PROCESS FOR PREPARING FISH BONE POWDER

Abstract

A process for preparing fish bone powder according to this invention generally comprising at least 4 steps: pre-heating, removing of impurity, drying and milling to derive a calcium-rich bone powder product that contains calcium in the range of 18-22 g/100 g of the final product. In addition, the bone powder particle size obtained is less than 100 microns and contains high levels of protein, fat, and essential minerals, such as sodium and phosphorus. The source of bone can be obtained from any fishes, preferably from tuna.

Claims

1. A process for preparing fish bone powder comprises following steps: a. pre-treatment of fish bone; b. removal of non-polar components from the pre-treated bone obtained from step a with alkali solution or solvent wherein the alkali concentration is in the range of 0.2-1% (w/v); c. drying of the alkali or solvent treated bone from step b; and d. milling or pulverizing of the dried bone from step c.

2. The process for preparing fish bone powder according to claim 1 wherein the preferred solvent is isopropanol or hexane.

3. A process for preparing fish bone powder comprises the following steps: a. pre-treatment of fish bone; b. removal of protein components from the pre-treated bone obtained from step a with an enzyme or the combination of enzymes wherein the ratio between pre-treated and water is in the range of 1:1-2; c. drying of the bone obtained from step b; and d. milling or pulverizing of the dried bone obtained from step c.

4. A process for preparing fish bone powder comprises the following steps: a. pre-treatment of fish bone; b. removal of non-polar components from the pre-treated bone obtained from step a with alkali solution or solvent wherein the alkali concentration is in the range of 0.2-1% (w/v); c. removal of protein components from the pre-treated bone obtained from step a with an enzyme or the combination of enzymes wherein the ratio between pre-treated or alkali treated bone and water is in the range of 1:1-2; d. drying of the bone obtained from step c; and e. milling or pulverizing of the bone obtained from step d.

5. The process for preparing fish bone powder according to claim 1 wherein the removal step of pre-treated bone is obtained from alkali solution or solvent or enzyme or boiling water.

6. The process for preparing fish bone powder according to claim 5 wherein the removal process with boiling water comprises the following steps: a. pre-treatment of fish bone; b. removal of impurities from the pre-treated bone obtained from step a with boiling water at 100? C.; c. drying of the bone obtained from step b; and d. milling or pulverizing of the dried bone obtained from step c.

7. The process for preparing fish bone powder according to claim 1 wherein the pre-treatment of fish bone comprises the following steps: a. removal of blood meat from the bone; b. pre-heating the bone at 80-120? C. for 50-90 minutes; c. reducing the size of the pre-heated bone to 0.5 cm; and d. washing the bone obtaining from step c. with water.

8. The process for preparing fish bone powder according to claim 1 wherein the removal of non-polar components from the pre-treated bone with the alkali solution comprises the following steps: a. mixing the said pre-treated bone with the alkali solution at the concentrations of 0.2-1% (w/v) and the ratio between the said crushed bone and the said alkali solution is in the range of 1:1-2 (w/v); b. heating the mixture obtaining from step a at the temperature between 70-100? C. for 45-120 minutes; and c. Washing the bone obtaining from step b with water.

9. The process for preparing fish bone powder according to claim 3 wherein the removal of protein components from the pre-treated bone with an enzyme or the combination of enzymes comprises the following steps: a. mixing the pre-treated or alkali treated bone with water at the ratio of pre-treated or alkali treated bone and water between 1:1-2; b. adjusting the pH of the mixture obtained from step a to 8.0-8.5 with NaOH or KOH; c. adding the enzyme or the combination of enzymes selected from the group of protease (dosage 0.2%) to the said mixture; d. incubating said mixture with enzymes at the temperature between 50-55? C. with the agitation speed between 1000-1500 rpm for 0.5-1.5 h; e. inactivating the enzymes by heating said mixture at the temperature above 90-95? C. for at least 1 hour; f. filtrating said mixture to separate the remaining bone materials and the aliquot; g. washing said bone material with water until the pH of the said bone is 7.0; h. drying said bone; and i. keeping the dried bone in the cool and dry place.

10. The process for preparing fish bone powder according to claim 9 wherein the protease enzyme can be selected from the group of proteases derived from plants, animals or microorganisms.

11. The process for preparing fish bone powder according to claim 10 wherein the protease enzyme is the protease complex comprises of serine endopeptidase (E.C 3.4.21.62) and metalloendopeptidase (E.C 3.4.24.28)

12. The process for preparing fish bone powder according to claim 1 wherein the fish bone is the bone obtained from marine or fresh water fish.

13. The process for preparing fish bone powder according to claim 12 wherein the fish bone is the bone obtained from the marine fishes selected from the group of but not limited to tuna, mackerel or salmon.

14. The process for preparing fish bone powder thereof according to claim 12 wherein the fish bone is tuna fish bone.

15. The process for preparing fish bone powder according to claim 1 wherein the fish bone powder is obtained from the process.

16. The process for preparing fish bone powder according to claim 15 wherein said fish bone powder comprises the following: protein 20-30%, fat 0.5-2% and ash 50-70%.

17. The process for preparing fish bone powder according to claim 16 wherein said fish bone powder contains the mineral contents comprising: calcium 18-22 g/100 g, phosphorus 5-15 g/100 g, sodium 0.5-1.5 g/100 g, magnesium 0.1-0.5 g/100 g and potassium 0.01-0.1 g/100 g.

18. The process for preparing fish bone powder according to any claim of the previous claims claim 1 wherein said product having the median diameter of the particle size distribution of calcium is lower than 100 microns.

19. The process for preparing fish bone powder according to claim 18 wherein the median diameter of the particle size distribution of calcium is in the range of 0.1 to 30 microns.

20. The process for preparing fish bone powder according to claim 19 wherein the median diameter of the particle size distribution of calcium is at 10 microns.

Description

BRIEF DESCRIPTION OF THE DRAWING

[0016] Specific implementations of the invention will now be described with reference to the following tables, which are provided by way of example, and not limitation.

[0017] Table 1 is showing protein, fat and TBA contents of dried tuna calcium after alkali soaking at different time;

[0018] Table 2 is showing color of dried tuna calcium after alkali soaking at different time;

[0019] Table 3 is showing protein and fat content of dried tuna calcium after treated with hexane;

[0020] Table 4 is showing protein, fat and TBA contents of dried tuna calcium after treated with different protease enzymes;

[0021] Table 5 is showing protein, fat and TBA contents of dried tuna calcium after treated with the combination process of soaking with alkali and protease enzyme treatments;

[0022] Table 6 is showing protein, fat and TBA contents of dried tuna calcium with the combined processes of soaking with alkali and enzymatic treatments with protease

[0023] Table 7 is showing protein, fat and TBA contents of dried tuna calcium pretreated with cooking with hot water and steam and treated with Protease enzyme in comparison to the combined process of soaking with alkali and enzymatic treatment with protease;

[0024] Table 8 is showing color and appearance of dried tuna calcium pretreated with cooking with hot water and steam and treated with Protease enzyme in comparison to the combined process of soaking with alkali and enzymatic treatment with protease;

[0025] Table 9 is showing analysis result of major component of tuna calcium;

[0026] Table 10 is showing composition of tuna calcium compared with normal fish frame and percent on dry basis thereof; and

[0027] FIG. 1 is showing the graph of fat and TBA contents of dried tuna calcium after treated with the combination process of soaking with alkali and protease enzyme treatments.

DETAILED DESCRIPTION OF THE INVENTION

[0028] A process of preparing fish bone powder according to this invention comprises the following steps: [0029] a. Pre-treatment of fish bone; [0030] b. Removal of non-polar components from the pre-treated bone obtained from step a with alkali solution or solvent; [0031] c. Drying of the alkali or solvent treated bone obtained from the step b; and [0032] d. Milling or pulverizing of the dried bone obtained from step c. [0033] The pre-treatment of fish bone according to this invention comprises of the following steps; [0034] a. Removal of blood meat from the bone; [0035] b. Pre-heating the bone at 80-120? C. for 50-90 minutes; [0036] c. Reducing the size of the pre-heated bone to 0.5 cm; and [0037] d. Washing the bone obtaining from step c. with water.

[0038] The removal of non-polar components from the pre-treated bone with the alkali solution comprises the following steps; [0039] a. Mixing the said pre-treated bone with the alkali solution at the concentration of 0.2-1% (w/v) and the ratio between the said crushed bone and the said alkali solution is the range of 1:1-2 (w/v); [0040] b. Heating the mixture obtaining from step a at the temperature between 70-100? C. for 45-120 minutes; and [0041] c. Washing the bone obtaining from step b with water.

[0042] The preferred solvent used for removal of non-polar components from the pre-treated bone is isopropanol or hexane.

[0043] In another embodiment, a process of preparing fish bone powder comprises the following: [0044] a. Pre-treatment of fish bone. [0045] b. Removal of protein components from the pre-treated bone obtained from step a with an enzyme or the combination of enzymes; [0046] c. Drying of the bone obtained from step b; and [0047] d. Milling or pulverizing of the dried bone obtained from step c.

[0048] Furthermore, the removal of protein components from the pre-treated bone with an enzyme or the combination of enzymes comprises of the following steps; [0049] a. Mixing the pre-treated or alkali treated bone with water at the ratio of pre-treated or alkali treated bone and water between 1:1-2; [0050] b. Adjusting the pH of the mixture obtained from step a to 8.0-8.5 with NaOH or KOH; [0051] c. Adding the enzyme or the combination of enzymes selected from the group of protease (dosage 0.2%) to the said mixture; [0052] d. Incubating the said mixture with enzymes at the temperature between 50-55? C. with the agitation speed between 1000-1500 rpm for 0.5-1.5 h; [0053] e. Inactivation of the enzymes by heating the said mixture at the temperature above 90-95? C. for at least 1 hour; [0054] f. Filtration the said mixture to separate the remaining bone materials and the aliquot; [0055] g. Washing the said bone material with water until the pH of the said bone is 7.0; [0056] h. Drying the said bone; and [0057] i. Keeping the dried bone in the cool and dry place.

[0058] Wherein the protease enzyme can be selected from the group of proteases derived from plants, animals or microorganisms, preferably, the enzyme is Protamex enzyme (protease complex: serine endopeptidase E.0 3.4.21.62 and metalloendopeptidase E.0 3.4.24.28, Novozyme) [0059] In another embodiment, a process of preparing fish bone powder comprising: [0060] a. Pre-treatment of fish bone; [0061] b. Removal of impurities from the pre-treated bone obtained from step a with boiling water at 100? C.; [0062] c. Drying of the bone obtained from step b; and [0063] d. Milling or pulverizing of the dried bone obtained from step c.

[0064] The calcium product obtained from this invention has a particle size of less than 100 microns (micrometers) or in the range of 0.1 to 30 microns, but most preferably at 10 microns, and experiments below are the examples of the embodiments according to this invention.

Experimental 1:

[0065] This experiment shows the effect of the alkali soaking time on final fat, protein, TBA contents and color of dried tuna calcium.

Materials and Method:

[0066] The main frame of tuna bone was crushed to size 1-2 cm then soaked the crushed bone in sodium hydroxide solution (0.5%) with the ratio of crushed bone: NaOH solution at 1:1 at the temperature between 90-95C, for 1 hour. The alkali-treated bone was rinsed with tap water until the pH of alkali-treated bone is neutral before drying in hot air oven at 90 C for 1 hour. The dried crushed bone is referred to as dried tuna calcium in this invention.

[0067] It is clearly shown that alkali treatment can significantly reduce the fat content and the TBA value of crushed bone as shown in Table 1.

[0068] The results in tables 1 and 2 show that alkali treatment can remove muscle protein and the increase of alkali soaking time slightly reduces fat and TBA content of the dried tuna calcium. It also helps to improve the color of tuna calcium.

Experimental 2:

[0069] This experiment shows the fat removal by using solvent.

Material and Method:

[0070] The main frame of tuna bone was crush to size 1-2 cm then soaked crushed bone in sodium hydroxide solution (0.5%) with the ratio of crushed bone: NaOH solution at 1:1 at the temperature between 90-95? C., for 1 hour. The alkali-treated bone was rinsed with tap water until the pH of alkali-treated bone is neutral before drying in hot air oven at 90 C for 1 hour. The dried tuna calcium is mixed with hexane with the ratio 1:5 (dried tuna calcium: hexane) before incubation of the mixture at 58-60? C. for 30 min. in a shaking water bath. Filter the solvent extracted, dried tuna calcium and dry the said material with hot air oven at 37? C. for 48 hr to remove solvent residue.

[0071] The result shows that hexane extraction helps to reduce the fat content of dried tuna calcium.

Experimental 3:

[0072] This experiment shows the bone cleaning process by using protease enzyme.

Material and Method:

[0073] The main frame of tuna bone was crush to size 1-2 cm. The crushed bone is mixed with water at ratio 1:1 and protease enzyme at dosage 2 g/Kg was added to the crushed bone. Incubate the said mixture at the temperature of 50-55? C. for 60 mins in a water bath shaker. Heat the mixture to 90? C. for 60 min in order to inactivate the enzyme activity. Separate the solid part by filtration and rinse the remaining bone with water. The said bone is dried in hot air oven at 90? C. for 1 hour.

Experimental 4:

[0074] This experiment shows the bone cleaning process by using the combination of alkali soaking and protease enzyme.

Materials and Method:

[0075] The main frame of tuna bone was crush to size 0.5-1 cm then soaked the crushed bone in sodium hydroxide solution (0.5%) with the ratio of crushed bone: NaOH solution of 1:1 at 90?-95? C., for 1 hour. The treated crushed bone was rinsed with tap water until the pH of alkali-treated bone is neutral before drying. The treated bone is mixed with water at the ratio of 1:1. Protease enzyme was added at dosage of 0.2 g/100 g crushed bone and incubate the said mixture at 50-55? C. for 60 mins in water bath with agitation. Heat the said mixture to 90? C. for 60 min to inactivate enzyme activity then filter the remaining bone and rinsed by water. The bone is dried in hot air oven at 90 C for 1 hour.

[0076] The results show that bone cleaning by alkali soaking followed by enzymatic treatment with protease can reduce fat and TBA contents of tuna calcium. The Alkali protease (P6) and Protamex show lowest fat and TBA content among 4 treatments.

Experimental 5:

[0077] This experiment shows the effects of pretreatment of tuna bone with hot water and steam on the removal of fat and TBA content of dried bone before the alkali soaking and enzymatic treatments.

Material and Method:

[0078] The main frame of tuna bone was treated with hot water and steam at 95? C. for 45 min before crushing the said bone to size 0.5-1 cm. The crushed bone was then soaked in sodium hydroxide solution (0.5%) with the ratio of 1:1 at 90-95? C., for 1 hour and rinsed with tap water to remove alkali residue. The treated bone was mixed with water at ratio of 1:1. Protease enzyme was added at dosage of 0.2 g/100 g crushed bone and incubate the mixture at 50-55? C. for 60 mins in water bath with agitation. The mixture was heated at 90? C. for 60 min in order to inactivate the enzyme activity. Filter the solid part and rinsed with water. The remaining bone is dried in hot air oven at 90? C. for 1 hour.

Experimental 6:

[0079] This experiment shows the effect of cooking tuna bone by hot water and steam before crushing on fat and TBA contents of dried tuna calcium treated with protease enzyme in comparison to the combined process of soaking with alkali and enzymatic treatment with protease.

Materials and Method:

[0080] The main frame of tuna bone was cooked with hot water and steam at 95? C. for 45 min before crushing to size 0.5-1 cm.

[0081] The precooked and crushed bone was soaked in sodium hydroxide solution (0.5%) with the ratio of 1:1 at 90-95? C., for 1 hour and rinsed with tap water to remove alkali residue.

[0082] The alkali treated bone was mixed with water at the ratio of 1:1. Protease enzyme was added at dosage of 0.2 g/100 g to the crushed bone and incubate at 50-55? C. for 60 mins in water bath with agitation. The mixture was heated to 90? C. for 60 min in order to inactivate the enzyme activity. Filter the solid part and rinsed with water. The remaining bone is dried in hot air oven at 90? C. for 1 hour.

[0083] The result shows that pretreatment by cooking with hot water helps to reduce the fat content better than cooking with steam. Soaking the crushed bone with alkali also helps to improve the appearance of the tuna calcium. Protease enzyme further helps to lower the fat content and reduce oxidation (TBA value) of tuna calcium.

[0084] The fish bone powder obtained from the processes according to this invention contain the component as shown in table 9. As mentioned above, the most preferred fish bone powder comprises the following components: protein 20-30%, fat 0.5-2% and ash 50-70%. And mineral contents of the said fish bone powders comprising calcium 18-22 g/100 g, phosphorus 5-15 g/100 g, sodium 0.5-1.5 g/100 g, magnesium 0.1-0.5 g/100 g and potassium 0.01-0.1 g/100 g. The element analysis shows that ratio of Ca/P of tuna calcium is 1.86 which is within the range of natural calcium found in bone (Ca/P 1.6 -2.0).