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All Journal SCRIPTA SCORE Scientific Medical Journal JIMKI: Jurnal Ilmiah Mahasiswa Kedokteran Indonesia
Triandra, Akbar
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Health Professions Medicine & Pharmacology Public Health

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Potensi Campuran Ekstrak Air Daun Salam (Syzygium polyanthum) dan Daun Sambiloto (Andrographis paniculata) sebagai Terapi Adjuvan dalam Tatalaksana Penyakit Diabetes Melitus Tipe 2 di Indonesia Meidina, Adinda Nezma; Ramadhanti, Nafilah; Triandra, Akbar; Putri, Yolanda Delia; Muftaridi, Rajwa Fairuz Putri
JIMKI: Jurnal Ilmiah Mahasiswa Kedokteran Indonesia Vol 11 No 3 (2025): Vol. 11 No. 3 (2025): JIMKI: Jurnal Ilmiah Mahasiswa Kedokteran Indonesia Vol. 1
Publisher : BAPIN-ISMKI (Badan Analisis Pengembangan Ilmiah Nasional - Ikatan Senat Mahasiswa Kedokteran Indonesia)

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.53366/jimki.v11i3.772

Abstract

Background: Type 2 diabetes mellitus (T2DM) is a metabolic disorder that continues to increase in prevalence every year, especially in Indonesia. In molecular mechanisms, T2DM is closely related to oxidative stress and inflammation. This literature review is intended to further examine the potential of a mixture of aqueous extracts of S. polyanthum and A. paniculata leaves as an adjuvant therapy for T2DM in Indonesia. Methods: Literature was searched using Google Scholar, Scopus, ResearchGate, and NCBI search sites. Inclusion and exclusion criteria were used to eliminate unrelated literature, resulting in 23 pieces of literature. Discussion: Based on phytochemical screening, S. polyanthum leaves and A. paniculata leaves contain compounds with beneficial effects in modulating the metabolic profile of T2DM patients by reducing oxidative stress, inhibiting ?-glycosidase, increasing insulin levels, regenerating pancreatic ?-cells, increasing glycolytic enzyme activity, and reducing pro-inflammatory biomarker levels. Conclusion: The mixture of aqueous extracts of S. polyanthum and A. paniculata leaves or combined with conventional drugs in the treatment of T2DM showed significant antidiabetic effects.
Potensi Teknologi Nanopartikel Logam Seng Oksida (NP-ZnO) pada Obat Anti-TB Sebagai Modalitas Mutakhir Pengobatan Penyakit Multidrug-Resistant Tuberculosis (MDR-TB) Meidina, Adinda Nezma; Triandra, Akbar; Hasibuan, Nabila Az-zahra; Fajri, M. Alif Al
SCRIPTA SCORE Scientific Medical Journal Vol. 5 No. 2 (2024): SCRIPTA SCORE Scientific Medical Journal
Publisher : Talenta Publisher

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.32734/scripta.v5i2.15230

Abstract

Background: Tuberculosis (TB) is a treatable infectious disease caused by the Mycobacterium tuberculosis pathogen. However, patient non-compliance during treatment contributes to the emergence of Multidrug-resistant Tuberculosis (MDR-TB). This literature review aims to further explore the potential of zinc oxide metal nanoparticles (NP-ZnO) in anti-TB drugs as an advanced modality for MDR-TB treatment by enhancing drug efficacy, reducing intestine degradation, and increasing absorption and bioavailability. Methods: Literature was searched using search engines such as Google Scholar, Science Direct, ResearchGate, and NCBI. Inclusion and exclusion criteria were applied, resulting in 14 relevant articles. Results and Discussion: Zinc oxide metal nanoparticles (NP-ZnO) exhibit antibacterial effects. Studies show that NP-ZnO can decrease Rifampicin's minimum inhibitory concentration (MIC) fourfold by enhancing bacterial cell membrane permeability and increasing bactericidal effects through interactions with host macrophage cells. Bactericidal effects were found with NP-ZnO and its combination with selenium (NP ZnO-Se). Meanwhile, bacteriostatic effects on MDR-TB and XDR-TB were observed with NP-ZnO and its combination with silver (NP Ag-ZnO). Conclusion: NP-ZnO encapsulated first-line anti-TB drugs offer advantages in delivering medication to target organs, accelerating therapy onset even with smaller doses, and mimicking M.tb's activity in infecting target organs. NP-ZnO and its combinations are also more sensitive in interacting with alveolar macrophages, the first immune cells responding to M.tb. NP-ZnO encapsulated first-line anti-TB drug technology holds potential as an advanced modality for MDR-TB treatment. Keyword: First-line anti-TB drugs, metal nanoparticle, multidrug-resistant tuberculosis, zinc oxide nanoparticle   Latar Belakang: Tuberkulosis (TBC) merupakan penyakit menular yang disebabkan oleh patogen Mycobacterium tuberculosis (M.tb) dan dapat diobati, tetapi rendahnya kepatuhan pasien selama pengobatan berdampak pada timbulnya Multidrug-resistant Tuberculosis (MDR-TB). Tinjauan literatur ini bertujuan untuk meninjau lebih lanjut potensi teknologi nanopartikel logam seng oksida (NP-ZnO) pada obat anti-TB sebagai modalitas mutakhir pengobatan penyakit MDR-TB dengan meningkatkan kemanjuran obat yang diberikan, mengurangi degradasi usus, serta meningkatkan absorpsi dan bioavailabilitas. Metode: Literatur dicari menggunakan situs pencari seperti Google Scholar, Science Direct, ResearchGate, dan NCBI. Kriteria inklusi dan eksklusi digunakan untuk mengeliminasi literatur yang tidak berkaitan sehingga diperoleh 14 literatur. Hasil dan Pembahasan: Nanopartikel logam seng oksida (NP-ZnO) menunjukkan efek antibakteri. Studi ini menunjukkan NP-ZnO dapat menurunkan minimum inhibitory concentration (MIC) rifampisin empat kali lipat dengan meningkatkan permeabilitas membran sel bakteri serta meningkatkan efek bakterisida melalui interaksinya dengan makrofag sel inang. Efek bakterisida ditemukan pada NP-ZnO dan kombinasinya dengan selenium (NP ZnO-Se). Sementara itu, efek bakteriostatik MDR-TB dan XDR-TB ditemukan pada NP-ZnO dan kombinasinya dengan perak (NP Ag-ZnO). Kesimpulan: Obat anti-TB lini pertama terenkapsulasi NP-ZnO memiliki keunggulan dalam penghantaran obat ke organ target, mempercepat onset terapi walau dengan dosis yang lebih kecil, dan meniru aktivitas M.tb dalam menginfeksi organ target. NP-ZnO maupun kombinasinya juga lebih sensitif dalam berinteraksi dengan makrofag alveolar yang merupakan sel imun pertama yang merespons M.tb. Teknologi obat anti-TB lini pertama terenkapsulasi NP-ZnO berpotensi sebagai modalitas mutakhir pengobatan MDR-TB. Kata Kunci: Multidrug-resistant tuberculosis, nanopartikel logam, nanopartikel seng oksida, obat anti-TB lini pertama
Co-Authors Fajri, M. Alif Al Hasibuan, Nabila Az-zahra Meidina, Adinda Nezma Muftaridi, Rajwa Fairuz Putri Putri, Yolanda Delia Ramadhanti, Nafilah