Nutritional Composition and Medicinal Properties of Camel Milk, and Cheese Processing
By: Muhammad Abdul Rahim, Waseem Khalid, Muhammad Modassar Ali Nawaz Ranjha, Saadia Ambreen, Chasheen Fizza, Anam Tariq, Mohsin Ali, Ali Hasan, Arooj Rauf, Afifa Aziz
Key Words: Camel Milk, Nutritional Composition, Medicinal Effect, Immune Boosting, Camel Milk Cheese.
Int. J. Biosci. 17(4), 83-98, October 2020.
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This review has been conducted on camel milk and its nutritional parameters and medicinal effect on humans. Basically, milk is a complete diet and it is composed of a wide range of health-beneficial components. Camel milk has salty taste due to rich of minerals. Nutritionally, it is composed of protein in form of casein and whey, short-chain fatty acid, lactose, immunoglobulins, vitamin including A, E, D, and B, and minerals such as sodium, potassium, iron, copper, zinc and magnesium, especially calcium and kalium. Medicinally, camel milk can reduce the risk of cancer and autism. This milk is also suitable for infectious diseases like diarrhea, hepatitis and allergy and plays a vital role in physiological disorders such as diabetes. The immunoglobulins components of camel milk boost human immunity. Camel milk is stored after processing in the form of cheese. The camel milk is beneficial for human health against diseases.
Nutritional Composition and Medicinal Properties of Camel Milk, and Cheese Processing
Abo-Elnaga TR, Gouda AS, Kamel YM, Mahmoud MA, Osman WA. 2012. Application of the polymerase chain reaction for identification of Mycoplasma isolated from aborted She Camel. Global Veterinaria 8(4), 386-392.
Abu-Lehia I. 1987. Composition of camel milk. Milchwissenschaft. Milk Science International 42, 368.
Abu-Tarboush HM. 1994. Growth behavior of Lactobacillus acidophilus and biochemical characteristics and acceptability of acidophilus milk made from camel milk. Milchwissenschaft 49(7), 379-382.
Agrawal R, Beniwal R, Kochar D, Tuteja F, Ghorui S, Sahani M, Sharma S. 2005. Camel milk as an adjunct to insulin therapy improves long-term glycemic control and reduction in doses of insulin in patients with type-1 diabetes: a 1 year randomized controlled trial. Diabetes research and clinical practice 68(2), 176-177.
Agrawal R, Budania S, Sharma P, Gupta R, Kochar D, Panwar R, Sahani M. 2007. Zero prevalence of diabetes in camel milk consuming Raica community of north-west Rajasthan, India. Diabetes research and clinical practice 76(2), 290-296.
Agrawal RP, Swami SC, Beniwal R, Kochar DK, Sahani MS, Tuteja FC, Ghorui SK. 2003. Effect of camel milk on glycemic control, lipid profile and diabetes quality of life in type 1 diabetes: a randomised prospective controlled cross over study. Indian Journal of Animal Sciences 73(10), 1105-1110.
Alhaj O, Kanekanian A, Peters A. 2006. The effect of Bifidbacterium lactic and trypsin on cholesterol. Paper presented at the International Food and Health Innovation Conference, Malmö, Skane Food Innovation Network, Sweden.
Al-Humaid A, Mousa H, El-Mergawi R, Abdel-Salam A. 2010. Chemical composition and antioxidant activity of dates and dates-camel-milk mixtures as a protective meal against lipid peroxidation in rats. American Journal of Food Technology 5(1), 22-30.
Al-Salihi K. 2016. Observations on dromedary (Arabian camel) and its diseases. MRVSA 5(1), 1-10.
Attia H, Kherouatou N, Dhouib A. 2001. Dromedary milk lactic acid fermentation: microbiological and rheological characteristics. Journal of industrial Microbiology and biotechnology 26(5), 263-270.
Bayoumi S. 1990. Studies on composition and rennet coagulation of camel milk. Kieler Milchwirtschaftliche Forschungsberichte 42(1), 3-8.
Benkerroum N, Dehhaoui M, El Fayq A, Tlaiha R. 2011. The effect of concentration of chymosin on the yield and sensory properties of camel cheese and on its microbiological quality. International journal of dairy technology 64(2), 232-239.
Cardoso RR, Santos RMDB, Cardoso CRA, Carvalho MO. 2010. Consumption of camel’s milk by patients intolerant to lactose. A preliminary study. Revista Alergia de Mexico 57(1).
Choi SK, Park KD, Kim D, Lee DW, Kim YJ. 2014. Preparation of camel milk liposome and its anti-aging effects. Journal of the Society of Cosmetic Scientists of Korea 40(2), 155-162.
Derar AMA, El Zubeir IE. 2016. Effect of fortifying camel milk with sheep milk on the processing properties, chemical composition and acceptability of cheeses. Journal of Food Science and Engineering 6, 215-226.
Dokata MD. 2014. Factors influencing camel milk production in central division of Isiolo District: A case of three camel milk women selfhelp groups in Isiolo County, Kenya (Doctoral dissertation, University of Nairobi).
Dubey US, Lal M, Mittal A, Kapur S. 2016. Therapeutic potential of camel milk. Emirates Journal of Food and Agriculture 164-176.
Ehlayel M, Bener A, Abu Hazeima K, Al-Mesaifri F. 2011. Camel milk is a safer choice than goat milk for feeding children with cow milk allergy. International Scholarly Research Notices, 2011.
Ehlayel MS, Hazeima KA, Al-Mesaifri F, Bener A. 2011. Camel milk: an alternative for cow’s milk allergy in children. In Allergy and asthma proceedings 32(3), p 255). OceanSide Publications.
El Zubeir IE, Jabreel SO. 2008. Fresh cheese from camel milk coagulated with Camifloc. International Journal of Dairy Technology 61(1), 90-95.
El-Agamy E. 2000. Specific immunoglobulins to human rota virus in camel colostrum and milk. Paper presented at the Proc. 2nd Intl. Camelid Conf. Agro-economics of Camelid Farming. Almaty, September (p 98).
El-Agamy EI, Nawar M, Shamsia SM, Awad S, Haenlein GF. 2009. Are camel milk proteins convenient to the nutrition of cow milk allergic children? Small Ruminant Research 82(1), 1-6.
El-Agamy EI. 2009. Bioactive components in camel milk. Bioactive components in milk and dairy products 107, 159-192.
El-Agamy Elsayed I, Nawar M, Sherif MS, Awad S, Haenlein GFW. 2009. Are camel milk proteins convenient to the nutrition of cow milk allergic children? Small Ruminant Research 82(1), 1–6.
El-Hatmi H, Levieux A, Levieux D. 2006. Camel (Camelus dromedarius) immunoglobulin G, α-lactalbumin, serum albumin and lactoferrin in colostrum and milk during the early post partum period. Journal of Dairy Research 73(3), 288-293.
El-Salam MA, El-Shibiny S. 2013. Bioactive peptides of buffalo, camel, goat, sheep, mare, and yak milks and milk products. Food Reviews International 29(1), 1-23.
Farag MA, El Hawary EA, Elmassry MM. 2019. Rediscovering acidophilus milk, its quality characteristics, manufacturing methods, flavor chemistry and nutritional value. Critical Reviews in Food Science and Nutrition 1-18.
Farah Z. 1993. Composition and characteristics of camel milk. Journal of Dairy Research 60(4), 603-626.
Fitzgerald RJ, Murray BA. 2006. Bioactive peptides and lactic fermentations. International Journal of Dairy Technology 59(2), 118-125.
Gader AGMA, Alhaider AA. 2016. The unique medicinal properties of camel products: A review of the scientific evidence. Journal of taibah university medical sciences 11(2), 98-103.
Gizachew A, Teha J, Birhanu T, Nekemte E. 2014. Review on medicinal and nutritional values of
camel milk. Nature and Science 12(12), 35-41.
Gnan S, Mohammed M, Igwegbe A, Shareha A. 1991. A comparative study on the fermentability of camel and cow milk by lactic acid culture. Paper presented at the International Conference on Camel Production and Improvement, Tobruk (Libyan Arab Jamahiriya), 10-13 Dec 1990.
Gobbetti M, De Angelis M, Di Cagno R, Mancini L, Fox PF. 2015. Pros and cons for using non-starter lactic acid bacteria (NSLAB) as secondary/adjunct starters for cheese ripening. Trends in Food Science & Technology 45(2), 167-178.
Gobbetti M, Minervini F, Rizzello CG. 2004. Angiotensin I‐converting‐enzyme‐inhibitory and antimicrobial bioactive peptides. International Journal of Dairy Technology 57(2‐3), 173-188.
Habib HM, Ibrahim WH, Schneider-Stock R, Hassan HM. 2013. Camel milk lactoferrin reduces the proliferation of colorectal cancer cells and exerts antioxidant and DNA damage inhibitory activities. Food Chemistry 141(1), 148-152.
Hernandez D, Cardell E, Zarate V. 2005. Antimicrobial activity of lactic acid bacteria isolated from Tenerife cheese: initial characterization of plantaricin TF711, a bacteriocin‐like substance produced by Lactobacillus plantarum TF711. Journal of applied microbiology 99(1), 77-84.
Hjort AO, Hussein MA. 1993. Camel herd dynamics in southern Somalia: long-term development and milk production implications. EPOS, Environmental Policy and Society. pp. 31-41.
Inayat S, Arain MA, Khaskheli M, Malik AH. 2003. Study of the effect of processing on the chemical quality of soft unripened cheese made from camel milk. Pakistan Journal of nutrition 2(2), 102-105.
Kanwar JR, Roy K, Patel Y, Zhou SF, Singh MR, Singh D, Singh RS. 2015. Multifunctional iron bound lactoferrin and nanomedicinal approaches to enhance its bioactive functions. Molecules 20(6), 9703-9731.
Kappeler S. 1998. Compositional and structural analysis of camel milk proteins with emphasis on protective proteins (Doctoral dissertation, ETH Zurich).
Khaskheli M, Arain MA, Chaudhry S, Soomro AH, Qureshi TA. 2005. Physico-chemical quality of camel milk. Journal of Agriculture and Social Sciences 2, 164-166.
Konuspayeva G, Faye B, Loiseau G. 2009. The composition of camel milk: a meta-analysis of the literature data. Journal of food composition and analysis 22(2), 95-101.
Korashy HM, Maayah ZH, Abd-Allah AR, El-Kadi AO, Alhaider AA. 2012. Camel milk triggers apoptotic signaling pathways in human hepatoma HepG2 and breast cancer MCF7 cell lines through transcriptional mechanism. BioMed Research International 2012.
Korhonen H, Pihlanto A. 2006. Bioactive peptides: production and functionality. International dairy journal 16(9), 945-960.
Kula JT, Tegegne D. 2016. Chemical composition and medicinal values of camel milk. Int J Res Stud Biosci 4(4), 13-25.
Laleye L, Jobe B, Wasesa A. 2008. Comparative study on heat stability and functionality of camel and bovine milk whey proteins. Journal of Dairy Science 91(12), 4527-4534.
Leroy F, De Vuyst L. 2004. Lactic acid bacteria as functional starter cultures for the food fermentation industry. Trends in Food Science & Technology 15(2), 67-78.
Levy A, Steiner L, Yagil R. 2013. Camel milk: disease control and dietary laws. Journal of Health Science 1(1), 48-53.
Lorenzen PC, Meisel H. 2005. Influence of trypsin action in yoghurt milk on the release of caseinophosphopeptide‐rich fractions and physical properties of the fermented products. International Journal of Dairy Technology 58(2), 119-124.
Magdi OA, Ibrahim RAE, Hamid DA. 2010. Biochemical changes occurring during fermentation of camel milk by selected bacterial starter cultures. African Journal of Biotechnology 9(43), 7331-7336.
Mal G, Sena DS, Jain V, Sahani M. 2006. Therapeutic value of camel milk as a nutritional supplement for multiple drug resistant (MDR) tuberculosis patients. Israel Journal of Veterinary Medicine 61(3/4), 88.
Mehaia M. 1993. Composition, yield and organoleptic evaluation of fresh Domiati cheese made from a mixture of camel and cow milk. Australian Journal of Dairy Technology (Australia).
Mehaia MA, Al Kahnal MA. 1989. Studies on camel and goat milk proteins: nitrogen distribution and amino acid composition. Nutrition reports international.
Mehaia MA. 1993. Fresh soft white cheese (Domiati-Type) from camel milk: composition, yield, and sensory evaluation. Journal of Dairy Science 76(10), 2845-2855.
Merin U, Bernstein S, Creveld CV, Yagil R, Gollop N. 2001. ORIGINAL PAPERS-Camel (Camelus dromedarius) colostrum and milk composition during the lactation. Milchwissenschaft 56(2), 70-73.
Mills S, Ross R, Hill C, Fitzgerald G, Stanton C. 2011. Milk intelligence: Mining milk for bioactive substances associated with human health.
International dairy journal 21(6), 377-401.
Mona EY, Ragia OM, Abeer AKH, Mosa TE. 2010. Biochemical effects of fermented camel milk on diarrhea in rats. New York Science Journal 3(5), 106-111.
Mullaicharam AR. 2014. A review on medicinal properties of camel milk. World Journal Pharmaceutical Science 2(3), 237-42.
Muyldermans S, Cambillau C, Wyns L. 2001. Recognition of antigens by single-domain antibody fragments: the superfluous luxury of paired domains. Trends in biochemical sciences 26(4), 230-235.
OA AH, Ha AK. 2010. Compositional, technological and nutritional aspects of dromedary camel milk-Review. International Dairy Journal 20(12), 811-821.
Panwar R, Grover CR, Kumar V, Ranga S, Kumar N. 2015. Camel milk: Natural medicine-Boon to dairy industry. Karnal: ICAR National Dairy Research Institute 10.
Puzyrevskaya O, Saubenova M, Baizhomartova M, Baimenov E. 2000. Microbiological and biochemical characterization of Shubat. Paper presented at the 2nd International Camelid Conference: Agroeconomics of Camelid Farming, Almaty, Kazakhstan.
Ramet JP. 2001. The technology of making cheese from camel milk (Camelus dromedarius) (No. 113). Food & Agriculture Org.
Rao DR, Chawan C, Pulusani S. 1981. Influence of milk and thermophilus milk on plasma cholesterol levels and hepatic cholesterogenesis in rats. Journal of Food Science 46(5), 1339-1341.
Rasheed N, Alghasham A, Rasheed Z. 2016. Lactoferrin from camelus dromedarius inhibits nuclear transcription factor-kappa B activation, cyclooxygenase-2 expression and prostaglandin E2 production in stimulated human chondrocytes. Pharmacognosy research 8(2), 135.
Raziq A, Younas M, Kakar MA. 2008. Camel~ A potential dairy animal in difficult environments. Pakistan Journal of Agricultural Sciences 45(2), 263-267.
Redwan ERM, Tabll A. 2007. Camel lactoferrin markedly inhibits hepatitis C virus genotype 4 infection of human peripheral blood leukocytes. Journal of immunoassay & immunochemistry 28(3), 267-277.
Riechmann L, Muyldermans S. 1999. Single domain antibodies: comparison of camel VH and camelised human VH domains. Journal of immunological methods 231(1-2), 25-38.
Rubino M, Mazza GA, Rubino S, Mahdi AM, Zurlo F, Dolceamore RT, Miniero R. 2014. Camel milk: A possible alternative to infant formulas for patients with allergy to cow milk proteins. Digestive and Liver Disease 46, e116.
Salwa MQ, Lina AK. 2010. Antigenotoxic and anticytotoxic effect of camel milk in mice treated with cisplatin. Saudi journal of biological sciences 17(2), 159-166.
Sestuzheva E. 1958. Effect of stage of lactation on camel’s milk. Mol. Prom 19, 33-39.
Shabo Y, Barzel R, Margoulis M, Yagil R. 2005. Camel milk for food allergies in children. Israel Medical Association Journal 7(12), 796–8.
Shabo Y, Yagil R. 2005. Etiology of autism and camel milk as therapy. International Journal on Disability and Human Development 4(2), 67-70.
Singh R, Ghorui SK, Sahani MS. 2006. Camel milk: Properties and processing potential. Sahani, MS the Indian camel. NRCC, Bikaner 59-73.
Solieri L, Rutella GS, Tagliazucchi D. 2015. Impact of non-starter lactobacilli on release of peptides with angiotensin-converting enzyme inhibitory and antioxidant activities during bovine milk fermentation. Food microbiology 51, 108-116.
Tsuda H, Sekine K. 2000. Milk components as cancer chemopreventive agents. Asian Pac J Cancer Prev 1(4), 277-282.
Wernery R, Yagil R. 2012. Medicinal properties in camel milk for treatment of Epidemic Diseases. Paper presented at the Proceedings of the 3rd ISOCARD International Conference, 29th January-1st February.
Wernery U. 2006. Camel milk, the white gold of the desert. Journal of Camel Practice and Research 13(1), 15.
Yadav AK, Kumar R, Priyadarshini L, Singh J. 2015. Composition and medicinal properties of camel milk: A Review. Asian Journal of Dairy and Food Research 34(2), 83-91.
Yagil R. 2013. Camel milk and its unique anti-diarrheal properties. Israel Medical Association Journal 15, 35-36.
Yagil R. 1982. Camels and camel milk book. Food and Agriculture Organization of the United Nations; p 17–18. Available.
Nutritional Composition and Medicinal Properties of Camel Milk, and Cheese Processing.
Int. J. Biosci. 17(4), 83-98, October 2020.
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