EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL

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EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL. / Valencia-Garcia, C. G.; Arbez-Abnal, T. A.; Portillo-Salgado, R.; García-Herrera, R. A.; Cigarroa-Vazquez, F. A.; Herrera-Camacho, J.; Vargas-Bello-Pérez, E.; Chay-Canul, A. J.

I: Tropical and Subtropical Agroecosystems, Bind 25, Nr. 2, #056, 2022.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Valencia-Garcia, CG, Arbez-Abnal, TA, Portillo-Salgado, R, García-Herrera, RA, Cigarroa-Vazquez, FA, Herrera-Camacho, J, Vargas-Bello-Pérez, E & Chay-Canul, AJ 2022, 'EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL', Tropical and Subtropical Agroecosystems, bind 25, nr. 2, #056. https://doi.org/10.56369/tsaes.3982

APA

Valencia-Garcia, C. G., Arbez-Abnal, T. A., Portillo-Salgado, R., García-Herrera, R. A., Cigarroa-Vazquez, F. A., Herrera-Camacho, J., Vargas-Bello-Pérez, E., & Chay-Canul, A. J. (2022). EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL. Tropical and Subtropical Agroecosystems, 25(2), [#056]. https://doi.org/10.56369/tsaes.3982

Vancouver

Valencia-Garcia CG, Arbez-Abnal TA, Portillo-Salgado R, García-Herrera RA, Cigarroa-Vazquez FA, Herrera-Camacho J o.a. EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL. Tropical and Subtropical Agroecosystems. 2022;25(2). #056. https://doi.org/10.56369/tsaes.3982

Author

Valencia-Garcia, C. G. ; Arbez-Abnal, T. A. ; Portillo-Salgado, R. ; García-Herrera, R. A. ; Cigarroa-Vazquez, F. A. ; Herrera-Camacho, J. ; Vargas-Bello-Pérez, E. ; Chay-Canul, A. J. / EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL. I: Tropical and Subtropical Agroecosystems. 2022 ; Bind 25, Nr. 2.

Bibtex

@article{d8b595507dff42658a51b3b8a1ad0a58,
title = "EVALUACI{\'O}N DE LA COMPOSICI{\'O}N TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAF{\'I}A EN TIEMPO REAL",
abstract = "Background. Carcass yield varies depending on the relative proportions of muscle, fat and bone, therefore, the possibility of predicting its value would produce valuable information that will promote the viability and sustainability of rabbit meat production. Methodology. Thirty-eight male growing rabbits (New Zealand White × Californian) with body weights (BW) of 1329 ± 291 g and from 60 to 100 days of age were used. Real time ultrasonography (RTU) measurements were taken 12 h before slaughtering. For that, rabbits were shaved between the 6th and 7th lumbar vertebrae. The longissimus thoracis et lumborum muscle (LM) area (LDA) and also the maximum LM width (LDW) and the maximum depth LM (LDD) were measured. Data recorded at slaughtering included carcass and non-carcass components. After chilling at 4° C for 24 hours, carcasses were split longitudinally to obtain left and right halves that were later weighed. Thereafter, the right half carcass was weighed and manually deboned for recording weights of muscle (TCM), and bone (TCB). Results. The highest correlation (r = 0.84, P <0.001) was observed between TCM and LDD, while the lower correlation (r = 0.4, P <0.001) was observed between TCB and LDW. The BW were highly related to carcass characteristics (r>0.77≤0.97). In vivo RTU measurements explained a low to moderate amount of variation in TCB and TCM with an r2 of 0.36 to 0.77 (P < 0.001) respectively. BW explained from 49 to 92% of variation in TCB and TCM, respectively. Implications. The in vivo ultrasound measurements it is a viable tool that allows predicting carcass value of rabbits. Conclusion. Our results indicated that the use of RTU measurements could accurately predict muscle from growing rabbit's carcass.",
keywords = "body muscle, carcass, growing rabbits, prediction",
author = "Valencia-Garcia, {C. G.} and Arbez-Abnal, {T. A.} and R. Portillo-Salgado and Garc{\'i}a-Herrera, {R. A.} and Cigarroa-Vazquez, {F. A.} and J. Herrera-Camacho and E. Vargas-Bello-P{\'e}rez and Chay-Canul, {A. J.}",
note = "Publisher Copyright: Copyright {\textcopyright} the authors. Work licensed under a CC-BY 4.0 License.",
year = "2022",
doi = "10.56369/tsaes.3982",
language = "Spansk",
volume = "25",
journal = "Tropical and Subtropical Agroecosystems",
issn = "1870-0462",
publisher = "Universidad Autonoma de Yucatan",
number = "2",

}

RIS

TY - JOUR

T1 - EVALUACIÓN DE LA COMPOSICIÓN TISULAR DE LA CANAL EN CONEJOS EN CRECIMIENTO UTILIZANDO ULTRASONOGRAFÍA EN TIEMPO REAL

AU - Valencia-Garcia, C. G.

AU - Arbez-Abnal, T. A.

AU - Portillo-Salgado, R.

AU - García-Herrera, R. A.

AU - Cigarroa-Vazquez, F. A.

AU - Herrera-Camacho, J.

AU - Vargas-Bello-Pérez, E.

AU - Chay-Canul, A. J.

N1 - Publisher Copyright: Copyright © the authors. Work licensed under a CC-BY 4.0 License.

PY - 2022

Y1 - 2022

N2 - Background. Carcass yield varies depending on the relative proportions of muscle, fat and bone, therefore, the possibility of predicting its value would produce valuable information that will promote the viability and sustainability of rabbit meat production. Methodology. Thirty-eight male growing rabbits (New Zealand White × Californian) with body weights (BW) of 1329 ± 291 g and from 60 to 100 days of age were used. Real time ultrasonography (RTU) measurements were taken 12 h before slaughtering. For that, rabbits were shaved between the 6th and 7th lumbar vertebrae. The longissimus thoracis et lumborum muscle (LM) area (LDA) and also the maximum LM width (LDW) and the maximum depth LM (LDD) were measured. Data recorded at slaughtering included carcass and non-carcass components. After chilling at 4° C for 24 hours, carcasses were split longitudinally to obtain left and right halves that were later weighed. Thereafter, the right half carcass was weighed and manually deboned for recording weights of muscle (TCM), and bone (TCB). Results. The highest correlation (r = 0.84, P <0.001) was observed between TCM and LDD, while the lower correlation (r = 0.4, P <0.001) was observed between TCB and LDW. The BW were highly related to carcass characteristics (r>0.77≤0.97). In vivo RTU measurements explained a low to moderate amount of variation in TCB and TCM with an r2 of 0.36 to 0.77 (P < 0.001) respectively. BW explained from 49 to 92% of variation in TCB and TCM, respectively. Implications. The in vivo ultrasound measurements it is a viable tool that allows predicting carcass value of rabbits. Conclusion. Our results indicated that the use of RTU measurements could accurately predict muscle from growing rabbit's carcass.

AB - Background. Carcass yield varies depending on the relative proportions of muscle, fat and bone, therefore, the possibility of predicting its value would produce valuable information that will promote the viability and sustainability of rabbit meat production. Methodology. Thirty-eight male growing rabbits (New Zealand White × Californian) with body weights (BW) of 1329 ± 291 g and from 60 to 100 days of age were used. Real time ultrasonography (RTU) measurements were taken 12 h before slaughtering. For that, rabbits were shaved between the 6th and 7th lumbar vertebrae. The longissimus thoracis et lumborum muscle (LM) area (LDA) and also the maximum LM width (LDW) and the maximum depth LM (LDD) were measured. Data recorded at slaughtering included carcass and non-carcass components. After chilling at 4° C for 24 hours, carcasses were split longitudinally to obtain left and right halves that were later weighed. Thereafter, the right half carcass was weighed and manually deboned for recording weights of muscle (TCM), and bone (TCB). Results. The highest correlation (r = 0.84, P <0.001) was observed between TCM and LDD, while the lower correlation (r = 0.4, P <0.001) was observed between TCB and LDW. The BW were highly related to carcass characteristics (r>0.77≤0.97). In vivo RTU measurements explained a low to moderate amount of variation in TCB and TCM with an r2 of 0.36 to 0.77 (P < 0.001) respectively. BW explained from 49 to 92% of variation in TCB and TCM, respectively. Implications. The in vivo ultrasound measurements it is a viable tool that allows predicting carcass value of rabbits. Conclusion. Our results indicated that the use of RTU measurements could accurately predict muscle from growing rabbit's carcass.

KW - body muscle

KW - carcass

KW - growing rabbits

KW - prediction

U2 - 10.56369/tsaes.3982

DO - 10.56369/tsaes.3982

M3 - Tidsskriftartikel

AN - SCOPUS:85131186262

VL - 25

JO - Tropical and Subtropical Agroecosystems

JF - Tropical and Subtropical Agroecosystems

SN - 1870-0462

IS - 2

M1 - #056

ER -

ID: 319165522