Patent Publication Number: US-4221819-A

Title: Water and color retention treatment for frozen processed shrimp

Description:
This is a continuation of application Ser. No. 820,981, filed Aug. 1, 1977, now abandoned. 
    
    
     Frozen seafood exhibits a significantly extended shelf life over refrigerated or iced seafood. However, a common fallacy is the assumption that freezing seafood obviates all quality deterioration. Thawed seafood cooked and prepared for consumption often exhibits such palatably undesirable characteristics as dryness, toughness, and a translucent raw appearance. 
     Fresh seafood generally contains some 80 percent water. Although the major portion of this retained water is chemically bound to muscle and tissue and accordingly is not easily released, about 10 to 15 percent of the water normally is lost during processing and handling from the time of actual catch to thawing of the frozen seafood for cooking. This water loss results in adverse changes in texture, juiciness and appearance. 
     In order to minimize fluid loss, seafood packers have found that soaking the seafood in an NaCl solution containing a phosphate compound is effective. Various studies have been reported in the literature directed to phosphate seafood treatment (e.g., A. Gordon, Journal of Food Manufacture, July, 1971 (pp. 57-58); D. M. Gibson and C. K. Murray, Journal of Food Technology, (1973), 8, (pp. 197-204). However, while this method of treatment does serve to reduce loss of water, disadvantages are still encountered in that the thawed seafood often is left with an unappetizing translucent or raw appearance and a somewhat rubbery texture, even after cooking. 
     It has now been discovered that including calcium and/or magnesium in the phosphate treatment solution allows for adequate water uptake by soaked seafood to compensate for moisture loss during processing, and further results in a desirable opaque, white, cooked seafood product with improved texture. Advantageous treatment of shrimp particularly has been achieved. 
     Any of the various phosphates known to be useful in the treatment of processed fish can be used in the present treatment composition. Typical commercial phosphates which have been found useful in seafood soak solutions are polyphosphates, such as sodium tripolyphosphate (STPP), tetra sodium pyrophosphate (TSPP) and sodium hexametaphosphate (SHMP); sodium orthophosphates such as sodium dihydrogen phosphate (MSP); disodium phosphate (DSP), and trisodium phosphate (TSP); and mixtures thereof. A discussion of the effectiveness of these various phosphates in water-loss prevention treatment of frozen prawns is provided in an article by C. Mathen in Fishery Technology, 5, (1968), 2, (pp. 104-112). 
     While phosphate or phosphate-NaCl soak solutions have been shown to be adequate in arresting water-loss in processed seafoods, the thawed product even after cooking, evidences quality deterioration in the form of an undesirable color loss and a tough rubbery texture. According to the present invention, the effectiveness of the phosphate treatment compositions is enhanced by the inclusion of calcium and/or magnesium in the phosphate soak solutions by utilizing a calcium or magnesium phosphate salt, or, preferably, by including a supplemental calcium or magnesium salt in the phosphate composition. The problem of texture and color-loss has now been discovered to be related to trace metal depletion in the shrimp tissue during the phosphate treatment. Calcium and/or magnesium salts in the soak solution serve as a source to replenish these metals and to help maintain the original tissue chemical make-up and condition, resulting in white tissue coloration and a natural tender texture. While any food grade calcium or magnesium salts may be used in the treatment composition of the invention, such as those salts listed in Food Chemicals Codex, 2nd Edition, National Academy of Sciences, preferred salts are sulfates, iodates, gluconates, citrates, chlorides, carbonates, bromates, ascorbates, and acetates. Chlorides and sulfates are particularly preferred. Calcium salts, and in specific calcium chloride, are most preferred. 
     The calcium and/or magnesium salts can be added to the phosphate soak solution in any effective amount which serves to augment the calcium or magnesium content of the soaked seafood product. The most effective concentration of these salts generally is dictated by the amount of phosphate and the particular type of salt and phosphate utilized in the treatment solution. Phosphate ions are reactive with ions such as Ca +2  and Mg +2  and tend to produce soluble metal-chelate compounds. Such chelation-extraction probably is the original cause of the magnesium and calcium depletion from shrimp tissue treated with the prior art phosphate solutions. So as not to adversely affect the phosphate concentration in the solution and yet maximize the calcium and/or magnesium content, the calcium and/or magnesium salt generally should be added in as concentrated an amount so as to result in a solution, without initiating polyphosphate-chelate precipitation. Calcium chelate compounds are more soluble in aqueous solution than magnesium chelate compounds; therefore, calcium salts can be used in a higher concentration and thus more conveniently and effectively than magnesium salts and accordingly are preferred. 
     The treatment solution components can be used in any effective concentration. The most effective concentration make-up of the seafood treatment solution varies with the particular phosphate used and the type of seafood being processed. Polyphosphate solutions are preferred, and, in particular, sodium tripolyphosphate (STPP) solutions are most preferred. In general, about 1 to about 40 percent by weight aqueous phosphate solutions normally are used. STPP solutions in a concentration range of about 3 to about 30 percent are preferred; about 4 to about 7 percent solutions are particularly preferred. Maximized water take-up and retention during treatment has been accomplished by utilizing a NaCl solution of the phosphate. Any effective sodium chloride concentration can be used. However, it has been found preferable to use a solution including about 0.1 to about 30 percent by weight weight sodium chloride. About 1 to about 10 percent solutions, in particular about 1.4 to about 1.6 percent by weight NaCl solutions, are most preferred. As discussed above, any effective concentration of Ca or Mg salts may be used. In general, supplemental Ca and/or Mg salts in about 0.1 to about 50 percent solutions are preferred; about 0.2 to about 10 percent solutions are particularly preferred. The preferred polyphosphate, sodium tripolyphosphate, has been discovered to be the most compatible polyphosphate salt when used in conjunction with the additive calcium and/or magnesium salts of the invented composition. A solution containing about a 1.5-2.5/1 molar ratio of STPP or CaCl 2  is preferred; about a 2/1 ratio is particularly preferred. Expressed in other relative terms, about 0.5 to about 1.0 percent by weight CaCl 2  is most preferred when used in conjunction with the preferred 4 to about  7 percent by weight STPP-NaCl solutions. 
     The aqueous soak solutions used to treat the seafood are prepared by dissolving the select salt compositions in water to form solutions of the desired concentrations. The dry salt compositions of the present invention may be formulated in any proportions so as to produce effective concentration proportions when prepared as an aqueous solution, as defined above. The preferred dry salt compositions generally comprise about 40 to about 95 percent by weight phosphate, about 5 to about 45 percent by weight NaCl, and about 2 to about 25 percent by weight calcium or magnesium salt. Most preferably, the compositions comprise about 65 to about 93 percent polyphosphate, about 12 to about 25 percent NaCl, and about 5 to about 11 percent calcium chloride. 
     The actual seafood processing commonly is performed by first preparing the seafood by cleaning the catch (peeling and deveining in the case of shrimp) and then soaking the seafood in phosphate solution. After soaking for an appropriate time to provide a desired amount of water uptake in the treated flesh, the seafood is then removed from the soak solution, drained, and frozen, or cooked and frozen, to store and preserve it for later thawing, cooking and consumption. This soak treatment may also be useful as a treatment step included in other seafood processing techniques, such as icing or canning or freeze-drying. 
     The treatment process of the present invention using a phospate treatment solution, supplemented with Ca and/or Mg salts, may be utilized as a unitary soaking, or alternatively as a two-step soaking. As a two-step procedure, the seafood first is soaked in a Ca and/or Mg salt aqueous solution and then in a standard phosphate solution, or vice versa. A single soaking is preferred, for reasons of cost and convenience. 
    
    
     The invention is further illustrated by the following examples, although it is understood that the invention is not limited to the specific details of these examples. For example, while the examples provided are directed to a composition and process which are shown to be effective in the treatment of shrimp, the invention may also be utilized in treatment of other types of seafood. All parts and percentages are by weight unless otherwise specified. 
     COMPARATIVE EXAMPLE A 
     Effects of Standard Polyphosphate Soak Treatment 
     A standard polyphosphate brine soak solution was prepared by dissolving 12.5 g (4.85%) sodium tripolyphosphate (STPP), and 3.75 g (1.46%) sodium chloride in 241.30 g water at 0° C. in a 400 ml beaker. Peeled and deveined shrimp, 75.53 g, were then added to the solution and allowed to soak at 0° C. for about 20 hours. After this soak period, the shrimp was dried with a paper towel and weighed, indicating a weight gain of 11.58 g (15.30%). The shrimp were then cooked for 3 minutes in 250 ml of water, containing 2 g sodium chloride, at 85° C. The cooked weight of the shrimp was determined to be 58.11 g (23.1% weight loss, based on original weight). The cooked shrimp samples exhibited a translucent, raw-looking appearance and were somewhat rubbery in texture. 
     A portion of the cooked shrimp samples was then oven dried at 110° C. for two days to eliminate all moisture content. The dried samples were then analyzed by conventional atomic absorption techniques to determine the trace metal content of the shrimp tissue. A sample of the untreated shrimp (peeled and deveined without any soak treatment) was also dried and analyzed for trace metals in the same manner. This comparative analysis illustrating the metal depleting effect of the polyphosphate soak treatment is reported in Table I below. 
     
                       TABLE I                                                     
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EFFECT OF                                                                 
CONVENTIONAL TRIPOLYPHOSPHATE SOAK                                        
ON METAL CONTENT OF SHRIMP                                                
         CONTENT IN PPM.sup.1                                             
Metal      Before Soaking After Soaking                                   
______________________________________                                    
Arsenic    1.0            0.6                                             
Mercury    &lt;0.3           &lt;0.3                                            
Cadmium    31             38                                              
Lead       &lt;3             5                                               
Zinc       92             88                                              
Manganese  1.6            1.2                                             
Iron       25             18                                              
Copper     7              6                                               
Calcium    4800           725                                             
Magnesium  1600           635                                             
Phosphorus 6800           30000                                           
______________________________________                                    
 .sup.1 weight basis on ovendried shrimp flesh.                           
 
    
     EXAMPLE I A soak solution according to the present invention was prepared by charging 12.5 g (4.73%) STPP, 3.75 (1.42%) NaCl, and 2.0 g (0.75%) calcium chloride (CaCl 2 ) to 245.8 g water at 0° C. in a 400 ml beaker. The resulting mixture was a somewhat cloudy solution which improved in clarity after about four hours. The peeled and deveined shrimp (63.04 g) were then added to the solution and allowed to soak at 0° C. for about 20 hours. The soaked shrimp were dried with a paper towel and weighed, showing a weight gain of 10.10 g (16%). After cooking the shrimp for three minutes at 85° C. in 250 ml of water containing 2 g of NaCl, the shrimp weighed 54.64 g (13.3% weight loss based on original weight). The cooked shrimp samples exhibited a desirable opaque, white appearance and were of a natural tender texture. 
     A portion of the cooked shrimp samples was then oven dried at 110° C. for two days and thereafter analyzed for trace metals by atomic absorption. 
     In order to offer a comparative picture of treatment effects, a sample of peeled and deveined but untreated shrimp, and a sample of shrimp treated with a standard soak solution in the same general manner as described in Comparative Example A were also oven dried and subjected to trace metal analysis. 
     These comparative results are reported in Table II below. The trace metal analysis demomstrates a clear distinction between the samples treated by the standard solution and the solution of the present invention. These differences may serve to explain the achieved improvement of the present invention in preserving the natural color and texture of the cooked shrimp. 
     
                       TABLE II                                                    
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EFFECT OF ADDED Ca SALTS ON                                               
Ca and Mg LEVELS IN SHRIMP                                                
       Composition of     Observed Metal                                  
Soaking                                                                   
       Soaking Solution (%)                                               
                          Content (ppm)                                   
Time   STPP    NaCl    CaCl.sub.2                                         
                             H.sub.2 O                                    
                                  Ca    Mg   P                            
______________________________________                                    
Un-    --      --      --    --    5,150                                  
                                        1,900                             
                                              6,800                       
treated                                                                   
20 Hours                                                                  
       4.85    1.46    --    93.69                                        
                                    595   495                             
                                             30,000                       
20 Hours                                                                  
       4.73    1.42    0.75  93.10                                        
                                  17,350                                  
                                        1,100                             
                                             32,000                       
______________________________________                                    
 
    
     EXAMPLES II-XIII 
     These examples were carried out in the same general manner as set forth above in Example I, using, however, varied soak treatment solution compositions. The soak solutions contained STPP, NaCl, and calcium and/or magnesium salts. The solution compositions, in weight percent, and the test results are reported in Table III below. 
     
                                           TABLE III                               
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ADDITIONAL EXAMPLES                                                       
                                Initial                                   
                                      Wt.     Wt.  % Loss.sup.2           
Example  Wt. %                                                            
             Salts in Soak Sln.                                           
                           Soaking                                        
                                Shrimp                                    
                                      Gain                                
                                          % Wt.                           
                                              After                       
                                                   After                  
No.  STPP                                                                 
         NaCl                                                             
             MgSO.sub.4                                                   
                  MgCl.sub.2                                              
                       CaCl.sub.2                                         
                           Time Weight (g)                                
                                      (g) Gain                            
                                              Cooking                     
                                                   Cooking                
                                                        Appearance        
__________________________________________________________________________
 2   9.31                                                                 
         --  1.68 --   --  1 hr..sup.1                                    
                                69.96  6.58                               
                                           9.4                            
                                              56.56                       
                                                   19.2 White             
 3   14.51                                                                
         --  1.45 --   --  3.5 hr..sup.1                                  
                                93.25  9.58                               
                                          10.3                            
                                              71.10                       
                                                   23.8 White             
 4   4.89                                                                 
         --  --   0.37 --  17 hr.                                         
                                64.87 15.66                               
                                          24.1                            
                                              44.45                       
                                                   31.5 Translucent       
 5   9.40                                                                 
         1.41                                                             
             --   --   0.75                                               
                           17 hr.                                         
                                75.51 12.56                               
                                          16.6                            
                                              61.10                       
                                                   19.0 White             
 6   12.90                                                                
         --  0.55 --   0.74                                               
                           17 hr.                                         
                                66.84  6.22                               
                                           9.3                            
                                              52.60                       
                                                   21.3 White             
 7   3.89                                                                 
         1.46                                                             
             --   --   0.58                                               
                           20 hr.                                         
                                80.23 11.87                               
                                          14.8                            
                                              66.03                       
                                                   17.7 White             
 8   4.85                                                                 
         1.46                                                             
             --   --   --  72 hr.                                         
                                69.51 17.22                               
                                          24.8                            
                                              58.14                       
                                                   16.4 Translucent       
 9   4.83                                                                 
         1.45                                                             
             --   --   0.58                                               
                           72 hr.                                         
                                69.30 16.52                               
                                          23.8                            
                                              56.77                       
                                                   18.1 White             
10   7.13                                                                 
         1.9 --   --   0.76                                               
                           72 hr.                                         
                                80.87 15.99                               
                                          19.8                            
                                              59.60                       
                                                   26.3 White             
11   9.28                                                                 
         2.78                                                             
             --   --   0.74                                               
                           72 hr.                                         
                                69.50 15.43                               
                                          22.20                           
                                              55.33                       
                                                   20.4 Translucent       
12.sup.4                                                                  
     --  --  --   --   --  --   65.62 --  --  48.35                       
                                                   26.3 White-            
                                                        Shriveled         
13.sup.3,4                                                                
     --  --  --   --   --  --   84.71 --  --  54.49                       
                                                   35.7 White-            
                                                        Shriveled         
__________________________________________________________________________
 .sup.1 Extensive precipitation of chelate compound observed.             
 .sup.2 % loss based on weight of shrimp prior to soaking. Cooking was    
 carried out in a solution of 2 g of sodium chloride in 250 ml of water fo
 three minutes at 85° C.                                           
 .sup.3 Cooked for three minutes at 95° C. in 250 ml water.        
 .sup.4 Untreated shrimp.                                                 
 
    
     EXAMPLE XIV 
     A 400 ml beaker was charged with 25.0 g (8.67%) magnesium sulfate (MgSo 4 ) and 263.30 g water. To the resulting solution was added 68.67 g of peeled and deveined shrimp, which were allowed to soak in the solution for three days at 0° C. The shrimp samples were then dried with a paper towel and weighed to indicate a weight gain of 15.38 g (22.4%). The shrimp were then soaked for a second time in an aqueous solution containing 12.5 g (4.98%) STPP and 3.75 g (1.50%) NaCl. After soaking for 20 hours at 0° C., an additional weight gain of 15.19 g (18.1%) was noted. The shrimp were then cooked for three minutes at 85° C. in 250 ml of water containing 2 g of NaCl. The cooked shrimp weighed 42.92 g (37.5% weight loss based on initial weight) and had a desirable opaque white appearance and natural texture. The analysis results of this sample are shown in Table IV below. 
     EXAMPLE XV 
     Two-stage Soaking Procedure 
     A 400 ml beaker was charged with 50.00 g (17.50%) of magnesium sulfate (MgSO 4 ) and 235.8 g of water. To the resulting solution was added 68.19 g of peeled and deveined shrimp and the mixture was allowed to stand at 0° C. for three days at which time the shrimp were dried with a paper towel and weighed. A weight gain of 9.74 g (14.3%) was observed. The shrimp were then soaked for 20 hours in an aqueous solution containing 12.5 g (4.98%) of STPP and 3.75 g (1.50%) of NaCl and an additional weight gain of 9.81 g (12.6%) was observed. The shrimp were cooked as described in Example XIV. After cooking the shrimp weighed 35.05 g (48.6% loss based on original weight) and had a desirable opaque white appearance and tender texture. Analysis results are shown in Table IV below. 
     
                       TABLE IV                                                    
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EFFECTS OF ADDED Mg SALTS ON                                              
Ca and Mg LEVELS IN SHRIMP                                                
(Two-Stage Soak)                                                          
                         Metal Content                                    
       Composition of Soaking Sln. (%)                                    
                         (ppm)                                            
 EXAMPLES                                                                 
         STPP    NaCl    MgSO.sub.4                                       
                                H.sub.2 O                                 
                                     Ca    Mg                             
______________________________________                                    
14 (Stage 1)                                                              
         --      --       9.50  89.5 404   36,500                         
  (Stage 2)                                                               
         4.98    1.50    --     93.52                                     
                                     228   14,000                         
15 (Stage 1)                                                              
         --      --      17.5   82.50                                     
                                     440   44,000                         
  (Stage 2)                                                               
         4.98    1.50    --     93.52                                     
                                     111   24,500                         
Untreated                                                                 
         --      --      --     --   5,150  1,900                         
______________________________________