【基本信息】
程如越,博士,助理研究員,碩士研究生導師。主要研究方向:腸道菌群與健康,益生菌篩選、功能評價及轉化研究。聯系方式:ruyuecheng1993@163.com
【教學工作】
《營養與食品衛生學實驗》、《食品微生物學》、《營養與食品衛生學專業英語》
【社會兼職】
中國營養學會老年營養分會委員、四川省營養學會老年營養分會委員
【科研項目】
(1)國家自然科學基金青年基金項目,82204037,生命早期腸道菌群構建與兒童注意缺陷多動障礙的關系及機制研究,2023-01-01至2025-12-31,30萬元,在研,主持
(2)中國博士後科學基金第71批面上資助,2022M712228,生命早期腸道菌群對過敏性疾病和注意缺陷多動障礙相互關聯的影響及機制研究,2023-01-01至2024-12-31,8萬元,在研,主持
(3)四川省博士後科研項目特别資助,TB2022046,乳酸菌和芽孢杆菌青貯複合菌劑的開發研究,2023-01-01至2024-12-31,8萬元,在研,主持
(4)中國營養學會營養科研基金,CNS-Feihe2022-12,母乳微生物和低聚糖對嬰幼兒腸道菌群構建和神經發育的影響,2023-01-01至2023-12-31,20萬元,在研,主持
(5)BINC“母嬰營養與護理研究基金”,2023BINCMCF38,健康嬰兒腸道來源雙歧杆菌的篩選及其促進神經發育的菌株特異性作用及機制,2023-10-01至2026-21-30,30萬元,在研,主持
(6)澳门新葡萄新京威尼斯博士後交叉學科創新啟動基金培育項目,JCXK2231,緩釋後生元可注射HA水凝膠的構建及其改善肥胖的作用及機制研究,2023-01-01至2024-12-31,10萬元,在研,主持
(7)澳门新葡萄新京威尼斯專職博士後研發基金項目,2022SCU12026,生命早期腸道菌群對宿主幼年期和成年期注意缺陷多動障礙的影響及機制研究,2022-01-01 至 2023-12-31,15萬元,在研,主持
(8)國家自然科學基金委員會,面上項目,82173512,攝入不同類型乳制品對端粒長度的影響及機制研究,2022-01-01 至 2025-12-31,55萬元,在研,參與
(9)國家自然科學基金委員會,面上項目,81973042,兒童過敏性疾病與肥胖的關系及機制研究:生命早期腸道菌群的關鍵作用,2020-01-01 至 2023-12-31,55萬元,在研,參與
(10)國家自然科學基金委員會,區域創新發展聯合基金,U22A20334,假飼輔助腸内營養調控創傷炎性反應的作用與機制研究,2023-01-01至2026-12-31,255萬元,在研,參與
(11)黑龍江省科學技術廳,首批“揭榜挂帥”科技攻關項目,2021ZXJ03B01-2,玉米稭稈高效厭氧發酵菌種選育,2021-08-01 至 2024-07-31,100萬元,在研,子課題參與
(12)黑龍江省科學技術廳,首批“揭榜挂帥”科技攻關項目,2021ZXJ03B05,沼渣、沼液高值化應用關鍵技術研究與産業化,2021-08-01 至 2024-07-31,60萬元,在研,子課題參與
【主要科研成果】
[1] Luo Y#, Zhang Y, Yang Y, Wu S, Zhao J, Li Y, Kang X, Li Z, Chen J, Shen X, He F*, Cheng R*. Bifidobacterium infantis and 2'-Fucosyllactose supplementation in early life may have potential long-term benefits on gut microbiota, intestinal development, and immune function in mice. J Dairy Sci. 2023 Aug 23:S0022-0302(23)00508-8.
[2] Yang Y#, Li J, Zhou Z, Wu S, Zhao J, Jia W, Liu M, Shen X, He F, Cheng R*. Gut Microbiota Perturbation in Early Life Could Influence Pediatric Blood Pressure Regulation in a Sex-Dependent Manner in Juvenile Rats. Nutrients. 2023; 15(12):2661.
[3] Cheng R#, Zhang Y, Yang Y, Ren L, Li J, Wang Y, Shen X*, He F*. Maternal gestational Bififidobacterium bififidum TMC3115 treatment shapes construction of offspring gut microbiota and development of immune system and induces immune tolerance to food allergen. Front Cell Infect Microbiol. 2022;12:1045109.
[4] Wu S#, Ren L#, Li J, Shen X, Zhou Q, Miao Z, Jia W, He F*, Cheng R*. Breastfeeding might partially contribute to gut microbiota construction and stabilization of propionate metabolism in cesarean-section infants. Eur J Nutr.2023;62(2):615-631.
[5] Miao ZH#, Wang JN, Shen X, Zhou QQ, Luo YT, Liang HJ, Wang SJ, Qi SH, Cheng RY*, He F*. Long-term use of Lacticaseibacillus paracasei N1115 from early life alleviates high-fat-diet-induced obesity and dysmetabolism in mice. Benef Microbes. 2022;13(5):407-416.
[6] Luo Y#, Cheng R#, Liang H, Miao Z, Wang J, Zhou Q, Chen J, He F*, Shen X*. Influence of high-fat diet on host animal health via bile acid metabolism and benefits of oral-fed Streptococcus thermophilus MN-ZLW-002. Exp Anim. 2022;71(4):468-480.
[7] Li J#, Pu F#, Peng C, Wang Y, Zhang Y, Wu S, Wang S, Shen X, Li Y, Cheng R*, He F*. Antibiotic cocktail-induced gut microbiota depletion in different stages could cause host cognitive impairment and emotional disorders in adulthood in different manners. Neurobiol Dis. 2022;170:105757.
[8] Jin J#, Cheng R#, Ren Y, Shen X, Wang J, Xue Y, Zhang H, Jia X, Li T, He F*, Tian H*. Distinctive Gut Microbiota in Patients with Overweight and Obesity with Dyslipidemia and its Responses to Long-term Orlistat and Ezetimibe Intervention: A Randomized Controlled Open-label Trial. Front Pharmacol. 2021;12:732541.
[9] Cheng R#, Guo J, Zhang Y, Cheng G, Qian W, Wan C, Li M, Marotta F, Shen X*, He F*. Impacts of ceftriaxone exposure during pregnancy on maternal gut and placental microbiota and its influence on maternal and offspring immunity in mice. Exp Anim. 2021;70(2):203-217.
[10] Cheng R#, Liang H, Zhang Y, Guo J, Miao Z, Shen X, Chen G, Cheng G, Li M*, He F*. Contributions of Lactobacillus plantarum PC170 administration on the recovery of gut microbiota after short-term ceftriaxone exposure in mice. Benef Microbes. 2020;11(5):489-509.
[11] Cheng R#, Xu T, Zhang Y, Wang F, Zhao L, Jiang Y*, He F*. Lactobacillus rhamnosus GG and Bifidobacterium bifidum TMC3115 Can Affect Development of Hippocampal Neurons Cultured In Vitro in a Strain-Dependent Manner. Probiotics Antimicrob Proteins. 2020;12(2):589-599. 擴展版ESI高被引論文
[12] Cheng R#, Guo J, Pu F, Wan C, Shi L, Li H, Yang Y, Huang C, Li M*, He F*. Loading ceftriaxone, vancomycin, and Bifidobacteria bifidum TMC3115 to neonatal mice could differently and consequently affect intestinal microbiota and immunity in adulthood. Sci Rep. 2019;9(1):3254.
[13] Cheng RY#, Yao JR#, Wan Q, Guo JW, Pu FF, Shi L, Hu W, Yang YH, Li L, Li M*, He F*. Oral administration of Bifidobacterium bifidum TMC3115 to neonatal mice may alleviate IgE-mediated allergic risk in adulthood. Benef Microbes. 2018;9(5):815-828.
[14] Cheng RY#, Li M, Li SS, He M, Yu XH, Shi L, He F*. Vancomycin and ceftriaxone can damage intestinal microbiota and affect the development of the intestinal tract and immune system to different degrees in neonatal mice. Pathog Dis. 2017;75(8).
【獲獎】
澳门新葡萄新京威尼斯優秀博士學位論文提名論文
