Utilize small size of bolti and sardine fish in preparing fish based weaning foods rich in protein, essential amino acids, fat high in omega 3 fatty acids, minerals and vitamins was investigated. The proximate composition, nutritional value, physical and sensorial properties were evaluated, The results of the chemical composition showed that the moisture content of fish based weaning food purees ranged from 67.73% to 72.05%. On dry weight basis, the five prepared formulations considered rich in protein (37.39% - 44.86%), fat (26.55% - 30.43%), ash (6.53% - 12.23%) and low in carbohydrates (20.70% - 22.18%). Using fish bones with muscles in preparing weaning food puree caused a marked rise in its content of Ca, P, Fe, and Zn levels especially in purees formulated from bolti. Weaning food purees containing sardine fish rich, in fat, were higher in vitamin A and D than those formulated from bolti one. Palmitic acid (C16:0), stearic acid (C18:0), and myristic acid (C14:0) represented the major saturated fatty acids in the prepared formulations. Weaning food purees containing sardine fish had relatively higher levels of sulfur - containing amino acids and slight lower values of lysine, alanine and glycine than these including bolti fish. The In vitro protein digestibility index (IVPDI) of the different formulations was found to be 100%. The visual colour of such products can be described as yellowish. Except hardness, the other texture characteristics; cohesiveness, springiness, gumminess, and chewiness of the weaning food purees did not significantly change. The children ’s mothers accepted the appearance, flavor , and mouth feel of all weaning food purees prepared in this study.
Through the first month of life, an infant is fed on breast milk or formula. After four to six months of age, the requirements of child nutrition are increased. Therefore, the use of supplementary feeding, weaning foods, is necessary. Weaning has been defined as the process of expanding the diet to include foods and drinks other than breast milk or infant formula. Hence, most important aspect of weaning is the introduction of solid foods, and not to stop the breast milk. Most mothers give their babies at the age of about 6 months some diluted cow's milk, biscuits, bananas, cereal products, meat and fish [
Food and Agriculture Organization (FDA) and Integrated Child Development Scheme have advised developing weaning foods from the locally available foods to avoid children malnutrition [
Nutritional quality of weaning foods based on their formula ingredients. It should provide necessary extra energy and micronutrients. Cereal, vegetables, meat, eggs, fish and their mixture can use to prepare such products. On the commercial scale, such weaning products are available in different varieties ranging from dry to sterilized canned puree form [
Generally using supplementary feeding in this critical stage of child life must concern on providing optimal caloric content, protein containing balanced amino acids composition and macronutrients. Protein is important to ensure adequate growth and organs development. Carbohydrate is essential to provide calories. Also, lipids are the primary source of caloric intake primarily in the form of triglycerides, exogenous cholesterol, essential and free fatty acids. Nutrient elements such as Ca, P, Fe, Zn, and Mg are important to avoid diseases such as rickets, Fe—deficiency and abnormal development. Also, water and fat soluble vitamins play an essential role in the growth and development of skin, eyes, bones, and pulmonary epithelium [
[
Therefore, the aim of this study was to utilize the previous species of fish in preparing new fish based formulating weaning foods rich in protein and essential amino acids, fat high in omega 3 fatty acids, minerals, and vitamins after removing fish odour and mixing with other ingredients. The proximate composition, nutritional value, physical and sensorial properties of these formulations were evaluated after preparing in sterilized puree form in small glass jars to introduce as homogenized weaning foods.
In Egypt, a large amount of small size underutilized bolti (Talibia nilotica) and sardine (Sardina pilchardus) fish are found in fish market in the first and the end of their maximum production seasons. It is considered an important source of protein, fat, and minerals. Generally, fish muscle is the main component of many homogenized weaning foods. Fishbone is also rich in minerals especially Ca and P. It is technically possible to process the flesh of some fish with bone by careful prior homogenization and thus raise their mineral content [
Small fish sizes (20 - 25 fish/Kg) of bolti (Talibia nilotica) and sardine (Sardina pilchardus) were obtained at the beginning of 2020 from Alexandria fish market, Alexandria, Egypt. Fresh onions, refined fine iodized common salt, unsalted butter 100% cow milk (Lurpak butter), instant whole milk powdered, fresh celery, food grade corn starch, 22% tomato paste,5% vinegar and small glass jars, 250 g capacity, were obtained from local market, Alexandria city, Egypt. All reagents and chemicals used in this study were an analytical grade.
Weaning food formulations: Each of bolti and sardine fish species was cleaned and washed with water. The head, tail and fins of each fish were removed before soaking in water solution containing 2% common salt and 2% vinegar for nearly 5 - 10 min to remove the fishy odor then washed by running water. Five samples of minced fish were prepared using fish muscles and/or fish muscles with their bones, whole fish. The different samples were bolti muscles (F1), bolti muscles with its bones (F2), sardine muscles (F3), sardine muscles with its bones (F4) and a mixture of 1:1 w/w of muscles of bolti and sardine (F5). Each one of the above samples was minced 3 times through Luska hand mincer (particle size 0.5 cm.), then cooked at 96˚C for 15 min in 100% distilled water in water bath with continuous stirring to get puree structure before adding in weaning food formulations at 24% wet weight basis as shown in
1) Physicochemical properties: The colour values, lightness (L*), redness (a*) and yellowness (b*), of weaning food samples were evaluated using a Hunter Lab Ultra Scan, VIS model, colorimeter (USA). The instrument was standardized during each sample measurement with a black and white tail (L* = 94.1, a*
| Percentage in weaning foods | Ingredients |
|---|---|
| 24.0 | Fish puree |
| 6.0 | Starch |
| 5.0 | Butter |
| 12.0 | Powdered milk |
| 4.0 | Tomato concentrate |
| 4.0 | Onion |
| 2.0 | Celery |
| 1.0 | Salt |
| 42.0 | Water (distilled) |
= 1.12, b* = 1.26). Mean of five readings of each colour index of Hunter scale (L*, a*, b*) were recorded [
2) Chemical analysis
a) Proximate composition: Moisture, crude protein, crude fat and ash contents of weaning foods were determined according to [
b) Amino acids analysis and nutritional value: Amino acids in acid hydrolysate of weaning foods samples were analyzed using the high performance Amino Acid Analyzer (Biochrom 30) according to the method described in [
In vitro protein digestibility index (IVPDI) was determined according to [
Computed protein efficiency ratio(C-PER) and computed biological value of protein (C-BV) were calculated according to [
i) (C-PER):
PER A = − 0. 684 + 0.456 Leu − 0.047 Prol
PER B = − 0.468 + 0. 435 Leu + 0.10 5 Tyr
PER C = − 1.816 + 0.435 Meth + 0.780 Leu + 0.21 1 Hist − 0. 944 Tyr
The mean of these equations was taken as C-PER value.
ii) C-BV (%) = 39.55 + 8.89 Lysine.
The total calorie (energy) content of each weaning food formula was calculated by multiplying the protein and carbohydrates value by a factor of 4 and the fat value by 9 [
iii) Fatty acids profile: Fat of weaning food was extracted and fatty acids methyl esters were prepared (AOAC, 2000) before analysis by gas chromatographic analysis using ACME model 6100 GC (Young LIN Instrument Co., Korea) fitted with a split injector and FID detector. Nitrogen was used as the carrier gas with a flow rate of 0.5 ml/min. The component were separated on 30 m SP-2380 fused—silica capillary column with 0.25 mm i.d. and 0.2 µm film thickness (Supelco, Belleonte, PA) and the detector temperature was set at 260˚C. The injector temperature was set at 220˚C and in split mode (split ratio 1:80). The column was initially maintained at 140˚C for 5min, and the temperature was subsequently increased to 240˚C at rate of 4˚C/min [
iv) Minerals determination: Ca, Fe, P and Zn were determined using inductively coupled plasma atomic emission spectroscopy (ICP-OES) according to standard method US EPA Meth d 200.7 and US EPA Method 6010 C.
v) Vitamins: Vitamin A and D were determined by HPLC System Controller (SCL-6A) using a Shimadzu CTO 6-A column supplies with a SPD-6AV detector (Japan), under high-pressure solvent delivery unit (LC-20AD) according to [
The prepared fish based weaning food purees were subjected for the sensory evaluation using the following questionnaire to record the response of ten of the mothers of children in agriculture collage pre-schooling house, Alexandria, Egypt.
1) How did you like the puree?
A) Like B) OK C) Dislike
2) According to your acceptability, describe each of the following characteristic; appearance, flavor, feel in mouth and easy to use of the purees as good, fair or poor.
Data of proximate analysis and physicochemical properties were statistically analysied and expressed as Mean ± Standard deviation using the software Graphpad Insat 2000 version.
Results in
On dry weight basis, the five prepared weaning food purees considered rich in protein (37.39% - 44.86%), fat (26.55% - 30.43%), ash (6.53% - 12.23%) and low in carbohydrates (20.70% - 22.18%),
The commercial weaning foods including fruit puree presented higher content of carbohydrates than the vegetable, meat and fish ones, which is not surprising if it is considered the natural starch content of these products and the natural sugar from fruits [
As seen from
According to [
It is clear from the data in
Data in
| Components | Fish based weaning food purees* | |||||
|---|---|---|---|---|---|---|
| F1 | F2 | F3 | F4 | F5 | ||
| 1-Moisture 2-Proximate composition (%) On dry weight basis Crude Protein Crude fat Ash Carbohydrates** Total calories Percentage of protein calories to total cal. Minerals (mg/100g) Calcium (Ca) Phosphours (P) Ca/P ratio Iron (Fe) Zinc (Zn) Vitamin A (µg/100g) Vitamin D (µg/100g) | 72.05 ± 1.00a 44.86 ± 1.11a 26.55 ± 1.13c 6.53 ± 0.50d 22.06 506.63 35.46 436.67 340.91 1.28 17.86 10.73 472.011 133.422 | 67.96 ± 0.95b 43.27 ± 1.00b 27.27 ± 1.1bc 8.64 ± 0.25c 20.82 501.79 34.49 1277.42 850.98 1.5 25.64 7.76 355.520 45.622 | 67.73 ± 0.6b 37.39 ± 1.5c 30.43 ± 1.0a 10.00 ± 1.0b 22.18 512.15 29.20 623.24 467.47 1.3 11.37 4.19 762.715 738.392 | 71.02 ± 1.0a 38.07 ± 1.04c 28.36 ± 1.00b 12.23 ± 1.07a 21.34 492.88 30.89 710.78 583.68 1.22 13.39 5.96 843.087 206.302 | 71.27 ± 1.1a 44.00 ± 2.63a 27.01 ± 0.98c 8.30 ± 0.20c 20.70 501.89 35.06 534.34 398.58 1.36 14.90 7.41 620.434 429.857 | |
*Bolti muscles (F1), bolti muscles with its bones (F2), sardine muscles (F3), sardine muscles with its bones (F4) and a mixture of 1:1 w/w of muscles of bolti and sardine (F5). **Calculated by difference. Different letters in rows indicate significant different values at P < 0.05.
| Fatty acid % | Fish based weaning food puree* | ||||
|---|---|---|---|---|---|
| F1 | F2 | F3 | F4 | F5 | |
| Saturated fatty acids (SFA) Caprylic acid (C8:0) Capric acid (C10:0) Lauric acid (C12:0) Myristic acid (C14:0) Palmitic acid (C16:0) Stearic acid (C18:0) Arachidic acid (C20:0) Total (Σ SFA)* | 0.56 1.74 2.74 11.18 33.02 12.44 0.44 62.12 | 0.55 2.09 2.06 9.13 32.66 13.52 0.55 60.56 | 0.36 1.19 2.21 10.15 33.87 13.39 0.44 61.61 | 0.56 1.74 2.74 11.18 33.02 12.44 0.44 62.12 | 0.41 1.45 2.43 10.64 33.62 13.03 0.41 61.99 |
| Mono unsaturated fatty acids (MUFA) Myristolic acid (C14:1n9c) Palmitolic acid (C16:1n9c) Eicosenoic acid (C20:1) Oleic acid (C18:1n9c) Total (Σ MUFA)% | 1.01 3.97 0.89 26.28 32.15 | 1.02 3.10 1.01 27.59 32.72 | 0.88 3.36 0.15 28.41 32.80 | 1.01 3.97 0.89 26.28 32.15 | 0.92 3.73 0.47 27.39 32.51 |
| Poly unsaturated fatty acids (PUFA) Linoleic acid (C18:2n6c) Linolenic acid (C18:3n3) Total (Σ PUFA)% | 2.64 0.61 3.25 | 1.53 1.88 3.41 | 2.51 0.77 3.28 | 2.64 0.61 3.25 | 2.42 0.63 3.05 |
| saturated:unsaturated ratio | 1:0.56 | 1:0.59 | 1:0.58 | 1:0.56 | 1:0.57 |
*Bolti muscles (F1), bolti muscles with its bones (F2), sardine muscles (F3), sardine muscles with its bones (F4) and a mixture of 1:1 w/w of muscles of bolti and sardine (F5).
food purees. Palmitic acid (C16:0), stearic acid (C18:0), and myristic acid (C14:0) represented the major saturated fatty acids in the five weaning food purees. Meanwhile the minor ones were lauric acid (C12:0) and capric acid (C10:0). The others saturated fatty acids were found in very low concentrations. The main sources of short chain fatty acids are butter and powder whole milk which are used as an ingredient at 5% and 12% during preparing the purees. Among monounsaturated fatty acids, oleic acid (C18:1) was the predominate one followed by palmitolic acid (C16:1), myristolic acid (C14:1) and eicosenoic acid (C20:1). The last two fatty acids were found in low values. Linoleic acid (C18:2) considers the main polyunsaturated fatty acid in the five purees. It is ranged from 1.53% - 2.64%. Except in F2 puree which is made from whole bolti fish, linolenic acid (C18:3) was present in low level, less than 1%. Generally, it can be noticed that fat of the prepared five weaning food purees consisted mainly of saturated fatty acids(more than 60%), monounsaturated fatty acids (more than 25% principally oleic acid) and low values of polyunsaturated fatty acids (less than 4% mainly linoleic acid). Slight changes can be noticed in fatty acids profile of the five food purees due either to species and/or the used tissue of the fish. This is may be attributed that the major fat source in such purees was milk fat, butter and powder milk. Foods contained polyunsaturated fatty acid (PUFA) which in babies promote brain development, improves psychomotor performance and visual functions [
As seen from
| Amino Acids(AA) (g/100g protein) | Fish based weaning food puree* | Provisional AA pattern** | ||||
|---|---|---|---|---|---|---|
| F1 | F2 | F3 | F4 | F5 | ||
| Isoleucine Leucine Lysine Methionine Cystien Phenylalanine Tyrosine Threonine Valine Hisitidine Argnine Aspartic acid Glutamic acid Serine Proline Alanine Glycine IVPDT (%) C-PER C-BV | 5.84 7.73 9.76 1.49 0.98 3.78 2.74 4.11 5.55 1.68 2.9 10.10 17.75 4.56 5.95 5.06 4.78 100 3.12 126.32 | 5.65 7.55 9.68 1.32 0.99 3.85 3.06 4.21 5.91 1.78 3.21 10.06 18.66 4.27 5.67 5.41 4.45 100 2.99 125.61 | 5.23 8.04 8.01 2.66 0.88 3.75 3.91 4.46 5.64 2.23 3.26 9.89 10.73 4.55 5.62 4.96 3.88 100 2.78 110.76 | 5.05 8.11 8.21 2.59 0.79 3.89 3.97 4.52 5.68 2.13 3.15 9.92 18.84 5.62 5.66 3.82 3.91 100 3.32 112.52 | 5.31 8.01 8.90 2.17 0.91 3.81 2.72 4.24 5.52 2.15 3.36 10.24 18.21 5.61 6.09 4.11 4.33 100 3.24 118.67 | }9 4.2 }2.2 }5.6 2.8 4.2 |
*Bolti muscles (F1), bolti muscles with its bones (F2), sardine muscles (F3), sardine muscles with its bones (F4) and a mixture of 1:1 w/w of muscles of bolti and sardine (F5). **FAO recommended provisional amino acid pattern for preschool children.
Results of amino acids in
The IVPDI of the five prepared weaning food puree was found to be 100%,
[
Differences in the calculated values of C-PER and C-BV,
1) Colour: Data in
2) Texture: Except hardness, the other texture characteristics; cohesiveness, springiness, gumminess, and chewiness of five weaning food purees did not significantly changed,
| Charater | Fish based weaning food puree* | ||||
|---|---|---|---|---|---|
| F1 | F2 | F3 | F4 | F5 | |
| 1-Colour Lightness (L*) Redness (a*) Yelloness (b*) 2-Texture Hardness (g) Cohesiveness Springiness (mm) Gumminess (g) Chewiness (mg) Sensory Properties Appearance Feel in mouth Flavour Easy of using | 54 ± 1.20a 10 ± 0.81a 26 ± 0.21a 118 ± 1.43a 0.5 ± 0.01 4.77 ± 0.03 24 ± 1.00 1.14 ± 0.10 Good Good Good Good | 50.78 ± 1.05b 12.62 ± 0.41a 25.88 ± 0.32a 67 ± 0.62c 0.51 ± 0.01 3.93 ± 0.02 25 ± 0.12 1 ± 0.10 Good Good Good Good | 52.00 ± 0.14b 10.30 ± 0.74a 24.71 ± 1.23a 61 ± 0.51d 0.76 ± 0.01 3.29 ± 0.04 24 ± 0.10 0.8 ± 0.01 Good Good Good Good | 53.12 ± 1.42ab 10.91 ± 0.42a 25.23 ± 1.32a 110 ± 1.00b 0.49 ± 0.01 4.73 ± 0.03 26 ± 0.21 1.1 ± 0.01 Good Good Good Good | 52.81 ± 1.06ab 10.21 ± 0.42a 26.02 ± 1.2a 63.8 ± 2.01d 0.48 ± 0.01 5.84 ± 0.41 24 ± 0.32 0.98 ± 0.01 Good Good Good Good |
responsible of the relative increase of hardness in such products. Most weaning food is semisolid with soft texture. The flow characteristics of infant foods must be thick enough to stay in the spoon, but not too thick as to make swallowing difficult [
3) Sensorial properties: Results in
The above data confirmed the successful use of under-utilized small sizes fish at 24% as an ingredient in preparing an edible good acceptable sterilizing weaning food purees rich in protein, fat, minerals especially Ca and P in addition to high nutritive value.
The authors are thankful to Prof. Dr. Yehia Gamal EL-Din Moharram, Prof. of Food Science and Technology, Faculty of Agric., El-Shatby, Alexandria University for his support and valuable advice during carrying out the work.
The authors declare no conflicts of interest regarding the publication of this paper.
Abdel-Salam, F.F., Abd-El-Aziz, N.A. and Hashem, S.M. (2021) Utilization of Small Size Bolti (Talibia nilotica) and Sardine (Sardina pilchardus) Fish in Preparing Canned Weaning Food Purees. Food and Nutrition Sciences, 12, 719-731. https://doi.org/10.4236/fns.2021.127054