Common reproductive problem associated with one humped camel (Camelus dromedarius) in West Africa

Camel is a seasonal breeder and their reproduction is different as compared to other livestock as both male and female come into heat during the breeding season [1]. The female camel matures at an age of 3-4 years while males at the age of 4-5 years. During heat period the male emits a black pigment from his pole gland (skin gland) which helps him to attract the females. The male camel has a specialized in latable diverticulum of the soft palate called as ‘gula’. When the animal is angry or displaying this structure protrudes out from the mouth. The ‘gula’ is extruded when the camel is physically restrained and protrudes temporarily when the animal is chemically restrained [2]. The gestation period in camels is 390 days with average birth weight 35-40 kgs. The adult camel weighs 450-750 kgs.


Introduction
Camel is a seasonal breeder and their reproduction is different as compared to other livestock as both male and female come into heat during the breeding season [1]. The female camel matures at an age of 3-4 years while males at the age of 4-5 years. During heat period the male emits a black pigment from his pole gland (skin gland) which helps him to attract the females. The male camel has a specialized in latable diverticulum of the soft palate called as 'gula'. When the animal is angry or displaying this structure protrudes out from the mouth. The 'gula' is extruded when the camel is physically restrained and protrudes temporarily when the animal is chemically restrained [2]. The gestation period in camels is 390 days with average birth weight 35-40 kgs. The adult camel weighs 450-750 kgs.
The incidence of early embryonic death seems to be high in the camel. It was found that twinning occurs in about 0.4% of 491 single births reported by Musa & Abu Sineina, [3]. In the same study two and three corpora lutea were found in 13.65 % and 1.22 % respectively. The reason for these high prenatal losses is still open for more investigation. Yagil, [4] claims that one of the causes of foetal death is the strong inbreeding in the herds [1].

Pregnancy
In camel 99% pregnancy occurs in left horn. The incidence of twin ovulation is 14%. Twin births occur to an extent of only 0.4% when both the ovaries ovulate at the same oestrus.

Abstract
The problems of reproduction in the camel are not extensively investigated as in the bovine, caprine and ovine species. There is need to elucidate the problem in detailed in order to overcome the problem of production and genetic multiplication. The information collected on these problems is derived mainly from questioning the camel owners, slaughterhouse material and very limited clinical and farm observations. Embryos develop initially in both horns but, unfortunately one in right horn dies when it reaches a size of 2-3 cms. In camel there is no record of freemartin. The foetal growth is of linear pattern. The posterior presentation predominates (54%-66%) from early pregnancy, in camels. There is no tendency in late pregnancy for the amnion to separate from the allantochorion as it may happen in the cows [1].

Abortion and stillbirth
These are known to occur in camels. The incidence of brucellosis seems to be related to breeding and husbandry practices. In Africa Brucella melitensis was found to be the causative agent while in the USSR the infection was found to be due to Brucella abortus. The organisms were isolated in the different countries with variable incidence of success. It is claimed that young camels are resistant up to the age of 11 months and that they contract the disease from the dams on subsequent calving. If this is the case, then separation of young camels at 7 to 8 months of age from positive dams might help in the control programmme [5].
The role played by brucellosis in the overall picture of abortion in camels is not quanti ied. It appears that other important endemic diseases play a signi icant role in the overall incidence of abortion. Trypanososmiasis leading to general debility and abortion is an important disease. Pasteurellosis and salmonellosis are also considered as causes of abortion in camels. Other causes of abortion include febrile conditions such as pneumonia and camel pox, or nervous excitement [6].

Diseases of the female reproductive tract
Examination of abattoir material provided some information about some of the diseases that could be encountered in the reproductive tract. Although this could be considered as biased information when referring to populations of camels in general, it could however provide useful information about the existence of these diseases. These diseases include: pyometra, bursal and ovarian adhesions, endometritis associated with a partially involuted uterus, and cystic ovarian degeneration [6].
Pyometra: Literally means pus in the womb. It is considered a serious and life threatening condition that must be treated quickly and aggressively. It is secondary infection that occurs as a result of hormonal changes in the female reproductive tract or in some cases a source of ascending infection; meaning it enters the reproductive tract at the vulva from the outside world and creeps up or comes through the blood stream from another infected area of the body. If the camels has also recently given birth, an in lamed wound with bruised or exhausted and vulnerable tissues can also act as a focus for infection to set in. The symptom depends on whether the cervix is open or closed. In case of open cervix, pyometra can present from obvious thick, brownish pus seeping from the camel's (cow) vulva, lethargy, weakness, weight loss and depression, anorexia. While in closed cervix pyometra, the cervix remains tightly closed providing an effective seal capable of withholding the pus and making the condition slightly less obvious to diagnose. Symptoms such as abdominal enlargement, shock and coma could be seen.
Diagnosis is based on history, analysis of vaginal discharge, culture, complete blood count, serum general chemistry pro ile, urinalysis, x-rays and ultrasound studies.

Treatment of pyometra: Administration of prostaglandin or it analog at normal doses is the treatment of choice.
Expulsion of exudate and bacteriologic clearance of the uterus follows in 80% of treated cases. No intrauterine treatment is recommended in conjunction with prostaglandin. Lavage of uterus using large volume of luid is recommended. Permanent cure in this case requires hysterectomy or wedge resection of cervix to allow continuous uterine drainage. A salvage procedure that allows continuous use of the camel but renders her infertile.

Endometritis associated with partially involuted uterus:
Endometritis is in lammation of the uterine lining of the uterus. When the involution is impaired or retarded, it is called sub involution. It is caused by ill maternal health, ceasarean section, uterine prolapse, uterine ibroid.
Predisposing factors are: labour, anaesthesia, full bladder, dif icult delivery, retained placenta, maternal infection. Signs and symptoms of the condition are, irregular or excessive uterine bleeding, irregular cramp or rise in temperature, uterus feels boggy and softer on palpation.

Treatment of Endometritis:
It is by exploration of the uterus in retained product, antibiotics is also recommended.
Cystic ovarian degeneration: Traditionally, cyst have been de ined as an ovulatory follicular structure that persist for 10 or more days in the absence of a functional corpus luteum and accompanied by abnormal oestrus behavior (irregular oestrus intervals, nymphomania or anaestrus). Cystic ovarian degeneration is associated with hormonal disturbances. Cystic ovaries were the commonest ovarian lesions. Follicular cyst, haemorrhagic cyst, luteal cyst, dermoid cyst and paraovarian cyst were detected. Symptoms include: intermittent oestrus with exerggerated monosexual drive to bull-like behavior including mounting, pawing the ground and bellowing. This behavior may be accompanied by masculinization of the head and neck.
Treatment of cystic ovarian degeneration: It responds to an LH-type hormonal treatment (HCG). Hormone therapy with GnRH is effective at 100 ug. Prostagl and in f2 alpha can be given 7 days after HCG or GnRH.

Dystocia
The incidence of camel dystocia appears to be very low [7]. The foetal component of dystocia includes: carpal lexion, lateral deviation of the head and hock and hip lexion. Posterior presentation is uncommon. Foetopelvic disproportion, monstrosities and transverse presentations are rare. On the maternal side, uterine inertia occurs to a small extent. In dealing with dystocia in the camel it was found that head and limb extension is more dif icult to achieve than in the cow. However, the camel foetus survives dystocia better than the equine foetus and the camel is a good subject for caesarean section as well as foetotomy.
Embryotomy is possible when necessary. Ceasarean section could be performed on the left lank using xylazine sedation and local regional or in iltration anaesthesia [8]. It was documented that a camel that was 17 hours in dystocia, delivered a live foetus by caesarean section [7].

Vaginal prolapse
This is seen clinically in pregnant camels that were well fed with limited exercise. In most of the cases it does not interfere with the pregnancy in question. The condition could be treated successfully by the Bührer technique [7].

Other problems of reproduction
The fertility is de ined as the ability of the male and female to produce viable germ cells, mate and conceive and https://doi.org/10.29328/journal.ivs.1001018 subsequently give birth to living young [6]. A signi icant aid to establish precise igures for fertility is record keeping and good management. Unfortunately both are missing under traditional camel raising systems. Existing information indicates that fertility is unlikely to be higher than 50% in pastoral herds and that under improved ranch conditions it could be up to 65% [6].
Poor nutrition and poor grazing are a cause of reduced sexual activity in both females and males. Debilitating diseases such as trypanosomiasis, tuberculosis, mange, pleuropneumonia and heavy parasitism all compromise the fertility rate in the camel. Endocrine factors including insuf icient gonadotropins to enhance follicular development and subsequent ovulation may also contribute to fertility rate in camels.

Conclusion and recommendation
Concerning the bacterial lora of the female genitalia in the camel, Zaki & Mousa [9], isolated corynebacteria, micrococci, and gram negative bacilli from the normal genital tract of pregnant and non-pregnant slaughtered animals. Almost the same spectrum of germs was found by Eidarous, et al. [10], however including E. coli and Staph. epidermidis. According to Nawito, [11], bacteriological indings in the uteri of 2075 onehumped camels of unknown history from the Cairo abattoir was made. In 94 cases (4.53%) clinical symptoms such as abscesses in the uterus, catarrhal endometritis, haemorrhagic endometritis, pyometra and pyometra with macerated foeti were found. Micrococcus pyogenes var. aureus played the predominant role. Furthermore, Micrococcus pyogenes var. albus, beta-haemolytic streptococci, E. coli and Pseudomonas aeruginosa could be isolated from the uteri of animals with clinical symptoms, Nawito, [11].