FeedChannel feedchannel@feedchannel.online https://www.feedchannel.online en-us Visualplatform http://blogs.law.harvard.edu/tech/rss FeedChannel episodic no https://www.feedchannel.online/files/rv1.7/sitelogo.gif https://www.feedchannel.online http://www.feedchannel.online/importance-of-dietary-methionine <p><p><b></b></p><p><b>Webinar held on October 14th, 2021.</b></p><p><b><u>For the session's questions and answers, click&nbsp;</u></b><a href="https://www.adisseo.com/wp-content/uploads/2021/11/dcrc-qa-110221-inhouse.pdf"><b>here</b></a>.<br><b><br></b></p><p><b>Speakers:</b>&nbsp;&nbsp;Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England and Dr. Phil Cardoso,&nbsp; associate professor at the University of Illinois at Urbana-Champaign.</p><p><br></p><p>Both methionine (Met) and selenium (Se) are essential to dairy cow performance.&nbsp; Dr. Phil Cardoso, Associate Professor of Animal Science, University of Illinois, USA, says methionine, an essential nutrient, is heavily involved in the metabolic pathways of dairy cows. Methionine, however, cannot be synthesized in the required quantity. Research that extends to the 1970s shows that regularly meeting dairy cows’ methionine needs supports not only production – milk, milk protein and milkfat – but also animal health and reproduction. This includes metabolic diseases, timely breed backs and full-term pregnancies. For these reasons, methionine supplementation is becoming as common as daily vitamin and mineral supplementation.<br></p><p>Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England, reports that selenium is an essential trace element with key functions in antioxidant defense and immunity and inflammatory response modulation of the body. Feeding selenium in the form of SeMet, over inorganic sources or other organic selenium, is preferred because SeMet is metabolized as a constituent of the methionine pool. This leads to a storage depot of selenium being created in body tissues. Increased muscle and tissue reserves of selenium can enhance the resistance of livestock to stress and diseases, and represent a key strategy to help fight stress.<br></p><p>Dr. Phil Cardoso is an associate professor at the University of Illinois at Urbana-Champaign.&nbsp; He received his D.V.M. and M.S. degrees from the Universidade Federal Do Rio Grande do Sul in Brazil and his Ph.D. from the University of Illinois. Since 2012, Phil has established a unique program that seamlessly blends his teaching, extension, and research efforts. The impact of Phil’s Dairy Science program is in placing students in applied positions and academia. Phil and his students have published over 75 peer-reviewed manuscripts (original research and invited reviews) and three invited book chapters to date. The program builds from questions asked by dairy producers and focuses on having the dairy cow’s diet as a medical prescription for performance, health, and reproduction. That is achieved by understanding the impact of nutrition on metabolism, reproduction, and health in dairy cows, as well as the mechanisms of metabolic adaptation to stressors and forage quality.&nbsp;&nbsp;<br></p><p>Dr. Darren T. Juniper worked within the University of Reading’s Animal Science Research Division. He gained his doctorate degree from Reading in 2003 – titled “Diet and Endocrine Responses in Beef Cattle.” He has been involved in animal production research for more than 30 years. During this time, he worked with most classes of domestic livestock (ruminant and monogastric) – covering a diverse range of research topics. Over the last 15 years, Dr. Juniper has researched trace element nutrition, primarily selenium and iodine in animal diets. His selenium-based research has focused on the effects of selenium source on aspects of animal and human health, as well as the deposition of selenium in the products and post-mortem tissues of both ruminant and monogastric livestock.<b><br></b></p><p><br></p><p><br></p><p><br></p><div><br></div></p><p><a href="http://www.feedchannel.online/importance-of-dietary-methionine"><img src="http://www.feedchannel.online/64968570/71828602/92eb00c4ce82d971c65f4a38f5577c88/standard/download-25-thumbnail.jpg" width="75" height=""/></a></p> http://www.feedchannel.online/photo/71828602 Thu, 14 Oct 2021 14:23:00 GMT Importance of Dietary Methionine and Selenomethionine on Health and Reproduction Webinar held on October 14th, 2021.For the session's questions and answers, clickhere.Speakers:Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England and Dr. Phil Cardoso, associate professor at the University of Illinois at Urbana-Champaign.Both methionine (Met) and selenium (Se) are essential to dairy cow performance. Dr. Phil Cardoso, Associate Professor of Animal Science, University of Illinois, USA, says methionine, an essential nutrient, is heavily involved in the metabolic pathways of dairy cows. Methionine, however, cannot be synthesized in the required quantity. Research that extends to the 1970s shows that regularly meeting dairy cows’ methionine needs supports not only production – milk, milk protein and milkfat – but also animal health and reproduction. This includes metabolic diseases, timely breed backs and full-term pregnancies. For these reasons, methionine supplementation is becoming as common as daily vitamin and mineral supplementation.Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England, reports that selenium is an essential trace element with key functions in antioxidant defense and immunity and inflammatory response modulation of the body. Feeding selenium in the form of SeMet, over inorganic sources or other organic selenium, is preferred because SeMet is metabolized as a constituent of the methionine pool. This leads to a storage depot of selenium being created in body tissues. Increased muscle and tissue reserves of selenium can enhance the resistance of livestock to stress and diseases, and represent a key strategy to help fight stress.Dr. Phil Cardoso is an associate professor at the University of Illinois at Urbana-Champaign. He received his D.V.M. and M.S. degrees from the Universidade Federal Do Rio Grande do Sul in Brazil and his Ph.D. from the University of Illinois. Since 2012, Phil has established a unique program that seamlessly blends his teaching, extension, and research efforts. The impact of Phil’s Dairy Science program is in placing students in applied positions and academia. Phil and his students have published over 75 peer-reviewed manuscripts (original research and invited reviews) and three invited book chapters to date. The program builds from questions asked by dairy producers and focuses on having the dairy cow’s diet as a medical prescription for performance, health, and reproduction. That is achieved by understanding the impact of nutrition on metabolism, reproduction, and health in dairy cows, as well as the mechanisms of metabolic adaptation to stressors and forage quality.Dr. Darren T. Juniper worked within the University of Reading’s Animal Science Research Division. He gained his doctorate degree from Reading in 2003 – titled “Diet and Endocrine Responses in Beef Cattle.” He has been involved in animal production research for more than 30 years. During this time, he worked with most classes of domestic livestock (ruminant and monogastric) – covering a diverse range of research topics. Over the last 15 years, Dr. Juniper has researched trace element nutrition, primarily selenium and iodine in animal diets. His selenium-based research has focused on the effects of selenium source on aspects of animal and human health, as well as the deposition of selenium in the products and post-mortem tissues of both ruminant and monogastric livestock. Webinar held on October 14th, 2021.For the session's questions and answers, clickhere.Speakers:Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England and Dr. Phil Cardoso, associate professor... FeedChannel 01:28:25 <p><p><b></b></p><p><b>Webinar held on October 14th, 2021.</b></p><p><b><u>For the session's questions and answers, click&nbsp;</u></b><a href="https://www.adisseo.com/wp-content/uploads/2021/11/dcrc-qa-110221-inhouse.pdf"><b>here</b></a>.<br><b><br></b></p><p><b>Speakers:</b>&nbsp;&nbsp;Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England and Dr. Phil Cardoso,&nbsp; associate professor at the University of Illinois at Urbana-Champaign.</p><p><br></p><p>Both methionine (Met) and selenium (Se) are essential to dairy cow performance.&nbsp; Dr. Phil Cardoso, Associate Professor of Animal Science, University of Illinois, USA, says methionine, an essential nutrient, is heavily involved in the metabolic pathways of dairy cows. Methionine, however, cannot be synthesized in the required quantity. Research that extends to the 1970s shows that regularly meeting dairy cows’ methionine needs supports not only production – milk, milk protein and milkfat – but also animal health and reproduction. This includes metabolic diseases, timely breed backs and full-term pregnancies. For these reasons, methionine supplementation is becoming as common as daily vitamin and mineral supplementation.<br></p><p>Dr. Darren T. Juniper (retired), Former Associate Professor of Animal Science, University of Reading, England, reports that selenium is an essential trace element with key functions in antioxidant defense and immunity and inflammatory response modulation of the body. Feeding selenium in the form of SeMet, over inorganic sources or other organic selenium, is preferred because SeMet is metabolized as a constituent of the methionine pool. This leads to a storage depot of selenium being created in body tissues. Increased muscle and tissue reserves of selenium can enhance the resistance of livestock to stress and diseases, and represent a key strategy to help fight stress.<br></p><p>Dr. Phil Cardoso is an associate professor at the University of Illinois at Urbana-Champaign.&nbsp; He received his D.V.M. and M.S. degrees from the Universidade Federal Do Rio Grande do Sul in Brazil and his Ph.D. from the University of Illinois. Since 2012, Phil has established a unique program that seamlessly blends his teaching, extension, and research efforts. The impact of Phil’s Dairy Science program is in placing students in applied positions and academia. Phil and his students have published over 75 peer-reviewed manuscripts (original research and invited reviews) and three invited book chapters to date. The program builds from questions asked by dairy producers and focuses on having the dairy cow’s diet as a medical prescription for performance, health, and reproduction. That is achieved by understanding the impact of nutrition on metabolism, reproduction, and health in dairy cows, as well as the mechanisms of metabolic adaptation to stressors and forage quality.&nbsp;&nbsp;<br></p><p>Dr. Darren T. Juniper worked within the University of Reading’s Animal Science Research Division. He gained his doctorate degree from Reading in 2003 – titled “Diet and Endocrine Responses in Beef Cattle.” He has been involved in animal production research for more than 30 years. During this time, he worked with most classes of domestic livestock (ruminant and monogastric) – covering a diverse range of research topics. Over the last 15 years, Dr. Juniper has researched trace element nutrition, primarily selenium and iodine in animal diets. His selenium-based research has focused on the effects of selenium source on aspects of animal and human health, as well as the deposition of selenium in the products and post-mortem tissues of both ruminant and monogastric livestock.<b><br></b></p><p><br></p><p><br></p><p><br></p><div><br></div></p><p><a href="http://www.feedchannel.online/importance-of-dietary-methionine"><img src="http://www.feedchannel.online/64968570/71828602/92eb00c4ce82d971c65f4a38f5577c88/standard/download-25-thumbnail.jpg" width="75" height=""/></a></p> AI conception rate amino acids apolipoproteins Calf Se status crude protein dam Se status Deodinases dietary recommendations for dairy cows DRC dysfunctional inflammatory response embryonic loss Glutathione Peroxidases health disorders high milk yield immune and inflammatory response immune function immunosuppression incorporation into body proteins inorganic intergenerational effect lactating dairy cows limiting amino acids Limiting nutrients lipid accumulation of preimplantation embryos liver functionality index LFI lymphocytic foci maternal nutrition metabolizable protein MetaSmart milk urea nitrogen mRNA MUN negative energy balance negative protein balance neutrophil extracellular traps NET nutrition strategies organic oxidative stress peripartal period placenta polymorphonuclear pregnancy preimplantation embryo production prostaglandin reproduction rumen protected methionine selenoprotein P Selenoproteins Selisseo Smartamine M successful reproduction systemic inflammation Thioredoxin Reductases transition cows transition period uterine cytology uterine inflammation and fibrosis webinar http://www.feedchannel.online/organic-selenium-health-and <p><b>Speakers: </b>Dr N. L. Whitehouse, Michele De Marco and Dr M.Z. Toledo,<br><br><br><h2>Selisseo®&nbsp;Organic Selenium&nbsp;</h2><ul><li>Bio-efficacy of hydroxy-selenomethionine in dairy cows -- N. L. Whitehouse,&nbsp; University of New Hampshire, Durham, NH, USA</li><li>Is dietary selenite transformed into elemental selenium by rumen micro-organisms? Mineral and organic selenium form comparisons in cows -- Michele De Marco,Adisseo France SAS, 03600 Commentry - France</li></ul><h2>&nbsp;</h2><h2>Health and Reproduction</h2><ul><li>Effect of feeding rumen-protected methionine pre- and postpartum on health, herd exit dynamics and time to pregnancy in multiparous dairy cows -- M.Z. Toledo, University of Wisconsin-Madison, Madison, WI, USA</li></ul><h2>&nbsp;</h2><h2>Unike®&nbsp;Plus Mycotoxin Management</h2><ul><li>Effects of supplemental mycotoxin deactivator on lactation performance of Holstein cows fed natural mixed mycotoxin contaminated feed -- N. L. Whitehouse, University of New Hampshire, Durham, NH, USA</li></ul><br><br><div><p><b>Virtual Roundtables&nbsp;focused on Adisseo Ruminant Research #2/4</b><br>When the American Dairy Science Association (ADSA) annual meeting went virtual in 2020, Adisseo took its 18 sponsored research trials virtual too. During a series of four Virtual Roundtables, researchers summarized timely trial findings and answered important attendee questions.&nbsp;<br></p></div><br></p><p><a href="http://www.feedchannel.online/organic-selenium-health-and"><img src="http://www.feedchannel.online/64968571/66499658/24b6ab988e8266b1c2fc8a5c092822c1/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66499658 Tue, 01 Sep 2020 00:00:00 GMT Organic Selenium, Health and Reproduction and Mycotoxin Management Speakers: Dr N. L. Whitehouse, Michele De Marco and Dr M.Z. Toledo,Selisseo®Organic SeleniumBio-efficacy of hydroxy-selenomethionine in dairy cows -- N. L. Whitehouse, University of New Hampshire, Durham, NH, USAIs dietary selenite transformed into elemental selenium by rumen micro-organisms? Mineral and organic selenium form comparisons in cows -- Michele De Marco,Adisseo France SAS, 03600 Commentry - FranceHealth and ReproductionEffect of feeding rumen-protected methionine pre- and postpartum on health, herd exit dynamics and time to pregnancy in multiparous dairy cows -- M.Z. Toledo, University of Wisconsin-Madison, Madison, WI, USAUnike®Plus Mycotoxin ManagementEffects of supplemental mycotoxin deactivator on lactation performance of Holstein cows fed natural mixed mycotoxin contaminated feed -- N. L. Whitehouse, University of New Hampshire, Durham, NH, USAVirtual Roundtablesfocused on Adisseo Ruminant Research #2/4When the American Dairy Science Association (ADSA) annual meeting went virtual in 2020, Adisseo took its 18 sponsored research trials virtual too. During a series of four Virtual Roundtables, researchers summarized timely trial findings and answered important attendee questions. Speakers: Dr N. L. Whitehouse, Michele De Marco and Dr M.Z. Toledo,Selisseo®Organic SeleniumBio-efficacy of hydroxy-selenomethionine in dairy cows -- N. L. Whitehouse, University of New Hampshire, Durham, NH, USAIs dietary selenite transformed... FeedChannel 01:09:43 <p><b>Speakers: </b>Dr N. L. Whitehouse, Michele De Marco and Dr M.Z. Toledo,<br><br><br><h2>Selisseo®&nbsp;Organic Selenium&nbsp;</h2><ul><li>Bio-efficacy of hydroxy-selenomethionine in dairy cows -- N. L. Whitehouse,&nbsp; University of New Hampshire, Durham, NH, USA</li><li>Is dietary selenite transformed into elemental selenium by rumen micro-organisms? Mineral and organic selenium form comparisons in cows -- Michele De Marco,Adisseo France SAS, 03600 Commentry - France</li></ul><h2>&nbsp;</h2><h2>Health and Reproduction</h2><ul><li>Effect of feeding rumen-protected methionine pre- and postpartum on health, herd exit dynamics and time to pregnancy in multiparous dairy cows -- M.Z. Toledo, University of Wisconsin-Madison, Madison, WI, USA</li></ul><h2>&nbsp;</h2><h2>Unike®&nbsp;Plus Mycotoxin Management</h2><ul><li>Effects of supplemental mycotoxin deactivator on lactation performance of Holstein cows fed natural mixed mycotoxin contaminated feed -- N. L. Whitehouse, University of New Hampshire, Durham, NH, USA</li></ul><br><br><div><p><b>Virtual Roundtables&nbsp;focused on Adisseo Ruminant Research #2/4</b><br>When the American Dairy Science Association (ADSA) annual meeting went virtual in 2020, Adisseo took its 18 sponsored research trials virtual too. During a series of four Virtual Roundtables, researchers summarized timely trial findings and answered important attendee questions.&nbsp;<br></p></div><br></p><p><a href="http://www.feedchannel.online/organic-selenium-health-and"><img src="http://www.feedchannel.online/64968571/66499658/24b6ab988e8266b1c2fc8a5c092822c1/standard/download-8-thumbnail.jpg" width="600" height="338"/></a></p> bioavailability blood composition dietary DMI dry matter intake efficacy health disorders Holstein immune system lactation milk yields mineral monocytes mycotoxin organic peripartum plasma quantity roundtable RPM rumen rumen-protected methionine Se selenium selenomethionine SeMET sodium selenite somatic cells status supplemental supplementation transfer http://www.feedchannel.online/reproduction-roles-of-methionine <p>During this webinar Dr. Phil Cardoso, Department of Animal Science, University of Illinois is prsenting his insights on: Reproduction: Roles of Methionine and Lysine Fulfilling amino acid requirements contributes to dairy reproduction, production, and health. The essential nutrients methionine and lysine impact reproduction in several ways: Through follicle quality, uterine environment, embryo composition, pregnancy recognition, pregnancy loss, placenta signaling, and calf birthweight.<br><br><br><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p><p><a href="http://www.feedchannel.online/reproduction-roles-of-methionine"><img src="http://www.feedchannel.online/64968555/66510390/02031470f5d2875ee7d9f9a93e028c5d/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> http://www.feedchannel.online/photo/66510390 Tue, 26 May 2020 00:00:00 GMT Reproduction: Roles of Methionine and Lysine During this webinar Dr. Phil Cardoso, Department of Animal Science, University of Illinois is prsenting his insights on: Reproduction: Roles of Methionine and Lysine Fulfilling amino acid requirements contributes to dairy reproduction, production, and health. The essential nutrients methionine and lysine impact reproduction in several ways: Through follicle quality, uterine environment, embryo composition, pregnancy recognition, pregnancy loss, placenta signaling, and calf birthweight.Smart Science SeriesThrough the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability. During this webinar Dr. Phil Cardoso, Department of Animal Science, University of Illinois is prsenting his insights on: Reproduction: Roles of Methionine and Lysine Fulfilling amino acid requirements contributes to dairy reproduction,... FeedChannel 58:54 <p>During this webinar Dr. Phil Cardoso, Department of Animal Science, University of Illinois is prsenting his insights on: Reproduction: Roles of Methionine and Lysine Fulfilling amino acid requirements contributes to dairy reproduction, production, and health. The essential nutrients methionine and lysine impact reproduction in several ways: Through follicle quality, uterine environment, embryo composition, pregnancy recognition, pregnancy loss, placenta signaling, and calf birthweight.<br><br><br><b>Smart Science Series</b><br>Through the Smart Science Series of six webinars, explore the rewards of amino acid balancing and ration formulation. In the first five webinars, a university professor discusses the aspect in which he is the top industry expert. The sixth webinar is forward looking, as two university professors discuss aligning genetic potential with nutritional requirements for longevity and sustainability.<br></p><p><a href="http://www.feedchannel.online/reproduction-roles-of-methionine"><img src="http://www.feedchannel.online/64968555/66510390/02031470f5d2875ee7d9f9a93e028c5d/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> choline CP crude proteins dairy cows diet diets embryonic loss factors fatty acids follicle follicular genes health disorders immune response inflammation inflammatory lactating lactation lysine MET milk yield placenta PMN polymorphonuclear cells postpartum pregnancy production recommendations reproduction requirements RPL RPM rumen-protected methionine Smart Science Series supplementation transcriptome transition period uterine samples uterus