PapersFlow Research Brief
Pharmacology and Nanomedicine Research
Research Guide
What is Pharmacology and Nanomedicine Research?
Pharmacology and Nanomedicine Research is a field within pharmaceutical sciences that investigates drug discovery, development, delivery systems, and biomedical applications including nanoparticle synthesis for antimicrobial and anticancer therapies.
This field encompasses 11,843 published works focused on drug delivery systems, nanoparticle synthesis, antimicrobial resistance, and cancer treatment. Key areas include green synthesis of silver nanoparticles using medicinal plants and antimicrobial activity of calcium oxide nanoparticles. Studies also cover traditional pharmacology topics such as chemotherapy of malaria and antibiotic principles from Moringa seeds.
Topic Hierarchy
Research Sub-Topics
Green Synthesis Nanoparticles
This sub-topic explores plant-mediated synthesis of metal nanoparticles, optimizing phytochemical reduction and stabilization. Researchers characterize size, shape, and stability for biomedical uses.
Nanoparticle Drug Delivery Systems
This sub-topic designs nanoparticles for targeted delivery, controlling release kinetics and bioavailability. Researchers test encapsulation efficiency and pharmacokinetics in disease models.
Phytochemical Antioxidant Activity
This sub-topic evaluates antioxidant potentials of plant extracts via DPPH, FRAP assays and mechanisms. Researchers identify active compounds and correlate with therapeutic efficacy.
Nanoparticles Antimicrobial Resistance
This sub-topic investigates nanoparticles disrupting bacterial biofilms and resistance mechanisms. Researchers assess synergy with antibiotics against MDR pathogens.
Herbal Medicine Phytochemical Analysis
This sub-topic performs extraction, isolation, and structural elucidation of bioactive herbal compounds. Researchers link phytoconstituents to pharmacological activities via bioassays.
Why It Matters
Pharmacology and Nanomedicine Research addresses antimicrobial resistance through nanoparticle-based alternatives, as Haajira Beevi Habeeb Rahuman et al. (2022) demonstrated with medicinal plants mediating green synthesis of silver nanoparticles, achieving biomedical applications against resistant microbes with 315 citations. In cancer treatment and inflammatory diseases, calcium oxide nanoparticles showed antimicrobial activity, with Arup Roy et al. (2013) reporting effectiveness against multidrug-resistant strains in their study cited 200 times. These approaches support drug delivery innovations, reducing reliance on conventional antibiotics like those reviewed by A. Kucers (1997), which faced resistance issues, and enable precise therapies in herbal medicine and stem cell applications.
Reading Guide
Where to Start
'Medicinal plants mediated the green synthesis of silver nanoparticles and their biomedical applications' by Haajira Beevi Habeeb Rahuman et al. (2022), as it provides an accessible entry to nanomedicine's antimicrobial applications with 315 citations and covers green synthesis fundamentals.
Key Papers Explained
Haajira Beevi Habeeb Rahuman et al. (2022) in 'Medicinal plants mediated the green synthesis of silver nanoparticles and their biomedical applications' (315 citations) establishes green nanoparticle synthesis for antimicrobials, building on U. Eilert et al. (1981) 'The Antibiotic Principle of Seeds of Moringa oleifera and Moringa stenopetala' (275 citations) natural compound extraction. Arup Roy et al. (2013) 'Antimicrobial Activity of CaO Nanoparticles' (200 citations) extends this to metal oxide nanoparticles, while Yasameen K. Al-Majedy et al. (2017) 'Coumarins: The Antimicrobial agents' (152 citations) connects organic antimicrobials to nanomedicine potentials.
Paper Timeline
Most-cited paper highlighted in red. Papers ordered chronologically.
Advanced Directions
Research continues on nanoparticle synthesis for drug delivery and antimicrobial resistance, with top-cited works like Haajira Beevi Habeeb Rahuman et al. (2022) emphasizing plant-mediated methods amid 11,843 papers in the field.
Papers at a Glance
| # | Paper | Year | Venue | Citations | Open Access |
|---|---|---|---|---|---|
| 1 | Medicinal plants mediated the green synthesis of silver nanopa... | 2022 | IET Nanobiotechnology | 315 | ✓ |
| 2 | Chemotherapy of malaria | 1981 | Monograph series - Wor... | 276 | ✕ |
| 3 | The Antibiotic Principle of Seeds of Moringa oleifera and Mori... | 1981 | Planta Medica | 275 | ✕ |
| 4 | The Use of Antibiotics: A Clinical Review of Antibacterial, An... | 1997 | — | 269 | ✕ |
| 5 | Antimicrobial Activity of CaO Nanoparticles | 2013 | Journal of Biomedical ... | 200 | ✕ |
| 6 | Pharmacology and Pharmacotherapeutics. | 1972 | Annals of Internal Med... | 185 | ✕ |
| 7 | Coumarins: The Antimicrobial agents | 2017 | Systematic Reviews in ... | 152 | ✕ |
| 8 | New Method for Assessment of Serum Catalase Activity | 2016 | Indian Journal of Scie... | 130 | ✓ |
| 9 | Antibacterial activity of Actisorb Plus, Actisorb and silver n... | 1994 | Journal of Hospital In... | 107 | ✕ |
| 10 | Screening of Marine Algae from the French Mediterranean Coast ... | 1984 | Botanica Marina | 106 | ✕ |
Frequently Asked Questions
What is the role of green synthesis in nanomedicine?
Green synthesis uses medicinal plants to produce silver nanoparticles for biomedical applications, countering antibiotic resistance. Haajira Beevi Habeeb Rahuman et al. (2022) in 'Medicinal plants mediated the green synthesis of silver nanoparticles and their biomedical applications' identified this method's potential against microbial resistance. The paper has received 315 citations.
How do nanoparticles exhibit antimicrobial activity?
Calcium oxide nanoparticles demonstrate antimicrobial effects against multidrug-resistant microbes. Arup Roy et al. (2013) in 'Antimicrobial Activity of CaO Nanoparticles' showed their efficacy as a new class of agents. This work has 200 citations.
What natural compounds have antibiotic properties?
Seeds of Moringa oleifera and Moringa stenopetala contain 4(α-L-Rhamnosyloxy)benzyl isothiocyanate as an active antimicrobial agent. U. Eilert et al. (1981) in 'The Antibiotic Principle of Seeds of Moringa oleifera and Moringa stenopetala' identified this compound. The study has 275 citations.
What are coumarins' applications in pharmacology?
Coumarins serve as antimicrobial agents effective against resistant bacterial and fungal strains. Yasameen K. Al-Majedy et al. (2017) in 'Coumarins: The Antimicrobial agents' highlighted their potency compared to existing therapies. The paper has 152 citations.
How is serum catalase activity measured in pharmacology research?
A colorimetric method assesses serum catalase activity with precise, reproducible results suitable for clinical labs. Mahmoud Hussein Hadwan (2016) in 'New Method for Assessment of Serum Catalase Activity' developed this simplified technique. It has 130 citations.
Open Research Questions
- ? How can green-synthesized nanoparticles optimize drug delivery to overcome antimicrobial resistance barriers?
- ? What structural modifications enhance coumarins' efficacy against multidrug-resistant pathogens?
- ? Which plant extracts most effectively mediate nanoparticle synthesis for cancer treatment applications?
- ? How do nanoparticle interactions with stem cells influence inflammatory disease therapies?
Recent Trends
The field maintains 11,843 works with sustained focus on nanoparticle synthesis and antimicrobial applications, as evidenced by high citations for Haajira Beevi Habeeb Rahuman et al. at 315 and Arup Roy et al. (2013) at 200; no new preprints or news in the last 6-12 months indicates steady consolidation of established methods.
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