Influence of ketamine, thiopental or propofol anaesthesia on acute phase proteins in buffalo calves
Egypt. J. Comp. Path &Clinic Path • 2011
Publication Information
Authors
Khalid Fararh; Adel Al-Akraa; Atef Abd-Algalil
Keywords
anesthesia; buffalo calves; acute phase protein
Journal
Egypt. J. Comp. Path &Clinic Path
Publisher
Not Available
Volume
24
Issue
1
Pages
155-178
publication.type
Local
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
The objective of this study was to compare the changes of acute phase proteins
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortThe objective of this study was to compare the changes of acute phase proteins
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortThe objective of this study was to compare the changes of acute phase proteins
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortduration of anaesthesia. Propofol and thiopental significantly decreased acute
phase proteins due to anti-inflammatory effects.
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortThe objective of this study was to compare the changes of acute phase proteins
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortThe objective of this study was to compare the changes of acute phase proteins
after ketamine, thiopental and propofol anaesthesia in buffalo calves. Five calves
were anaesthetized three times with ketamine, thiopental or propofol in random
order at 3 weeks intervals. Calves were pre-medicated with xylazine and
buterphenol. Propofol resulted in an excellent anaesthetic induction (free of
excitement), short recovery times and duration of anaesthesia, whereas ketamine
and thiopental produced a good and fair quality of induction respectively. Acute
phase proteins showed significant increase in haptoglobin and fibrinogen,
whereas albumin was significantly decreased in all groups. Haptoglobin returned
to normal values 48 hours after anaesthesia with propofol and thiopental.
In conclusion, the anaesthetic quality produced by propofol in buffalo calves
was better compared to those of ketamine and thiopental but it has a shortduration of anaesthesia. Propofol and thiopental significantly decreased acute
phase proteins due to anti-inflammatory effects.
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