Effect of superficial air velocity on solidstate fermentation of palm kernel cake in a lab scale fermenter using locally isolated fungal strain

Solid state fermentation (SSF) is emerging as an attractive alternative to submerged fermentation despite the engineering problems such as removal of metabolic heat, transport of oxygen and moisture into the particles and the heterogeneity of the substrate. In the present work, a lab scale fermenter which can be operated as fluidized bed and packed bed was fabricated. Solid state fermentation of palm kernel cake (PKC) using fungal strain TW1 was carried out at three superficial air velocities. PKC particles of mean diameter 855 μm were used and the fluidizing medium was air. Reducing sugar concentration, biomass growth, bed moisture content, substrate pH, and hemicellulose content were measured. The maximum increase in reducing sugar concentration was at 0.17 m/s since an increase in mannose from 14.55 to 18.63 mg mannose/g dry PKC was observed. The hemicellulose content of this fermented PKC was estimated and the result was around 10% in reduction of hemicellulose content in fermented PKC. Further improvement of PKC bioconversion can likely be achieved by selection of a more robust microbe that can withstand the conditions in the fluidized bed during SSF and by creating a system which can maintain the moisture content of PKC during SSF of PKC throughout the packed bed

Surface laser scanning of the cleft palate deformity - Validation of the method

Annals of the Academy of Medicine Singapore285642-649AAMS

Visual Acuity and Mortality in a Chinese Population. The Tanjong Pagar Study

10.1016/j.ophtha.2007.04.066Ophthalmology1155802-807OPHT

Cardiovascular abnormalities in children on long-term dialysis: analysis of risk factors.

Annals of the Academy of Medicine, Singapore335 Supp

Genome-wide association studies in Asians confirm the involvement of ATOH7 and TGFBR3, and further identify CARD10 as a novel locus influencing optic discarea

Damage to the optic nerve (e.g. from glaucoma) has an adverse and often irreversible impact on vision. Earlier studies have suggested that the size of the optic nerve head could be governed by hereditary factors. We conducted a genome-wide association study (GWAS) on 4445 Singaporean individuals (n 5 2132 of Indian and n 5 2313 of Malay ancestry, respectively), with replication in Rotterdam, the Netherlands (n 5 9326 individuals of Caucasian ancestry) using the most widely reported parameter for optic disc traits, the optic disc area. We identified a novel locus on chromosome 22q13.1, CARD10, which strongly associates with optic disc area in both Singaporean cohorts as well as in the Rotterdam Study (RS; rs9607469, perallele change in optic disc area 5 0.051 mm2; Pmeta5 2.73310-12) and confirmed the association between CDC7/TGFBR3 (lead single nucleotide polymorphism (SNP) rs1192415, Pmeta5 7.57310-17) and ATOH7 (lead SNP rs7916697, Pmeta5 2.00 3 10-15) and optic disc area in Asians. This is the first Asian-based GWAS on optic disc area, identifying a novel locus for the optic disc area, but also confirming the results found in Caucasian persons suggesting that there are general genetic determinants applicable to the size of the optic disc across different ethnicities

Nine loci for ocular axial length identified through genome-wide association studies, including shared loci with refractive error

10.1016/j.ajhg.2013.06.016American Journal of Human Genetics932264-277AJHG