Research Insights
Insights are moderated by the Research Hub team and offer an at-a-glance overview of interesting research findings.
Modern extraction techniques improve the extraction of bioactive compounds from black soybeans, which have potential use in functional foods and nutraceutical components.
Review Article
These modern extraction techniques involve the application of technologies such as microwaves, ultrasounds, and enzymes. Contrary to traditional methods that depend on simple yet toxic solvents, these contemporary options yield higher amounts of bioactive substances from black soybeans, are quicker, and are less damaging to the environment. The exact bioactive compounds extracted include anthocyanins, phenolic acids, isoflavones, and flavones, among others.
Researchers discovered that black soybeans, and specifically their seed coat, are rich in various bioactive compounds. These compounds have been reported to possess numerous health benefits, showing antioxidant, anti-cancer, anti-diabetic, anti-obesity, anti-inflammatory, cardio and neuroprotective activities. The study also explores how these soybean extracts have been used in the manufacture of food products like noodles, in the development of biodegradable films with pH sensitivity, and in therapeutic applications such as promoting wound healing and alleviating inflammation. The comprehensive review, therefore, serves as a handy reference for food manufacturers and scientists, showcasing the vast potential of black soybeans in the development of functional foods and nutraceuticals.
View Article
Adzuki bean extracts have shown more potential than black soybean extracts in lowering blood pressure in hypertensive rats, acting on the renin-angiotensin system.
Animal Study Adzuki Bean High Blood Pressure Renin-Angiotensin System
The methodology used in this research involved the administration of varying volumes of black soybean and adzuki bean ethanol extracts to seven groups of rats, which included one group of normal rats and six groups of spontaneously hypertensive rats. The purpose of the extracts was to explore their antihypertensive effects on aspects such as blood pressure, the renin-angiotensin system, and aortic lesions.
The results revealed that black soybean and adzuki bean extracts significantly reduced various biomarkers such as liver weight, triglycerides, total cholesterol, and systolic blood pressure. On a comparative basis, the adzuki bean extracts (AE) demonstrated a greater antihypertensive potential than black soybean extracts (BE). Specifically, the angiotensin II level and blood pressure in the AE-treated group were lower than those in the BE-treated group, leading to the conclusion that AE exhibits higher antihypertensive potential.
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Adzuki bean exhibited the strongest antiproliferative properties in a dose-dependent manner against all digestive system cancer cell lines, ovary cancer cell SK-OV-3 and breast cancer cell MCF-7 among all legumes tested.
Experimental Study Adzuki Bean Anticancer Antioxidant
This research involved comparing the health-promoting effects of various food legumes. The Cellular Antioxidant Activity (CAA) was assessed using a fluorescence microplate reader and in vitro animal cell cultivation. The antiproliferative properties against cancer cells were evaluated through the MTT method in an in vitro cell culture system. Additionally, the study quantified phytochemicals (total phenolic, procyanidin, saponin, and phytic acid) and chemical antioxidant activities (DPPH free radical scavenging activity, oxygen radical absorbing capacity, peroxyl radical scavenging capacity).
The results indicated significant variations in phytochemical and antioxidant activities among different legumes. Notably, adzuki bean demonstrated the strongest dose-dependent antiproliferative effects against various cancer cell lines, including those from the digestive system, ovary, and breast. Meanwhile, black soybean showed the highest levels of saponin, phytic acid, and the strongest cellular antioxidant activities. These findings suggest that food legumes, particularly adzuki beans and black soybeans, are promising as natural antioxidants for health promotion and cancer prevention.
View Article
Clinical Trials
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Study Protocols
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Presentation Slides
Chinese Medicine Research Hub
Review Article
Modern extraction techniques improve the extraction of bioactive compounds from black soybeans, which have potential use in functional foods and nutraceutical components.
2022 Critical Reviews in Food Science and Nutrition Black soybean (Glycine max(L.) Merr.): paving the way toward new nutraceutical
Kumar M, Suhag R, Hasan M, Dhumal S, Radha , Pandiselvam R, Senapathy M, Sampathrajan V, Punia S, Sayed AAS, Singh S, Kennedy JF
Chinese Medicine Research Hub
Animal Study
Adzuki bean extracts have shown more potential than black soybean extracts in lowering blood pressure in hypertensive rats, acting on the renin-angiotensin system.
2021 Foods Black Soybean and Adzuki Bean Extracts Lower Blood Pressure by Modulating the Renin-Angiotensin System in Spontaneously Hypertensive Rats
Jeong EW, Park SY, Yang YS, Baek YJ, Yun DM, Kim HJ, Go GW, Lee HG
Chinese Medicine Research Hub
Experimental Study
Adzuki bean exhibited the strongest antiproliferative properties in a dose-dependent manner against all digestive system cancer cell lines, ovary cancer cell SK-OV-3 and breast cancer cell MCF-7 among all legumes tested.
2012 Food Chemistry Comparative study on antiproliferation properties and cellular antioxidant activities of commonly consumed food legumes against nine human cancer cell lines
Xu B, Chang SKC
Executive Summary
Write an executive summary in the form of a blog article on the topic of "Research into Chinese medicine treatment for Black Soybean" summarising the research below and using language that can be easily understood by patients and avoiding medical jargon using a professional and caring tone of voice.
Write an executive summary in the form of a blog article on the topic of "Researched Chinese medicine treatments for Black Soybean" summarising the research below in an objective and easy to understand way, and using language that can be easily understood by patients. Group the article into Chinese medicine treatments first, followed by nutrition and other treatments. Avoid using medical jargon and use a professional and caring tone of voice.
Write me a concise but easy to understand executive summary on the topic of "Chinese medicine treatments for Black Soybean" based on the following research that I will give you. Your summary should be 2 paragraphs long in Australian English spelling and include references to the studies.
A Review Article published in 2022 in the journal Critical Reviews in Food Science and Nutrition found that Modern extraction techniques improve the extraction of bioactive compounds from black soybeans, which have potential use in functional foods and nutraceutical components. These modern extraction techniques involve the application of technologies such as microwaves, ultrasounds, and enzymes. Contrary to traditional methods that depend on simple yet toxic solvents, these contemporary options yield higher amounts of bioactive substances from black soybeans, are quicker, and are less damaging to the environment. The exact bioactive compounds extracted include anthocyanins, phenolic acids, isoflavones, and flavones, among others.
Researchers discovered that black soybeans, and specifically their seed coat, are rich in various bioactive compounds. These compounds have been reported to possess numerous health benefits, showing antioxidant, anti-cancer, anti-diabetic, anti-obesity, anti-inflammatory, cardio and neuroprotective activities. The study also explores how these soybean extracts have been used in the manufacture of food products like noodles, in the development of biodegradable films with pH sensitivity, and in therapeutic applications such as promoting wound healing and alleviating inflammation. The comprehensive review, therefore, serves as a handy reference for food manufacturers and scientists, showcasing the vast potential of black soybeans in the development of functional foods and nutraceuticals.
A Animal Study published in 2021 in the journal Foods found that Adzuki bean extracts have shown more potential than black soybean extracts in lowering blood pressure in hypertensive rats, acting on the renin-angiotensin system. The methodology used in this research involved the administration of varying volumes of black soybean and adzuki bean ethanol extracts to seven groups of rats, which included one group of normal rats and six groups of spontaneously hypertensive rats. The purpose of the extracts was to explore their antihypertensive effects on aspects such as blood pressure, the renin-angiotensin system, and aortic lesions.
The results revealed that black soybean and adzuki bean extracts significantly reduced various biomarkers such as liver weight, triglycerides, total cholesterol, and systolic blood pressure. On a comparative basis, the adzuki bean extracts (AE) demonstrated a greater antihypertensive potential than black soybean extracts (BE). Specifically, the angiotensin II level and blood pressure in the AE-treated group were lower than those in the BE-treated group, leading to the conclusion that AE exhibits higher antihypertensive potential.
A Experimental Study published in 2012 in the journal Food Chemistry found that Adzuki bean exhibited the strongest antiproliferative properties in a dose-dependent manner against all digestive system cancer cell lines, ovary cancer cell SK-OV-3 and breast cancer cell MCF-7 among all legumes tested. This research involved comparing the health-promoting effects of various food legumes. The Cellular Antioxidant Activity (CAA) was assessed using a fluorescence microplate reader and in vitro animal cell cultivation. The antiproliferative properties against cancer cells were evaluated through the MTT method in an in vitro cell culture system. Additionally, the study quantified phytochemicals (total phenolic, procyanidin, saponin, and phytic acid) and chemical antioxidant activities (DPPH free radical scavenging activity, oxygen radical absorbing capacity, peroxyl radical scavenging capacity).
The results indicated significant variations in phytochemical and antioxidant activities among different legumes. Notably, adzuki bean demonstrated the strongest dose-dependent antiproliferative effects against various cancer cell lines, including those from the digestive system, ovary, and breast. Meanwhile, black soybean showed the highest levels of saponin, phytic acid, and the strongest cellular antioxidant activities. These findings suggest that food legumes, particularly adzuki beans and black soybeans, are promising as natural antioxidants for health promotion and cancer prevention.