Bioavailability of rumen-protected methionine, lysine and histidine assessed by fecal amino acid excretion

The objective of this experiment was to assess a new method to determine the bioavailability (BA) of rumen-protected (RP)His, RPLys and RPMet products by determining rumen escape (RE) and fecal excretion of undigested AA from RPAA. Eight lactating Holstein cows (79 ± 21 days in milk, 53.0 ± 7.0 kg/d milk yield), four of which rumen-cannulated, were used in a replicated 4 × 4 Latin square design experiment with four, 26-day experimental periods and a preceding 22-day background (BG) period. Four combinations of nine commercial and experimental RPAA (HisA, HisB, LysA, LysB, LysC, MetA, MetB, MetC, MetD) were fed daily to supply 20, 25, and 35 g/day of digestible (d)His, dLys and dMet, respectively. The following treatment combinations were used: (1) HisALysAMetA, (2) HisBLysBMetB, (3) LysCMetC and (4) LysCMetD. Spot sampling of feces was performed during the BG period to establish basal levels of AA in feces. Total fecal collection and blood sampling were performed during the last three days of each experimental period. Rumen escape fraction of each RPAA product was determined in situ and was greater for HisA (0.90) than for HisB (0.64), ranged from 0.33 to 0.85 (SEM = 0.017) for RPLys and from 0.53 to 0.95 (SEM = 0.017) for RPMet. Apparent post-ruminal digestibility of AA from RPAA was calculated as [(RE of AA, g/day – BG corrected fecal AA output, g/day) ÷ RE of AA, g/day]. Digestibility was similar between the two RPHis products (0.85 and 0.90). Apparent post-ruminal digestibility of Lys from RPLys products varied from 0.30 to 0.79 and digestibility for RPMet varied from 0.85 to 0.96. Bioavailability was calculated as: (RE, g/g × AA digestibility, g/g) × 100 and was greater for HisA compared with HisB (76.1 and 57.9 % respectively), varied from 9.63 (LysC) to 67.0 % (LysA) for the RPLys and was lowest for MetC (49.3 %) and greatest for MetD (91.9 %) among the RPMet products. Plasma His concentration was greater for HisA than for HisB and plasma Met concentration was greater for MetD compared with the other three RPMet products, reflecting estimated BA of the RPAA products. In contrast, plasma Lys concentration did not differ among RPLys products. This study showed that a method using fecal AA output in combination with RE of RPAA can reveal differences in BA between RPAA products. This is a first step in establishing the fecal AA excretion technique for determination of BA of RPAA and warrants further validation.

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Work Title Bioavailability of rumen-protected methionine, lysine and histidine assessed by fecal amino acid excretion
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Open Access
Creators
  1. Susanna Raeisaenen
  2. Cristian Martins
  3. Krum Nedelkov
  4. JOONPYO OH
  5. Michael Harper
  6. AUDINO MELGAR MORENO
  7. Xianjiang Chen
  8. Claudia Parys
  9. Makoto Miura
  10. Alexander Nikolov Hristov
Keyword
  1. Rumen-protected amino acid
  2. Methionine
  3. Lysine
  4. Histidine
  5. Bioavailability
  6. Dairy Cow
License CC BY-NC-ND 4.0 (Attribution-NonCommercial-NoDerivatives)
Work Type Article
Publisher
  1. Elsevier B.V.
Publication Date June 21, 2020
Publisher Identifier (DOI)
  1. 10.1016/j.anifeedsci.2020.114595
Deposited March 09, 2021

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  • Created
  • Added Creator Susanna Raeisaenen
  • Added Creator Cristian Martins
  • Added Creator JOONPYO OH
  • Added Creator Michael Harper
  • Added Creator AUDINO MELGAR MORENO
  • Added Creator Xianjiang Chen
  • Added Creator Claudia Parys
  • Added Creator Makoto Miura
  • Added Creator Alexander Nikolov Hristov
  • Added Creator Krum Nedelkov
  • Updated Creator JOONPYO OH
  • Updated Creator Michael Harper
  • Updated Creator AUDINO MELGAR MORENO
  • Updated Creator Xianjiang Chen
  • Updated Creator Claudia Parys
  • Updated Creator Makoto Miura
  • Updated Creator Alexander Nikolov Hristov
  • Added Räisänen et al. 2020 BA of RPAA-AFST.pdf
  • Updated Description, License Show Changes
    Description
    • The objective of this experiment was to assess a new method to determine the bioavailability (BA) of rumen-protected (RP)His, RPLys and RPMet products by determining rumen escape (RE) and fecal excretion of undigested AA from RPAA. Eight lactating Holstein cows (79 ± 21 days in milk, 53.0 ± 7.0 kg/d milk yield), four of which rumen-cannulated, were used in a replicated 4 × 4 Latin square design experiment with four, 26-day experimental periods and a preceding 22-day background (BG) period. Four combinations of nine commercial and experimental RPAA (HisA, HisB, LysA, LysB, LysC, MetA, MetB, MetC, MetD) were fed daily to supply 20, 25, and 35 g/day of digestible (d)His, dLys and dMet, respectively. The following treatment combinations were used: (1) HisALysAMetA, (2) HisBLysBMetB, (3) LysCMetC and (4) LysCMetD. Spot sampling of feces was performed during the BG period to establish basal levels of AA in feces. Total fecal collection and blood sampling were performed during the last three days of each experimental period. Rumen escape fraction of each RPAA product was determined in situ and was greater for HisA (0.90) than for HisB (0.64), ranged from 0.33 to 0.85 (SEM = 0.017) for RPLys and from 0.53 to 0.95 (SEM = 0.017) for RPMet. Apparent post-ruminal digestibility of AA from RPAA was calculated as [(RE of AA, g/day – BG corrected fecal AA output, g/day) ÷ RE of AA, g/day]. Digestibility was similar between the two RPHis products (0.85 and 0.90). Apparent post-ruminal digestibility of Lys from RPLys products varied from 0.30 to 0.79 and digestibility for RPMet varied from 0.85 to 0.96. Bioavailability was calculated as: (RE, g/g × AA digestibility, g/g) × 100 and was greater for HisA compared with HisB (76.1 and 57.9 % respectively), varied from 9.63 (LysC) to 67.0 % (LysA) for the RPLys and was lowest for MetC (49.3 %) and greatest for MetD (91.9 %) among the RPMet products. Plasma His concentration was greater for HisA than for HisB and plasma Met concentration was greater for MetD compared with the other three RPMet products, reflecting estimated BA of the RPAA products. In contrast, plasma Lys concentration did not differ among RPLys products. This study showed that a method using fecal AA output in combination with RE of RPAA can reveal differences in BA between RPAA products. This is a first step in establishing the fecal AA excretion technique for determination of BA of RPAA and warrants further validation.
    License
    • https://creativecommons.org/licenses/by-nc-nd/4.0/
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  • Updated
  • Updated