In vitro and in vivo binding of trimethoprim and sulphachlorpyridazine to equine food and digesta and their stability in caecal contents.
Abstract: Binding of antibiotics to food has received little attention in equine medicine, although such binding could potentially reduce the bioavailability and clinical efficacy. In the present study, binding of trimethoprim (TMP) and sulphachlorpyridazine (SCP) to hay, grass silage and concentrate was investigated in vitro in buffer at pH 6.8 at different concentrations. The binding of TMP and SCP to caecal contents was also studied. In addition, the degradation of TMP and SCP by the caecal microflora was investigated by incubating sterilized and non-sterilized caecal contents for 3 h at 37 degrees C under anaerobic conditions and comparing the TMP and SCP contents. Further, a TMP/SCP powder formulation was adminstered orally with concentrate at a dose rate of 5 mg/kg TMP and 25 mg/kg SCP to three ponies with a caecum fistula; the animals were deprived of food for 8 h before administration. Blood samples, caecal contents samples and faecal samples were collected and analysed for TMP and SCP concentrations by means of high performance liquid chromatography (HPLC). Three non-fistulated ponies, acting as control animals, were fed the same dose of TMP/SCP with concentrate after 8 h of food deprivation and blood samples were taken. The percentage of in vitro binding of TMP as well as SCP to hay, grass silage and concentrate at concentrations of 4 micrograms/mL to 10 micrograms/mL was high (60-90%). TMP and SCP were also extensively bound to caecal contents (50-70%). At spiking concentrations above 10 micrograms/mL the percentage of binding decreased. There was no evidence of biodegradation of TMP or SCP in caecal contents. In vivo, both drugs could be detected in the caecal contents and in the faeces of three fistulated ponies. However, the fistulated ponies differed from the control ponies in that their TMP and SCP plasma concentrations were higher, and two fistulated ponies did not show double peaks in their plasma concentration-time curves. Therefore, the fistulated ponies did not provide an optimal model for in vivo binding studies. Despite this limitation, it can be concluded that binding of TMP and SCP to food is a major cause of the limited bioavailability of these drugs in the horse. It is hypothesized that the binding is reversible, and that a second absorption phase occurs in the large intestine, but part of the administered dose remains bound as both drugs were found in the faeces.
Publication Date: 1996-08-01 PubMed ID: 8866456DOI: 10.1111/j.1365-2885.1996.tb00050.xGoogle Scholar: Lookup
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- Journal Article
- Research Support
- Non-U.S. Gov't
Summary
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The research investigated the binding of two antibiotics, trimethoprim (TMP) and sulphachlorpyridazine (SCP), to equine food and caecal contents, and their stability afterwards. The study found substantial bonding between the antibiotics and equine food, which is likely to limit their bioavailability.
Objective and Methodology
- The researchers wanted to study the interaction between antibiotics and equine food due to its potential impact on the bioavailability and clinical efficiency of these drugs.
- They investigate the binding of TMP and SCP to equine food, including hay, grass silage, and concentrate in varying pH levels and concentrations.
- Also, they examined the bonding of these antibiotics to caecal contents.
- Apart from this, the study looked into the degree of degradation of these antibiotics by microflora in the caecum by incubating sterilized and non-sterilized caecal contents under certain conditions.
- Researchers also conducted an in vivo test by orally administering a TMP/SCP formulation to three ponies and then analyzing blood, caecal content, and faecal samples for antibiotic concentrations.
- The sample collection process was done using high performance liquid chromatography (HPLC).
Results of the Study
- The TMP and SCP showed high binding percentages to hay, grass silage, and concentrate (60%-90%).
- There was also extensive binding of these antibiotics to caecal contents (50%-70%).
- Binding percentage, however, decreased with spiking concentrations above 10 micrograms/mL.
- No biodegradation of TMP or SCP was observed in the caecal contents.
- In the in vivo test, both drugs could be identified in the caecal contents and faeces of three fistulated ponies.
Limitations and Conclusions
- A limitation was highlighted as the fistulated ponies did not provide an optimal model for in vivo binding studies due to higher plasma concentrations and irregularities in their plasma concentration-time curves.
- Despite the limitation, the study concluded that binding of TMP and SCP to food significantly restricts the bioavailability of these drugs in horses.
- Researchers further hypothesized that the binding is reversible, and a second absorption phase is likely to occur in the large intestine.
- However, portions of the drugs remained bound as the antibiotics were still detected in the faeces.
Cite This Article
APA
Van Duijkeren E, Kessels BG, Sloet van Oldruitenborgh-Oosterbaan MM, Breukink HJ, Vulto AG, van Miert AS.
(1996).
In vitro and in vivo binding of trimethoprim and sulphachlorpyridazine to equine food and digesta and their stability in caecal contents.
J Vet Pharmacol Ther, 19(4), 281-287.
https://doi.org/10.1111/j.1365-2885.1996.tb00050.x Publication
Researcher Affiliations
- Department of Large Animal Medicine and Nutrition, Faculty of Veterinary Medicine, Utrecht University, The Netherlands.
MeSH Terms
- Administration, Oral
- Animal Feed
- Animals
- Anti-Infective Agents, Urinary / administration & dosage
- Anti-Infective Agents, Urinary / metabolism
- Anti-Infective Agents, Urinary / pharmacokinetics
- Binding Sites
- Biological Availability
- Buffers
- Cecum / metabolism
- Cecum / microbiology
- Chromatography, High Pressure Liquid / veterinary
- Feces / chemistry
- Horses / metabolism
- Male
- Sulfachlorpyridazine / administration & dosage
- Sulfachlorpyridazine / blood
- Sulfachlorpyridazine / metabolism
- Sulfachlorpyridazine / pharmacokinetics
- Trimethoprim / administration & dosage
- Trimethoprim / blood
- Trimethoprim / metabolism
- Trimethoprim / pharmacokinetics
Citations
This article has been cited 2 times.- Koutsoumanis K, Allende A, Alvarez-Ordóñez A, Bolton D, Bover-Cid S, Chemaly M, Davies R, De Cesare A, Herman L, Hilbert F, Lindqvist R, Nauta M, Ru G, Simmons M, Skandamis P, Suffredini E, Andersson DI, Bampidis V, Bengtsson-Palme J, Bouchard D, Ferran A, Kouba M, López Puente S, López-Alonso M, Nielsen SS, Pechová A, Petkova M, Girault S, Broglia A, Guerra B, Innocenti ML, Liébana E, López-Gálvez G, Manini P, Stella P, Peixe L. Maximum levels of cross-contamination for 24 antimicrobial active substances in non-target feed. Part 13: Diaminopyrimidines: trimethoprim. EFSA J 2021 Oct;19(10):e06865.
- Koutsoumanis K, Allende A, Alvarez-Ordóñez A, Bolton D, Bover-Cid S, Chemaly M, Davies R, De Cesare A, Herman L, Hilbert F, Lindqvist R, Nauta M, Ru G, Simmons M, Skandamis P, Suffredini E, Andersson DI, Bampidis V, Bengtsson-Palme J, Bouchard D, Ferran A, Kouba M, López Puente S, López-Alonso M, Nielsen SS, Pechová A, Petkova M, Girault S, Broglia A, Guerra B, Innocenti ML, Liébana E, López-Gálvez G, Manini P, Stella P, Peixe L. Maximum levels of cross-contamination for 24 antimicrobial active substances in non-target feed. Part 11: Sulfonamides. EFSA J 2021 Oct;19(10):e06863.
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