Since the Human microbiome project (HMP) was established, more and more studies have found that skin flora play a very important role in maintaining skin health. The scalp, as a part of skin, contains densely hair follicles, with unique physiological state that makes the microbial communities colonizing vary from other regions of body. Only few studies have recently focused on scalp and it’s commensal microflora while the connection with specific diseases, such as androgenetic alopecia(AGA), is even more rarely mentioned. Challenges with studing skin microbiome result in low biomass from human skin samples, and it makes sample collection even more difficult when it comes to hairy scalp. In consideration of the premises, obtaining stable and high amount of biomass is integral to skin microbiome research and the downstream steps. Soybeans contain several nutrients. The functional activities in soybeans, such as anti-oxidation and anti-inflammation could be improved depending on different fermentation methods. A survey has found that frequent soy bean drink consumption is protective against moderate to severe AGA. There are many skin-care products made with fermented soybean extract nowadays, as well as hair-care products which contain soybean functional compounds. The Purpose of this study is to investigate whether fermented soybean broth can improve AGA as well as influence common microbes on the scalp. Firstly, the in vitro antioxidant activity assay indicates that the fermented soybean broth presented above 60% of the DPPH free radical scavenging ability. Then we developed a microbiological sampling method which is suitable for scalp, and apply the method to AGA subjects. The amount of common microbes on the scalp of subjects was quantified by real-time PCR. Significantly lower amount of Malassezia globosa were detected from AGA region of subjects compare to healthy region (p < 0.01). And Propionibacterium acnes from heathy region increased (p < 0.05) after two months of sample intervention. We also observed significant improvement of hair density (p < 0.01) and hair diameter (p < 0.001) in AGA region. Apart from these, our results showed hair density was correlated with a higher amount of Staphylococcus epidermidis and Malassezia restricta. On the contrary, the opposite trend can be observed in scalp sensitivity score. In summary, we suggest that AGA and several uncomfortable sensations might be attributed to microbial dysbiosis on the scalp. And the result of human study suggests the potential of soybean fermentation extract as a promising hair care ingredient for AGA.