PREVALENCE OF HAEMONCHUS WORMS IN SHEEP AT ASSIUT GOVERNORATE, AND PRELIMINARY EVALUATION OF THE ANTHELMENTIC ACTIVITY OF FERULA HERMONIS EXTRACTS AGAINST THEIR DIFFERENT STAGES

Authors

1 Animal Health Research Institute. Assiut Laboratory, Egypt.

2 Dept. of Pharmacognosy Fac. of Pharmacy Assiut University, Egypt.

3 Dept. of Animal Hygiene Fac. of Vet. Medicine Assiut University, Egypt

Abstract

SUMMARY
 
In a survey on Heamonchus infection in sheep at Assiut Governorate, the overall infection rate was 18% out of 150 living animals that diagnosed by faecal samples examination and 49.06 % out of 53 slaughtered sheep that diagnosed by abomusum examination. In adult sheep the infection rate was 30 %, while Heamonchus eggs were not detected in lambs. Two species of Heamonchus were detected in the present work: H. contortus and H. placei. The morphological characters of each species were described. The second part of the present study was carried out to evaluate in-vitro the anthelmintic effect of different extracts of Ferula hermonis. The obtained results showed that all extracts of F. hermonis have variable degree of anthelmintic action against both adult worms of Haemonchus and their 3rd stage larvae in- vitro. Ethyl acetate extract of  F. hermonis at 5 mg / ml and 2.5 mg / ml has the greatest inhibitory action against both adult worms and 3rd stage larvae of Haemonchus. Our present investigation is the first study to evaluate the anthelmintic activity of different extracts of Ferula hermonis against Haemonchus.

Keywords


Animal Health Research Institute.

Assiut Laboratory, Egypt.

 

Prevalence of Haemonchus worms in sheep at Assiut Governorate, and preliminary evaluation of the anthelmentic activity of Ferula hermonis extracts against their different stages

(With 6 Tables and One Plate)

 

By

M.I. ARAFA; Z.Z. IBRAHEIM* and M.M. AHMED**

*Dept. of Pharmacognosy Fac. of Pharmacy Assiut University, Egypt.

**Dept. of Animal Hygiene Fac. of Vet. Medicine Assiut University, Egypt.

(Received at 10/12/2007)

 

مدى انتشار ديدان الهيمونکس فى الاغنام بمحافظة أسيوط وتقييم أولى لفعالية مستخلص نبات شرش الزلوع على اطوارها المختلفة

 

محسن إبراهيم عرفة ، زيدان زيد إبراهيم ، مصطفى محمد احمد

 

لدراسة مدى إنتشار ديدان الهيمونکس فى الاغنام بمحافظة أسيوط تم فحص عدد 150 عينة براز من الأغنام وکانت إجمالي نسبة الإصابة الکلية بديدان الهيمونکس 18.0% وقد کانت نسبة الإصابة في الحيوانات البالغة 30.0% بينما کانت الحيوانات الصغيرة خالية من الإصابة. ولتحديد أنواع ديدان الهيمونکس الموجودة بالأغنام تم فحص 53 معدة من الأغنام المذبوحة بمجزر أسيوط حيث بلغت نسبة الإصابة فيها49.06%. وتم تصنيف نوعين من ديدان الهيمونکس في تلک الحيوانات هما: هيمونکس کونتورتس وهيمونکس بلاساى وقد تم وصف الخصائص المورفولوجية للديدان البالغة لکل منهما. واشتمل الجزء الثاني من البحث على دراسة معملية لتقييم فاعلية نبات شرش الزلوع ضد ديدان الهيمونکس. فقد تم دراسة تأثير خمسة خلاصات لنبات شرش الزلوع على الأطوار البالغة والطور المعدي لديدان الهيمونکس. أوضحت الدراسة أن هناک فاعلية قوية لجميع الخلاصات المستخدمة على حيوية کل من الأطوار البالغة ويرقات تلک الديدان حيث بلغ معدل نفوق اليرقات في بعض منها 100% وقد وجد أن خلاصة خلات الأيثيل لنبات شرش الزلوع عند ترکيز 5 مج/ مل , 2.5 مج/ مل يعطى أعلى تأثير مثبط لهذه للديدان ويرقاتها معمليا. ويعتبر هذا البحث أول دراسة لتقييم فاعلية الخلاصات المختلفة لنبات شرش الزلوع على ديدان الهيمونکس.        

 

SUMMARY

 

In a survey on Heamonchus infection in sheep at Assiut Governorate, the overall infection rate was 18% out of 150 living animals that diagnosed by faecal samples examination and 49.06 % out of 53 slaughtered sheep that diagnosed by abomusum examination. In adult sheep the infection rate was 30 %, while Heamonchus eggs were not detected in lambs. Two species of Heamonchus were detected in the present work: H. contortus and H. placei. The morphological characters of each species were described. The second part of the present study was carried out to evaluate in-vitro the anthelmintic effect of different extracts of Ferula hermonis. The obtained results showed that all extracts of F. hermonis have variable degree of anthelmintic action against both adult worms of Haemonchus and their 3rd stage larvae in- vitro. Ethyl acetate extract of  F. hermonis at 5 mg / ml and 2.5 mg / ml has the greatest inhibitory action against both adult worms and 3rd stage larvae of Haemonchus. Our present investigation is the first study to evaluate the anthelmintic activity of different extracts of Ferula hermonis against Haemonchus.

 

Key words: Haemonchus worms, sheep parasites, Anthelmentic activity

 Of Ferula hermonis extracts

 

Introduction

 

Genus Haemonchus is a common parasite of domesticated ruminants (sheep, goats and cattle) and it is considered as the most pathogenic nematodes of them (Gibbs and Herd, 1986). It is a blood sucking parasite inducing reduction on feed conversion with slow- rate of weight gain, poor production and reproduction efficiencies (Jakhsi et al., 2006).

Three species of genus Haemonchus are known to occur in domestic and wild ruminants (H. contortus, H. placei and H. similis) and they have great deal of morphological variations (Dunn, 1978). The importance of H. contortus as a blood sucking parasite of sheep has been widely recognized, as the adult stages of the worm causing sufficient hemorrhage in the host abomasum, with subsequent severe and sometimes fatal anaemia (Ali, 1981). Human infection with Haemonchus worms has been reportedpreviously by Faust and Roussell (1959) and Jefferey and Leach (1984).

Resistance of nematodes to different anthelmintics has been reported world wide, whilst parasite control can no longer be achieved in some regions (Waller, 1994). Alternative strategies for parasite control are urgently needed; these include the use of forages or plants with anthelmintic properties (Athanasiadou et al., 2000).

Ferula (Umbelliferae) is a large genus of about 130 species distributed throughout the Mediterranean area and Central Asia (Frensh, 1971). Several species have been used in folk medicine. The roots and seeds of Ferula hermonis Boiss, locally named ‘zallouh root’, are endemic species of Mount Hermon in Lebanon and Syria and have been traditionally used in Middle East as potential aphrodisiac for both men and women (Lev & Amar 2002).

Although several Ferula species have been used in folk medicine, some Ferula species have toxic effects to grazing animals, the toxicity is due to two quite rare groups of coumarin-C-prenylated derivatives (Appendino, 1997 and Rubiolo et al., 2006). The effect of the extracts and essential oils on root-knot nematode was also studied by Al-Banna et al. (2003).

The roots of F. hermonis has been subjected to chemical studies. Many compounds belonging to daucane sesquiterpes of jaeschkeanadiol and its derivatives were isolated (Diab et al., 2001a, Diab et al., 2001b and Galal et al., 2001).

The objective of the present work was conducted to evaluate the prevalence of Haemonchus infection in sheep at Assiut Governorate in addition to in vitro evaluation of the anthelmintic properties of different Ferula hermonis extracts against their different stages of H. contortus which were isolated from the examined sheep.                                                                        

 

Materials and methods

 

 1- Collection and examination of faecal samples:

    - One hundred and fifty rectal faecal samples were collected from sheep (60 less than six months and 90 more than one year old). These samples were collected from Bany sanad farm (104) and other private sporadic samples (46).  Each sample was collected in clean plastic cup and delivered directly to the laboratory for examination.

    - Faecal samples were examined for the presence of Haemonchus eggs by the centrifugation floatation technique using saturated sodium chloride solution ( Abdel- Gawad, 1972).   

    - Faecal culture was performed for collection ofHaemonchus larvae  according to Eckert (1960).

2 - Collection  of adult worms:

Abomasums of 53 slaughtered sheep (more than 8 months) were collected and examined grossly for detection and counting of Haemonchus worms. Adult worms were collected, processed and mounted in jelly according to Pritchard and Gunther (1982). The mounted worms were identified according to Lichtenfel et al.  (1995).                                                                         

 

3 - Experimental work:

In vitro experiments that were undertaken to determine the effect of differentF. hermonis extracts on the motility and mortality of the adult worms, as well as the third stage larvae of Hemonchus contortus, including :-

  3-1 Plant materials: The dried roots of F. hermonis Boiss were purchased from herbal store of Syria. The plant was kindly authenticated by Department of Botany, Faculty of Science, Assiut University, Assiut, Egypt. The roots were crushed to fine powder and stored in dark glass till used. 

 3- 2  Extraction: [ Ibraheim and Boulatova ( 2002)]

The roots of F. hermonis  Boiss 2.0 Kg were extracted successively in a soxhlet apparatus using hexane, chloroform, ethyl acetate and finally with methanol till exhaustion in each case. After evaporation the solvent under reduced pressure at 50 oC till the residue became solvent free in each case (Ibraheim and Boulatova, 2002) and finally obtained 180 g of hexane extract (FHH), 78 g of chloroform extract (FHC), 32 g of ethyl acetate extract (FHE) and 54 g of methanol extract (FHM). The percentage yield of each extract was listed in    Table (1).                                                                                           

The aqueous extract was prepared by extraction of 500 g of the dried roots of the plant with distilled water at 50˚C for three hours, and the process was tried twice (Kaville and Kom,1966). The aqueous extract was collected and the water was removed by lypholization to afford 90 g of the aqueous extract (FHA). The aqueous extract was subjected to preliminary phytochemical screening and the obtained results were also recorded in Table (1).

 

Table 1: Different F. hermonis roots extracts with their yield percentage and preliminary phytochemical screening results.

 

Extract (Symbol)

Amount obtained (Plant Material)

% yield

Results of preliminary phytochemical

screening (Aqueous ex.)

Hexane extract (FHH)

180  (2.0 Kg)

9.0

Sterols and/or triterpens (+)

Coumarins (+)

Alkaloids (+)

Tannins (+)

Saponins (+)

Lactones and/or esters (+)

Flavonoids (-)

Anthraquinones (-)

Chloroform extract (FHC)

78   (2.0 Kg)

3.9

Ethyl acetate extract (FHE)

35   (2.0 Kg)

1.75

Methanol extract (FHM)

54   (2.0 Kg)

2.7

Total aqueous extract (FHA)

90   (0.5 Kg)

18.0

(+) Present      (-) Absent   

3- 3  Preparation of the extracts for biological study:

The residue of the aqueous (5 g) was dissolved in 80 ml of distilled water using magnetic stirrer. The solution was transferred to 100 ml volumetric flask and the volume was completed to 100 ml with distilled water. From each of other extracts 5 g residue was dissolved in distilled water using 2% Tween 80 as solubilizing agent. The solution was then transferred to 100 ml volumetric flask and the volume is completed to 100 ml. The same amount of Tween 80 was used as negative control. The final concentration of each extract was 50 mg /m l (Baraka, 2001).

3- 4 Studied activity of different F. hermonis extracts:

A- On adult worms H. contortus:

One hundredadult worms of H. contortus were collected and divided into ten groups (ten worms in each) in separate Petri - dishes and then exposed to one of the following treatments at 37˚C:

1- Hexane extract [FHH] (at 50mg / ml.).      

2- Chloroform extract [FHC] (at 50mg / ml.).

3- Ethyl acetate extract [FHE] (at 50mg / ml.) 

4- Methanol extract [FHM] (at 50mg / ml.)

5- Total aqueous extract [FHA] (at 50mg / ml.)

6- Avimec (Ivermectin) 10mg /ml(positive control).

7- Avimec 5 mg/ml. (positive control).

8- Avimec 2.5 mg /ml. (positive control)

9- Tween 80 [2%] (negative control).           10- Phosphate buffer PBS.

The mortality or inhibition of motility of the worms was observed after 1, 2, 3 and 6 hours intervals. Finally, the treated worms were kept for 30 minutes in lukewarm fresh PBS to observe the revival of their motility.

B- On 3rd stage larvae of H. contortus:

In the same manner, 300 of H. contortus third stage larvae were exposed to one of previous treatments after dividing them into ten groups (30 larvae in each) in separate small Petri- dishes. The viability of the larvae was observed microscopically after 1, 2 and 24 hours intervals.Finally, the treated larvae were kept for 30 minutes in lukewarm fresh PBS to observe the revival of their motility.                                                                               

3- 5 Determine minimal inhibitory concentration (MIC) of ethyl acetate extract:

Dried ethyl acetate extract (FHE) was dissolved as previously mentioned in 2% tween 80 and serially diluted with PBS to obtain (5.0, 2.5, 1.25 and 0.625%) concentrations immediately prior to use. The effect of each concentration on adult worms of H. contortuswas studied as mentioned before in (3-4 A).                      

 

Results

 

Out of 150 faecal samples of sheep examined in the present work, 27 (18.0%) were harboring Haemonchus eggs. Most infected cases were detected in private sporadic animals (56.5%), and only one sheep (0.96%) was infected in Bany- sanad farm.

The infection rate of Haemonchus in adult sheep samples was (30.0%), while Haemonchus eggs were not detected in examined lambs (Table 2).

 

Table 2: Prevalence of Haemonchus infection in examined sheep at Assiut Governorate.

 

Samples

Young

N=60

Adult

N=90

Total

N=150

Ex.

Inf.

%

Ex.

Inf.

%

Ex.

Inf.

%

Bany -sanad samples

49

0

0

55

1

1.8

104

1

0.96

Private sporadic samples

11

0

0

35

26

74. 3

46

26

56.5

Total

60

0

0

90

27

30.0

150

27

18.0

 

Adult worms of Haemonchus were detected in 26 (49.06%) of examined 53 abomasums of slaughtered sheep. The worm burden of Haemonchus in infected animals ranged from 1- 275 worms with average 20 worms / host. Two species of Haemonchus were identified in the present work:

  - Haemonchus contortus and Haemonchus placei.

                     aaaa

The morphological characters of adult worms of each species are presented at Table (3) & Plate 1.

 

Table 3: Morphological characters of detected Haemonchus species.

 

Haemonchus placei

 

Haemonchus contortus

 

Characteristics

 

14-16

 

340- 390

 

1470- 1590

 

475- 485

 

Bifurcated posteriorly

 

17-19

 

280- 365.5

 

1530- 1720

 

485 -498

 

United

 

Male

Body length(mm)

 

Cervical papillae

 

Esophageal length

 

Spicule length

 

Spicule character

 

12- 31

 

355- 490

 

1710- 1780

 

Protruded knob over vulva

 

480- 630

 

14- 29

 

350- 480

 

1690- 1780

 

Large lobe over vulva

 

520- 600

Female

Body length(mm)

 

Cervical papillae

 

Esophageal length

 

Ovejectors character

 

Tail

-All measurementsin microns except total length in millimeter

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Experimental work:

A-Effect of F. hermonis extracts on adult worms of Haemonchus:

           Most of F. hermonis extracts showed anthelmintic activity against adult worms of Haemonchus in vitro. The obtained results indicated that the ethyl acetate extract at 50 mg / ml inhibited the motility of all isolated worms (100%) after two hours. The rates of inhibition of worms in the other extracts were: aqueous extract (40%), and chloroform extract (20%). Temporally effect on motility of Haemonchus worms were noticed in both hexane and methanol extracts, where most of examined worms in case of hexane extract and all worms in methanol extract retained to their normal motility after keeping them in fresh PBS for 30 min. (Table 4).

B- Effect of F. hermonis extracts on Haemonchus 3rd stage larvae:

 All F. hermonis extracts showed anthelmintic activity against the 3rd stage larvae of Haemonchus. Both ethyl acetate and aqueous extracts of F. hermonis at 50 mg/ ml produced the greatesteffect where the mortality rate of isolated larvae was (100%). The movement of isolated larvae had stopped at once and all larvae became crescent shaped, non refractive after 24 h. Also, they remained the same after keeping them in fresh PBS for 30 min. that indicated their non viability (Table 5). 

   Other extracts of Ferula had only inhibitory effects on larval motility and their rates were: hexane extract (86.7%), chloroform extract (70 %) and lastly methanol extract (26.7%) as illustrated in Table 5. The isolated larvae in these extracts after 24 h. coiled themselves with very slow movement at both ends (sluggish movement) and did not return to normal motility again after keeping them in fresh PBS for 30 min.

Avimec (Ivermectin) in the present work was used as a positive control and was highly effective against both adult worms and larvae of Haemonchus. Rates of inhibition and mortality in each stage of Haemonchus at all concentrations were 100%. All adult worms and larvae in both tween 80 (2%) and fresh PBS (negative control) were actively motile until the end of the experiment.     

C- Minimal inhibitory concentration of ethyl acetate extract (FHE):

In general, the motility of Haemonchus worms were inhibited at different used concentrations of ethyl acetate extract (5%, 2.5%, 1.25% and 0.625%), but when checked in fresh PBS for 30 minutes only the worms at both 1.25% and 0.625% of Ethyl acetate extract had returned to normal motility (Table 6).     

 

 

 

Table 4: In vitro effect of F. hermonis different extracts on adult worms of Haemonchus.   

Reagents

No. of adult worms showing motility at different time factors (h.) post exposure. 

0              1h               2 h                  3h               6h            fresh PBS

                                                                                         for 30 mint.*

% of

inhibited

worms

Ferula aqueous     5%

Ethyl acetate ext.  5%

Chloroform ext.     5%

Hexane ext.          5%

 

Methanol ext.        5%

 

10            10                8                    8                  6                     6

10            10                0                    0                  0                     0

10            10               10                  10                 8                     8

10            10               10                  10                 3                     6

10            10               10                  10                 8                   10

   40%      

  100%

   20%

   40%

 

     0

Avimec         10 mg.

                      5mg.

                    2.5mg

10              0                0                    0                  0                    0

10              0                0                    0                  0                    0

10            10                0                    0                  0                    0

 

  100%

  100%

  100%

Tween 80            2%

 

   PBS.   

10            10               10                  10                10                  10

10            10               10                  10                10                  10

     0

 

     0

*Indicated that all examined worms were checked in PBS for 30 mint after exposure to

   the different treatments to confirm the inhibitory effect on their mortality.

Table 5: In vitro effect of F. hermonis different extracts on Haemonchus larvae.   

Reagents

No.of 3 rd  stage larvae showing motility at different time factors (h.) post exposure.

  0               1h                  2 h                     24 h            fresh PBS.

                                                                                     For 30  mint. *

% of

inhibited larvae

 

Aqueous extract   5%   

Ethyl acetate ext. 5%

Chloroform ext.    5%

Hexane ext.         5%

Methanol ext.       5%       

 

30             18                  18                        0                       0

30             12                   5                         0                       0

30             20                  15                        5                       9

30             22                  19                        2                       4

30             16                  16                       16                      22

 

100%**

100%**

  70%

 86.7%

 26.7%

 Avimec        10.0 mg.

                   5.0 mg.

                   2.5 mg  

30              0                   0                          0                        0

30              0                   0                          0                        0

30              0                   0                          0                        0

 

100%**

100%**

100%**

Tween 80            2%

  PBS.      

30             30                  30                       30                       30

30             30                  30                       30                       30

     0

     0

*Indicated that all examined larvae were checked in PBS for 30 mint after exposure to        the different treatments to confirm the inhibitory effect on their mortality.                 

 ** Indicated non viable larvae.            

Table 6: Effect of different concentrations of F. hermonis ethyl acetate extract on adult worms of Haemonchus.

concentrations

No. of worms showing motility at different time factors (h.) post exposure.

0          1h              2 h           3h              6h            fresh PBS

                                                                                 for 30 mint. *

 

% of inhabited worm

Ethyl acetate ext. 5 %

                          2.5 %

                        1.25 %

                      0.625%

10          10               0             0                 0               0

10          10             10            10                0               0

 

10          10             10            10                0              10

10          10             10            10                0              10

100%

 

100%

 

    0

    0

*Indicated that examined worms were checked in PBS for 30 mint.after exposure to  the different treatments to confirm the inhibitory effect on their mortality.

 

Discussion

 

Haemonchus worms are considered one of the major internal parasites of economic importance, where they have direct and indirect effect on health and production of animals especially the subclinical infection (Sykes, 1978).

In the present work the infection rate of Haemonchus was 18.0 % in examined faecal samples. In private sporadic cases the infection rate was considered very high (56.5%) than that recorded in Bany-sanad farm samples (0.96%). The obtained result might be related to periodical using of antihelmintic drugs in addition to improvement of the sanitary conditions in the farm.

The present study confirmed that lambs have a certain immunity against Heamonchus infection, where the infection detected only in adults. Gill et al. (1993) and Jakhsi et al. (2006) mentioned that experimentally infected lambs with Haemonchus showed ability to resist and limit the infection as a result of self- cure phenomenon.      

Concerning the examination of abomasums of 53 slaughtered sheep, the infection rate of Haemonchus worms was 49.06%. The result was considered higher than that recorded by Monib (1977), Hassona (1979) and Hashem (1997) who detected Haemonchus in 32.2 %, 38.7% and 30.17 of examined sheep respectively. Both detected species of Haemonchus (H. contortus & H. placei) in the present work were recorded also in sheep by Monib (1977) and El-Akabawy (1987).

Parasitic resistance to anthelmintics is a growing problem in the control of gastrointestinal nematodiasis in small ruminants (Smith and Sherman 1994). Recently, there is increasing interest in non – chemical method for controlling parasites.

The results of the present experimental work showed that different extracts of Ferula hermonis had variable degree of anthelmintic action against adult worms of Haemonchus and their 3rd stage larvae in vitro. Their inhibitory effect ranged from 20 – 100 % on adult worms and from 26.7- 86.7 % on their 3rd stage larvae of Haemonchus. While the mortality rates were 100% against 3rd stage larvae for both ethyl acetate and aqueous extracts at 50 mg / ml.

Although the mechanisms by which the F. hermonis extractsinhibitadult worms and kill 3rd stage larvaeof Haemonchus are still unknown, but when the viability of the treated larvae was checked in fresh PBS for 30 min., most of inhibited larvae did not retrain again to their normal motility. We suggested that Ferula extracts may penetrate the wall of the larvae and affect the muscular activity.   

Ethyl acetate extract was more effective than other extracts of Ferula, where the inhibition rate against both stages of Haemonchus was 100%. This effect was similar to that we had tested with the different concentrations of Avimec.

The differences in the activity between the experimented           F. hermonis extracts may be attributed to differences in the polarities of each solvent and hence in the constituents of each extract. The ethyl acetate extract which contained the polar compounds (as tannins, saponins and other glycosides) showed the highest effect on both the worms and the larvae. The hexane extract which contained the lowest polar compounds (as sesquiterpens, some coumarins and triterpens) showed moderate effects. While the chloroform fraction which is considered as non-polar solvent that may contained less polar compounds (as ducanes and coumarins) showed the less activity. The methanol extract after ethyl acetate extraction which contained mainly the highly polar constituents (as sugars, carbohydrates, amino-acids..etc) had no activity.

The total aqueous extract which contained the polar compounds and saturated with the non-polar compounds showed moderate activities on both Haemonchus worms and their larvae. Further studies should be done to isolate the compounds responsible for such activities and to confirm their anthelmintic effect in vivo as well as to elucidate the mechanism of action.  

 

 

References

 

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Dunn, A.M. (1978): Veterinary Helminthology. 2nd Ed. Bulter & Tanner Lid, Frome and Landon.  

Eckert, J. (1960): The diagnosis of gastro – strongylosis in the sheep by differentiation of the free - living third stage larvae. Zentralblatt fur. Vet. Med., 94: 612- 629.

El- Akabawy, L.M.S. (1987): Some studies on Gastro- intestinal nematodes infesting sheep under different environmental factors in Kalyobia Governorate. M. Sc Thesis. Fac. Vet. Med. Cairo Univ.

Faust, E.C. and Roussell, P.F. (1959): Craig and faustُ Clinical Parasitology Lee & Fabiger, 6 ed., London, pp. 392- 403.

Frensh, D.M. (1971): Biology and Chemistry of Umbelliferae. Academic Press, London. pp 400- 401. 

Galal, A.M.; Abourashed, E.A.; Ross, S.A.; El-Sholy, M.A.; Al-Said, M.S. and El-Feraly, F.S. (2001): Ducane sesquiterpenes from Ferula   hermonis, J. Nat. Prod., 64, 399-400.

Gibbs, H.C. and Herd, R.B. (1986): Nematodiasis in cattle: importance, species involved, immunity, and resistance. In veterinary clinics of North America. Parasites and control. W.B. Saunders Company, Philadelphia, p. 211- 224.

Gill, H.S.; Gray, C.D.; Waston, D.L. and Husband, A.J. (1993): Isotype-specific antibody responses to Haemonchus contortus are genetically resistant sheep. Parasit. Immunol. 15 (2): 61- 70.

Hashem, M.E. (1997): Helminthes parasites of sheep in Dakahlia Province-Egypt. Assiut Vet. Med. J., 38 (75): 48- 54.

Hassona, A.A. (1979): Studies on abomasal nematodes infesting sheep. M. Sc.Thesis Fac. Vet. Med. Cairo Univ.

Ibrahim, Z.Z. and Boulatova, N.R. (2002):Study of anti- inflammatory properties of parsley, dill and thym in mice. Preceding of the third pharmaceutical Sci. Conf. Assiut, Egypt. 5-6 March. 

Jakhsi, N.S.; Ali, D.A. and Alsaqur, I.M. (2006): The effect of sub-clinical infection with Haemonchus contortus on some physiological aspect of Awassi and Belivin Bulgarian lambs. 12 Sci. cong. 2006 Fac. Vet. Med. Assiut Univ. 113- 133.

Jefferey, H.C. and Leach, R.M. (1984): Atlas of Medical Helminthology and Protozoology, Churchill Livingstone, pp. 101- 102.

Kaville, K. and Kom, P. (1966): Herbs for healthand heading 1st. Ed. Rodale Press. Inc. Emmaus, Pennsylvania.

Lev, E. and Amar, Z. (2002): Ethnopharmacological survey of drugs solid in Kingdom of Jordan; J. Ethnopharmacol., 82: 131-145.

Lichtenfel, J.R.; Pilitt, P.A. and Hoberg, E.P. (1995): New morphological characters for identifying individual specimens of Haemonchus spp. (Nematoda: Trichostrongyloidea) and a key to species in ruminants of North America. J. Parasitol. 80(1) 107- 119.

Monib, M. (1977): Study on some helminth parasites of ruminants in Assiut Governorate. M.Sc. Thesis. Fac. Vet. Med. Assiut Univ.

Pritchard, M.H. and Gunther, O.W.K. (1982): The collection and preservation of animal parasites. University Printing Office Press, Lincolin.

 

 

 

Rubiolo, P; Matteodo, M.; Riccio, G.; Ballero, M.; Chirsten, P.; Fleury-Souverain, S.; Veuthey, J.-C. and Bicchi, C. (2006): Analytical discrimination of poisonous and nonpoisonous chemotypes of giant fennel (Ferula communis L.) through their biologically active and volatile fractions, J. Agrc. Food Chem., 54, 7556-7563.

Smith, M.C. and Sherman, D.M. (1994): Goat Medicine.1 ed. Lea & Febiger U.S.A.

Sykes, A.R. (1978):The effect of sub-clinical parasitism in sheep. Vet. Rec.102: 32 -34.

Waller, P.J. (1994):The development of anthelmintic resistance in ruminant livestock. Acta Trop. 56: 233- 243.

                 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

Plate I: Morphological characters ofadult worms of Haemonchus species:

(1) Anterior endof H. contortus showing lateral cervical papillae (arrow).

(2) Female vulvar flap of H. contortus.

(3) Posterior endof male H. contortus showing adherent of spicule tips.        

(4) Anterior endof H. placei showing lateral cervical papillae (arrow).

(5)  Female vulvar flap of H. placei.

(6) Posterior endof male H. placei showing separation of spicule tips.

 

 
References
 
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Al-Banna, L.; Darwish, R.M. and Aburijai, T. (2003): Effect of plant extracts and essential oils on the root-knot nematode, Phytopathologia Mediterreanea, 42, 123-128.
Ali, D.A. (1981): The effect of sub-clinical infection with Haemonchus contortus on production parameters in sheep. Ph. D Thesis, Univ. of  Newcastle upon Tyne.
Appendino, G. (1997): The toxins of Ferula communis L. In: Virtual Activity, Real Pharmacology, 1st ed; Verotta, L., Ed; Research Signpost: Tivandrum, India, Vol. I, pp1-15.
Athanasiadou, S.; Kyriazakis, I.; Jackson, F. and Coop, R.L. (2000): Effect of short- term exposure of condensed tannins on adult Trichstongylus colubriformis. Vet. Rec., 146: 728- 732.
Baraka, H.N.M.S. (2001):Pharmacognostical study of Bougainvilea and Buddleia madagascarinesis. M. Sc. Thesis, Dept. of Pharmacognosy Fac.Pharmacy, Mansoura Unive.
Daib, Y., Dolmazon, R. and  Bessiere, J.M. (2001a): Ducane aryl esters composition from the Lebanese Ferula hermonis Boiss. (Zallooh root). Flav. Frag. J., 16, 120-122.
Diab, Y.; Dolmazon, R. and Fenet, B. (2001b): 2-3-α-Epoxyjaeschkeanadiol -5-penzoate from Ferula hermonis, Flav. Frag. J., 16, 397-400.
Dunn, A.M. (1978): Veterinary Helminthology. 2nd Ed. Bulter & Tanner Lid, Frome and Landon.  
Eckert, J. (1960): The diagnosis of gastro – strongylosis in the sheep by differentiation of the free - living third stage larvae. Zentralblatt fur. Vet. Med., 94: 612- 629.
El- Akabawy, L.M.S. (1987): Some studies on Gastro- intestinal nematodes infesting sheep under different environmental factors in Kalyobia Governorate. M. Sc Thesis. Fac. Vet. Med. Cairo Univ.
Faust, E.C. and Roussell, P.F. (1959): Craig and faustُ Clinical Parasitology Lee & Fabiger, 6 ed., London, pp. 392- 403.
Frensh, D.M. (1971): Biology and Chemistry of Umbelliferae. Academic Press, London. pp 400- 401. 
Galal, A.M.; Abourashed, E.A.; Ross, S.A.; El-Sholy, M.A.; Al-Said, M.S. and El-Feraly, F.S. (2001): Ducane sesquiterpenes from Ferula   hermonis, J. Nat. Prod., 64, 399-400.
Gibbs, H.C. and Herd, R.B. (1986): Nematodiasis in cattle: importance, species involved, immunity, and resistance. In veterinary clinics of North America. Parasites and control. W.B. Saunders Company, Philadelphia, p. 211- 224.
Gill, H.S.; Gray, C.D.; Waston, D.L. and Husband, A.J. (1993): Isotype-specific antibody responses to Haemonchus contortus are genetically resistant sheep. Parasit. Immunol. 15 (2): 61- 70.
Hashem, M.E. (1997): Helminthes parasites of sheep in Dakahlia Province-Egypt. Assiut Vet. Med. J., 38 (75): 48- 54.
Hassona, A.A. (1979): Studies on abomasal nematodes infesting sheep. M. Sc.Thesis Fac. Vet. Med. Cairo Univ.
Ibrahim, Z.Z. and Boulatova, N.R. (2002):Study of anti- inflammatory properties of parsley, dill and thym in mice. Preceding of the third pharmaceutical Sci. Conf. Assiut, Egypt. 5-6 March. 
Jakhsi, N.S.; Ali, D.A. and Alsaqur, I.M. (2006): The effect of sub-clinical infection with Haemonchus contortus on some physiological aspect of Awassi and Belivin Bulgarian lambs. 12 Sci. cong. 2006 Fac. Vet. Med. Assiut Univ. 113- 133.
Jefferey, H.C. and Leach, R.M. (1984): Atlas of Medical Helminthology and Protozoology, Churchill Livingstone, pp. 101- 102.
Kaville, K. and Kom, P. (1966): Herbs for healthand heading 1st. Ed. Rodale Press. Inc. Emmaus, Pennsylvania.
Lev, E. and Amar, Z. (2002): Ethnopharmacological survey of drugs solid in Kingdom of Jordan; J. Ethnopharmacol., 82: 131-145.
Lichtenfel, J.R.; Pilitt, P.A. and Hoberg, E.P. (1995): New morphological characters for identifying individual specimens of Haemonchus spp. (Nematoda: Trichostrongyloidea) and a key to species in ruminants of North America. J. Parasitol. 80(1) 107- 119.
Monib, M. (1977): Study on some helminth parasites of ruminants in Assiut Governorate. M.Sc. Thesis. Fac. Vet. Med. Assiut Univ.
Pritchard, M.H. and Gunther, O.W.K. (1982): The collection and preservation of animal parasites. University Printing Office Press, Lincolin.
 
 
 
Rubiolo, P; Matteodo, M.; Riccio, G.; Ballero, M.; Chirsten, P.; Fleury-Souverain, S.; Veuthey, J.-C. and Bicchi, C. (2006): Analytical discrimination of poisonous and nonpoisonous chemotypes of giant fennel (Ferula communis L.) through their biologically active and volatile fractions, J. Agrc. Food Chem., 54, 7556-7563.
Smith, M.C. and Sherman, D.M. (1994): Goat Medicine.1 ed. Lea & Febiger U.S.A.
Sykes, A.R. (1978):The effect of sub-clinical parasitism in sheep. Vet. Rec.102: 32 -34.
Waller, P.J. (1994):The development of anthelmintic resistance in ruminant livestock. Acta Trop. 56: 233- 243.