June 2024 – RSC Pharmaceutics Blog

Archive for June, 2024

RSC Pharmaceutics – Issue 2 now online

19 Jun 2024

We are delighted to share Issue 2 of RSC Pharmaceutics. Read our new open access journal, publishing crucial research on pharmaceutics, which has the potential to drive real change in worldwide health.

“RSC Pharmaceutics will provide a platform for researchers to showcase their best work in this field and contribute to the advancement of Pharmaceutics. I look forward to promoting this journal and its published research to the community.”

Yvonne Perrie, Editor-in-Chief, RSC Pharmaceutics

Our second issue includes:

	Enhancement of drug permeation across skin through stratum corneum ablation Ayyah Abdoh, David Liu and Yousuf Mohammed RSC Pharm., 2024,1, 151-160 DOI: 10.1039/D4PM00089G
Polymer–drug conjugates as nano-sized multi-targeting systems for the treatment of Alzheimer’s disease Nuruddin Mahadik, Gemma A. Barron, Paul Kong Thoo Lin and Colin J. Thompson RSC Pharm., 2024,1, 161-181 DOI: 10.1039/D3PM00075C
	Advances of cassava starch-based composites in novel and conventional drug delivery systems: a state-of-the-art review Sanjoy Das, Malay K. Das, Taison Jamatia, Bireswar Bhattacharya, Rishav Mazumder, Pradip Kumar Yadav, Nayan Ranjan Ghose Bishwas, Trinayan Deka, Dhritiman Roy, Bibek Sinha, Biplajit Das, Ichu Daule, Kishan Paul, Ankita Roy, Ankita Choudhury, Pinkan Sadhukhan, Dibyojyoti Sarmah, Dhritiman Bhargab, Bani Kumar Jana, Dubom Tayeng, Nilayan Guha, Bhrigumani Kalita and Subhajit Mandal RSC Pharm., 2024,1, 182-203 DOI: 10.1039/D3PM00008G
Potential of ultrasonic processing in biomedical applications Siddhi Lokhande, Bhagyashree V. Salvi and Pravin Shende RSC Pharm., 2024,1, 204-217 DOI: 10.1039/D4PM00010B
	Synthetic mucus barrier arrays as a nanoparticle formulation screening platform Harry Zou, Allison Boboltz, Yahya Cheema, Daniel Song, Devorah Cahn and Gregg A. Duncan RSC Pharm., 2024,1, 218-226 DOI: 10.1039/D3PM00057E
In vitro evaluation of microneedle strength: a comparison of test configurations and experimental insights Bilal Harieth Alrimawi, Jing Yi Lee, Keng Wooi Ng and Choon Fu Goh RSC Pharm., 2024,1, 227-233 DOI: 10.1039/D4PM00024B
	A model binary system for the evaluation of novel ion pair formulations of diclofenac Mignon Cristofoli, Jonathan Hadgraft, Majella E. Lane and Bruno C. Sil RSC Pharm., 2024,1, 234-244 DOI: 10.1039/D4PM00063C
Green synthesis of silver nanoparticles using Phyllanthus emblica extract: investigation of antibacterial activity and biocompatibility in vivo Md Monir Hossain, Amir Hamza, Shakil Ahmed Polash, Mehedi Hasan Tushar, Masato Takikawa, Anuj Bhowmik Piash, Chaitali Dekiwadia, Tanushree Saha, Shinji Takeoka and Satya Ranjan Sarker RSC Pharm., 2024,1, 245-258 DOI: 10.1039/D3PM00077J
	Novel alginate nanoparticles for the simultaneous delivery of iron and folate: a potential nano-drug delivery system for anaemic patients Weranga Rajapaksha, Irosha H. W. Nicholas, T. Thoradeniya, D. Nedra Karunaratne and V. Karunaratne RSC Pharm., 2024,1, 259-271 DOI: 10.1039/D3PM00068K
Insight into the liposomal encapsulation of mono and bis-naphthalimides Abdullahi Magaji Dauda, Thomas Swift, Richard Telford, Hend A. A. Abd El-wahab, Chhanda Charan Danta, Klaus Pors and Amalia Ruiz RSC Pharm., 2024,1, 272-282 DOI: 10.1039/D3PM00060E
	Synthesis and biological evaluation of novel hybrid compounds bearing pyrazine and 1,2,4-triazole analogues as potent antitubercular agents Shivakumar Naik, Dinesha Puttachari, Vanishree A. L., Udayakumar D., Varsha Prakash Shetty, Chaitra Prabhu and Vijaya Kumar Deekshit RSC Pharm., 2024,1, 283-295 DOI: 10.1039/D3PM00054K
Thermodynamic and spectroscopic evaluation of the eutectic mixture of myristic acid and the local anaesthetics, bupivacaine and ropivacaine Priyanka Agarwal, Darren Svirskis and Michél K. Nieuwoudt RSC Pharm., 2024,1, 296-304 DOI: 10.1039/D3PM00082F
	Development of polyethyleneimine cross-linked fucoidan nanoparticles as delivery systems for improved anticancer efficiency of cytarabine in breast adenocarcinoma cell lines Deepa Geethakumari, Santhini Pulikkal Veettil, Sivakumar Krishnankutty Nair Chandrika, Anoop Bhaskaran Sathyabhama, Rojin Joseph, Shibin Sobhanam Padmini, Jisha V. Somasekharan and Sajeevan Thavarool Puthiyedathu RSC Pharm., 2024,1, 305-316 DOI: 10.1039/D3PM00078H
Biocompatible, injectable and self-healable MOF-based anti-freezing eutectogels for higher encapsulation and sustained release of the anticancer drug curcumin Nildhara Parsana,a Hiral Ukani, Dharmveer Singh Chauhan, Omar El Seoud, Sanjay Mehra, Arvind Kumar, Naina Raje and Naved Malek RSC Pharm., 2024,1, 317-332 DOI: 10.1039/D3PM00088E
	Elucidation of processing parameters for the reverse engineering of tablets Devendra Choudhary, Dnyaneshwar Kalyane, Suryanarayana Polaka, Tanisha Gupta and Rakesh Kumar Tekade RSC Pharm., 2024,1, 333-343 DOI: 10.1039/D3PM00058C
Evaluation of the anti-depressant potential of EGCG-loaded nanoparticles in unstressed and stressed mice Shakti Dahiya, Ruma Rani, Neeraj Dilbaghi, Dinesh Dhingra, Sant Lal and Jaya Verma RSC Pharm., 2024,1, 344-356 DOI: 10.1039/D3PM00022B
	Novel pH-sensitive gum ghatti-cl-poly(acrylic acid) composite hydrogel based on graphene oxide for metformin hydrochloride and sodium diclofenac combined drug-delivery systems Pragnesh N. Dave and Pradip M. Macwan RSC Pharm., 2024,1, 357-371 DOI: 10.1039/D3PM00072A
	Exploring the molecular structure of lipids in the design of artificial lipidated antifungal proteins Hendra Saputra, Muhammad Safaat, Kazuki Uchida, Pugoh Santoso, Rie Wakabayashi, Masahiro Goto, Toki Taira and Noriho Kamiya RSC Pharm., 2024,1, 372-378 DOI: 10.1039/D3PM00087G

These articles and our future publications are free to access by anyone.

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RSC Pharmaceutics provides researchers with a platform to publish research in pharmaceutics and advance this field. We are interested in any submission that shares new scientific findings across chemistry, materials science, biomedical sciences, pharmaceutics and drug delivery.

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Hear from our authors: Scott Mitchell

19 Jun 2024

RSC Pharmaceutics has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

In this edition, we hear from Scott Mitchell about their study titled Acid- and base-resistant antimicrobial hydrogels based on polyoxometalates and chitosan.

“Only a few decades ago, antimicrobial resistance (AMR) was largely confined to hospitals and long-term care facilities, but over the last decade it has emerged as a serious global threat to public health. Furthermore, invasive fungal infections kill more than 1.7 million and affect over a billion people each year; however, their devastating impact on human health is not yet widely appreciated and is frequently neglected by public health authorities. In our group, we’ve used the naturally occurring polymer chitosan (CS) in combination with molecular polyoxometalates (POMs) to produce hybrid micro- and nano-capsules. Our hypothesis was that such nanostructured hybrid hydrogel materials could possess surface-active biocidal activity through additive and synergic effects. A series of pH resistance assays concluded that macroscopic hybrid hydrogels made from POMs and chitosan maintained their structural integrity after prolonged contact with both acidic and basic pH and that their potent surface-active antibiofilm properties against model bacterial strains (Gram-positive Bacillus subtilis and Gram-negative Escherichia coli) and airborne environmental moulds (Aspergillus niger and Cladosporium cladosporioides). Furthermore, the antimicrobial activity of the hydrogels could be enhanced through the inclusion of naturally occurring antimicrobial agents such as eugenol and cinnamaldehyde into the polymeric matrix.”

“Although we anticipated some form of antifungal activity, we didn’t anticipate these hybrid POM@CS hydrogels to perform so well in these preliminary tests against moulds. So, modulating this synergistic activity and improving the specificity towards certain strains is something that we’re really excited about.”

“The most challenging aspect was probably related to the transfer of synthetic procedures used to make the materials from one researcher to another. The project was initiated by Isabel Franco (a doctoral researcher) and Andrés Seral (a postdoctoral researcher), both of whom found positions in industry and academia after their contracts ended. This meant they had to transfer the synthetic protocols to Callum McWilliams (an Erasmus student from University of Glasgow) who completed the work during his research project in Zaragoza. Although it wasn’t an ideal scenario, we now know that the synthetic protocols are highly reproducible from one person to another and that’s definitely a positive outcome.”

“Ultimately, we hope that such synergic approaches could help to prevent the appearance of resistances. These hydrogels could easily be employed in health settings, as wound healing patches or poultices. However, there are many other instances where microbial colonization must be treated or avoided and where the appearance of resistances is troubling, e.g., biofilm build-up and blockages in water purification systems or microbiologically-influenced corrosion of engineered structures.”

Want to know more about their work? Read the full paper here!

Acid- and base-resistant antimicrobial hydrogels based on polyoxometalates and chitosan

Callum McWilliams, Isabel Franco-Castillo, Andrés Seral Ascaso, Sonia García-Embid, Mariella Malefioudaki, Johann G. Meier, Rafael Martín-Rapún and Scott G. Mitchell

RSC Pharm. 2024, Advance Article, DOI: 10.1039/D4PM00062E

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Hear from our authors: Noriho Kamiya

18 Jun 2024

RSC Pharmaceutics has published its first articles. To celebrate this, we asked the authors to discuss their work in some more detail.

In this edition, we hear from Noriho Kamiya about their study titled Exploring the molecular structure of lipids in the design of artificial lipidated antifungal proteins.

“This study follows on from our previous work (ACS Infect. Dis., 2022, 8, 1051-1061). In our attempts to enhance the function of antifungal proteins by artificial lipid modification, we have obtained new evidence that specific lengths of lipid moieties enhance the antifungal activity of the chitin-binding domain of a plant chitinase in the presence of amphotericin B. Further studies, including the development of new formulations that maximize the potent antifungal properties, are underway.”

Want to know more about their work? Read the full paper here!