Abstract
The objective of this paper was to evaluate methods of producing purified Catfish bone fractions from Catfish frames and heads and determine the composition of the purified bone fraction. Fresh samples of Catfish frames and heads were obtained from a large commercial Catfish processor. Triplicate samples were processed for all treatments. Two methods were developed to remove nonbone tissue from the frames: (a) use of a proteolytic enzyme to digest the nonbone tissues and (b) after boiling the frames, removal of the nonbone tissues with high‐pressure water. The ash, protein, and lipid contents of unprocessed dried frames were 17%, 33%, and 41%, respectively. After the enzymatic or high‐pressure water treatment processes, the frame bone compositions for the two processes were 62% and 54% ash, 35% and 33% protein, and 9% and 2% lipid, respectively. Bone from both processing treatments had a calcium content of 21%–25%, phosphorus content of 10%–11%, and contents of magnesium, manganese, zinc, and nickel were increased. Hydroxyproline content increased from 4% of the amino acids in the untreated bone to 7%–8% for the processed treatments. Tissues were removed from Catfish heads by digestion with a proteolytic enzyme and collection of the bone with a sieve. After the longest digestion period, dried head bone was 51% ash, 38% protein, and 7% lipid. The amino acid profiles showed high levels of hydroxyproline and lower levels of many essential amino acids. With increased enzymatic hydrolysis time, percent calcium and phosphorus increased. Results from this study will be used in the development of new value‐added food and feed ingredients from Catfish bone.
Highlights
There were 301 million pounds of Catfish produced in 2014 (Hanson & Sites, 2012)
This study reported differences in the lipid content of bone from different species and amino acid analysis, and element content was reported
The amino acid profiles were similar for both methods with high levels of hydroxyproline present, and elemental composition was similar
Summary
There were 301 million pounds of Catfish produced in 2014 (Hanson & Sites, 2012). Whole, dressed Catfish is further processed into common usable forms, which include regular fillets, shank fillets, fillet strips, and nuggets (Silva & Dean, 2001). Processing of Catfish results in the production of a large amount of fish waste. Depending on what product is being produced, the waste (or by‐product) can account for >60% of the harvested weight of the fish and consist of varying amounts of heads, viscera, frames, skin, and lesser amounts of blood and fins (Crapo & Bechtel, 2003; Yin et al, 2010). Catfish by‐ product from larger processing operations is combined and sold to Venkatesan et al (2015) reported chemical and physical properties of nanohydroxyapitite derived using alkaline hydrolysis process from salmon fish bone. Chemical properties of Pacific cod and salmon bone from frames were reported by Bechtel (2003)
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