Use of xylazine hydrochloride, Ketamlne hydrochloride and atropine sulphate for anaesthesia in donkeys
Abstract
The veterinary anaesthetist is called upon to deal with a number of
species of animals which exhibit great variation in size and temperament as
well as in anatomical and physiological development. Apart from differing
response of each species to the various anaesthetic agents, there is often
marked variation in response between breeds within each particular species
(Hall and Clarke, 1983).
The sedative and anaesthetic effects of xylazine hydrochloride not only
show considerable variation from species to species but, the variation is also
exhibited among individual animals of the same species (Neophytou, 1982).
Although the use of xylazine hydrochloride and ketamine
hydrochloride independently or in combination in various animal species
has been reported (Lindley, 1980; Byagagaire, 1982; Mbiuki, 1982; Allen et al.,
1986; White et al. 1987) very- little has been reported about their use in
donkeys. This project was designed toevaluate the use of xylazine, ketamine
and atropine for general anaesthesia in donkeys.
A total of 30 experiments were carried out on 30 donkeys, 25 being
males and 5 females. They were aged between 2 to 11 years and weighed
between 80 and 200 kg. The donkeys were divided into 6 groups of 5 animals
each.
Anaesthetic trials were carried out using xylazine hydrochloride,
ketamine hydrochloride and atropine sulphate. Xylazine was used at a dosage
of 2.0mg/kg body weight, ketarnine at 4.4 mg/kg body weight and atropine at
a total dose of 25 mg. Atropine was injected subcutaneously, and the other
drugs intramuscularly.
(xii)
Anaesthetic times were recorded from the time the trial drug(s)
was/were injected until 2 hours were over. The anaesthetic parameters
monitored were weak time, recumbency time, down time, attempt to rise
time, standing time, unconsciousness time, muscle relaxation, reflexes, pain
sensation and other behavioural changes attributed to the injected drugfs).
The other physical parameters including the heart rate and respiratory
rate were recorded every 5 minutes during the experiment and the rectal
temperature every 15 minutes.
A jugular-blood sample for routine hematology was taken 10 minutes
before injection of the trial drugts), 1 hour and 5 hours after injection of the
trial drug(s). A great deal of variation in reaction to the drugs was seen
within groups and between groups.
The drug combinations achieved weak time earlier. Atropine-
Ketarnine-Xylazine combination achieved weak time in 5.20±1.30mins while
xylazine alone attained it in 10.00±2.12mins and ketamine alone in 6.00±1.58
mins. Ketamine alone and ketamine-xylaxine combinations made donkeys
go into recumbency. The drug combinations ketamine-xylazine and atropineketamine-
xylaxine made the donkeys stay in recumbency for 24.80±13.80
mins and 46.60±17.86mins respectively .. This was longer than for ketamine
alone and atropine-ketamine whose times were 18.80±9.41 and 10.00±11.55
mins respectively. Recovery was much faster in 'donkeys. injected with
ketamine alone (124.00±9.61 mins) and longest for donkeys injected with
atrophine-ketamine-xylazine combination (212.00±21.67 mins). The
combinations gave good muscle relaxation while the individual drugs did
not. The combinations eliminated the pedal reflex and the palpebral and anal--
reflexes were weakened. The drugs when given separately did not eliminate
any of the reflexes tested for.
Analgesia given by the drug combination was moderate 'to good. Salivation,
protrusion of the penis and drooping of the lower lip were evident in most of
the donkeys where xylazine was used either alone or in combination.
No significant (P>O.05)rise in mean rectal temperature was recorded where
ketamine alone and the combinations were used while a slight decrease was
recorded where xylazine alone was used.
Xylazine alone reduced the mean respiratory rates whereas ketamine alone
and the combinations caused an increase in the mean respiratory rate although
these changes were insignificant (P>O.05).
The mean heart rate for donkeys injected with xylazine alone decreased
while it increased where ketamine was used. The combination caused a
decrease in mean heart rate. However, all these changes were not significant
(P>O.05).
The effects of the drug(s) or drug combinations on the blood constitutents
were quite variable. -However, xylazine alone and the ketamine-xylazine
combination caused a significant (P<O.05)decrease in PCV and Hb values in
the groups of donkeys where they were used whereas the groups that had
atropine in addition had an insignificant (P>O.05) decrease. No significant
(P>O.05)changes were recorded for the other blood constituents in other groups
where the drugs were used alone or in combination.
From the results, it can be concluded that ketamine-xylazine combination
gave uneventful immobilisation and smooth recov~ry from anaesthesia
which was not observed when the individual drugs were given. Analgesia
was present in cases to which the drug combination was administered but this
was of short duration. Muscle relaxation was present when the drug
combination was given. The presence of atropine did not have a marked
influence over salivation where it occurred. This was also the case with the
heart rate. When the individual drugs were used, the presence of atropine
helped stabilize the respiratory rate. The use of the drug combination of
ketamine and xylazine with atropine for general anaesthesia in donkeys is
recommended for surgeries of short duration. The use of ketamine alone
should be avoided due to self inflicted trauma that is likely to occur due to
excessive involuntary muscle activity it causes.
Citation
Mogoa, E. G. M(1990) Use of xylazine hydrochloride, Ketamlne hydrochloride and atropine sulphate for anaesthesia in donkeysSponsorhip
University of NairobiPublisher
Department of clinical studies
Description
Msc- Thesis