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1.
J Sci Food Agric ; 101(9): 3908-3916, 2021 Jul.
Artículo en Inglés | MEDLINE | ID: mdl-33348457

RESUMEN

BACKGROUND: Freezing is considered the most suitable technological treatment to avoid Anisakis infection from eating raw or undercooked fish but modifications of their cuticles upon freezing may reduce their resistance to gastric fluids, provoking a greater release of allergens. This work aimed to study the relationship between freezing-induced modifications of Anisakis simplex s.l., antigen recognition, and resistance to oral and gastric digestion in spiked fish mince. RESULTS: (i) Differences between non-treated larvae and larvae that survived freezing / thawing were studied in terms of respiratory capacity, survival in simulated gastric fluid (SGF), recognition of antigens and allergens. (ii) Untreated (i.e. chilled) mince containing live larvae, mince frozen at two freezing rates, with a negative (uninfected) mince and a positive mince (infected with broken larvae) as controls, were subjected to the oral and gastric phases of a simulated digestion process. Anisakis able to survive freezing showed lower resistance to gastric fluid (i.e. faster mortality as compared to controls). Untreated larvae released significantly more antigens than freeze-surviving larvae but only after 96 h in SGF. In treatments rendering complete larvae mortality, the highest loss of larvae integrity was found upon fast freezing. There was a positive correlation between antigen release and the number of ruptures of larvae after the oral digestion phase, whereas a more complex trend was observed after oral plus gastric digestion phases. CONCLUSION: These results suggest a new factor to consider for sensitized patients and suggest that the numbers of L3 should be reduced before industrial freezing to minimize risk. © 2020 Society of Chemical Industry.


Asunto(s)
Anisakiasis/metabolismo , Anisakis/metabolismo , Antígenos Helmínticos/metabolismo , Contaminación de Alimentos/análisis , Gadiformes/parasitología , Jugo Gástrico/enzimología , Animales , Anisakiasis/parasitología , Anisakis/clasificación , Anisakis/genética , Anisakis/inmunología , Antígenos Helmínticos/análisis , Manipulación de Alimentos , Congelación , Humanos , Larva/clasificación , Larva/genética , Larva/inmunología , Larva/metabolismo , Modelos Biológicos
2.
J Sci Food Agric ; 95(13): 2626-31, 2015 Oct.
Artículo en Inglés | MEDLINE | ID: mdl-25378259

RESUMEN

BACKGOUND: The washing operation of fish muscle is one of the key steps in the production of surimi. The aim of this study was to assess in parasitised minced fish the effect of the washing steps on the allergen removal of Anisakis simplex and on protein yield during surimi processing. Experimentally infected hake (Merluccius merluccius) (50 Anisakis simplex s.s L3 larvae per 100 g of muscle) underwent three successive washing steps with water, phosphate buffer (20 mmol L(-1) ), sodium bicarbonate (60 mmol L(-1) ), or sodium hypochlorite (0.27 mmol L(-1) ) in the surimi processing (4 kg muscle, 1:4 w/v for each solution). Total protein concentration and A. simplex antigens and allergens were evaluated in each waste fraction. RESULTS: The highest removal of Ani s 4 and A. simplex antigens was achieved by using phosphate buffer, together with a good protein yield in the raw surimi. Decrease of the concentration of allergens and antigens as a function of the washing steps rendered a linear trend (R(2) = 0.95 and 0.98 for Ani s 4 and A. simplex antigens, respectively). CONCLUSION: The conditions for an optimal removal of Anisakis allergens can be established and calculated as a function of the washing steps. This approach opens a line to utilise parasitised fish in a safer way. © 2014 Society of Chemical Industry.


Asunto(s)
Alérgenos , Anisakis , Manipulación de Alimentos/métodos , Gadiformes/parasitología , Fosfatos , Alimentos Marinos , Secuencia de Aminoácidos , Animales , Tampones (Química) , Proteínas en la Dieta/análisis , Desinfección/métodos , Humanos , Larva , Músculos/parasitología , Bicarbonato de Sodio , Hipoclorito de Sodio
3.
J Sci Food Agric ; 95(5): 922-7, 2015 Mar 30.
Artículo en Inglés | MEDLINE | ID: mdl-24888867

RESUMEN

BACKGROUND: Some technological and food processing treatments applied to parasitized fish kill the Anisakis larvae and prevent infection and sensitization of consumers. However, residual allergenic activity of parasite allergens has been shown. The aim here was to study the effect of different heat treatments used in the fish canning processing industry on the antigen recognition of Anisakis L3. Bigeye tuna (Thunnus obesus) and yellowfin tuna (Thunnus albacares) were experimentally infected with live L3 Anisakis. After 48 h at 5 ± 1 °C, brine was added to the muscle, which was then canned raw (live larvae) or heated (90 °C, 30 min) (dead larvae) and treated at 113 °C for 60 min or at 115 °C for 90 min. Anisakis antigens and Ani s 4 were detected with anti-crude extract and anti-Ani s 4 antisera respectively. RESULTS: Ani s 4 decreased in all lots, but the muscle retained part of the allergenicity irrespective of the canning method, as observed by immunohistochemistry. Dot blot analysis showed a high loss of Ani s 4 recognition after canning, but residual antigenicity was present. CONCLUSION: The results indicate that heat treatment for sterilization under the conditions studied produces a decrease in Ani s 4 and suggest a potential exposure risk for Anisakis-sensitized patients.


Asunto(s)
Anisakis/inmunología , Antígenos Helmínticos/análisis , Conservación de Alimentos , Proteínas del Helminto/análisis , Músculo Esquelético/parasitología , Alimentos Marinos/parasitología , Atún/parasitología , Alérgenos/análisis , Alérgenos/química , Animales , Anisakis/química , Anisakis/aislamiento & purificación , Anisakis/metabolismo , Antígenos Helmínticos/química , Océano Atlántico , Femenino , Peces/parasitología , Proteínas del Helminto/química , Proteínas del Helminto/metabolismo , Calor , Immunoblotting , Inmunohistoquímica , Larva/química , Larva/inmunología , Larva/metabolismo , Microscopía Electrónica de Transmisión , Músculo Esquelético/química , Músculo Esquelético/ultraestructura , Ovario/parasitología , Estabilidad Proteica , Alimentos Marinos/análisis , España , Atún/inmunología , Vísceras/parasitología
4.
J AOAC Int ; 95(2): 489-93, 2012.
Artículo en Inglés | MEDLINE | ID: mdl-22649936

RESUMEN

Lipid determination by the Smedes method was tested in an interlaboratory trial performed by nine laboratories from seven countries belonging to the West European Fish Technologists Association Analytical Methods Working Group. Five samples of fish and fishery products with different lipid contents, including two blind duplicates, were distributed among the participants. All laboratories applied a slightly modified Smedes method, which included extraction of lipids by cyclohexane and isopropanol, transfer of lipids to the cyclohexane phase by addition of water, phase separation by centrifugation, and gravimetric lipid determination. The results indicate that the RSD for reproducibility (RSD(R)) was between 4.11 and 6.31% for samples with moderate (7%) and high (14%) lipid content, depending on the sample. Larger SDs among the laboratories were obtained for a cod sample with low lipid content of 0.5%. The method is judged to be suitable as a routine method for lipid determination in fish and fishery products.


Asunto(s)
Análisis de los Alimentos/métodos , Laboratorios/normas , Lípidos/química , Carne/análisis , Variaciones Dependientes del Observador , Animales , Técnicas de Química Analítica/métodos , Peces
5.
Food Waterborne Parasitol ; 23: e00121, 2021 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-33851038

RESUMEN

This work studied the performance of the artificial digestion method in terms of recovery and viability of Anisakis simplex third-stage larvae (L3) when previous treatments given to the infected fish muscle may accidentally render viable larvae. For that: a) hake mince was spiked with 10 L3/75g mince, frozen at -10, -15, -20, and -30 °C and immediately thawed, or stored for 12 or 24 h, and subjected to pepsin digestion; b) the mince was spiked under the same conditions, frozen at the above temperatures and thawed immediately. After manual recovery, L3 were assessed for viability, used to spike again the minced fish and subjected to pepsin digestion; c) the mince was spiked with 10 L3 which were: i) living (i.e. chilled), ii) freeze-surviving (live L3 had been previously recovered after freezing at -10 °C), or iii) dead (frozen at -30 °C or - 80 °C), and then subjected to pepsin digestion. Results showed that the artificial digestion method kills a significant number of larvae that may have survived freezing and thus may underestimate the number of viable larvae in a given batch. The method may also underestimate the infection level of fish batches containing dead larvae. It is suggested to take these limitations into account when designing digestion protocols for specific applications, especially when there is a risk of insufficiently treated or cooked fish batches or ready-to-eat foods.

6.
J Food Prot ; 73(1): 62-8, 2010 Jan.
Artículo en Inglés | MEDLINE | ID: mdl-20051205

RESUMEN

Heat treatments (40 to 94 degrees Celsius, 30 s to 60 min) were applied to different batches of Anisakis simplex L3 larvae isolated from hake ovaries and viscera to study the effect of heat on the viability of the larvae measured as mobility, emission of fluorescence under UV light, and changes in color after staining with specific dyes, and on A. simplex antigenic proteins. The aim was to determine the lowest time-temperature conditions needed to kill the larvae to avoid anisakiasis in consumers, and to evaluate whether high temperature modifies the antigenicity of A. simplex extracts. Heating at 60 degrees Celsius for 10 min (recommended by some authors) was considered unsafe, as differences in viability between batches were found, with some larvae presenting spontaneous movements in one batch. At higher temperatures (> or = 70 degrees Celsius for > or = 1 min), no movement of the larvae was observed. Antigenic protein Ani s 4 and A. simplex crude antigens were detected in the larvae heated at 94 + or - 1 degrees Celsius for 3 min. This indicates that allergic symptoms could be provoked in previously sensitized consumers, even if the larvae were killed by heat treatment.


Asunto(s)
Anisakis/patogenicidad , Antígenos Helmínticos/inmunología , Manipulación de Alimentos/métodos , Gadiformes/parasitología , Calor , Alimentos Marinos/parasitología , Alérgenos/inmunología , Animales , Anisakis/crecimiento & desarrollo , Anisakis/ultraestructura , Seguridad de Productos para el Consumidor , Contaminación de Alimentos/prevención & control , Parasitología de Alimentos , Larva , Microscopía Electrónica de Rastreo , Factores de Tiempo
7.
Parasitol Res ; 107(6): 1399-404, 2010 Nov.
Artículo en Inglés | MEDLINE | ID: mdl-20694563

RESUMEN

In this study, we researched the presence of anisakids in specimens of Merluccius merluccius caught in the area of Little Sole Bank, in the Northeast Atlantic, and found that 100% of the European hake examined were infected and showed high average values of abundance (976.88) and intensity (976.88). The larvae were identified in morphological terms as morphotype type I and in molecular terms as Anisakis simplex s.s via polymerase chain reaction (PCR) restriction fragment length polymorphism of the rDNA. The genetic variability of the A. simplex s.s population in the North Atlantic is notable, with at least two ribosomal and three mitochondrial haplotypes which are different from the specimen used as control, reflecting the diversity of this species, an aspect which has scarcely been studied to date. The cox-2 gene appears to be an interesting candidate for generating new genetic markers which can be applied to differentiate between A. simplex s.s and Anisakis pegreffii. We detected 11 fixed differences in this gene, and it also offers the advantage of being easily amplified by PCR. The high prevalence of infection by A. simplex s.s and the extremely high average intensity and abundance values can have significant repercussions on public health, especially among populations which regularly eat insufficiently cooked or raw fish and have a certain genetic predisposition; the genetic variability of the parasite could be another factor to take into account.


Asunto(s)
Anisakiasis/veterinaria , Anisakis/clasificación , Anisakis/genética , Enfermedades de los Peces/parasitología , Gadiformes/parasitología , Variación Genética , Animales , Anisakis/anatomía & histología , Anisakis/aislamiento & purificación , Océano Atlántico , Ciclooxigenasa 2/genética , ADN de Helmintos/genética , ADN Mitocondrial/genética , ADN Ribosómico/genética , Haplotipos , Proteínas del Helminto/genética , Reacción en Cadena de la Polimerasa , Polimorfismo de Longitud del Fragmento de Restricción
8.
Foodborne Pathog Dis ; 7(8): 967-73, 2010 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-20500085

RESUMEN

Fish-borne parasitic zoonoses such as Anisakiasis were once limited to people living in countries where raw or undercooked fish is traditionally consumed. Nowadays, several factors, such as the growing international markets, the improved transportation systems, the population movements, and the expansion of ethnic ways of cooking in developed countries, have increased the population exposed to these parasites. Improved diagnosis technology and a better knowledge of the symptoms by clinicians have increased the Anisakiasis cases worldwide. Dietary recommendations to Anisakis-sensitized patients include the consumption of frozen or well-cooked fish, but these probably do not defend sensitized patients from allergen exposure. The aim of our work was to develop a sensitive and specific method to detect and quantify Anisakis simplex allergens in fish muscle and its derivatives. Protein extraction was made in saline buffer followed by preparation under acid conditions. A. simplex antigens were detected by IgG immunoblot and quantified by dot blot. The allergenic properties of the extracts were assessed by IgE immunoblotting and basophil activation test. We were able to detect less than 1 ppm of A. simplex antigens, among them the allergen Ani s 4, in fish muscle with no cross-reactions and with a recovery rate of 82.5%. A. simplex antigens were detected in hakes and anchovies but not in sardines, red mullets, or shellfish. We detected A. simplex allergens in cooked hakes and also in hake stock. We proved that A. simplex allergens are preserved in long-term frozen storage (-20 degrees C +/- 2 degrees C for 11 months) of parasitized hakes. Basophil activation tests have proven the capability of the A. simplex-positive fish extracts to induce allergic symptoms.


Asunto(s)
Alérgenos/análisis , Anisakis/inmunología , Antígenos Helmínticos/análisis , Peces/parasitología , Manipulación de Alimentos , Alimentos Marinos/análisis , Alimentos Marinos/parasitología , Alérgenos/inmunología , Alérgenos/aislamiento & purificación , Animales , Anisakis/aislamiento & purificación , Antígenos CD/metabolismo , Antígenos Helmínticos/inmunología , Antígenos Helmínticos/aislamiento & purificación , Basófilos/inmunología , Basófilos/metabolismo , Bivalvos/parasitología , Productos Pesqueros/efectos adversos , Productos Pesqueros/análisis , Productos Pesqueros/parasitología , Peces/crecimiento & desarrollo , Hipersensibilidad a los Alimentos/sangre , Hipersensibilidad a los Alimentos/dietoterapia , Hipersensibilidad a los Alimentos/inmunología , Hipersensibilidad a los Alimentos/parasitología , Inspección de Alimentos/métodos , Parasitología de Alimentos , Proteínas del Helminto/análisis , Proteínas del Helminto/inmunología , Proteínas del Helminto/aislamiento & purificación , Humanos , Inmunoglobulina E/inmunología , Límite de Detección , Músculos/química , Músculos/parasitología , Penaeidae/parasitología , Glicoproteínas de Membrana Plaquetaria/metabolismo , Alimentos Marinos/efectos adversos , Mariscos/efectos adversos , Mariscos/análisis , Mariscos/parasitología , Temperatura , Tetraspanina 30 , Extractos de Tejidos/efectos adversos , Extractos de Tejidos/química , Extractos de Tejidos/inmunología
9.
J Food Prot ; 71(6): 1273-6, 2008 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-18592760

RESUMEN

Anisakis simplex is a fish parasite that is a public health risk to those consuming raw or poorly cooked marine fish and cephalopods because of the possibility of becoming infested with live larvae. In humans, penetration of the larvae into the gastrointestinal track can cause acute and chronic symptoms and allergic anisakiasis. Excretion and secretion products released by the larvae are thought to play a role in migration through the tissues and induce an immunoglobulin E-mediated immune response. The aim of this preliminary study was to detect parasite antigens and allergens in fish tissues surrounding the migrating larvae. Hake and anchovy fillets were artificially parasitized with Anisakis larvae and stored in chilled conditions for 5 days. Larvae were evaluated for fluorescence, fish muscle tissue was examined with transmission electron microscopy, and immunohistochemical reactions of two rabbit polyclonal antisera against a parasite crude extract and the allergen Ani s 4 were recorded. Larvae immediately migrated into the fish muscle, and no emission of bluish fluorescence was observed. Fish muscle areas in contact with the parasite showed disruptions in the structure and inclusion of granules within sarcomeres. Both parasite antigens and the Ani s 4 allergen were located in areas close to the larvae and where sarcomere structure was preserved. These findings indicate that parasite antigens and allergens are dispersed into the muscle and might cause allergic symptoms such as dyspnea, vomiting, diarrhea, urticaria, angioedema, or anaphylaxis in some individuals sensitive to A. simplex.


Asunto(s)
Alérgenos/inmunología , Anisakis/inmunología , Antígenos Helmínticos/inmunología , Peces/parasitología , Parasitología de Alimentos , Alimentos Marinos/parasitología , Animales , Anisakiasis/diagnóstico , Anisakis/aislamiento & purificación , Anisakis/ultraestructura , Seguridad de Productos para el Consumidor , Humanos , Inmunohistoquímica , Larva , Microscopía Electrónica de Transmisión , Músculo Esquelético/parasitología , Músculo Esquelético/ultraestructura
10.
J Food Prot ; 71(12): 2578-81, 2008 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-19244918

RESUMEN

This article examines the viability of and the alterations to the larval cuticle and the pattern of the antigens released when live or frozen Anisakis simplex larvae were treated with acid and pepsin. The results showed that freezing did not greatly alter the larva body. If ruptures were observed, the antigen release to the incubation media was not enhanced, and most of the antigenic content was retained inside the bodies of the larvae. The immunoblotting assay demonstrated that most of the antigens released, including the allergen Ani s 4, were resistant to pepsin. Freezing killed the larvae, but their survival was not compromised by acid treatment or pepsin digestion when kept chilled. All these findings support recommendations about freezing fish for consumption raw or undercooked to prevent human infection by A. simplex larvae. However, our data show that the antigenicity of the larvae is preserved after freezing and may explain why some sensitized patients develop symptoms after ingestion of infested frozen fish.


Asunto(s)
Anisakis/inmunología , Anisakis/ultraestructura , Antígenos Helmínticos/inmunología , Contaminación de Alimentos/análisis , Parasitología de Alimentos , Alimentos Marinos/parasitología , Alérgenos/inmunología , Animales , Seguridad de Productos para el Consumidor , Digestión , Peces/parasitología , Hipersensibilidad a los Alimentos , Congelación , Humanos , Larva , Microscopía Electrónica de Rastreo , Pepsina A/metabolismo
11.
J Food Prot ; 69(6): 1379-87, 2006 Jun.
Artículo en Inglés | MEDLINE | ID: mdl-16786860

RESUMEN

Ingestion of fish parasitized with Anisakis larvae can produce infestation and/or allergy in consumers. Technological and food processing treatments have been applied to parasitized fish in order to kill the larvae and avoid the infestation; however, their influence on allergenicity has not been studied. Four lots of hake (Merluccius merluccius) steaks artificially parasitized with Anisakis larvae were subjected to two storage chilling (5 degrees C +/- 1 degrees C) and freezing (-20 degrees C +/- 1 degrees C) treatments and two food processing treatments of heat (final temperature 86.3 degrees C) and microwave (final temperature 66.9 degrees C) and studied by scanning electron microscopy, environmental scanning electron microscopy (ESEM) (acid [pH = 2] and water preparations), and emission of fluorescence. Anisakis larvae were resistant to acid conditions, remaining alive after treatment. Larvae in the heat- and microwave-treated lots presented coagulated and disrupted zones in the cuticle with release of fluids. The cylindrical shape changed to a dehydrated appearance mainly observed by ESEM. Fluorescence was only noticeable in the frozen larvae. Larvae without apparent changes, together with dehydrated ones, were observed by ESEM in the frozen lot; nevertheless, no disruptions in the cuticle were perceptible. Further studies are needed in order to elucidate if the changes observed in the cuticle reduce the resistance of the parasites to the action of gastric enzymes in the gastrointestinal tract and to determine the release of allergens to the flesh by the live larvae during chilled storage of the fish.


Asunto(s)
Anisakis/ultraestructura , Manipulación de Alimentos/métodos , Parasitología de Alimentos , Gadiformes/parasitología , Alimentos Marinos/parasitología , Animales , Anisakis/efectos de los fármacos , Anisakis/crecimiento & desarrollo , Anisakis/inmunología , Seguridad de Productos para el Consumidor , Fluorescencia , Contaminación de Alimentos/análisis , Calor , Humanos , Concentración de Iones de Hidrógeno , Microscopía Electrónica de Rastreo
12.
J Food Prot ; 77(4): 605-9, 2014 Apr.
Artículo en Inglés | MEDLINE | ID: mdl-24680072

RESUMEN

Anisakis simplex is a fish parasite able to induce allergic reactions in humans infected when eating raw or undercooked fish parasitized with viable third-stage larvae. Some authors claim that exposure to nonviable Anisakis material can result in allergic symptoms in previously sensitized patients, indicating that parasite allergens are resistant to the thermal treatments of usual cooking procedures. Furthermore, some patients report symptoms after eating canned fish. The aim of this work was the analysis of parasite allergen stability in heating to 121 °C in an autoclave to simulate the thermal process applied to canned fish. Third-stage larvae were subjected to autoclaving for 20, 40, and 80 min, and parasite crude extracts were analyzed by electrophoresis, immunoblotting, and a flow-cytometric basophil activation test. Allergens resistant to autoclaving were separated by reversed-phase high-performance liquid chromatography and identified by ion trap mass spectrometry. Protein analysis by sodium dodecyl sulfate-polyacrylamide gel electrophoresis showed that autoclaving considerably reduced the number and intensity of identifiable protein bands in a time-dependent manner. Several allergens were detected by immunoblotting with a pool of A. simplex allergic patients' sera after autoclaving. Allergens of 9 and 14 kDa resistant to autoclaving were identified as Ani s 4 and Ani s 1 allergens, respectively. Functional analysis showed that allergens retain their capacity to activate basophils even after autoclaving for 80 min. In conclusion, some relevant A. simplex allergens retain their capacity to bind immunoglobulin E and activate basophils after being subjected to autoclaving, which is a method equivalent to that used in industrial canning processes.


Asunto(s)
Alérgenos/inmunología , Anisakis/inmunología , Conservación de Alimentos/métodos , Alimentos en Conserva/parasitología , Alimentos Marinos/parasitología , Alérgenos/análisis , Animales , Antígenos Helmínticos/análisis , Antígenos Helmínticos/inmunología , Hipersensibilidad a los Alimentos , Parasitología de Alimentos , Inocuidad de los Alimentos , Calor , Humanos , Inmunoglobulina E/inmunología , Larva , Factores de Tiempo
13.
J Food Prot ; 74(12): 2119-26, 2011 Dec.
Artículo en Inglés | MEDLINE | ID: mdl-22186053

RESUMEN

Inactivation of parasites in food by microwave treatment may vary due to differences in the characteristics of microwave ovens and food properties. Microwave treatment in standard domestic ovens results in hot and cold spots, and the microwaves do not penetrate all areas of the samples depending on the thickness, which makes it difficult to compare microwave with conventional heat treatments. The viability of Anisakis simplex (isolated larvae and infected fish muscle) heated in a microwave oven with precise temperature control was compared with that of larvae heated in a water bath to investigate any additional effect of the microwaves. At a given temperature, less time was required to kill the larvae by microwaves than by heated water. Microwave treatment killed A. simplex larvae faster than did conventional cooking when the microwaves fully penetrated the samples and resulted in fewer changes in the fish muscle. However, the heat-stable allergen Ani s 4 was detected by immunohistochemistry in the fish muscle after both heat treatments, even at 70°C, suggesting that Ani s 4 allergens were released from the larvae into the surrounding tissue and that the tissues retained their allergenicity even after the larvae were killed by both heat treatments. Thus, microwave cooking will not render fish safe for individuals already sensitized to A. simplex heat-resistant allergens.


Asunto(s)
Anisakis/crecimiento & desarrollo , Manipulación de Alimentos/métodos , Parasitología de Alimentos , Microondas , Alimentos Marinos/parasitología , Alérgenos/análisis , Alérgenos/inmunología , Animales , Anisakis/inmunología , Seguridad de Productos para el Consumidor , Productos Pesqueros/parasitología , Peces/parasitología , Hipersensibilidad a los Alimentos , Inocuidad de los Alimentos , Calor , Humanos , Rayos Infrarrojos , Larva
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