Ketahanan amida dalam sistem rumen dan efektivitasnya memodifikasi komposisi asam lemak pada tikus sebagai hewan model pascarumen

Wajizah, Sitti

Please use this identifier to cite or link to this item: http://repository.ipb.ac.id/handle/123456789/55389

Title:	Ketahanan amida dalam sistem rumen dan efektivitasnya memodifikasi komposisi asam lemak pada tikus sebagai hewan model pascarumen Resistance of amide in ruminal system and its effectiveness in modifying fatty acid composition in rat as post ruminal model
Authors:	Wiryawan, Komang G Manalu,Wasmen Setyaningsih,Dwi Wajizah, Sitti
Keywords:	lipid profile biohydrogenation rumen fish oil amide
Issue Date:	2012
Publisher:	IPB (Bogor Agricultural University)
Abstract:	Dietary n-3 polyunsaturated fatty acids (PUFA n-3), such as fish oil in ruminant potentially decrease cholesterol concentration in meat. Due to extensive lipolysis and hydrogenation of n-3 PUFA by rumen microorganism, n-3 PUFA was reacted with butylamine to produce fish oil amides that resist microbial breakdown in the rumen. Three in vitro trials were conducted to determine whether fish oil amides were degraded and hydrogenated by ruminal organism. The treatments consisted of ground corn hay supplemented with either no lipid, fish oil, combination of fish oil and amide, and amide alone. After 24 hours incubation, the degradation of amide was lower for 10% supplementation than for 5% supplementation (13% and 30% respectively). Fish oil amides had no effect on VFA, acetat:propionate, NH3, microbial protein, and gas production. Relative to control, fish oil amide significantly reduced the degradabilities of dry and organic matters, and protozoa population in cultures. In in vivo experiment, fish oil amide was added to rat diets as post ruminal model. This experiment was conducted to study the effectiveness of fish oil amide in decreasing plasma cholesterol and triglyceride concentrations, increasing PUFA in rat muscle and its effect on blood hematological status. Thirty five male Sprague Dawley rats of 7 weeks old were randomly divided into 5 (five) treatment groups. Control group (A) was fed with semi-purified diet containing of 8% corn oil. Treatment groups were supplemented with 4.5% fish oil (B), 3% fish oil+1.5% fish oil amide (C), 1,5% fish oil+3% fish oil amide (D), and 4.5% fish oil amide (E), respectively. The result showed that fish oil amide supplementation could maintain the number of erythrocytes and hemoglobin, while hematocrit value began to decrease with 3% amide supplementation compared to fish oil supplementation (B) and 1.5% amide supplementation (C). The number of leucocytes in group with 4.5% amide supplementation significantly increased (P<0,05) compared to the group supplementing fish oil (B). Fish oil amide supplementation had no effect on plasma cholesterol and HDL concentrations, but began markedly increased (P<0,05) plasma triglyceride, LDL concentrations, and muscle cholesterol at 3% amide supplementation. There was no enriched levels of n-3 PUFA in rat muscle with amide supplementation. It was concluded that 3% amide supplementation gave negative impact on hematological status, plasma lipid profile, mucle and adipose tissue. Pemberian pakan tinggi asam α-linolenat dan khususnya asam lemak dengan rantai yang lebih panjang, yaitu EPA dan DHA, dapat memperbaiki kandungan asam lemak tak jenuh rantai ganda atau polyunsaturated fatty acids (PUFA) n-3 dalam jaringan daging domba untuk memenuhi standar kesehatan yang optimal bagi diet manusia. Pada ruminansia, diet asam lemak mengalami biohidrogenasi yang ekstensif oleh mikroorganisme rumen sehingga penyerapan didominasi oleh asam lemak jenuh yang mengarah pada pembentukan lipoprotein berdensitas sangat rendah atau very-low-density lipoprotein (VLDL). Biohidrogenasi asam lemak dalam rumen dapat diatasi dengan melindungi asam lemak, terutama PUFA n-3 dalam bentuk amida. Penelitian ini dimulai dari tahap pembuatan amida minyak ikan, uji ketahanan dalam sistem rumen, dan efektivitasnya dalam mengubah profil lemak pada hewan model. Identifikasi gugus amida yang terbentuk dilakukan dengan spektroskopi inframerah, sedangkan GC-MS digunakan untuk mengetahui kadar senyawa amida yang terbentuk. Pengujian dalam sistem rumen secara in vitro memperlihatkan bahwa senyawa amida tetap terdeteksi dalam kultur setelah inkubasi selama 24 jam, dengan tingkat degradasi masing-masing 30% untuk pemberian 5% dan 13% untuk pemberian amida sebesar 10%. Namun kondisi ini belum mampu memperbaiki kecernaan substrat dalam kultur. Kondisi lingkungan rumen, seperti pH, produksi gas, VFA, NH3 dan protein mikrob, masih dapat dipertahankan pada kisaran normal, dan tidak berbeda dari kontrol. Namun jumlah protozoa mulai menurun, kemungkinan karena mengalami lisis akibat pemberian amida. Pada pengujian ini, amida belum mampu mengatasi gangguan fermentasi akibat pemberian lemak, terutama asam-asam lemak tak jenuh. Hal ini ditandai dengan rendahnya degradasi bahan kering dan bahan organik dibandingkan dengan kontrol yang tidak mendapat sumber lemak.
URI:	http://repository.ipb.ac.id/handle/123456789/55389
Appears in Collections:	DT - Animal Science

Files in This Item:

File	Description	Size	Format
2012swa1.pdf Restricted Access	full text	1.46 MB	Adobe PDF	View/Open
ABTSRACT.pdf Restricted Access	Abstract	279.95 kB	Adobe PDF	View/Open
BAB I PENDAHULUAN.pdf Restricted Access	BAB I	292.8 kB	Adobe PDF	View/Open
BAB II TINJAUAN PUSTAKA.pdf Restricted Access	BAB II	352.23 kB	Adobe PDF	View/Open
BAB III MATERI DAN METODE.pdf Restricted Access	BAB III	351.4 kB	Adobe PDF	View/Open
BAB IV HASIL DAN PEMBAHASAN.pdf Restricted Access	BAB IV	1.04 MB	Adobe PDF	View/Open
BAB V SIMPULAN DAN SARAN.pdf Restricted Access	BAB V	276.37 kB	Adobe PDF	View/Open
COVER.pdf Restricted Access	Cover	310.03 kB	Adobe PDF	View/Open
DAFTAR PUSTAKA.pdf Restricted Access	Daftar Pustaka	311.57 kB	Adobe PDF	View/Open
LAMPIRAN.pdf Restricted Access	Lampiran	433.46 kB	Adobe PDF	View/Open
RINGKASAN.pdf Restricted Access	Ringkasan	287.49 kB	Adobe PDF	View/Open

Show full item record Recommend this item

DSpace JSPUI

DSpace preserves and enables easy and open access to all types of digital content including text, images, moving images, mpegs and data sets