Eastern Mediterranean Health Journal
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Volume 12 No 5 September 2006		Print this article	PDF

Alternative drugs against Trichomonas vaginalis

N.K. Mahdi,¹ Z.H. Gany² and M. Sharief¹

الأدوية البديلة المضادة للمشعَّرة المهبلية

ناظم كاظم مهدي، زينب حميد غني، ميسون شريف

الخلاصـة: للتعرُّف على أثر الأدوية الأخرى غير المتـرونيدازول، عولجت ثلاث حوامل مصابات بالعدوى بالمشعَّرة المهبلية بالدوكسي سيكلين بجرعتين يومياً مقدار كل منها 200 مغ ولمدة أسبوع، فيما عولجت ثلاث حوامل أخريات بالبرازيكوانتيل، بجرعة وحيدة مقدارها 40 مغ/كغ من وزن الجسم. ولم يكشف أيُّ تأثير علاجي لأيٍّ من الدواءَيْن. أما في التجارب المختبرية، فقد أدى الأوكسي تـتـراسيكلين إلى موت المشعَّرة المهبلية بتـركيز 15 مغ في 0.5 مل من المستنبت، كما أدت خلاصة شجر الآس الشائـع إلى موت المشعَّـرات المهبلية في درجـة باهاء 4.65pH ولكنها فشلت في قتلها في درجة باهاء 6.00pH . كما سببت خلاصة اليوكاليبتوس الكومالديني بتـركيز 50 مغ في 0.1 مل من المستنبت وفي درجة باهاء 5.35 إلى موت المشعَّرات المهبلية بعد 24 ساعة.

ABSTRACT: To investigate the effect of drugs other than metronidazole, 3 non-pregnant women infected with Trichomonas vaginalis were treated with doxycycline, 2 × 200 mg/day for 1 week. Another 3 women were treated with praziquantel, single dose, 40 mg/kg body weight. No therapeutic effect was detected for either drug. In vitro, oxytetracycline led to death of T. vaginalis at a concentration of 15 mg in 0.5 mL medium. Extract of Myrtus communis caused death of T. vaginalis at pH 4.65, but failed to do so at pH 6.00. Extract of Eucalyptus comaldensis (50 mg in 0.1 mL medium) at pH 5.35 caused death of T. vaginalis after 24 hours.
 

Traitements alternatifs contre Trichomonas vaginalis

RÉSUMÉ: Afin d’examiner l’effet d’autres médicaments que le métronidazole, 3 femmes non enceintes infectées par Trichomonas vaginalis ont été traitées à la doxycycline, 2 x 200 mg/jour pendant une semaine. Trois autres femmes ont été traitées au praziquantel en dose unique de 40 mg/kg de poids corporel. Aucun effet thérapeutique n’a été détecté pour ces deux médicaments. In vitro, l’oxytétracycline a entraîné la mort de T. vaginalis à une concentration de 15 mg dans 0,5 mL de milieu. Un extrait de Myrtus communis a causé la mort de T. vaginalis à un pH de 4,65 mais pas à un pH de 6,00. Un extrait d’Eucalyptus comaldensis (50 mg dans 0,1 mL de milieu) à un pH de 5,35 a entraîné la mort de T. vaginalis après 24 heures.

¹Department of Microbiology; 3Department of Obstetrics and Gynaecology, College of Medicine;
²Department of Pharmacology, Toxicology and Allied Sciences, College of Pharmacy, University of Basra, Basra, Iraq (Correspondence to N.K. Mahdi: nadhammahdi@yahoo.com). Received: 1/10/02; accepted: 06/07/04
 

Introduction

Trichomonas vaginalis is a flagellate protozoan which infects the urogenital tract of men and women [1]. It is transmitted by sexual intercourse [2,3], by non-
venereal means such as sharing of contaminated towels or underclothing, or the use of non-sterile medical examination tools [2,3]. In women it causes vaginitis and cystitis and in men it causes urethritis and prostatitis [4].
Metronidazole is the mainstay of treatment for T. vaginalis infection and can be given as a single dose, 2 g orally (divided into 1 g in the morning and 1 g at night), or 250 mg 3 times/day for 7 days [5,6].
Appropriate treatment with metronidazole cures 60%–80% of cases with a single dose, but the cure rate increases to > 90% when sexual partners, who are usually asymptomatic, are treated simultaneously to prevent re-infection [7].
The chemotherapeutic trial presented in this study is the first attempt in Iraq to try to identify alternatives to metronidazole, the only currently available treatment for trichomoniasis. Under the circumstances of economic sanctions and shortage of drugs, it is essential to carry out therapeutic investigations on chemical and plant sources.
Tetracycline has an antiprotozoal effect against Dientamoeba fragilis and Balantidium coli [9]; therefore, tetracycline derivatives doxycycline and oxytetracycline were chosen for this investigation. Both are readily available, the treatment course is short, resistance has not been recorded and they do not have the bitter taste that is associated with metronidazole. In addition, oxytetracycline is the drug of choice in the treatment of T. foetus in cattle (veterinary use) [10,11]. The drug oxytetracycline and plant extracts of Myrtus communis and Eucalyptus camaldulensis were chosen for in vitro investigation because they have antiparasitic activity [10–12].

Methods

Samples were obtained from the vaginal discharges of infected women by sterile vaginal swab and cultured in selective medium, Bacto trichomonas broth, (Difco No. 0911.02, Difco Laboratories, Michigan), incubated at 37 °C and checked for the presence of T. vaginalis after 48–72 hours. This was done by taking a drop from the bottom of the culture using a sterile Pasteur pipette, transferring to a slide and examining under the high power objective for ≥ 10 minutes.
Two drugs were tested experimentally in vivo, and 1 drug and 2 plant extracts in vitro, in order to study their effect on T. vaginalis.
In vivo
This study was carried out in the first 6 months of 2001 in Basra Maternity Hospital, the main centre for gynaecology and obstetrics in the city. Diagnosis of T. vaginalis infection was made by 2 of the authors by wet preparation and in vitro cultivation. All 7 non-pregnant, infected women presenting during the study period were informed about the study and all but 1 agreed to participate in the in vivo study. The age range of the women was 23–45 years.
Two drugs were used, doxycycline and praziquantel. The diagnosis and treatment outcome were assessed by wet preparation microscopy and culture methods [3].
Three non-pregnant patients infected with T. vaginalis were treated orally with doxycycline 200 mg (Vidipha, Ho Chi Minh City, Socialist Republic of Viet Nam), 2 capsules/day for 1 week.
A second group of 3 non-pregnant patients infected with T. vaginalis were treated with praziquantel (Shin Poong Pharmaceutical Company Ltd., Seoul, Republic of Korea), 40 mg/kg body weight in a single dose divided into 2 parts taken 5 hours apart. Re-examination was done on the 3rd and the 5th days after completing treatment.
In vitro
The antibiotic oxytetracycline, 100 mg/mL preparation (Ciba-Geigy Ltd., Basle, Switzerland), was added to tubes containing 0.5 mL Bacto trichomonas broth in the following amounts: 0.1 mL, 0.15 mL, 0.2 mL and 0.5 mL. The mixtures were used on the same day they were made up. They were inoculated with T. vaginalis (5 × 106 to 10 × 106 organisms/mL) and incubated at 37 °C. The tubes were examined for T. vaginalis activity immediately and over a 24-hour period.
Plant material and extraction
Two plants, M. communis L. (Myrtaceae) and E. camaldulensis L. (Myrtaceae) were investigated. Both of these are grown in Basra. Extraction was carried out according to the method described in Harborne [8]. Briefly:
• leaves were separated from other parts of the plant and washed with water;
• the leaves were then dried under sunlight with good ventilation and then ground finely in a mill;
• 10 g of the ground leaves was mixed with 100 mL of distilled water in a flask and heated on a magnetic stirrer at
40 °C–50 °C for 4 hours/day for 12 days;
• the suspension was then centrifuged at 6000 rpm for 30 minutes;
• the supernatant was decanted and clarified by filtration through a sterile filter paper (0.45 μ) then made up to 100 mL with distilled water.
The pH of the M. communis extract was 4.65 and that of the E. camaldulensis extract 5.35. The liquid plant extracts were tested at different concentrations with T. vaginalis, 106 organisms/mL.
Myrtus communis
Tubes were prepared with 0.1 mL of medium (Bacto trichomonas broth). Plant extract was added in the following amounts: 0.1 mL, 0.2 mL, 0.5 mL and 1.0 mL. Control tubes were prepared in a similar manner, omitting the extract. Since T. vaginalis is not viable at pH < 4.9, the pH of the extract (4.65) was adjusted to 6.00 with 10% NaOH, and a second series of tubes prepared. All samples were examined by the same investigator at 0.0 hours, 0.5 hours, 1.0 hour and 24.0 hours.
Eucalyptus camaldulensis
Test and control tubes were prepared and examined in a similar manner. Plant extract was added in the following amounts: 0.2 mL, 0.5 mL, 1.0 mL and 2.0 mL.

Results
In vivo

In the 3 women who were treated with doxycycline, T. vaginalis was still alive and active when they were re-examined after treatment.
Similarly, praziquantel had no effect on T. vaginalis infection.

In vitro

Oxytetracycline caused death of T. vaginalis immediately in the tubes which had 0.15 mL, 0.2 mL and 0.5 mL of the drug in 0.5 mL medium. Flagellae remained active only in the tube with 0.1 mL oxytetracycline in 0.5 mL medium (Table 1).

Aqueous extract (pH 4.65) of M. communis showed an effect against T. vaginalis (Table 2): the organism was dead immediately in the tubes containing 50 mg and 100 mg extract, and within 0.5 hours in the tube with 20 mg extract. At pH 6.00, however, M. communis extract had no effect against the organism (Table 3).

Aqueous extract (pH 5.35) of E. camaldulensis showed some effect on viability of T. vaginalis. After 24 hours, T. vaginalis was dead in the tubes containing 50 mg, 100 mg and 200 mg aqueous plant extract (Table 4).

Discussion

Interestingly, this study has shown that although doxycycline had no effect on T. vaginalis infection in vivo, oxytetracycline had a lethal effect in vitro. Since this drug is available in several countries other than Iraq as a broad spectrum antibiotic in human medicine [12], it is possible it could, after careful evaluation, be used as an alternative drug if it was available in the country, especially among women who cannot tolerate the bitter taste of metronidazole and those having resistant infection.
Even though praziquantel has a good therapeutic effect on the intestinal flagellate Giardia lamblia and the intestinal amoeba Entamoeba histolytica [13], no effect was observed in our study against the urogenital flagellate T. vaginalis.
As part of this study, 2 plants were investigated for the first time because they are known to have some antibacterial and antiparasitic activity [14–17]. We found that M. communis extract killed the organism at pH 4.65, but no such effect was observed at pH 6.00 (the optimal pH for growth of T. vaginalis).
Promising results were obtained with E. camaldulensis extract. Consequently, this plant extract needs further investigation. Research into other chemical and plant sources to look for alternative drugs against T. vaginalis is essential. The characteristics required of such drugs are: inexpensive; available in the country; not having a bitter taste (cf. metronidazole); no parasite resistance (cf. metronidazole); safe to use in pregnancy; and short treatment course.

References

1. Tanaka T, Kaneda Y. Seroepidemiology of urogenital trichomoniasis in Japan. Japan journal of parasitology, 1989, 38(5):296–300.
2. King A, Nicol C. Venereal disease, 3rd ed. London, Bailliere Tindall, 1975:283–9.
3. Sehgal VN. Venereal disease, 2nd ed. New Delhi, Jaypee Brothers, 1987:124–5.
4. Omer EE. Trichomoniasis in clinical practice. Postgraduate doctor, 1987, 10:33–40.
5. Fridrich EG. Vaginitis. American journal of obstetrics and gynecology, 1985, 152(3):247–51.
6. Nash TE, Weller PE. Protozoal intestinal infection and trichomoniasis. In: Braunwald E et al., eds. Harrison’s principles of internal medicine, 14th ed. New York, McGraw Hill Book Company, 1998:1205.
7. Essential drugs for sexually transmitted diseases. WHO drug information, 1992, 61(1):19–26.
8. Harborne JB. Phytochemical methods, 2nd ed. New York, Chapman & Hall, 1984:4–7.
9. Beaver PC, Jung RC. Animal agents and vectors of human diseases, 5th ed. Philadelphia, Lea and Febiger, 1985:15–6.
10. Swan GE et al. The safety of dimetridazole alone and in conjunction with oxytetracycline in Hereford crossbred steers. Journal of the South African Veterinary Association, 1991, 62(2):55–9.
11. Arthur GH et al. Veterinary reproduction and obstetrics, 7th ed. Philadelphia, WB Saunders Company, 1998:405–8.
12. Dey NC, Dey TK, Sinha MD. Medical parasitology, 10th ed. Kolkata, India, New Central Book Agency Ltd, 1997:4.2–4.3.
13. Mohammed KA et al. Effectiveness of praziquantel in treatment of intestinal amoebiasis and giardiasis. Eastern Mediterranean health journal, 1998, 4(1):161–3.
14. Majeed SH. Mahmood MG. Iraqi plants between traditional medicine and scientific research. Baghdad, Dar Al-Thora Press, 1988:76 (in Arabic).
15. Al-Hakeem LM. The plants and public health. Baghdad, Al-Afaq Library Publishers, 1989:10–25 (in Arabic).
16. Ramezani H et al. Antifungal activity of the volatile oil of Eucalyptus citriodora. Fitoterapia, 2002, 73(3):261–2.
17. Cimanga K et al. Correlation between chemical composition and antibacterial activity of essential oils of some aromatic medicinal plants growing in the Democratic Republic of Congo. Journal of ethnopharmacology, 2002, 79(2):213–20.