Trace elements and their distribution in protein fractions of camel milk in comparison to other commonly consumed milks

FARIDA M. AL-AWADI; T. S. SRIKUMAR

doi:10.1017/S0022029901005003

Abstract

Studies on camels' milk, whether with respect to concentration or bioavailability of trace elements from this milk, are limited and warrant further investigation. The object of this study was to analyse the concentration and distribution of zinc, copper, selenium, manganese and iron in camel milk compared to those in human milk, cows' milk and infant formula under similar experimental conditions. Camels' milk and cows' milk were collected from local farms, human milk samples were obtained from healthy donors in Kuwait and infant formula was purchased locally. Milk fractionation was performed by ultra-centrifugation and gel-column chromatography. The concentration of trace elements was analysed by atomic absorption spectrometry and that of protein was determined spectrophotometrically. The concentration of manganese and iron in camels' milk was remarkably higher (7–20-fold and 4–10-fold, respectively) than in human milk, cows' milk and infant formula. The zinc content of camels' milk was higher than that of human milk but slightly lower than in cows' milk and infant formula. The concentration of copper in camels' milk was similar to that of cows' milk but lower than in human milk and infant formula. The selenium content of camels' milk was comparable to those of other types of milk. Approximately 50–80% of zinc, copper and manganese in camels' milk were associated with the casein fraction, similar to that of cows' milk. The majority of selenium and iron in camels' milk was in association with the low molecular weight fraction. It is recommended that camels' milk be considered as a potential source of manganese, selenium and iron, perhaps not only for infants, but also for other groups suspected of mild deficiency of these elements. Further investigations are required to confirm this proposal.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Noimark, Lee and Cox, Helen E. 2008. Nutritional problems related to food allergy in childhood. Pediatric Allergy and Immunology, Vol. 19, Issue. 2, p. 188.

Diacono, Emilie Faye, Bernard Meldebekova, Aliya and Konuspayeva, Gaukhar 2008. Impact of Pollution on Animal Products. p. 107.

Haddadin, Malik SY Gammoh, Sana I and Robinson, Richard K 2008. Seasonal variations in the chemical composition of camel milk in Jordan. Journal of Dairy Research, Vol. 75, Issue. 1, p. 8.

Faye, Bernard and Seboussi, Rabiha 2009. Selenium in Camel – A Review. Nutrients, Vol. 1, Issue. 1, p. 30.

Seboussi, Rabiha Faye, Bernard Askar, Mustafa Hassan, Khalil and Alhadrami, Ghaleb 2009. Effect of Selenium Supplementation on Blood Status and Milk, Urine, and Fecal Excretion in Pregnant and Lactating Camel. Biological Trace Element Research, Vol. 128, Issue. 1, p. 45.

Güler, >Zehra and Şanal, Hasan 2009. The essential mineral concentration of Torba yoghurts and their wheys compared with yoghurt made with cows’, ewes’ and goats’ milks. International Journal of Food Sciences and Nutrition, Vol. 60, Issue. 2, p. 153.

Fiocchi, Alessandro Brozek, Jan Schünemann, Holger Bahna, Sami L von Berg, Andrea Beyer, Kirsten Bozzola, Martin Bradsher, Julia Compalati, Enrico Ebisawa, Motohiro Guzman, Maria Antonieta Li, Haiqi Heine, Ralf G Keith, Paul Lack, Gideon Landi, Massimo Martelli, Alberto Rancé, Fabienne Sampson, Hugh Stein, Airton Terracciano, Luigi and Vieths, Stefan 2010. World Allergy Organization (WAO) Diagnosis and Rationale for Action against Cow's Milk Allergy (DRACMA) Guidelines. World Allergy Organization Journal, Vol. 3, Issue. 4, p. 57.

Salwa, M. Quita and Lina, A.F. Kurdi 2010. Antigenotoxic and anticytotoxic effect of camel milk in mice treated with cisplatin. Saudi Journal of Biological Sciences, Vol. 17, Issue. 2, p. 159.

Lesniewicz, Anna Wroz, Agnieszka Wojcik, Agnieszka and Zyrnicki, Wieslaw 2010. Mineral and nutritional analysis of Polish infant formulas. Journal of Food Composition and Analysis, Vol. 23, Issue. 5, p. 424.

Aquilanti, Lucia Kahraman, Ozge Zannini, Emanuele Osimani, Andrea Silvestri, Gloria Ciarrocchi, Floriana Garofalo, Cristiana Tekin, Ebru and Clementi, Francesca 2012. Response of lactic acid bacteria to milk fortification with dietary zinc salts. International Dairy Journal, Vol. 25, Issue. 1, p. 52.

Darwish, Hebatallah A. Abd Raboh, Naglaa R. and Mahdy, Amina 2012. Camel’s milk alleviates alcohol-induced liver injury in rats. Food and Chemical Toxicology, Vol. 50, Issue. 5, p. 1377.

Korish, Aida A and Arafah, Maha M 2013. Camel milk ameliorates steatohepatitis, insulin resistance and lipid peroxidation in experimental non-alcoholic fatty liver disease. BMC Complementary and Alternative Medicine, Vol. 13, Issue. 1,

Bağdat, Sema Köse Baran, Eda and Tokay, Feyzullah 2014. Element fractionation analysis for infant formula and food additives by inductively coupled plasma optical emission spectrometry. International Journal of Food Science & Technology, Vol. 49, Issue. 2, p. 392.

Faye, B. Saleh, S.K. Konuspayeva, G. Musaad, A. Bengoumi, M. and Seboussi, R. 2014. Comparative effect of organic and inorganic selenium supplementation on selenium status in camel. Journal of King Saud University - Science, Vol. 26, Issue. 2, p. 149.

Korish, Aida A Abdel Gader, Abdel Galil M and Alhaider, Abdulqader A 2015. Camel milk ameliorates the coagulopathy in streptozotocin diabetic rat model. International Journal of Dairy Technology, Vol. 68, Issue. 1, p. 79.

Nayak, Sumitha 2015. Understanding Cow`s Milk Protein Allergy. Pediatric Oncall, Vol. 12, Issue. 3,

Meena, Sunita Rajput, Yudhishthir S Pandey, Amit K Sharma, Rajan and Singh, Raghvendar 2016. Camel milk ameliorates hyperglycaemia and oxidative damage in type-1 diabetic experimental rats. Journal of Dairy Research, Vol. 83, Issue. 3, p. 412.

Ahamad, Syed Rizwan Raish, Mohammad Ahmad, Ajaz and Shakeel, Faiyaz 2017. Potential Health Benefits and Metabolomics of Camel Milk by GC-MS and ICP-MS. Biological Trace Element Research, Vol. 175, Issue. 2, p. 322.

Zhou, Xuewei Qu, Xueyin Zhao, Shengguo Wang, Jiaqi Li, Songli and Zheng, Nan 2017. Analysis of 22 Elements in Milk, Feed, and Water of Dairy Cow, Goat, and Buffalo from Different Regions of China. Biological Trace Element Research, Vol. 176, Issue. 1, p. 120.

Gulati, Arunima Galvin, Norann Lewis, Eva Hennessy, Deirdre O'Donovan, Michael McManus, Jennifer J. Fenelon, Mark A. and Guinee, Timothy P. 2018. Outdoor grazing of dairy cows on pasture versus indoor feeding on total mixed ration: Effects on gross composition and mineral content of milk during lactation. Journal of Dairy Science, Vol. 101, Issue. 3, p. 2710.

Download full list

Article contents

Trace elements and their distribution in protein fractions of camel milk in comparison to other commonly consumed milks

Abstract

Keywords

Access options

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Article contents

Trace elements and their distribution in protein fractions of camel milk in comparison to other commonly consumed milks

Abstract

Keywords

Access options

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests