International Journal of Nanomedicine
Overview
The International Journal of Nanomedicine is a peer-reviewed journal that focuses on the advancements and applications of nanotechnology in the field of medicine. It publishes original research articles, reviews, and clinical studies, covering topics such as drug delivery systems, nanomedicine-based diagnostics, nanoscale imaging, and nanotoxicology. The journal aims to promote the understanding and utilization of nanotechnology for improved healthcare outcomes.
Details
Details
Abbr.
Int J Nanomedicine
Publisher
Dove Medical Press
Start
2006
End
Continuing
Frequency
Quarterly
p-ISSN
1176-9114
e-ISSN
1178-2013
Country
New Zealand
Language
English
Specialty
Biotechnology
Metrics
Metrics
h-index / Ranks: 945
179
SJR / Ranks: 2562
1273
CiteScore / Ranks: 710
14.00
JIF / Ranks: 681
8.0
Recent Articles
1.
Li K, Gu X, Zhu Y, Guan N, Wang J, Wang L
Int J Nanomedicine
. 2025 Mar;
20:2879-2899.
PMID: 40078652
Introduction: Periodontitis is the most common non-communicable disease in humans. The main challenge in the treatment of periodontitis is to effectively control periodontal inflammation and promote tissue repair. Human umbilical...
2.
Akhtar S, Zuhair F
Int J Nanomedicine
. 2025 Mar;
20:2847-2878.
PMID: 40078651
Nanomedicine has revolutionized cancer treatment by the development of nanoparticles (NPs) that offer targeted therapeutic delivery and reduced side effects. NPs research in nanomedicine significantly focuses on understanding their cellular...
3.
Mechanism of Antioxidant Activity of Selenium Nanoparticles Obtained by Green and Chemical Synthesis
Grudniak A, Folcik J, Szmytke J, Sentkowska A
Int J Nanomedicine
. 2025 Mar;
20:2797-2811.
PMID: 40066326
Background: Selenium nanoparticles (SeNPs) show high therapeutic potential. SeNPs obtained by green synthesis methods, using commonly available plants, are an attractive alternative to nanoparticles obtained by classical, chemical methods. The...
4.
Xue Q, He N, Gao Y, Zhang X, Li S, Chen F, et al.
Int J Nanomedicine
. 2025 Mar;
20:2779-2796.
PMID: 40066325
Introduction: Triple-negative breast cancer (TNBC) is known for its high malignancy, limited clinical treatment options, and poor chemotherapy outcomes. Although some advancements have been made using nanotechnology-based chemotherapy for TNBC...
5.
Wang M, Luo Y, Yang Q, Chen J, Feng M, Tang Y, et al.
Int J Nanomedicine
. 2025 Mar;
20:2813-2846.
PMID: 40066324
Metal-based nanoparticles (MNPs) have great potential for applications in wound healing and tissue engineering, and due to their unique structures, high bioactivities, and excellent designability characteristics, an increasing number of...
6.
Huang S, Xia C, Zuo W, Wang R, Xu N, Ye W, et al.
Int J Nanomedicine
. 2025 Mar;
20:2727-2741.
PMID: 40066323
Background: The current clinical treatment of periodontitis usually involves mechanical removal of pathogenic bacteria through ultrasonic scaling and root planing, supplemented with antibacterial medications to inhibit microbial overgrowth. However, the...
7.
Tang Y, Tang T, Li Y, Wu J, Liu X, Xiang D, et al.
Int J Nanomedicine
. 2025 Mar;
20:2743-2759.
PMID: 40066322
Objective: Photodynamic therapy (PDT) is a promising strategy with significant clinical application potential for tumor treatment. However, the tumor hypoxia and limited efficacy against tumor metastasis present significant limitations in...
8.
Wei X, Cao W, Wang S, Zhang Y, Gao Z, Wang S, et al.
Int J Nanomedicine
. 2025 Mar;
20:2623-2643.
PMID: 40061885
In recent years, nanobiotechnology, widely used in hepatoma, holds great promise for improving targeted hepatocarcinoma therapy. On account of the unique properties of low toxicity, good tolerance, biocompatibility, and biodegradability...
9.
Liu Y, Wang Z, Liu X, Chen H, Huang Y, Li A, et al.
Int J Nanomedicine
. 2025 Mar;
20:2695-2709.
PMID: 40061884
Statement Of Problem: The high recurrence rate of denture stomatitis may be related to the strong resistance of fungi. Therefore, the method of providing biomaterials with antifungal properties is an...
10.
Almalki S, Al-Ghamdi Y, Algethami F, Daoush W, Alrfaei B, Alanazi M, et al.
Int J Nanomedicine
. 2025 Mar;
20:2593-2607.
PMID: 40061883
Background: Previous studies on synthesis and cytotoxicity effect of copper (Cu) and magnetite (FeO) nanodots against kidney and lung cancer cells Lines. Purpose: Investigation of the effects of Cu and...