The IRMA Community
Newsletters
Research IRM
Click a keyword to search titles using our InfoSci-OnDemand powered search:
|
Leveraging the Pharmaceutical Area Through Multidisciplinary Synergy: From Prescription to Disintegration
|
|
Author(s): Nurul Nadiah Abd Razak (University of Malaya, Malaysia), Rubaiyat Siddique Diba (MAHSA University, Malaysia), Fu Ke Xin (MAHSA University, Malaysia), Almadodi Reema Mohammed Salem (MAHSA University, Malaysia), Rishika Jayadeep (MAHSA University, Malaysia), Izyan Kamaliah Abdul Malik (MAHSA University, Malaysia), Ng Shi Qi (MAHSA University, Malaysia), Lee Zhi Xin (MAHSA University, Malaysia), Amani Othman Emran (MAHSA University, Malaysia), Daan Kamal Mohamed Zain (MAHSA University, Malaysia), Nanthini Jayaram (SEAMEO RECSAM, Malaysia), Salanee Kandandapani (MAHSA University, Malaysia), Ubaidah Naim Taraq Naem Zia (MAHSA University, Malaysia), Aimi Syamima Abdul Manap (College of Veterinary Medicine, King Faisal University, Saudi Arabia), Erry Ika Rhofita (Islamic State University of Sunan Ampel Surabaya, Indonesia), Ng Jing Hang (MAHSA University, Malaysia)and Ng Khar Thoe (UCSI University, Malaysia)
Copyright: 2024
Pages: 38
Source title:
Transdisciplinary Approaches to Learning Outcomes in Higher Education
Source Author(s)/Editor(s): Rajendra Kumar (Sharda University, India), Eng Tek Ong (UCSI University, Malaysia), Subuh Anggoro (Universitas Muhammadiyah Purwokerto, Indonesia)and Tin Lam Toh (Nanyang Technological University, Singapore)
DOI: 10.4018/979-8-3693-3699-1.ch008
Purchase
|
Abstract
The environmental implications of pharmaceutical industry drawn the attention of environmental scientists, prompting multidisciplinary collaborations toward sustainable solutions. Driven by the urgent need to combat the environmental persistence of pharmaceuticals, scholars across diverse disciplines including pharmaceutical sciences, biotechnology and chemical engineering are collaborating to develop effective solutions. Biotechnology uses microbes' natural breakdown power, while chemical engineering creates ideal conditions for efficient drug removal. In this work, a transdisciplinary approach was employed to study a model system comprising ibuprofen and a laccase enzyme. By empowering researchers with a comprehensive understanding of multidisciplinary approaches, the project seeks to optimize reaction conditions for maximized drug degradation efficiency, contributing to environmental protection and cleaner water sources.
Related Content
|
Denise Demers, Carla Gilbreath.
© 2026.
24 pages.
|
|
Janet Acker.
© 2026.
26 pages.
|
|
Velmurugan R., Sudarvel J., Bhuvaneswari R., Ravi Thirumalaisamy.
© 2026.
18 pages.
|
|
Usharani Bhimavarapu.
© 2026.
24 pages.
|
|
Julasmin S. Kassim, Bonjovi H. Hajan, Shielamar J. Judan, Warda H. Hadjirul, Radzma J. Julhiji.
© 2026.
28 pages.
|
|
Usharani Bhimavarapu.
© 2026.
24 pages.
|
|
Sepideh Mahani.
© 2026.
26 pages.
|
|
|