FolkKB

Boatlily

Tradescantia spathacea

Tradescantia spathacea,通常被称为流浪者或一英寸植物,原产于热带美洲,但在世界上许多地方已经自然化。尽管其传统药用用途尚未得到充分记录,但研究已探索了其合成锌氧化纳米颗粒和基于二氧化硅材料的潜力。这些应用显示出有希望的结果,特别是在神经保护作用方面,水提取物和乙醇提取物表现出减少多巴胺能神经退行性和调节帕金森病前临床模型中炎症的有益特性。此外,植物提取物已被用于开发氯霉素传感电催化剂,表明其在分析化学中的潜力。目前的安全问题很小,没有记录到重大问题;同样,也没有关于与药物之间存在显著相互作用的报告。

速览
最佳证据
D
注意事项

仅供参考。传统用法并不代表已被证实有效。证据与安全性各不相同,请查阅所引来源。

科学怎么说

  • 用Tradescantia spathacea的水提取物和乙醇提取物通过绿色化学方法合成了锌氧化物纳米颗粒。 D PMID
  • DTTS通过减少多巴胺能神经元退行性和调节星形胶质细胞反应在6-OHDA损伤大鼠中表现出神经保护作用。 D PMID
  • 研究发现,负载了T.spathacea提取物的二氧化硅在PD模型中显示出显著的运动改善和星形胶质细胞减少,值得进一步研究。 D PMID
  • 研究开发了一种Ag@AgCl/S-GCN电催化剂,使用Tradescantia spathacea植物提取物用于氯霉素检测,并显示出线性响应范围为1至650 μM。 D PMID

Frequently asked questions

What is Boatlily?

Boatlily (Tradescantia spathacea) is a plant documented in FolkKB's traditional-medicine reference, drawn from sourced literature and cross-checked against the evidence.

What does the scientific evidence say about Boatlily?

4 sourced findings are recorded for Boatlily; the strongest carries evidence grade D. For example: 用Tradescantia spathacea的水提取物和乙醇提取物通过绿色化学方法合成了锌氧化物纳米颗粒。

How strong is the evidence for Boatlily?

The strongest finding for Boatlily carries evidence grade D — preliminary or traditional. Grades run A (strongest) to D (preliminary or traditional).

Is Boatlily safe? What are the side effects?

No major safety issues are recorded for Boatlily in our sources, but the data may be incomplete. Consult a qualified professional before use.

Does Boatlily interact with medications?

No drug interactions are recorded for Boatlily in our sources. This does not rule them out — check with a pharmacist.

What are the common names of Boatlily?

Boatlily is also known as: Традесканция разноцветная, Gros curage.

Is Boatlily a proven treatment?

No. FolkKB is informational only. Traditional use and early findings are not proof of efficacy or safety — consult a qualified professional and never self-treat.

来源

  1. T2 Neuroprotective effects of Tradescantia spathacea tea bioactives in Parkinson's disease: In vivo proof-of-concept. literature abstract metadata
  2. T2 Fabrication of sulphur-doped graphitic carbon nitride anchored Ag@AgCl electrocatalyst for the sensing of chloramphenicol. literature abstract metadata
  3. T2 Evaluation of Aqueous and Ethanolic Extracts for the Green Synthesis of Zinc Oxide Nanoparticles from Tradescantia spathacea. literature abstract metadata
  4. T2 Preclinical Evaluation of Tradescantia spathacea Phenolic Extract-Loaded Silica in a Parkinson's Disease Model. literature abstract metadata

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