, 1-24 , 2022 2022 Citations: 15
Microspheres as an ocular drug delivery system-A Review T Yadav Journal of Drug Delivery and Therapeutics , 2013 2013 Citations: 13
Metallic nanoparticles for health and the environment MS Alam, MN Javed, JR Ansari CRC Press , 2023 2023 Citations: 12
The treatment of psoriasis via herbal formulation and nano-polyherbal formulation: A new approach T Yadav, HKS Yadav, A Raizaday, MS Alam BioImpacts , 2025 2025 Citations: 11
A brief note on menstrual stigma: Social assumptions and responsibilities Y T, C B, G S Int J Cur Res Rev| Vol 13 (06), 60 , 2021 2021 Citations: 7
Trends in Theranostic Applications of Metallic Nanoparticles MS Alam, V Bhalla, P Kumari, R Kadyan, MM Anjum, T Yadav, M Yadav, ... Metallic Nanoparticles for Health and the Environment, 121-159 , 2024 2024 Citations: 5
Hand Hygiene and Adverse Skin Reactions: COVID-19 Prospect. S GOSWAMI, KN MISHRA, N PAL, K SAINI, A SINGH, MV Kumudhavalli, ... International Journal of Pharmaceutical Research (09752366) 13 (1) , 2021 2021 Citations: 3
Assessment of antipsoriatic potential of novel pemetrexed disodium–loaded transdermal patches in an imiquimod-induced mouse model T Yadav, HKS Yadav, R Gilhotra Immunologic Research 73 (1), 81 , 2025 2025 Citations: 2
The Influence of Phytoconstituents for the Management of Antipsoriatic Activity in Various Animal Models R Yadav, T Yadav, A Upadhayay, MS Alam, G Dubey, V Kumar, A Sahu Anti-Inflammatory & Anti-Allergy Agents in Medicinal Chemistry , 2024 2024 Citations: 2
Harnessing Phytochemicals and Nanotechnology Synergy for Molecular, Epigenetic, and Microbiota-Driven Regulation in Type 2 Diabetes Mellitus G Prakash, AA Chaudhary, R Tanu, MAM Ali, F Boufahja, PK Sharma, ... Pharmaceutics 18 (1), 113 , 2026 2026 Citations: 1
Fabrication and Evaluation of Pemetrexed Disodium Transdermal Patches Using a DoE Approach T Yadav, HKS Yadav, R Gilhotra Journal of Applied Polymer Science 142 (42), e57618 , 2025 2025 Citations: 1
Development and Characterization of Nanoparticulate Hydrogel Loaded with Extract of Fernandoa Adenophylla Tejpal Yadav*,Roshan Yadav, Himmat Singh Chawra, Gaurav Dubey, Md. Sabir ... Current Nanomedicine , 2024 2024 Citations: 1
Biopharmaceutics Classification System (BCS) and Biopharmaceutics Drug Disposition Classification System (BDDCS)–An Approach for Drug Development and Advancement T Yadav Indian Journal of Health Care, Medical & Pharmacy Practice 2 (1), 14-24 , 2021 2021 Citations: 1
ANTI-PSORIATIC POTENTIAL OF FERNANDOA ADENOPHYLLA: PHYTOCHEMICAL PROFILING, IN-VIVO EFFICACY AND IN-SILICO INSIGHTS R Yadav, A Upadhayay, V Kumar, P Sharma, S Khan, T Yadav 2026
COMPREHENSIVE QUALITY ASSURANCE OF MEDICINAL Curcuma longa: PHYTOCHEMICAL, PHYSICOCHEMICAL, AND GC-MS ANALYSIS D Lashkari, T Yadav, PK Sharma, SK Garg, V Kumar Rasayan J. Chem. 18 (4), 2152-2158 , 2025 2025
IMPACT OF CARBOPOL-LOADED CURCUMIN NANOEMULSION ON PSORIASIS: INVESTIGATING TREATMENT EFFICACY AND HISTOPATHOLOGICAL CHANGES IN AN ANIMAL MODEL VK DEEPA LASHKARI, TEJPAL YADAV, SHIV KUMAR GARG Asian Journal of Pharmaceutical and Clinical Research 18 (5), 105-110 , 2025 2025
