Repository Universitas Pakuan

Detail Karya Ilmiah Dosen

Tri Aminingsih, Sata Yoshida Srie Rahayu, Yulianita

Judul : Nano Calcium Resulted from Anodonta Woodiana as Mercury Detoxifying Supplement for Autism Children

Abstrak :
Small particle size of Nano Calcium from Freshwater Mussels shell will tend to increase the absorption of calcium by human’s body and will be very well consumed by children with special needs to suppress hyperactivity disorders that caused by mercury. This study aims to create and determine the best supplement formulation containing nano calcium from Freshwater Mussels shell. The research method begins with the manufacture of Freshwater mussels shell powder and isolated nano calcium. Nano calcium is tested for its solubility in acid. The granule formula is made with stevia variations. Instant granule evaluation includes granule flow test, break angle test, compressibility test, water content test, solubility test, and hedonic test. The results show that nano calcium is soluble in 1:1 ratio of citric and tartrate acid, so that each formula needs 1,2% citric and 1,2% tartrate acid. Based on the flavor, aroma and texture, the most preferred formula contains 600 mg nano calcium, 60 mg citric acid, 60 mg tartaric acid, 400 mg stevia, 50 mg PVP and 3,83 g lactose. The best instant granule evaluation results show that the flow rate is 4,253 g / sec, 33,90 rest angle, 4,65% compressibility, 2,21% water content and soluble time 58 second.

Tahun : 2018 Media Publikasi : jurnal nasional terakreditasi A

Kategori : Jurnal No/Vol/Tahun : Supplemen 1 / 5 / 2018

ISSN/ISBN : 2406-856

PTN/S : Universitas Pakuan Program Studi : KIMIA

Bibliography :
1. Gideon WDP, Yulisman, Ade Dwi Sasanti. 2014. Utilization of flour Gauze (Pilsbryoconcha sp.) As Substitution of Fish Flour In Siam Patin Fish Feed Formulation. Rawa Indonesia Aquaculture Journal. 2 (2). 217
2. Greiner R. 2009. Current and projected of nanotechnology in the food sector. Journal of
Brazilian Society of Food and Nutrition 34(1): 243-260.
3. Mohanraj VJ, Chen Y. 2006. Nanoparticles – a riview. Journal of Pharmaceutical Research
5(1): 561-573.
4. Muller RH, Keck CM. 2004. Challenges and solutions for the delivery of biotech drugs – a review of drug nanocrystal technology and lipid nanoparticles. Journal of Biotechnology
113: 151-170.
5. Purwasasmita BS, Gultom RS. 2008. Synthesis and characterization of hydroxyapatite powder sub-micron scale using precipitation method. Journal of Life and Physical Sciences 10 (2): 155-167.
6. Saksono N, Mubarok MH, Widaningroem R, Bismo S. 2007. Influence o f magnetic field on the conductivity of a solution of Na2CO3 and CaCl2 and precipitation and the morphology of CaCO3 particles in a static fluid system. Jurnal Teknologi 4: 317-323.
7. Santosa S. 2003. The role of Metallothionen in Autism. Journal of Medicine Maranatha 2 (2): (23-30)
8. Strickland E, Suzanne McCloskey and Ryberg, R. 2009.Eating For Autism.Da Capo Press.US
9. Suptijah P. 2009. Nano Calcium sources Aquatic Animals. Inside: 101 Innovation Indonesia.
Ministry of State for Research and Technology. Jakarta.
10. Vannnnesa L., Didah Nur F., Rizal S, R. Peranginangin. 2012. Characterization of Nanocalsium Physicochemical Result of Nile Fish Bone Extraction Using Acid and Bases. J. Technology and Food Industry. Vol. 25. ISSN: 1979-7788

URL : http://jurnal.unpad.ac.id/ijpst/article/view/16125

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Detail Karya Ilmiah Dosen

Tri Aminingsih, Sata Yoshida Srie Rahayu, Yulianita

Judul	:	Nano Calcium Resulted from Anodonta Woodiana as Mercury Detoxifying Supplement for Autism Children
Abstrak	:	Small particle size of Nano Calcium from Freshwater Mussels shell will tend to increase the absorption of calcium by human’s body and will be very well consumed by children with special needs to suppress hyperactivity disorders that caused by mercury. This study aims to create and determine the best supplement formulation containing nano calcium from Freshwater Mussels shell. The research method begins with the manufacture of Freshwater mussels shell powder and isolated nano calcium. Nano calcium is tested for its solubility in acid. The granule formula is made with stevia variations. Instant granule evaluation includes granule flow test, break angle test, compressibility test, water content test, solubility test, and hedonic test. The results show that nano calcium is soluble in 1:1 ratio of citric and tartrate acid, so that each formula needs 1,2% citric and 1,2% tartrate acid. Based on the flavor, aroma and texture, the most preferred formula contains 600 mg nano calcium, 60 mg citric acid, 60 mg tartaric acid, 400 mg stevia, 50 mg PVP and 3,83 g lactose. The best instant granule evaluation results show that the flow rate is 4,253 g / sec, 33,90 rest angle, 4,65% compressibility, 2,21% water content and soluble time 58 second.
Tahun	:	2018	Media Publikasi	:	jurnal nasional terakreditasi A
Kategori	:	Jurnal	No/Vol/Tahun	:	Supplemen 1 / 5 / 2018
ISSN/ISBN	:	2406-856
PTN/S	:	Universitas Pakuan	Program Studi	:	KIMIA
Bibliography	:	1. Gideon WDP, Yulisman, Ade Dwi Sasanti. 2014. Utilization of flour Gauze (Pilsbryoconcha sp.) As Substitution of Fish Flour In Siam Patin Fish Feed Formulation. Rawa Indonesia Aquaculture Journal. 2 (2). 217 2. Greiner R. 2009. Current and projected of nanotechnology in the food sector. Journal of Brazilian Society of Food and Nutrition 34(1): 243-260. 3. Mohanraj VJ, Chen Y. 2006. Nanoparticles – a riview. Journal of Pharmaceutical Research 5(1): 561-573. 4. Muller RH, Keck CM. 2004. Challenges and solutions for the delivery of biotech drugs – a review of drug nanocrystal technology and lipid nanoparticles. Journal of Biotechnology 113: 151-170. 5. Purwasasmita BS, Gultom RS. 2008. Synthesis and characterization of hydroxyapatite powder sub-micron scale using precipitation method. Journal of Life and Physical Sciences 10 (2): 155-167. 6. Saksono N, Mubarok MH, Widaningroem R, Bismo S. 2007. Influence o f magnetic field on the conductivity of a solution of Na2CO3 and CaCl2 and precipitation and the morphology of CaCO3 particles in a static fluid system. Jurnal Teknologi 4: 317-323. 7. Santosa S. 2003. The role of Metallothionen in Autism. Journal of Medicine Maranatha 2 (2): (23-30) 8. Strickland E, Suzanne McCloskey and Ryberg, R. 2009.Eating For Autism.Da Capo Press.US 9. Suptijah P. 2009. Nano Calcium sources Aquatic Animals. Inside: 101 Innovation Indonesia. Ministry of State for Research and Technology. Jakarta. 10. Vannnnesa L., Didah Nur F., Rizal S, R. Peranginangin. 2012. Characterization of Nanocalsium Physicochemical Result of Nile Fish Bone Extraction Using Acid and Bases. J. Technology and Food Industry. Vol. 25. ISSN: 1979-7788
URL	:	http://jurnal.unpad.ac.id/ijpst/article/view/16125