PubMed-compiled information sheet
This sheet was compiled from PubMed (NIH) abstracts using AI assistance. Every factual claim is cited to a real PubMed article (see the source list). It has not yet been human-reviewed — confirm with a healthcare provider before use.
Compiled from 30 PubMed articles · model: gemma4:31b
Summary
Background
Traditional uses
Active compounds
Mechanism of action
Clinical evidence
Oral D. pinnata petal extract improved glucose tolerance in high-fat diet induced mice at doses of 3.3 mg/kg and 10 mg/kg body weight [PMID:39872248].
Inulin from dahlia tuber extract was studied for its effect on blood glucose levels, serum insulin expression, and insulitis severity in diabetic rats [PMID:39386185].
Safety & adverse effects
Evidence summary
PubMed sources
- 1.PMID: 36876591 (2023) — Inulin: properties and health benefits. · Food & function
- 2.PMID: 39386185 (2024) — Effect of inulin from dahlia tubers (Dahlia variabilis) extract on insulitis severity and insulin expression in diabetic rats. · BioMedicine
- 3.PMID: 37895182 (2023) — Identification and Genome Characterization of a Dahlia Common Mosaic Virus Isolate from China. · Genes
- 4.PMID: 37518673 (2023) — Phytochemical profile of petals from black Dahlia pinnata by flow injection analysis-electrospray ionization-Fourier transform ion cyclotron resonance mass spectrometry. · Phytochemical analysis : PCA
- 5.PMID: 38869151 (2024) — The genomes of Dahlia pinnata, Cosmos bipinnatus, and Bidens alba in tribe Coreopsideae provide insights into polyploid evolution and inulin biosynthesis.