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Articles by M.U. Iloeje
Total Records ( 3 ) for M.U. Iloeje
  I.P. Ogbuewu , A.A. Omede , O.K. Chukwuka , O.O.M. Iheshiulor , M.C. Uchegbu , A.C. Udebuani , B.C. Ekenyem , I.C. Okoli and M.U. Iloeje
  Phytoestrogens are naturally occurring phytochemicals found in plants and plant products, which are structurally and functionally similar to human or animal estrogens (17β-oestradiol) or synthetic estrogens such as diethylstilboestrol. The principal phytoestrogens are the isoflavones, which are similar to 17β-oestradiol and then the lignans derived from precursors in the diet by the gut microflora. Isoflavones are members of the flavonoid family, which are in turn members of the larger group of plant constituents known as polyphenols. The principle isoflavones in soy are genistein, daidzein and their metabolites. Since, soy isoflavone are naturally occurring non-steroidal compounds, which are structurally similar to endogenous gonadal steroid 17β-estradiol, they possess the ability to cause estrogenic or/ and antiestrogenic effects and therefore could trigger estrogen dependent physiological responses. As result of these actions, there is currently much interest within the scientific community regarding clinical benefits of soy based isoflavone.
  I.P. Ogbuewu , U.E. Ogundu , M.N. Opara , I.C. Okoli , D.O. Umesiobi , U. Herbert and M.U. Iloeje
  The application of technologies in the field of male reproductive physiology has advanced greatly during past couple of decades. Since, the advent of frozen semen and artificial insemination, reproductive physiologists have attempted to manipulate male reproductive rates of mammals, sometimes successfully or sometimes not. The past five decades has resulted in phenomenal expansion in the improvement spermatozoa with direct application to livestock and medicine. Spermatogenesis had been reported to be induced in male animals using synthetic fertility drugs and local plant extracts. Sperm production and function have been improved via the use of nutritional regiments, semen extender and semen pool admixture. Currently, the sex of animal has been predetermined with 85-95% accuracy by sexing spermatozoa. The current success recorded in male assisted reproductive techniques came about due to advances in computer science, biophysics, cell biology and genetic engineering. This review will briefly cover the developments and modifications of existing sperm manipulation techniques that have direct practical applications today and in the near future in animal agriculture and bio-medicine.
  I.P. Ogbuewu , V.U. Odoemenam , H.O. Obikaonu , M.N. Opara , O.O. Emenalom , M.C. Uchegbu , I.C. Okoli , B.O. Esonu and M.U. Iloeje
  There has been astronomical increase in the costs of chemical fertilizers, agrochemicals, animal feeds and synthetic drugs in the developing countries, with an increasing indebtedness and acute poverty. This situation exerts enormous pressure to explore local resources, handy to combat these deficits and improve quality of life of the people. One of such available resources with great potentials in the 21st century is the neem (Azadirachta indica A. Juss) tree. Neem belongs to the family Meliaceae. It is the most versatile, multifarious trees of tropics, with immense potentials. It possesses maximum useful non-wood products such as leaves, bark, flowers, fruits, seeds, gum, oil and neem cake than any other tree species. Biologically neem has numerous bioactive ingredients with diverse applications. These bioactive ingredients are known to have antiallergenic, antidermatic, antifeedent, antiviral, antifungal, anti-inflammatory, antipyorrhoeic, antiscabic, insecticidal, larvicidal, anti-implantation, nematicidal, spermatocidal and other biological activities. This review is an attempt to assemble all the major research findings in neem which is of direct relevance to environment, industry, medicine and agriculture.
 
 
 
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