# Snow Pea Shoots (Pisum sativum var. macrocarpon) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/snow-pea-shoots **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-03-24 **Evidence Score:** 2 / 10 **Category:** Vegetable **Also Known As:** Pisum sativum var. macrocarpon, pea shoots, pea tips, pea tendrils, snow pea greens, mangetout shoots, 豌豆苗 ## Overview Snow pea shoots (Pisum sativum var. macrocarpon) are young tendrils and leaves rich in the phytoalexin pisatin and flavonoids such as kaempferol and quercetin. These bioactive compounds interact with estrogen receptors and vascular signaling pathways in laboratory models, though no human clinical trials have validated these effects. ## Health Benefits • No clinically proven health benefits - no human trials found in research • Potential estrogenic activity shown only in vitro with elicited extracts (not whole shoots) • May support vascular health through pisatin-enhanced vasculogenesis (in vitro evidence only) • Contains phytoalexins and flavonoids typical of dark leafy greens (no specific health outcomes studied) • Plant hormone content (gibberellins) relevant only to plant growth, not human health ## Mechanism of Action Pisatin, a pterocarpan-class phytoalexin produced by Pisum sativum under stress, has demonstrated binding affinity at estrogen receptor alpha (ERα) in vitro, potentially modulating estrogen-responsive gene transcription. Flavonoids including kaempferol and quercetin inhibit VEGF-mediated signaling, with pisatin specifically shown to enhance endothelial cell tube formation in Matrigel assays, suggesting pro-vasculogenic activity via the VEGF/KDR pathway. These mechanisms are derived exclusively from cell-culture and elicited extract models; receptor binding kinetics and in vivo pharmacokinetics in humans remain uncharacterized. ## Clinical Summary No human clinical trials have investigated snow pea shoots as a supplement or food ingredient for any health outcome, making the current evidence base extremely limited. All estrogenic activity data originate from in vitro assays using elicited (stress-induced) extracts, which contain elevated pisatin concentrations not representative of whole shoot consumption. Vasculogenic findings come from a single category of endothelial cell studies and have not been replicated in animal models or progressed to human trials. Until controlled studies with defined doses and measurable endpoints are conducted, no evidence-based health claims can be substantiated for this ingredient. ## Nutritional Profile Per 100 g raw snow pea shoots (Pisum sativum var. macrocarpon tender tips/leaves): Energy ~30–35 kcal; Water ~89–91 g; Protein ~3.5–4.0 g (relatively high for a leafy green, includes rubisco and other soluble plant proteins); Total fat ~0.4–0.6 g; Carbohydrates ~4.0–5.5 g (including ~2.0–2.5 g dietary fiber, mostly insoluble cellulose and hemicellulose); Sugars ~1.5–2.0 g. Vitamins: Vitamin C ~60–80 mg (high, though rapidly degraded post-harvest; bioavailability good when consumed raw), Vitamin A equivalents (as β-carotene) ~3,000–4,000 µg RAE (~1,500–2,000 µg retinol activity; fat co-ingestion improves carotenoid bioavailability 3–5×), Vitamin K1 (phylloquinone) ~250–350 µg (very high; fat-soluble, enhanced absorption with dietary lipids), Folate (B9) ~120–180 µg (moderate-high; polyglutamate forms require intestinal deconjugation, ~50–60% bioavailability vs folic acid), Thiamine (B1) ~0.2–0.3 mg, Riboflavin (B2) ~0.1–0.2 mg, Vitamin E (α-tocopherol) ~1.5–2.5 mg. Minerals: Potassium ~300–400 mg, Calcium ~60–80 mg (bioavailability moderate, ~30–40%, somewhat reduced by co-present oxalates though oxalate levels in pea shoots are relatively low compared to spinach), Iron ~2.0–3.0 mg (non-heme form; bioavailability ~5–12%, enhanced by concurrent vitamin C content), Magnesium ~25–35 mg, Phosphorus ~55–75 mg, Manganese ~0.4–0.6 mg, Zinc ~0.5–0.8 mg. Bioactive compounds: Lutein + zeaxanthin ~5–8 mg/100 g (among the highest of common vegetables; xanthophyll carotenoids with preferential macular deposition; bioavailability enhanced by cooking and fat), β-carotene ~2.5–4.0 mg, chlorophyll a + b ~50–100 mg (porphyrin pigments with limited systemic bioavailability but potential gut-level [antioxidant activity](/ingredients/condition/antioxidant)), flavonoids including quercetin glycosides ~5–15 mg and kaempferol glycosides ~3–10 mg (bioavailability of aglycones ~2–5% due to extensive first-pass [metabolism](/ingredients/condition/weight-management); glycoside forms require intestinal hydrolysis), phenolic acids including caffeic acid, ferulic acid, and p-coumaric acid (total phenolics ~80–150 mg GAE/100 g), phytoalexin pisatin (trace amounts in unstressed tissue; significantly induced upon elicitation/wounding, typically <1 mg/100 g in fresh unelicited shoots), saponins (trace), plant hormones including gibberellins (endogenous growth regulators present at ng–µg levels, nutritionally negligible). Antinutrients: Oxalates ~30–50 mg/100 g (low relative to spinach at ~600–800 mg), phytate minimal in shoot tissue (concentrated in seeds/pods rather than vegetative tissue), trypsin inhibitors at very low levels in young shoots compared to mature pea seeds. Notable: The high vitamin C content in pea shoots substantially enhances non-heme iron absorption from the same tissue. The combination of high lutein/zeaxanthin with moderate fat-soluble vitamin content makes co-consumption with dietary fat advisable for optimal micronutrient uptake. ## Dosage & Preparation No clinically studied dosages exist for snow pea shoots as no human trials were found. Typical culinary use ranges from 50-100g fresh shoots per serving, but no standardization for biomedical dosing has been established. Consult a healthcare provider before starting any new supplement. ## Safety & Drug Interactions Snow pea shoots are generally recognized as safe as a food vegetable with no documented toxicity at culinary intake levels, but supplemental concentrated extracts lack formal safety profiling. Due to demonstrated ERα binding activity in vitro, individuals with hormone-sensitive conditions such as estrogen receptor-positive breast cancer, uterine fibroids, or endometriosis should exercise caution with high-dose extracts and consult a clinician. Potential interactions with tamoxifen, aromatase inhibitors, or other hormone-modulating drugs cannot be ruled out given the estrogenic signaling data, though no interaction studies exist in humans. Pregnant and breastfeeding women should avoid concentrated shoot extracts until safety data are available, though whole food consumption is not considered a concern. ## Scientific Research No human clinical trials, RCTs, or meta-analyses specifically on snow pea shoots were identified. The only relevant study examined elicited snow pea extracts in vitro, showing estrogenic activity in breast cancer cell lines, but this lacks human data or clinical relevance. Studies on palmitoylethanolamide (PEA) for pain (PMID 30927159) are unrelated as PEA is not derived from snow pea shoots. ## Historical & Cultural Context No evidence of historical or traditional medicinal use for snow pea shoots was found in any traditional medicine systems. They are primarily a modern culinary vegetable with documented food safety concerns including a cyclosporiasis outbreak linked to contaminated snow peas. ## Synergistic Combinations Other dark leafy greens, vitamin C sources, iron-rich foods, folate sources, [antioxidant](/ingredients/condition/antioxidant) vegetables ## Frequently Asked Questions ### Do snow pea shoots have proven health benefits for humans? No human clinical trials have been conducted on snow pea shoots as a health supplement, so no benefits are clinically proven at this time. All positive findings — including estrogenic and vascular activity — come from in vitro cell studies using stress-elicited extracts, which may not reflect what happens after eating whole shoots. Consumers should treat marketed health claims with significant skepticism until controlled trials exist. ### What is pisatin and why does it matter in snow pea shoots? Pisatin is a pterocarpan phytoalexin synthesized by Pisum sativum in response to pathogen attack or elicitor exposure, and it is the primary bioactive compound of interest in snow pea research. In cell-based assays, pisatin has shown estrogen receptor alpha binding activity and pro-vasculogenic effects by promoting endothelial tube formation. Crucially, pisatin concentrations are significantly higher in elicited (stress-induced) extracts than in commercially harvested whole shoots, limiting the translational relevance of these findings. ### Can snow pea shoots affect estrogen levels or hormone balance? In vitro studies using elicited snow pea extracts have detected ERα binding activity for pisatin, suggesting potential phytoestrogenic properties at the molecular level. However, no animal or human studies have measured changes in circulating estrogen, luteinizing hormone, or other hormonal markers following consumption of snow pea shoots. People on hormone therapy or with estrogen-sensitive conditions should discuss high-dose extract use with a healthcare provider due to this theoretical interaction. ### Are snow pea shoots high in vitamins and minerals? Snow pea shoots are a nutritionally dense dark leafy green providing meaningful amounts of vitamin C, vitamin K1, folate, and beta-carotene (a vitamin A precursor) per 100-gram serving. They also contribute iron, potassium, and calcium at levels comparable to other tender shoot vegetables. These nutritional attributes are well-established through food composition analysis, even though their supplemental health effects lack clinical trial support. ### What is the difference between snow pea shoots and snow peas for supplement use? Snow peas are the mature pods of Pisum sativum var. macrocarpon, while snow pea shoots are the immature tendrils, leaves, and stems harvested at an early growth stage and contain a distinct phytochemical profile including higher concentrations of pisatin and chlorogenic acid derivatives. Supplement and extract research has focused specifically on shoot tissue, particularly stress-elicited preparations, not the mature pod. No standardized supplemental form of snow pea shoots — such as a capsule with a defined pisatin dose — is currently commercially established or clinically validated. ### What is the difference between snow pea shoot extracts and whole snow pea shoot powder for supplements? Snow pea shoot extracts are concentrated forms that isolate specific compounds like pisatin and flavonoids, while whole shoot powders contain the complete plant matrix with fibers and cofactors. Research showing estrogenic activity has only been observed in vitro with elicited extracts—not whole shoots—making the bioavailability and safety profiles substantially different. Whole shoot powders more closely resemble food consumption, whereas extracts function more like pharmaceutical isolates with unclear clinical relevance in humans. ### Are snow pea shoots safe to take long-term as a daily supplement? No long-term human safety studies exist for snow pea shoot supplements, so extended daily use cannot be verified as safe or unsafe. While whole snow pea shoots are edible foods with minimal reported toxicity, concentrated supplement forms lack established safety data, particularly regarding cumulative exposure to phytoalexins and plant hormones. Consult a healthcare provider before using as a daily supplement, especially if taking hormone-sensitive medications or managing endocrine conditions. ### How does the research quality on snow pea shoots compare to other common supplement vegetables? Snow pea shoots have significantly less human clinical evidence than established supplement vegetables like kale, spinach, or broccoli, with available studies limited to laboratory cell cultures and animal models. No randomized controlled trials in humans have tested health outcomes from snow pea shoot supplementation, whereas other cruciferous and leafy greens have peer-reviewed human efficacy data. This ingredient should be considered experimental for supplemental use until human-level research is conducted. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*