Hasil Pencarian  ::  Simpan CSV :: Kembali

"Minyak ikan dikenal sebagai produk yang memiliki khasiat besar karena mengandung PUFA (Polyunsaturated Fatty Acid). Penelitian telah membuktikan bahwa PUFA dapat mencegah penyakit-penyakit berbahaya seperti penyakit kardiovaskular, inflamasi, dan kanker. Ikan sidat (Anguilla sp.) yang digunakan sebagai bahan baku utama memiliki kandungan gizi yang sangat tinggi, baik dari segi protein dan kandungan asam lemaknya. Tujuan penelitian ini adalah untuk menghasilkan minyak ikan Sidat dengan melalui tahap ekstraksi, pemurnian, dan karakterisasi. Metode ekstraksi yang digunakan adalah rendering basah dan proses purifikasi terdiri dari degumming, netralisasi, dan bleaching. Terdapat dua jenis minyak yang dikarakterisasi yakni minyak ikan kasar dan minyak ikan purifikasi. Hasil akhir minyak ikan kasar memiliki kandungan PUFA sebesar 31,81%, sedangakan minyak ikan purifikasi sebesar 18,44%. Minyak ikan kasar memiliki kualitas yang memadai sebagai produk minyak ikan layak konsumsi dengan spesifikasi bilangan asam (2,5), %asam lemak bebas (1,2%), kandungan air (0,15%), tingkat kejernihan (78%), dan asam lamak tak jenuh omega-3 (5,64%), omega-6 (26,17%), dan omega-9 (35,55%).

---

Fish oil is known as a very beneficial product because it contains high PUFA (Polyunsaturated Fatty Acid). Various researchs have proven that PUFA is able to prevent many kind of malignancies such as cardiovascular problem, inflammation, and cancer. Sidat fish (Anguilla sp.) which will be used as main raw material has high amount of nutrients, not only in protein, but also in its fatty acid content. The purposes of this research is to produce Sidat fish oil through extraction, purification, and characterization. Wet rendering extraction method is used purification steps are consisted of degumming, neutralization, and bleaching. There are two kinds of fish oil which will be characterizied, crude fish oil and purified fish oil. The final crude sidat fish oil contain PUFA as much as 31.81%, while purified fish oil has 18.44% PUFA. The crude fish oil is known to have better and proper quality as a consumable fish oil product. It has specification as acid value (2.5), %free fatty acid (1.2%), water content (0.15%), clarity (78%), omega 3 unsaturated fatty acid (5.64%), omega 6 (26,16%), and omega 9 (35.55%)."

"[ABSTRAKMinyak ikan dikenal sebagai sumber polyunsaturated fatty acids (PUFA) yang baik dan digunakan untuk tujuan farmasetika dan suplemen pangan secara luas. Dalam penelitian ini, bahan baku ikan sidat (Anguilla bicolor bicolor) dikarakterisasi dan minyak ikan diekstraksi dari tulang ikan sidat dengan metode Bligh & Dyer dan wet rendering. Komposisi asam lemak dari minyaknya dianalisa dan dikuantifikasi menggunakan kromatografi gas. Hasil yang diperoleh menunjukkan, total by-product pengolahan ikan sidat (Anguilla bicolor bicolor) mencapai 26,38%, kandungan lemak tulang ikan sidat 17,33 ± 0,58 g/100 g. Rendemen minyak ikan sidat yang diekstraksi dengan metode Bligh dan Dyer adalah 17,12%. Berdasarkan hasil analisis asam lemak minyak ikan sidat, diperoleh kandungan SFA 19,87%, MUFA 25,84%, PUFA 13,84%. Komposisi asam lemak utama minyak ikan sidat adalah asam palmitat 13,58%, asam oleat 20,94%, asam linoleat 4,01%, EPA 1,57% dan DHA 4,84%. Rendemen tertinggi ekstraksi minyak ikan dari tulang ikan sidat menggunakan metode wet rendering adalah sebesar 6,95% yang didapat pada pada suhu 80ºC, waktu perebusan 60 menit. Penambahan waktu perebusan menjadi 90 menit pada suhu yang sama, tidak berpengaruh nyata terhadap persentase rendemen. Kondisi ekstraksi metode wet rendering terbaik berdasarkan persentase rendemen dan nilai hasil uji mutu dari minyak ikan adalah suhu perebusan 60°C, waktu perebusan 60 menit dengan persentase rendemen sebesar 5,53%, asam lemak bebas 0,47% , bilangan asam 9.277,55 mg KOH/kg, bilangan peroksida 38,35 meq/kg, bilangan anisidin 25,84 meq/kg dan total oksidasi 102,55 meq/kg. Hanya kandungan asam lemak bebas saja yang mempunyai nilai sesuai standar yang diperbolehkan.

---

ABSTRACTFish oils have been recognized as good sources of polyunsaturated fatty acids (PUFA) which are widely used for pharmaceutical purposes and as food supplements. In this study, eels (Angguilla bicolor bicolor) as a raw material was characterized and fish oil from eels bone were extracted using Bligh & Dyer and wet rendering method. The fatty acid composition of the oil was analyzed and quantified using gas chromatography. Results showed that the total yield of by-product of eel reached 26,38 %, the lipid content of eels bone was 17.33 ± 0.58 g/100 g. Yield of eel bone oil extracted by Bligh and Dyer method was 17.12%. In the fatty acid analysis of eel bone oil, it was discovered that SFA was 19.87%, MUFA was 25.84%, and PUFA was 13.84%. The Composition of major fatty acids in the oil from the bone were palmitic acid (13.58%), oleic acid (20.94%), linoleic acid (4.01%), EPA (1.57%), and DHA (4.84%). The highest yield of fish oil from eel bone with wet rendeering exctraction method was 6.95% on temperatur 80ºC and boiling time 60 minutes. At the same temperatur, an additional time to 90 minutes was not significantly different to percentage of yield. The best condition for wet rendering exctraction method is boiling temperature 60°C, boiling time 60 minute with value of yield, free fatty acid, acid value, peroxide value, anisidin value and total oxidation is 5,53%, 0,47%, 9.277,55 mg KOH/kg, 38,35 meq/kg, 25,84 meq/kg and 102,55 meq/kg respectively. Result showed that only free fatty acid value which meet the standar requirement.;Fish oils have been recognized as good sources of polyunsaturated fatty acids (PUFA) which are widely used for pharmaceutical purposes and as food supplements. In this study, eels (Angguilla bicolor bicolor) as a raw material was characterized and fish oil from eels bone were extracted using Bligh & Dyer and wet rendering method. The fatty acid composition of the oil was analyzed and quantified using gas chromatography. Results showed that the total yield of by-product of eel reached 26,38 %, the lipid content of eels bone was 17.33 ± 0.58 g/100 g. Yield of eel bone oil extracted by Bligh and Dyer method was 17.12%. In the fatty acid analysis of eel bone oil, it was discovered that SFA was 19.87%, MUFA was 25.84%, and PUFA was 13.84%. The Composition of major fatty acids in the oil from the bone were palmitic acid (13.58%), oleic acid (20.94%), linoleic acid (4.01%), EPA (1.57%), and DHA (4.84%). The highest yield of fish oil from eel bone with wet rendeering exctraction method was 6.95% on temperatur 80ºC and boiling time 60 minutes. At the same temperatur, an additional time to 90 minutes was not significantly different to percentage of yield. The best condition for wet rendering exctraction method is boiling temperature 60°C, boiling time 60 minute with value of yield, free fatty acid, acid value, peroxide value, anisidin value and total oxidation is 5,53%, 0,47%, 9.277,55 mg KOH/kg, 38,35 meq/kg, 25,84 meq/kg and 102,55 meq/kg respectively. Result showed that only free fatty acid value which meet the standar requirement.;Fish oils have been recognized as good sources of polyunsaturated fatty acids (PUFA) which are widely used for pharmaceutical purposes and as food supplements. In this study, eels (Angguilla bicolor bicolor) as a raw material was characterized and fish oil from eels bone were extracted using Bligh & Dyer and wet rendering method. The fatty acid composition of the oil was analyzed and quantified using gas chromatography. Results showed that the total yield of by-product of eel reached 26,38 %, the lipid content of eels bone was 17.33 ± 0.58 g/100 g. Yield of eel bone oil extracted by Bligh and Dyer method was 17.12%. In the fatty acid analysis of eel bone oil, it was discovered that SFA was 19.87%, MUFA was 25.84%, and PUFA was 13.84%. The Composition of major fatty acids in the oil from the bone were palmitic acid (13.58%), oleic acid (20.94%), linoleic acid (4.01%), EPA (1.57%), and DHA (4.84%). The highest yield of fish oil from eel bone with wet rendeering exctraction method was 6.95% on temperatur 80ºC and boiling time 60 minutes. At the same temperatur, an additional time to 90 minutes was not significantly different to percentage of yield. The best condition for wet rendering exctraction method is boiling temperature 60°C, boiling time 60 minute with value of yield, free fatty acid, acid value, peroxide value, anisidin value and total oxidation is 5,53%, 0,47%, 9.277,55 mg KOH/kg, 38,35 meq/kg, 25,84 meq/kg and 102,55 meq/kg respectively. Result showed that only free fatty acid value which meet the standar requirement., Fish oils have been recognized as good sources of polyunsaturated fatty acids (PUFA) which are widely used for pharmaceutical purposes and as food supplements. In this study, eels (Angguilla bicolor bicolor) as a raw material was characterized and fish oil from eels bone were extracted using Bligh & Dyer and wet rendering method. The fatty acid composition of the oil was analyzed and quantified using gas chromatography. Results showed that the total yield of by-product of eel reached 26,38 %, the lipid content of eels bone was 17.33 ± 0.58 g/100 g. Yield of eel bone oil extracted by Bligh and Dyer method was 17.12%. In the fatty acid analysis of eel bone oil, it was discovered that SFA was 19.87%, MUFA was 25.84%, and PUFA was 13.84%. The Composition of major fatty acids in the oil from the bone were palmitic acid (13.58%), oleic acid (20.94%), linoleic acid (4.01%), EPA (1.57%), and DHA (4.84%). The highest yield of fish oil from eel bone with wet rendeering exctraction method was 6.95% on temperatur 80ºC and boiling time 60 minutes. At the same temperatur, an additional time to 90 minutes was not significantly different to percentage of yield. The best condition for wet rendering exctraction method is boiling temperature 60°C, boiling time 60 minute with value of yield, free fatty acid, acid value, peroxide value, anisidin value and total oxidation is 5,53%, 0,47%, 9.277,55 mg KOH/kg, 38,35 meq/kg, 25,84 meq/kg and 102,55 meq/kg respectively. Result showed that only free fatty acid value which meet the standar requirement.]"

"Penyakit kardiovaskuler merupakan salah satu penyakit mematikan di dunia termasuk di Indonesia. Risiko terserang penyakit ini pun cukup tinggi pada masyarakat bahkan dapat menyebabkan kematian. Penyakit kardiovaskuler dapat dicegah dengan mengkonsumsi asam lemak tak jenuh yang berasal dari minyak ikan. Namun, ketersediaan ikan dan juga kualitas perairan Indonesia yang belakangan ini terpapar pencemar menjadi salah satu tantangan terbesar. Dari masalah tersebut, diperlukan sumber alternatif asam lemak tak jenuh yang dapat memproduksi lipid dalam jumlah besar, tidak membutuhkan lahan yang luas, dan ekonomis. Terdapat berbagai jenis mikroorganisme yang dapat digunakan sebagai sumber alternatif asam lemak. Pada penelitian ini akan digunakan mikroorganisme kapang jenis Rhizopus oligosporus. Kapang digunakan dalam penelitian ini sebab memiliki berbagai keuntungan seperti lebih mudah dalam penanganan, dapat tumbuh dalam pH rendah serta dapat mendegradasi sumber karbon yang kompleks. Penelitian menggunakan metode fermentasi terendam dengan strategi temperature shift dengan variasi konsentrasi glukosa dan laju agitasi. Hasil penelitian menunjukkan bahwa kandungan asam lemak tak jenuh yang didapat dalam kondisi optimum baik dari konsentrasi glukosa 100 g L maupun laju agitasi 120 rpm sebesar 41,77 pada MUFA dan 13,41 pada PUFA dan diperoleh pula asam oleat dan linoleat tertinggi berturut-turut sebesar 41,06 dan 13,41.

---

Cardiovascular disease is one of the biggest killing disease in the world especially in Indonesia. The percentage risk of stricken by this disease is so high in community and even causing death. This risk is actually can be prevent with dietary consume of unsaturated fatty acid that often found in fish oil. However, the fish availability and the quality of Indonesias ocean that nowadays polluted becomes the biggest threat.

With the problem above, the alternative sources of omega 3 and omega 6 are needed whereas the source must be able to produce lipid in large number without taking a large amount of land and also economic. There are several kind of microorganism that can be use as an alternative source of fatty acid.

In this research, Rhizopus oligosporus is used as fungi microorganism. Mold is used in this research, because it has a lot of advantages such as ease to handle, easily grow in low pH and able to degradate more complex carbon sources. In this research, the fermentation is processed with submerged fermentation with temperature shift strategy with variation of glucose concentration and agitation rate.

The results showed that the unsaturated fatty acid content obtained in the optimum conditions both from the glucose concentration of 100 g/L and agitation rate of 120 rpm are 41.77 in MUFA and 13.41 in PUFA and the highest highest oleic and linoleic acids were also obtained at 41.06 and 13.41."

"Ruang Lingkup dan Cara Penelitian : Survai Kesehatan Rumah Tangga 1992, menunjukkan angka kematian penyakit kardiovaskular di Indonesia telah menduduki urutan pertama. Platelet mempunyai peranan dalam terbentuknya aterosklerosis yang merupakan penyebab terjadinya penyakit kardiovaskular. Asupan asam lemak tak jenuh w-3 dalam makanan sehari-hari dapat mempengaruhi fungsi platelet yang meliputi menurunkan agregasi platelet dan pembentukan Tromboksan A2 (TXA2). Penelitian ini bertujuan untuk menilai pengaruh suplementasi asam lemak tak jenuh w-3 terhadap agregasi platelet dan TXA2 pada orang sehat. Penelitian dilakukan tehadap 11 orang laki-laki sehat, berusia 30-55 tahun dan tidak merokok. Penelitian dilakukan dalam 3 periode yaitu periode pengamatan, periode suplementasi dan periode setelah suplementasi dengan masing-masing periode 21 hari lamanya. Dalam periode suplementasi, setiap subjek penelitian tiap hari mendapat 6 kapsul w-3 yang setara dengan 6 gram asam lemak tak jenuh w-3 dan mengandung 1080 mg EPA dan 720 mg DHA. Pada setiap awal periode dan pada akhir penelitian dilakukan pemeriksaan agregasi platelet dan TX A2. Pada saat yang lama juga dilakukan analisis asupan makanan. Hasil dan Kesimpulan : Nilai rata-rata agregasi platelet pada awal periode pengamatan, awal periode suplementasi, hari pertama dan hari ke 22 periode setelah suplementasi berturut-turut adalah 57,10 ± 7,91; 56,62 ± 10,15; 49,97 ± 10,24 dan 61,12 ± 7,8. Hasil uji t berpasangan terhadap agregasi platelet pada awal periode suplementasi dengan awal periode pengamatan menunjukkan tidak ada perbedaan yang bermakna (p>0,05). Hasil uji t berpasangan terhadap agregasi platelet pada hari pertama periode setelah suplementasi dengan awal periode suplementasi dan pada hari ke 22 dengan hari pertama periode setelah suplementasi ternyata terdapat perbedaan yang bermakna (p<0,05). Dengan demikian dapat disimpulkan bahwa asam lemak tak jenuh w-3 dapat menurunkan agregasi platelet pada orang sehat. Data kadar TXA2 dalam penelitian ini tidak dapat diperoleh dengan lengkap pada ke tiga periode. Hanya tiga data kadar TXA yang lengkap diperoleh dari ke tiga periode tersebut oleh karena itu, tidak dapat dilakukan analisis statistik terhadap kadar TXA2. Dengan demikian pengaruh asam lemak tak jenuh terhadap pembentukan TXA2 dalam penelitian ini belum dapat disimpulkan.

---

Scope and Method of Study : Household survey 1992, showed mortality rate of cardiovascular disease in Indonesia has become the highest. Platelets have a role in atherosclerosis formation leading to cardiovascular disease. Dietary intake of w-3 polyunsaturated fatty acids can influence platelet function including the decrease of platelet aggregation and thromboxane A2 (TXA2) formation. The purpose of this study is to evaluate the effect of w-3 polyunsaturated fatty acids supplementation on platelet aggregation and TXA2 in healthy men. The subjects were 11 healthy men, 30 - 55 years of age and non smokers.

The study conducted in three periods ; the run in period, the supplementation period and the post supplementation period, which each of lasted 21 days. During the supplementation period, each subject was administered 6 omega-3 capsules which equal 6 grams of w-3 polyunsaturated fatty acids and containing 1080 mg EPA and 720 mg DHA. Platelet aggregation and TXA2 measurement were conducted at the beginning of each period and the end of the study. At the corresponding points of time dietary intake analysis were also carried out.

Findings and Conclusions : The mean value of platelet aggregation at the beginning of the run in period, the beginning of supplementation period, the first and the twenty second day of the post supplementation period were 57,10 ± 7,91; 56,62 ± 10,15; 49,97 ± 10,24 and 61,12 ± 7,82, respectively. T test dependent statistical analysis on platelet aggregation in the beginning of supplementation period against at the beginning of the run in period showed no significant change (p>0,05). T test dependent statistical analysis on platelet. aggregation at the first day of post supplementation period against at the beginning of supplementation period also at the twenty second day against the first day of the post supplementation period showed that there were significant change (p<0,05).

It can be concluded that in healthy men supplementation of w-3 polyunsaturated fatty acids decreased platelet aggregation. Data of TXA2 levels in this study could not be completely obtained from all the three periods. Since only three datas of TXA2 could be obtained completely, no statistical analysis could be made. The effect of supplementation of w-3 polyunsaturated fatty acids on TXA2 formation in this study is still inconclusive."

"Bekatul merupakan salah satu produk samping dari proses penggilingan padi yang memiliki manfaat. Salah satu manfaatnya, bekatul berpotensi menjadi sumber asam lemak esensial. Hal ini dikarenakan kandungan minyak pada bekatul mengandung asam lemak tak jenuh sebanyak 80%. Ekstrak minyak bekatul memiliki banyak manfaat bagi manusia terutama pada bidang kesehatan. Salah satu manfaat dari asam lemak tak jenuh yaitu dapat menurunkan risiko penyakit kardiovaskular seperti menurunkan risiko jantung koroner. Pengayaan asam lemak tak jenuh pada bekatul dilakukan dengan menggunakan metode fermentasi padat dengan menggunakan bantuan mikroorganisme. Mikroorganisme yang digunakan pada penelitian ini yaitu kapang Aspergillus terreus. Kandungan asam lemak tak jenuh yang dihasilkan oleh Aspergillus terreus lebih tinggi dibandingkan Aspergillus lain. Penelitain ini mengkaji pengaruh volume inokulum terhadap pengayaan asam lemak tak jenuh pada minyak bekatul dari hasil fermentasi menggunakan kapang Aspergillus terreus. Metode fermentasi yang digunakan yaitu metode fermentasi padat dengan dengan ekstraksi Bligh-Dyer termodifikasi dan instrumen Gas Chromatography/Mass Spectrometry (GC/MS) untuk mengetahui kandungan dari asam lemak tak jenuh pada minyak bekatul. Hasil penelitian ini menunjukan bahwa volume inokulum optimum untuk memperkaya asam lemak tak jenuh pada minyak bekatul, yaitu volume inokulum sebanyak 7 mL dengan kandungan asam lemak tak jenuh meningkat dari 37,90% menjadi 41,39%.

---

Bran is a by-product of the rice milling process which has benefits. One of its benefits, bran has the potential to be a source of essential fatty acids. This is because the oil content in bran contains 80% unsaturated fatty acids. Bran oil extract has many benefits for humans, especially in the health sector. The benefits of unsaturated fatty acids can reduce the risk of cardiovascular disease like reducing the risk of coronary heart disease. Enrichment of unsaturated fatty acids in bran is using the solid fermentation method using the help of microorganisms. The microorganisms used in this study were Aspergillus terreus molds. The content of unsaturated fatty acids produced by Aspergillus terreus is higher than another Aspergillus. This study examines the effect of inoculum volume on the enrichment of unsaturated fatty acids in bran oil from fermentation using Aspergillus terreus molds. The fermentation method used is solid fermentation method with modified Bligh-Dyer extraction and (GC/MS) instruments to determine the content of unsaturated fatty acids in bran oil. The results of this study indicate that the optimum inoculum volume to enrich unsaturated fatty acids in bran oil, is 7 mL with unsaturated fatty acid content increased from 37.90% to 41.39%."

"Kerusakan hati pada pasien dengan kanker kolorektal memberikan kontribusi terhadap morbiditas dan mortalitas pada kelompok pasien ini. Minyak ikan kaya omega 3 memiliki efek imunomodulator dan antiinflamasi yang mungkin dapat menekan kerusakan hati pasien kanker kolorektal.Penelitian ini bertujuan untuk mengetahui dampak pemberian minyak ikan kaya omega-3 terhadap kerusakan hati pasien kanker kolorektal dengan menggunakan model mencit yang diinduksi dengan azoksimetan AOM dan dekstran sodium sulfat DSS.Metode: Dua puluh empat ekor mencit balb/c dinduksi dengan AOM dosis 10 mg/kgBB dan larutan DSS 2 intraperitoneal. Mencit kemudian dibagi menjadi 4 kelompok perlakuan: kelompok kontrol; kelompok yang diberi minyak ikan kaya omega-3 dosis rendah 1,5mg/hari ; Kelompok yang diberi minyak ikan kaya omega-3 dosis sedang 3mg/hari ; Kelompok yang diberi minyak ikan kaya omega-3 dosis tinggi 6mg/hari. Mencit dikorbankan setelah 10 minggu. Hati mencit kemudian diwarnai dengan hematoxylin eosin dan dilihat histopatologinya nekrosis, steatosis, inflamasi, displasia, dan obstruksi vena sentral menggunakan mikroskop cahaya.Hasil: Terdapat perbedaan histopatologi yang bermakana kelompok kontrol dengan kelompok yang diberi suplementasi minyak ikan kaya omega-3 pada jumlah fokus nekrosis p=0,029 untuk dosis rendah, p=0,001 untuk dosis sedang

---

Background Liver injury in colorectal cancer contributes to not only morbidity but also mortality in these patients. Omega 3 rich fish oil may reduce the liver injury by immune and inflammation modulation, the basis of liver injury in these patients.

The objective of this study is to find the effect of omega 3 rich fish oil supplementation to liver injury in colorectal cancer patient using mice model induced by azoxymethane AOM and dextran sodium sulfate DSS.

Method Twenty four balb c mice induced with AOM dose 10 mg kgBW and DSS 2 solution intraperitoneally. Mice were then divided into 4 group control group mice received low dose of omega 3 rich fish oil 1,5mg day group Mice received medium dose of omega 3 rich fish oil 3mg day group mice received high dose of omega 3 rich fish oil 6mg day group. The mice were sacrificed after 10 weeks. The livers smeared and observed under light microscope with histopathology indicator necrosis, steatosis, inflammation, displasia, and central vein obstruction.

Results There were significant histopathologic difference between control and mice that received omega 3 rich fish oil supplementation on the number of necrosis foci p 0.029 for low dose, p 0.001 for medium dose"

"Latar belakang: Azoxymethane AOM dan dextran sodium sulfate DSS adalah senyawa kimia yang sering digunakan untuk menginduksi kanker kolorektal pada tikus. Penelitian sebelumnya menunjukkan bahwa azoxymethane dan DSS juga menyebabkan nefrotoksisitas. Omega 3 yang ditemukan pada minyak ikan diketahui memiliki efek protektif pada ginjal. Namun, omega 3 minyak ikan kaya masih sangat kurang dimanfaatkan di Indonesia. Untuk mempelajari fitur histopatologi ginjal pada tikus yang diinduksi AOM DSS setelah pemberian omega 3 minyak ikan kaya.Metode: Mencit eksperimental yang telah diinduksi menggunakan AOM 10 mg kg dan DSS 2 selama 2 minggu dialokasikan secara acak ke dalam 4 kelompok sebagai berikut. Kelompok Kontrol tikus tidak menerima minyak ikan, tikus Kelompok Dosis Rendah menerima 1,5 mg minyak ikan, tikus kelompok Dosis Menengah menerima 3 mg minyak ikan, tikus Kelompok Dosis Tinggi menerima 6 minyak ikan mg hari. Minyak ikan kaya omega 3 diberikan selama 12 minggu. Pemeriksaan patologi dilakukan untuk menilai degenerasi tubular dan kongesti vaskular.Hasil: Gambaran histopatologis yang ditemukan di ginjal adalah peradangan, degenerasi tubular, nekrosis, dan kongesti vaskular. Persentase 3 tubular degenerasi berat pada kelompok yang diberi minyak zaitun kaya omega 3 rendah, menengah, dan tinggi lebih rendah sebesar 17,5, 25, dan 37,5 masing-masing dibandingkan dengan kelompok kontrol. Pemberian omega 3 minyak ikan kaya menunjukkan persentase yang lebih sedikit dari tingkat kongesti 2 pembuluh darah moderat dibandingkan dengan kelompok kontrol namun, peningkatan dosis omega 3 minyak ikan kaya tidak menunjukkan persentase yang berbeda dari kemacetan pembuluh darah moderat di antara kelompok-kelompok.Kesimpulan: Hasil menunjukkan efek omega 3 minyak ikan kaya untuk mencegah nefrotoksisitas pada tikus yang diinduksi oleh azoxymethane dan DSS.

---

Background: Azoxymethane AOM and dextran sodium sulfate DSS are chemical compounds frequently used to induce colorectal cancer in mice. Previous studies have shown that azoxymethane and DSS also cause nephrotoxicity. Omega 3 found on fish oil is known to have protective effect on kidney. However, omega 3 rich fish oil is still very underutilized in Indonesia.Aim To study the histopathologic features of kidney on mice induced AOM DSS after the administration of omega 3 rich fish oil.

Method: The experimental mice that had been induced using AOM 10 mg kg and DSS 2 for 2 weeks were allocated randomly into 4 groups as follows Control Group mice recieved no fish oil, Low Dose Group mice recieved 1.5 mg day fish oil, Medium Dose Group mice recieved 3 mg day fish oil, High Dose Group mice recieved 6 mg day fish oil. The omega 3 rich fish oil were given for 12 weeks. Pathology examination was done to grade tubular degeneration and vascular congestion.

Result: The histopathologic features found in the kidney were inflammation, tubular degeneration, necrosis, and vascular congestion. The percentage of severe 3 tubular degeneration on groups given low, medium, and high dose omega 3 rich olive oil were lower by 17.5 , 25 , and 37,5 respectively compared to control group. The administration of omega 3 rich fish oil showed less percentage of moderate 2 vascular congestion degree compared to control group however, increasing dose of omega 3 rich fish oil did not show different percentages of moderate vascular congestion among groups.

Conclusion: The result indicates the effect of omega 3 rich fish oil on preventing nephrotoxicity in mice induced by azoxymethane and DSS."

"Lemak menjadi nutrisi yang berperan penting dalam proses metabolisme. Sekitar 60% nutrisi yang dibutuhkan untuk perkembangan otak adalah berupa lemak. Polyunsaturated Fatty Acid (PUFA) yang terdiri dari omega-3 (linoleate) dan omega-6 (linolenat), merupakan asam lemak esensial yang digunakan untuk menjaga bagian-bagian struktural dari membran sel, serta mempunyai peran penting dalam perkembangan otak. Kapang adalah salah satu mikroorganisme oleaginous yang potensial sebagai sumber alternatif peghasil PUFA. Peneliti akan menggunakan Aspergillus oryzae sebagai mikroorganisme penghasil PUFA. Namun produksi single cell oil (SCO) dari mikroorganisme terhambat pada biaya operasional yang mahal, sehingga perlu adanya pemanfaatan limbah untuk menekan biaya operasional. Oleh karena itu, dalam penelitian ini digunakan limbah industri yaitu onggok tapioka dan ampas tahu sebagai medium kultivasi. Hasil penelitian menunjukkan bahwa kandungan PUFA dalam lipid A. oryzae meningkat seiring peningkatan konsentrasi karbon. Persentase PUFA tertinggi berada pada konsentrasi karbon 6% (w/w), yaitu sebesar 60,8% (w/w). Pada variasi rasio C/N, persentase PUFA dalam lipid A. oryzae relatif menurun seiring dengan peningkatan rasio C/N. Persentase PUFA tertinggi berada pada rasio 30:1, yaitu sebesar 56,1% (w/w).

---

Fat is nutrients that play an important role in the metabolism process. About 60% of the nutrients needed for brain development is in the form of fat. Polyunsaturated Fatty Acids (PUFAs), which consists of omega-3 (linoleate) and omega-6 (linolenic acid), is an essential fatty acid that is used to maintain the structural parts of the cell membrane, and has an important role in brain development. Fungus is one of oleaginous microorganisms as a potential alternative source of PUFA producer. We will use the Aspergillus oryzae as PUFA-producing microorganisms. However, the production of single cell oil (SCO) of microorganisms is inhibited at high operational cost, thus we need for waste utilization to reduce the operational cost. Therefore, in this study, we used industrial waste, they are production waste of tapioca powder and tofu as cultivation medium. The result showed that the content of PUFAs in lipid A. oryzae increases with the concentration of carbon. The highest percentage of PUFA is at the carbon concentration of 6% (w/w), which amounted to 60.8% (w/w). In variations of C/N ratio, the percentage of PUFAs in lipid A. oryzae relatively decr"

"Aspergillus oryzae dilakukan kultivasi pada medium limbah berupa onggok dan ampas tahu dengan menggunakan metode submerged fermentation dan ekstraksi sonikasi dengan pelarut etanol untuk menghasilkan asam lemak tak jenuh. Ekstraksi etanol merupakan salah satu ekstraksi yang aman, sehingga asam lemak yang dihasilkan dalam penelitian ini dapat diaplikasikan pada industri pangan. Hasil penelitian ini menunjukkan bahwa suhu optimum dalam produksi asam lemak tak jenuh berada pada suhu 300C dengan menghasilkan 65,88 % asam lemak tak jenuh terdiri dari 1,28% MUFA dan 64,6 % PUFA, serta pH 4 menghasilkan asam lemak tak jenuh tertinggi sebesar 54,44% dengan 1,84% MUFA dan 52,6% PU.

---

Aspergillus oryzae is cultivated in medium based on onggok and tofu?s solid waste by using submerged fermentation and extraction of sonication with ethanol solvent to produce unsaturated fatty acid. Ethanol extraction is one of the safe extraction methods, so the fatty acid can be applied to the food industry.

The result showed the optimum incubation temperature in the production of unsaturated fatty acid at 300C with 65.88% unsaturated fatty acids that consist of 1.28% MUFA and 64.6% PUFA. And also pH 4 result the highest unsaturated fatty acid of 54.44 with 1.84% MUFA and 52.6% PUFA."

"ABSTRAKProses penggilingan padi akan menghasilkan produk samping, salah satunya yaitu bekatul yang memiliki potensi yang sangat besar baik dari segi ekonomi maupun kesehatan tubuh jika diolah lebih lanjut, namun hingga saat ini pemanfaatan bekatul masih sangat terbatas. Bekatul mengandung kadar minyak yang cukup tinggi yaitu sekitar 10-23% yang terdiri atas 80% asam lemak tak jenuh dan 20% asam lemak jenuh. Asam lemak tak jenuh umumnya diperoleh dari minyak ikan, namun minyak ikan mempunyai harga yang mahal dan berbau amis. Kandungan asam lemak tak jenuh pada bekatul dapat diperkaya dengan memanfaatkan kapang Aspergillus terreus, karena kapang tersebut dapat menghasilkan asam lemak tak jenuh lebih tinggi dibanding jenis kapang Aspergillus lainnya. Penelitian ini mengkaji pengaruh variasi pH medium terhadap peningkatan kadar asam lemak tak jenuh pada minyak bekatul hasil fermentasi menggunakan kapang Aspergillus terreus. Metode fermentasi yang digunakan adalah metode fermentasi padat dengan metode ekstraksi Bligh-Dyer termodifikasi dan instrumen Gas Chromatography/Mass Spectrometry (GC-MS) digunakan untuk mengetahui komposisi dan kandungan dari asam lemak tak jenuh dalam minyak bekatul. Hasil penelitian menunjukkan bahwa pH medium optimum untuk peningkatan kadar asam lemak tak jenuh dalam minyak bekatul dengan menggunakan Aspergillus terreus, yaitu pada pH 5 dengan kadar asam lemak tak jenuh semula 74,835% menjadi 76,719%.

---

ABSTRACT

The rice milling process will produce side products, one of them is rice bran which has enormous potential both in terms of economy and health if it is further processed, but until now the use of rice bran is still very limited. Rice bran contains a fairly high oil content, which is around 10-23% consisting of 80% unsaturated fatty acids and 20% saturated fatty acids. Unsaturated fatty acids are generally obtained from fish oil, but fish oil has a high price and smells fishy. The content of unsaturated fatty acids in rice bran can be enriched by using Aspergillus terreus, because these molds can produce unsaturated fatty acid higher than other types of Aspergillus. This study examines the effect of pH of the medium variations on increasing unsaturated fatty acid content in fermented rice bran oil using Aspergillus terreus. The fermentation method used is solid-state fermentation with modified Bligh-Dyer extraction method and Gas Chromatography/Mass Spectrometry (GC-MS) instrument is used to determine the composition and content of unsaturated fatty acids in bran oil. The result showed that the optimum pH of the medium for increasing the unsaturated fatty acid contents in rice bran oil using Aspergillus terreus, which is at pH 5 with the initial unsaturated fatty acid content of 74.835% to 76.719%."