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International Journal of Pharmacognosy and Herbal Drug Technology

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📢 Latest Update: New special issue call for papers on "Emerging Technologies in Research" - Submit by March 31, 2025

📢 Latest Update: New special issue call for papers on "Emerging Technologies in Research" - Submit by March 31, 2025

IJPHDT, Vol-2, Issue-5, May-2025

Volume 2, Issue 5 - undefined 2025

Volume 2 Issue 5 Cover

Issue Details:

Volume 2 Issue 5
Published:Invalid Date

Editorial: IJPHDT, Vol-2, Issue-5, May-2025

Welcome to the 2025 issue of International Journal of Pharmacognosy and Herbal Drug Technology. This issue showcases the remarkable breadth and depth of contemporary research across multiple disciplines. From cutting-edge applications of machine learning in climate science to the revolutionary potential of quantum computing in drug discovery, our featured articles demonstrate the power of interdisciplinary collaboration in addressing global challenges.

We are particularly excited to present research that bridges traditional academic boundaries, reflecting our journal's commitment to fostering innovation through cross-disciplinary dialogue. The integration of artificial intelligence with environmental science, the application of blockchain technology to supply chain management, and the convergence of urban planning with smart city technologies exemplify the transformative potential of collaborative research.

As we continue to navigate an era of rapid technological advancement and global challenges, the research presented in this issue offers both insights and solutions that will shape our future. We thank our authors, reviewers, and editorial board members for their continued dedication to advancing knowledge and promoting scientific excellence.

Dr. Margaret Thompson
Editor-in-Chief
International Journal of Pharmacognosy and Herbal Drug Technology

Articles in This Issue

Showing 5 of 5 articles
Research PaperID: IJPHD-00000077

Comparative Study of Anti-Anxiety Effectsof Synthetic and PhytoconstituentCompounds in Swiss Albino Mice

Hemkanti Patel

This experimental study sought to comparatively evaluate the anti-anxiety actions of a synthetic anxiolytic drug, diazepam, and a phytoconstituent, Withania somnifera (Ashwagandha), through standardized behaviour models in Swiss albino mice. A randomized controlled trial with three groups control, diazepam-treated, and Withania somnifera-treated was undertaken, in which behaviour modifications were assessed through the Elevated Plus Maze (EPM) and Open Field Test (OFT). The research proved that diazepam as well as Withania somnifera effectively prolonged open arm time and improved locomotor activity, reflecting decreased anxiety levels. Statistical analysis through ANOVA and Tukey's post-hoc test showed that although slightly more potent, the phytoconstituent had similar anxiolytic activity with no statistically significant difference in most measures. This result indicates the possibility of Withania somnifera as an effective and natural substitute for artificial anxiolytics, removing dependency and side effect concerns typical of traditional medication. The work adds new comparative data to the literature and inspires further investigation of plant-based interventions for anxiety disorders, affirming the therapeutic importance of incorporating herbal medicine into general pharmacological treatment.

5,515 views
1,673 downloads

Contributors:

 Hemkanti Patel
Research PaperID: IJPHD-00000078

Comparative Study of Leaf Anatomical Adaptations in Xerophytic and Halophytic Medicinal Plants

Pratibha Sahu

This research provides a detailed comparison of leaf anatomical traits of adaptations of xerophytic and halophytic medicinal plants that have adapted specialized structural traits to overcome adverse conditions. Xerophytes that inhabit dry areas have adaptations such as thick cuticles, decreased stomatal density, and waterstoring tissues that minimise water loss and their ability to store water. Halophytes, however, which are found in saline environments, have developed mechanisms like salt glands, epidermal thickenings and vascular salt compartmentalization that help to regulate it and prevent toxicity. Apart from being useful for the plants’ survival, these anatomical structures contribute to the accumulation of bioactive compounds with significant medicinal use such as antioxidants, anti-inflammatory and antimicrobial and other therapeutic compounds. The research points out the roles of sustainability of the plants in the environment and their medicinal properties, which also imply that knowledge of survival strategies may lead to the discovery of new techniques in exploitation of medicinal plants to drugs and agriculture.

Open Field TestElevated Plus MazeSwiss Albino MicePhytoconstituent CompoundsSyntheticAnti-Anxiety
5,395 views
1,768 downloads

Contributors:

 Pratibha Sahu
Research PaperID: IJPHD-00000079

Evaluation of Dose-Dependent Hepatoprotective Effects of a Novel Polyherbal Extract in Wistar Rats

Deleshwar Kumar

The study's aim is to assist science-based traditional medicine by assessing a polyherbal extract's capacity to protect the liver at varying doses in rats with CCl4-induced liver damage. Four adult male rat groups were used in an experimental investigation with random grouping. Three of the four groups received CCl4 together with either a high or low dose of polyherbal extract, whereas one group simply received CCl4. In addition to microscopic examination of necrosis, inflammation, and liver cell regeneration, liver damage was assessed using ALT, AST, ALP, and bilirubin assays. It was found that CCl4 severely harmed the liver, with more enzymes in blood and worse tissue degeneration, but higher amounts of the polyherbal extract successfully lessened these adverse effects. Also, the high-dose group largely recovered, as seen by nearly normal enzyme levels, little dead tissue, and many regenerating hepatocytes. Using ANOVA, the results were shown to be significant (p

Environmental Adaptations.Medicinal PlantsBioactive CompoundsLeaf AnatomyHalophytesXerophytes
5,693 views
1,647 downloads

Contributors:

 Deleshwar Kumar
Research PaperID: IJPHD-00000054

PHARMACOGNOSTICAL STUDIES ON THE STEM BARK OF GLIRICIDIA SEPIUM

Punyashree H S, T Tamizh Mani, T Pavithra, L Shiju

In the present study, an attempt was made to investigate Pharmacognostical studies on the stem bark of Gliricidia sepium (Fabaceace). The plant was identified and authenticated by Dr. V. Rama Rao, Research officer (Botany), Central Ayurveda Research Institute, Bengaluru. The macroscopical studies have been carried out on the stem bark. The Characters of transverse section of stem bark shows periderm, consisting of several layers of cork, phellogen and Phelloderm. Cork cells having brown pigments in the outermost layer. The cortex region shows the presence of compact, thin-walled, medium-sized parenchymatous cells. Group of stone cells in patches found in the cortex, cortex consists of thin-walled parenchymatous cells embedded with a dispersed stone cell, prismatic crystal of calcium oxalate and sclerenchymatous cells patches with crystal sheath. The longitudinal section shows 3-4 layers of rectangular shaped cells of outer cork followed by globular shaped cells of cortex region with stone cells embedded in it. Towards the middle part some fibers are shown with crystals known as crystal fibers. Medullary rays found crossed the crystal fibers. Powder of bark showing different fragments of cells as 3 cells group of sclereid cells with shining prismatic crystals of calcium oxalate, long fiber with tapering end, crystal fibers, elongated thick lignified walled narrow lumen sclereid cells and broad lumen lignified pitted sclereid cells. . Physicochemical parameters such as moisture content, total ash value, sulphated ash value, Acid insoluble ash value, water-soluble ash value and extractive value fiber length and widh were determined. These can serve in qualifying and differentiating the plant. This research provides valuable insights that will benefit future researchers in their endeavors.

RegulationKineticsActive siteTransition stateBiochemical reactionsEnzyme catalysis
4,399 views
1,343 downloads

Contributors:

 Punyashree H S
,
 T Tamizh Mani
,
 T Pavithra
,
 L Shiju
Research PaperID: IJPHD-00000072

Phytochemical Profiling and Pharmacological Activities of Indigenous Herbal Medicines: A Pharmacognosy Perspective

Mrs.Radhika Gond, Mr. Mateshwari Nandan, Mr.shubham Sharma, Miss. Yashi shukla, Mr. Aditya KUMAR, Mr. Avanish Jaiswal, Miss. Bhoomika Singh, Mr. Vishwajeet tiwari

Traditional health care systems globally have been relying on indigenous herbal remedies, which present a variety of therapeutic properties by virtue of their complex phytochemical content. The review outlines the phytochemical constituents and pharmacological activity of the principal indigenous medicinal herbs’ turmeric, neem, ashwagandha, and Giloy from a pharmacognosy aspect. Strongly emphasizing contemporary analytical methods such as chromatographic and spectroscopic analyses, the review underscores the necessity of intense phytochemical profiling and pharmacognostic analysis for quality control, standardization, and safety. The pharmacological actions of these herbs—such as antioxidant, anti-inflammatory, immunomodulatory, antimicrobial, and neuroprotective activities—are discussed in relation to their bioactive principles. In spite of encouraging promise in therapy, problems include variable standardization, scarce clinical evidence, and regulation issues. This integration emphasizes the necessity of evidence-based incorporation of traditional indigenous herbal remedies into modern healthcare, developing sustainable, culturally embedded, and efficacious alternative treatments.

5,241 views
1,509 downloads

Contributors:

 Mrs.Radhika Gond
,
 Mr. Mateshwari Nandan
,
 Mr.shubham Sharma
,
 Miss. Yashi shukla
,
 Mr. Aditya KUMAR
,
 Mr. Avanish Jaiswal
,
 Miss. Bhoomika Singh
,
 Mr. Vishwajeet tiwari

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