[Amagase H., Petesch B.L., Matsuura H., Kasuga S., Itakura Y. (2001). Intake of garlic and its bioactive components. J. Nutr., 131: 955-962.]Search in Google Scholar
[AOAC (2005). Official Methods of Analysis of the Association of Official Analytical Chemists; AOAC International. Ed.: Cunniff. P. 17th Edition AOAC International: Arlington. VA.]Search in Google Scholar
[Chen Y.J., Kim I.H., Cho J.H., Yoo J.S., Wang Q., Wang Y., Huang Y. (2008). Evaluation of dietary l-carnitine or garlic powder on growth performance, dry matter and nitrogen digestibilities, blood profiles and meat quality in finishing pigs. Anim. Feed Sci. Technol., 141: 141-152.]Search in Google Scholar
[Crittenden R., Planyne M. (1996). Production, properties and applications of food grade oligosaccharides. Trends Food Sci. Technol., 7: 353-361.]Search in Google Scholar
[Dieumonu F.E., Teguia A., Kulatwe J.R., Tamokou J.D., Doma U.D., Abdullahi U.S., Chiroma A.E. (2012). Effect of diets fortified with garlic organic extract and streptomycin sulphate on growth performance and carcass characteristics of broilers. Inter. J. Livest. Prod., 3 (4): 36-42.]Search in Google Scholar
[Durakİ., Kavutcu M., Aytaç B., Avcı A., Devrim E., Özbek H., Öztürk H.S. (2004).]Search in Google Scholar
[Effects of garlic extract consumption on blood lipid and oxidant/antioxidant parameters in humans with high blood cholesterol. J. Nutr. Bioch., 15: 373-377.10.1016/j.jnutbio.2004.01.00515157944]Search in Google Scholar
[Folch J., Less M., Stanley G.H.S. (1957). Asimple method for the isolation and purification of total lipids from animal tissues. J. Biol. Chem., 226: 497-509.]Search in Google Scholar
[Friedewald W.T., Levy R.I., Fredickson D.S. (1972). Estimation of the concentration of low-density lipoprotein cholesterol in plasma, without use of the preparative ultracentrifuge. Clin. Chem., 18: 499-502.]Search in Google Scholar
[Friendship R.M., Henry S.C. (1996). Cardiovascular system, haematology and clinical chemistry. In: Leman A.D., Straw B.E., Mengeling W.L., D’Alliaire S., Taylor D.J. (Eds), Diseases of swine. Iowa State Univ. Press, USA, pp. 3-11.]Search in Google Scholar
[Grela E.R., Klebaniuk R. (2007). Chemical composition of garlic preparation and its utilization in piglet diets. Med. Weter., 63 (7): 792-795.]Search in Google Scholar
[Grela E.R., Czech A., Kowalczuk- Vasilev E. (2011). Growth promoters and other fodder additives. In: Grela E.R. (Ed.), Chemistry and biotechnology in animal production (in Polish). PWRiL, Warszawa, pp. 103-130.]Search in Google Scholar
[Grela E.R., Pastuszak J., Bloch U. (2009). Handbook of modern pig feeding. Recommendation for practice (in Polish). SRRi L Progress, Lublin.]Search in Google Scholar
[Holden P.J., Mc Kean J. (2000). Botanicals for pigs - Garlic II (ASL-R648). 2000 ISU Swine Research Report. Iowa State University, Ames, IA.]Search in Google Scholar
[Isaacsohn J.L., Moser M., Stein E.A., Davey J.A., Dudley K., Liskov E., Black H.R. (1998). Garlic powder and plasma lipids and lipoproteins: amulticenter, randomized, placebo-controlled trial. Arch. Intern. Med., 158: 1189-1194.]Search in Google Scholar
[Kamanna V.S., Chandrasekhara N. (1980). Fatty acid composition of garlic (Allium sativum Linnaeus) lipids. J. Am. Oil Chem. Soc., 57: 175-176.]Search in Google Scholar
[Kandil O.M., Abdellah T.H., Elkadi A. (1987). Garlic and the immune system in humans: its effects on natural killer cells. Fed. Proc., 46: 441.]Search in Google Scholar
[Kirchgessner M., Roth F.X. (1983). Schätzgleichungen zur Ermittlung des energetischen Futterwertes von Mischfuttermitteln für Schweine. J. Anim. Physiol. Anim. Nutr., 50: 270-275.]Search in Google Scholar
[Kjos N.P., Øverland M., Fauske A.K., Sørum H. (2009). Feeding chicory inulin for entire male pigs during the last period until slaughter. Proc. 11th International Symposium on Digestive Physiology of Pigs. Montbriódel Camp, Spain.]Search in Google Scholar
[Kjos N.P., Øverland M., Fauske A.K., Sørum H. (2010). Feeding chicory inulin to entire male pigs during the last period before slaughter reduces skatole in digesta and backfat. Livest. Sci., 134: 143-145.]Search in Google Scholar
[Konjufca V.H., Pesti G.M., Bakalli R.I. (1997). Modulation of cholesterol levels in broiler meat by dietary garlic and copper. Poultry Sci., 76: 1264-1271.]Search in Google Scholar
[Kuleta Z., Polakowska - Nowak G., Wosek J., Nieradka R. (1993). Values of hematologic and biochemical indexes in animals inastate of health and illness (in Polish). ART, Olsztyn.]Search in Google Scholar
[Loh G., Eberhard M., Brunner R.M., Hennig U., Kuhla S., Kleessen B., Metges C.C. (2006). Inulin alters the intestinal microbiota and short-chain fatty acid concentrations in growing pigs regardless of their basal diet. J. Nutr., 136: 1198-1202.]Search in Google Scholar
[Omojola A.B., Fagbuaro S.S., Ayeni A.A. (2009). Cholesterol content, physical and sensory properties of pork from pigs fed varying levels of dietary garlic (Allium sativum). World Appl. Sci. J., 6 (7): 971-975.]Search in Google Scholar
[Paschma J., Wawrzy ński M. (2007). Effect of using herbs in pig diets on growth parameters, carcass traits and dietetic value of pork. Pol. J. Nat. Sci., 4: 71-76.]Search in Google Scholar
[Pedersen A., Sandström B., van Amelsvoort J.M. (1997). The effect of ingestion of inulin on blood lipids and gastrointestinal symptoms in healthy females. Br. J. Nutr., 78: 215-222.]Search in Google Scholar
[Qureshi A.A., Crenshaw T.D., Abuirmeileh N., Peterson D.M., Elson C.E. (1987). Influence of minor plant constituents on porcine hepatic lipid metabolism: impact on serum lipids. Atherosclerosis, 64: 109-115.]Search in Google Scholar
[Rhee K.S., Dutson T.R., Smith G.C. (1982). Effect of changes in intermuscular and subcutaneous fat levels on cholesterol content of raw and cooked beef steaks. J. Food Sci., 47: 1638-1642.]Search in Google Scholar
[Różycki M., Tyra M. (2010). Methodology for assessing fattening and slaughter value in the Slaughter Quality Control Station (SKURTCh). Condition of breeding and results of pig evaluation (in Polish). Wyd. IZ PIB, Kraków, pp. 94-105.]Search in Google Scholar
[Tatara M., Śliwa E., Dudek K., Mosiewicz J., Studzi ński T. (2005). Effect of aged garlic extract and allicin administration to sows during pregnancy and lactation on body weight gain and gastrointestinal tract development of piglets. Part I. Bull. Vet. Inst. Pulawy, 49: 349-355.]Search in Google Scholar
[Windisch W.M., Schedle K., Plitzner C., Kroismayr A. (2008). Use of phytogenic products as feed additives for swine and poultry. J. Anim. Sci., 86: 140-148.]Search in Google Scholar
[Winnicka A. (2004). Reference values of basic laboratory analysis in veterinary medicine (in Polish).]Search in Google Scholar
[SGGW, Warszawa, pp. 17-20, 29, 48.]Search in Google Scholar
[Yan L., Meng Q.W., Ao X., Zhou T.X., Yoo J.S., Kim H.J., Kim I.H. (2011). Effects of fermented garlic powder supplementation on growth performance, blood characteristics and meat quality in finishing pigs fed low-nutrient-density diets. Livest. Sci., 137: 255-259.]Search in Google Scholar
[Yan X., Wang Z., Barlow P. (1992). Quantitative estimation of garlic oil content in garlic oil based health products. Food Chem., 45: 135-139.]Search in Google Scholar
[Yasuda K., Roneker K.R., Miller D.D., Welch R.M., Lei X.G. (2006). Supplemental dietary inulin affects the bioavailability of iron in corn and soybean meal to young pigs. J. Nutr., 136: 3033-3038.]Search in Google Scholar
[Yeh Y.Y., Yeh S.M. (1994). Garlic reduces plasma lipids by inhibiting hepatic cholesterol and triacylglycerol synthesis. Lipids, 29: 189-193.]Search in Google Scholar
[Yeh Y.Y., Liu L. (2001). Cholesterol-lowering effects of garlic extracts and organosulfur compounds: human and animal studies. J. Nutr., 131: 989-993. ]Search in Google Scholar