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Bioprocess 2024
驼乳降血糖研究进展
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Abstract:
骆驼乳在动物实验与临床试验取得显著降血糖效果,是由于其含有多种降血糖活性成分,胰岛素、胰岛素样生长因子、乳清蛋白以及其他微量元素。本文主要介绍了骆驼乳在辅助治疗糖尿病方面的研究进展,旨在为骆驼乳在帮助调节血糖方面的应用提供科学依据。
Camel milk has shown significant blood glucose-lowering effects in animal experiments and clinical trials, which is attributed to its various active components such as insulin, insulin-like growth factor, whey protein, and other trace elements. This article primarily introduces the research progress of camel milk in adjunctive therapy for diabetes, aiming to provide scientific evidence for the application of camel milk in helping regulate blood glucose levels.
| [1] | Benmeziane-Derradji, F. (2021) Evaluation of Camel Milk: Gross Composition—A Scientific Overview. Tropical Ani-mal Health and Production, 53, Article No. 308. https://doi.org/10.1007/s11250-021-02689-0 |
| [2] | Muthukumaran, M.S., Mudgil, P., Ayoub, M.A., et al. (2023) A Comprehensive Review on Health Benefits, Nutritional Composition and Processed Products of Camel Milk. Food Reviews International, 39, 3080-3116.
https://doi.org/10.1080/87559129.2021.2008953 |
| [3] | Abbas, S. (2013) Physico-Chemical Analysis and Composi-tion of Camel Milk. International Researcher, 2, 83-98. |
| [4] | Ho, T.M., Zou, Z. and Bansal, N. (2022) Camel Milk: A Review of Its Nutritional Value, Heat Stability, and Potential Food Products. Food Research International, 153, Article ID: 110870. https://doi.org/10.1016/j.foodres.2021.110870 |
| [5] | Yadav, A.K., Kumar, R., Priyadarshini, L., et al. (2015) Composition and Medicinal Properties of Camel Milk: A Review. Asian Journal of Dairy and Food Research, 34, 83-91. https://doi.org/10.5958/0976-0563.2015.00018.4 |
| [6] | El-Hatmi, O., et al. (2023) Relation between Color and Chemical Composition of Dromedary Camel Colostrum. Animals, 13, Article 442. https://doi.org/10.3390/ani13030442 |
| [7] | Yoganandi, J., Mehta, B.M., Wadhwani, K.N., et al. (2014) Comparison of Physico-Chemical Properties of Camel Milk with Cow Milk and Buffalo Milk. Journal of Camel Practice and Re-search, 21, 253-258.
https://doi.org/10.5958/2277-8934.2014.00045.9 |
| [8] | Mal, G., Sena, D.S. and Sahani, M.S. (2007) Changes in Chemical and Macro-Minerals Content of Dromedary Milk during Lactation. Journal of Camel Practice and Research, 14, 195-197. |
| [9] | Fahaid, A.H. (2009) Camel’s Milk Protects Against Aluminum Chloride-Induced Toxicity in the Liv-er and Kidney of White Albino Rats. American Journal of Biochemistry & Biotechnology, 5, 3101-3104.
https://doi.org/10.3844/ajbbsp.2009.98.108 |
| [10] | Alaoui Ismaili, M., Saidi, B., Zahar, M., et al. (2016) Composition and Microbial Quality of Raw Camel Milk Produced in Morocco. Journal of the Saudi Society of Agricultural Sciences, 18, 17-21. |
| [11] | Gwida, M. (2018) Evaluation of Physicochemical Properties and Microbiological Quality of Camel Milk from Egypt. Journal of Dairy, Veterinary & Animal Research, 7, 92-97. https://doi.org/10.15406/jdvar.2018.07.00197 |
| [12] | Alwan, O.A. and Zwaik, H.B. (2023) Milk Composition of Libyan Maghrebi Camels (Camels Dromedaries) Reared under Farm and Desert Conditions. International Conference on Chemical, Environment & Biological Sciences (CEBS-2014), Kuala Lumpur, 17-18 September 2014, 92-94. |
| [13] | Konuspayeva, G., Faye, B. and Loiseau, G. (2009) The Composition of Came L Milk: A Meta-Analys Is of the Literature Data. Journal of Food Composition and Analysis, 22, 95-101. https://doi.org/10.1016/j.jfca.2008.09.008 |
| [14] | Soliman, G.Z.A. (2005) Comparison of Chemical and Mineral Content of Milk from Human, Cow, Buffalo, Camel and Goat in Egypt. The Egyptian Journal of Hospital Medicine, 21, 116-130. https://doi.org/10.21608/ejhm.2005.18054 |
| [15] | Dennedy, M.C., Rizza, R.A. and Dinneen, S.F. (2016) Classification and Diagnosis of Diabetes Mellitus. In: Jameson, J.L., Eds., Endocrinology: Adult and Pediatric (Seventh Edition), Saunders, Philadelphia, 662-671.
https://doi.org/10.1016/B978-0-323-18907-1.00038-X |
| [16] | Hussain, H., Wattoo, F.H., Wattoo, M.H.S., et al. (2023) Camel Milk as an Alternative Treatment Regimen for Diabetes Therapy. Food Science & Nutrition, 9, 1347-1356. |
| [17] | Abdel-Salam, A.M., El-Mergawi, R.A., Al-Humaid, A.I., et al. (2010) Chemical Composition and An-tioxidant Activity of Dates and Dates-Camel-Milk Mixtures as a Protective Meal against Lipid Peroxidation in Rats. American Journal of Food Technology, 5, 22-30. https://doi.org/10.3923/ajft.2010.22.30 |
| [18] | Hamad, E.M., Ab-del-Rahim, E.A. and Romeih, E.A. (2011) Beneficial Effect of Camel Milk on Liver and Kidneys Function in Diabetic Sprague-Dawley Rats. International Journal of Dairy Science, 6, 190-197.
https://doi.org/10.3923/ijds.2011.190.197 |
| [19] | 刘宸, 冯鑫欢, 豆智华, 安淑静, 刘梦娇, 侯志梅, 杨洁. 新疆双峰驼乳对链脲佐菌素诱导的糖尿病小鼠肝脏的保护作用[J]. 食品科学, 2020, 41(9): 74-80. |
| [20] | Izadi, A., Khedmat, L. and Mojtahedi, S.Y. (2019) Nutritional and Therapeutic Perspectives of Camel Milk and Its Protein Hydrol-ysates: A Review on Versatile Biofunctional Properties. Journal of Functional Foods, 60, Article ID: 103441. https://doi.org/10.1016/j.jff.2019.103441 |
| [21] | Khan, M.Z., et al. (2021) Research Development on Anti-Microbia1 and Antioxidant Properties of Came1 Mi1k and Its Ro1e as an Anti-Cancer and Anti-Hepatitis Agent. Antioxidants, 10, Article 788. |
| [22] | Redha, A.A., Valizadenia, H., Siddiqui, S., et al. (2022) A State-of-Art Review on Camel Milk Pro-teins as an Emerging Source of Bioactive Peptides with Diverse Nutraceutical Properties. Food Chemistry, 373, Article ID: 131444.
https://doi.org/10.1016/j.foodchem.2021.131444 |
| [23] | 侯志梅, 丁雪梅, 李风, 等. 驼乳清蛋白影响糖尿病大鼠胰腺β细胞功能的效果以及作用机制初探[J]. 临床和实验医学杂志, 2020, 19(1): 39-43. |
| [24] | 王瑞, 周克夫, 汪建红. 骆驼奶对1型糖尿病小鼠的辅助治疗效果[J]. 厦门大学学报(自然科学版), 2015, 54(3): 331-334. |
| [25] | Moneim, A.A., Helmy, H., Abdel-Reheim, E.S. and Addaleel, W.W. (2016) Camel Milk Ameliorates Hyperglycemia-Mediated Hyperlipidemia and Oxidative Stress on Streptozotocin-Induced Diabetic Rats. International Journal of Diabetes Research, 5, 63-69. |
| [26] | Sboui, A., Atig, C., Khabir, A., et al. (2022) Camel Milk Used as an Ad-juvant Therapy to Treat Type 2 Diabetic Patients: Effects on Blood Glucose, HbA1c, Cholesterol, and TG Levels. Jour-nal of Chemistry, 2022, Article ID: 5860162. https://doi.org/10.1155/2022/5860162 |
| [27] | Zheng, Y., Wu, F., Zhang, M., et al. (2021) Hypoglycemic Effect of Camel Milk Powder in Type 2 Diabetic Patients: A Randomized, Double-Blind, Placebo-Controlled Trial. Food Science & Nutrition, 9, 4461-4472.
https://doi.org/10.1002/fsn3.2420 |
| [28] | Shori Bakr, A. (2015) Camel Milk as a Potential Therapy for Controlling Diabetes and Its Complications: A Review of in Vivo Studies. Journal of Food & Drug Analysis, 23, 609-618. https://doi.org/10.1016/j.jfda.2015.02.007 |
| [29] | Agrawal, R.P., Jain, S., Shah, S., et al. (2011) Effect of Camel Milk on Glycemic Control and Insulin Requirement in Patients with Type 1 Diabetes: 2-Years Randomized Controlled Trial. European Journal of Clinical Nutrition, 65, 1048-1052. https://doi.org/10.1038/ejcn.2011.98 |
| [30] | Mehra, N.K., et al. (2014) The Raikas—A Unique Combination of High Prevalence of Type 1 Diabetes Susceptibility Genes and Near Zero Incidence of the Disease. Human Immunology, 75, 1252-1258.
https://doi.org/10.1016/j.humimm.2014.09.009 |
| [31] | El-Kattawy, A., Algezawy, O., Alfaifi, M., et al. (2021) Ther-apeutic Potential of Camel Milk Exosomes against HepaRG Cells with Potent Apoptotic, Anti-Inflammatory, and An-ti-Angiogenesis Effects for Colostrum Exosomes. Biomedicine & Pharmacotherapy, 143, Article ID: 112220. https://doi.org/10.1016/j.biopha.2021.112220 |
| [32] | Khalid, N., Abdelrahim, D.N., Hanach, N., et al. (2023) Effect of Camel Milk on Lipid Profile among Patients with Diabetes: A Systematic Review, Meta-Analysis, and Me-ta-Regression of Randomized Controlled Trials. BMC Complementary Medicine and Therapies, 23, Article No. 438. https://doi.org/10.1186/s12906-023-04257-5 |
| [33] | 张世瑶, 李莉, 陆东林, 徐敏, 刘朋龙. 新疆双峰驼乳中胰岛素含量测定[J]. 中国奶牛, 2015(17): 48-50. |
| [34] | Malik, A., Al-Senaidy, A., Skrzypczak-Jankun, E. and Jankun, J. (2023) A Study of the Anti-Diabetic Agents of Camel Milk. International Journal of Molecular Medicine, 30, 585-92. |
| [35] | Ehlayel, M.S., Hazeima, K.A., Al-Mesaifri, F., et al. (2011) Camel Milk: An Alternative for Cow’s Milk Allergy in Children. Allergy & Asthma Proceedings, 32, 255-258. https://doi.org/10.2500/aap.2011.32.3429 |
| [36] | Mohamed, H., Ranasinghe, M., Amir, N., et al. (2022) A Study on Variability of Bioactive Proteins in Camel (Camelus Dromedarius) Milk: Insulin, Insulin-Like Growth Factors, Lactofer-rin, Immunoglobulin G, Peptidoglycan Recognition Protein-1, Lysozyme and Lactoperoxidase. International Journal of Dairy Technology, 75, 289-297.
https://doi.org/10.1111/1471-0307.12836 |
| [37] | Agrawal, R.P., Agrawal, R., Ranga, M.N., et al. (2022) Insulin Like Protein from Camel Milk and Similarity with Human Insulin. The Indian Journal of Animal Sciences, 92, 101-104. https://doi.org/10.56093/ijans.v92i1.120933 |
| [38] | Inglingstad, R.A., Devold, T.G., Eriksen, E.K., et al. (2010) Comparison of the Digestion of Caseins and Whey Proteins in Equine, Bovine, Caprine and Human Milks by Human Gastrointestinal Enzymes. Dairy Science & Technology, 90, 549-563. https://doi.org/10.1051/dst/2010018 |
| [39] | Park, Y.W. and Haenlein, G.F.W. (2013) Milk and Dairy Products in Human Nutrition: Production, Composition and Health. Wiley-Blackwell, Berlin. https://doi.org/10.1002/9781118534168 |
| [40] | Kumar, D., et al. (2016) Camel Milk: Alternative Milk for Human Consumption and Its Health Benefits. Nutrition & Food Science, 46, 217-227. |
| [41] | Dou, Z., Liu, C., Feng, X., et al. (2023) Camel Whey Protein (CWP) Ameliorates Liver Injury in Type 2 Diabetes Mellitus Rats and Insulin Resistance (IR) in HepG2 Cells via Activation of the PI3K/Akt Signaling Pathway. Food & Function, 13, 225-269. https://doi.org/10.1039/D1FO01174J |
| [42] | Huang, X., Liu, G., Guo, J., et al. (2018) The PI3K/AKT Pathway in Obesity and Type 2 Diabetes. International Journal of Biological Sciences, 14, 1483-1496. https://doi.org/10.7150/ijbs.27173 |
| [43] | Ayoub, M.A., Palakkott, A.R., Ashraf, A., et al. (2018) The Molecular Ba-sis of the Anti-Diabetic Properties of Camel Milk. Diabetes Research and Clinical Practice, 146, 305-312. |
| [44] | 邵伍军. 甘肃双峰驼乳中主要生物活性物质分析[D]: [硕士学位论文]. 兰州: 甘肃农业大学, 2007. |
| [45] | Sadek, K., Beltagy, D., Saleh, E., et al. (2016) Camel Milk and Bee Honey Regulate Profibrotic Cytokine Gene Transcripts in Liver Cirrhosis Induced by Carbon Tetrachloride. Canadian Journal of Physiology and Pharmacology, 94, 1141-1150. https://doi.org/10.1139/cjpp-2015-0596 |
| [46] | Guo, H., Wang, L., Wang, C., et al. (2021) Identification of an Apis Cerana Zinc Finger Protein 41 Gene and Its Involvement in the Oxidative Stress Response. Archives of Insect Biochem-istry and Physiology, 108, e21830.
https://doi.org/10.1002/arch.21830 |
| [47] | Ercal, N. and Penugonda, S. (2004) Toxic Metals and Oxidative Stress Part II: Role of Antioxidants in Metal-Induced Oxidative Damage. Current Topics in Toxicology, 1, 53-71. |
