- 2026-04-16
- Journal of ethnopharmacology 367
- Meng He
- Hechao Zhao
- Min Liu
- Yanhua Wang
Study Design
- Type
- Systematic Review
- Methods
- Systematic literature search in PubMed, Web of Science, and Scopus
Ethnopharmacological relevance
Ginkgo biloba L., a 'living fossil' with an evolutionary history spanning over 200 million years, occupies a prominent place in traditional medicine systems. Historical records, including the Chinese pharmacopoeia Ben Cao Gang Mu, document its use for treating various ailments related to the respiratory, circulatory, and cognitive systems. Modern pharmacological research has validated these traditional applications, identifying Ginkgo biloba extract (GBE) as a valuable phytomedicine for neurodegenerative, cardiovascular, and metabolic diseases.Aim of study
This comprehensive review aims to synthesize recent advances in GBE research, with a primary focus on literature from the past three years in GBE research, critically evaluating four key areas: 1) innovations in green extraction and purification technologies; 2) novel organelle-level mechanisms of action; 3) the development and application of nano-delivery systems for targeted therapy; and 4) clinical evidence and toxicological studies supporting GBE's therapeutic use and safety profile.Materials and methods
This holistic review was conducted through a systematic literature search (covering 2003.8.15-2026.2.22) in databases including PubMed, Web of Science, and Scopus, using keywords related to GBE's extraction technologies, nano-delivery systems, organelle-level mechanisms, and clinical applications. The retrieved literature was screened and critically evaluated to synthesize recent advances, with a focus on identifying emerging trends, convergent evidence, and knowledge gaps across the four key areas outlined in the review's aim.Results
Significant improvements in the sustainability and efficiency of GBE extraction have been achieved through recent technological innovations. (Deep Eutectic Solvent) DESs have emerged as tunable platforms for the selective and efficient extraction of bioactive compounds, while physical field-assisted methods enhance yields. Mechanistic studies reveal that GBE orchestrates cellular homeostasis by synchronously modulating mitochondrial bioenergetics, endoplasmic reticulum stress, and autophagic-lysosomal activity. Nano-delivery systems, such as liposomal nanoparticles and chitosan-coated carriers, effectively enhance the bioavailability and targeting precision of GBE's bioactive components, including quercetin. Clinically, standardized formulations like Ginkgo Diterpene Lactone Meglumine Injection (GDLI) show promise in improving cognitive outcomes in ischemic stroke and Alzheimer's disease, and in managing cardiovascular diseases. However, potential toxic side effects, primarily from ginkgolic acids (GA) and 4'-O-methylpyridoxine (MPN), necessitate rigorous quality control, with advanced methods like enzymatic degradation being developed for detoxification.Conclusion
GBE represents a promising, multifaceted therapeutic agent that effectively bridges traditional medicine and modern scientific innovation. Its broad-spectrum efficacy stems from the synergistic interactions of its bioactive constituents and their system-level regulatory mechanisms. To fully harness GBE's potential as a precision therapeutic agent, future research should focus on a coordinated technological strategy: employing green extraction methods such as DES to ensure sustainable and efficient compound isolation; developing standardized nano-formulations to overcome key pharmacokinetic limitations like low bioavailability and poor targeting; and applying multi-omics approaches to elucidate its organelle-level mechanisms of action. Validating these integrated innovations in large-scale clinical trials will be essential. Ultimately, the convergence of green chemistry, nanomedicine, and systems biology is key to translating GBE's multifaceted bioactivity into targeted and reliable clinical therapies.