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International Journal of Reproductive BioMedicine
Research and Clinical Center for Infertility, Shahid Sadoughi University of Medical Sciences of Yazd
ISSN: 1680-6433 EISSN: 2008-2177
Vol. 5, Num. 3, 2007, pp. 89-93

Iranian Journal of Reproductive Medicine, Vol.5. No.3., Summer 2007, pp 89-93

The effect of pentoxifylline on the growth of endometrial implants and leukocytes in rats.

Afsaneh Mohammadzadeh1 M.D., Mahnaz Heidari2 M.Sc., Haleh Soltan Ghoraiee3 M.D., Marefat Ghaffari Novin1 Ph.D., Mahmood Jeddi-Tehrani4 Ph.D., Mohammad Mahdi Akhondi1 Ph.D., Hojjat Zeraati5 Ph.D., Farzaneh Mohammadzadeh6 M.Sc., Pegah Ebadi1. B.Sc.

1Department of Reproductive Endocrinology and Embryology, Reproductive Biotechnology ResearchCenter, Avesina Research Institute, ACECR, Tehran, Iran.
2Departmet of Nanotechnology , Nanobiotechnology Research Center , Avesina Research Institute,ACECR, Tehran, Iran.
3Department of Reproductive and Biotechnology Genetic, Reproductive Biotechnology ResearchCenter, Avesina Research Institute ,ACECR, Tehran, Iran.
4Department of Monoclonal Antibody, Monoclonal Antibody Research Center , Avesina ResearchInstitute ,ACERCR, Tehran, Iran.
5Department of Epidemiology and Biostatistics, Tehran University of Medical Science, Tehran, Iran.
6Anatomy Department, Iran University of Medical Science, Tehran, Iran.

Correspondence Author: Dr Afsaneh Mohammadzade, Avesina infertility center, Neyavaran street, next to shahrdari clinc, Tehran, Iran. Email: af23mohammadzadeh@yahoo.com

Received: 7 January 2006; accepted: 11 July 2007

Code Number: rm07020

Abstract

Background: Immune system disturbances have an important role in endometriosis which may lead to infertility. It seems that inflammatory cytokines specially tumor necrosis factor alpha (TNF-α) which were produced by activated macrophages have an important role in pathology of endometriosis. Based on this theory, anti TNF-α drugs like pentoxifylline (PX) are suggested as new drugs for Endometriosis.
Objective:
This experimental study has been done on female rats to determine the effect of PX on the endometrial implants and leukocytes in serum.
Material and Methods: In proestrous phase, one horn of rat's bicorn uterus was removed surgically and the endometrium was implanted to different places as follows: subcutaneous, peritoneum and near ovaries. After two months observation, female rats divided into two groups randomly. In treated group (n=10) PX (5mg/kg twice a day) and in control group (n=10), normal saline (same dose) were injected subcutaneously. Then, via second laparotomy and in the same phase of the cycles, the size of implants and the amount of leukocytes in serum were measured.
Results:
In treated group compared with control, the size of implants was decreased significantly in right subcutaneous (8.05mm vs 13.50mm) p<0.01, left subcutaneous (7.64 mm vs 14mm) p<0.01, right ovary (6.64 mm vs 15.22mm) p<0.001 and left ovary (7.18 mm vs 14.56 mm) p<0.005. In treated group, the total leukocyte count (5259.54 ± 178.78 vs 15833.33 ± 259.27) p<0.02 was decreased. The number of esterous cycle was similar in both groups.
Conclusion: PX can reduce the size of endometrial implants as well as leukocyte count.

Key Words: Endometriosis, Pentoxifylline, TNF-α, Anti TNF-α drugs, Infertility, Rat.

Introduction

Endometriosis is defined as ectopic growth of endometrial stroma and glandular tissues (1,2). Although nearly three quarters of century have been passed since the initial description of endometriosis (3), our current understanding of the etiology and pathphysiology of the disease has still been remained unclear (1-4). After the first description of the disease by Sampson in 1927 several different hypotheses have been suggested to explain the mechanisms for the development of endometriosis (4,5). However, Sampson's theory of retrograde menstruation has gained most supportive evidence (4, 5). Retrograde menstruation is the reflux of menses through fallopian tubes toward the ectopic sites especially in peritoneal cavity. There are some reports about endometriosis in surgical incision in women who have tolerated operation especially cesarean section. It seems it is due to direct implantation of viable endometrial cells into incision (4,5). These findings support Sampson's theory as well (4, 5). In addition,changes in cell-mediated immunity related with endometriosis have been reported in women, but the relevant data are inconsistent (2-5). A reduction in proliferation of peripheral blood lymphocytes in response to recognition of endometrial antigens and cells has also been reported (2-6).

It was shown that the ratio of T-helper to Tsuppressor cells is increased in the peripheral blood of the affected women; on the contrary other studies have indicated no remarkable differences in peripheral lymphocytes profiles (4-7).On the other hand, peritoneal macrophages have revealed an increase in total number, concentration, and activation status (8).

Tumor necrosis factor-alpha (TNF-α) is regarded as one of the cytokines that has been gained recent attention in the pathphysiology of autoimmune diseases (9). TNF-α is a major product of activated macrophages. It can activate the inflammatory leukocytes which can lead to the production of other pro inflammatory cytokines, including interleukin-1 (IL-1), IL-6, and additional TNF-α (9). TNF-α can stimulate endometrial cell adhesion, as well as, induce matrix metalloproteinases (MMPs) expression, both of which are necessary events in the initial development of endometriosis (10, 11).

Considering above mention facts, TNF-α has an important role in endometriosis, therefore anti TNF-α drugs may be proper drug for this disease. PX reduces both the production and action of cytokines such as TNF-α through the elevation of intracellular cyclic AMP levels and subsequent down regulation of cytokine production and action (4, 5, 12).

PX is a member of Methylgezantine family which inhibits Phosphodiesterase in platlets and leads to the elevation of CAMP levels in them and decreases the aggregation of them in circulation. Therefore, it is useful in cerebrovascular diseases (4, 5,13). PX can inhibit phosphodiesterase in monocytes and macrophages and suppress cytokineproduction specially TNF-α in macrophages (4,5,12,13).

In other immunological disease like sever refractory rheumatoid arthritis (14), inflammatory bowel disease (15), and recurrent aphthous stomatitis (16), PX had a suppressive effect on these diseases .Therefore , it seems that anti TNFα effect of this drug can be useful in treatment of endometriosis. Based on several studies, rats are good model for the study on endometriosis. They don't have menstrual cycles and endometriosis isn't induced in them spontaneously (17,18).

Steinleitner et al (1991) induced endometriosis in female rats surgically and mentioned PX could increase fertility rates in comparison with normal saline (90% vs 2.3 %). They suggested that PX could raise fertility rates in endometriosis in rats (19). Nothnick et al (1994) reported that PX could modulate rat endometriotic implant growth and produce implant- specific proteins (ENDO-1& ENDO-2) (20).

Balach et al (1997) reported that PX versus placebo could improve fertility rates in women but not significantly (21). Although in animal studies (19, 20), PX could have a good effect on endometriosis, but the human studies couldn't be able to show the significant changes in treated group with PX (21, 22).

In order to determine the effect of PX on endometriosis, we decided to do our study in female rats. In this study, we induced endometriosis in female rats surgically and evaluated the effect of PX versus placebo on the endometriosis.

The aims of this study were investigating : 1) The effect of PX on the growth of endometrial implants in female rats especially in different places. 2)The effect of PX on leukocyte count in serum, in order to determine the immune response with this drug.

Materials and methods

Our randomized clinical trial study was done on 20 female rats' sparauge-dwley (2 months old). This study was performed in Avesina Research Institute under support of Iranian Academic Center for Education, Culture and Research (ACECR). The rats were housed individually in hanging cages. The facility was maintained on a 14-h light, 10-h darkness schedule. Female rats have 4- 5 days estrous cycles (24). For evaluation of phases in female rats we did vaginal Pap smear daily (25). Only those rats exhibited normal 4-5 day estrous cycle were subjected to surgical induction of endometriosis. All of the rats had a file that the processes were written in them step by step.

In proestrous phase or the phase of follicular growth and peak estrogen secretion, rats were anesthetized intra peritoneally (i.p) with 20 mg/ kg ketamine hydrochloride. In first operation, the left uterine horn and associated fat tissue were removed. Left ovary was saved. The removed uterine horn was cut longitudely and divided to 6 pieces (2×2mm). Then, endometrium was separated from underling myometrium and 4 pieces were sutured with 4-0 round nylon to the different parts of peritoneal cavity; 1 piece near right kidney as right peritoneal implant, 1 piece near mesanteric artery as left peritoneal implant and 2 pieces in both ovaries (25). Then, 2 pieces of endometrial implants were sutured in subcutaneous of the rat's skin as right and left subcutaneous implants (25).

One hour after surgery, the animals could move and after 4 hours, they fed regularly. Two days later, they were put near the male rat for starting their Estrous cycles (24,25). They were kept into close consideration for 2 months. During this period, 10-12 Esterous cycles were recorded for each rat. Vaginal cytology was evaluated daily as an indirect index of ovarian activity and fortunately all of them had this normal Estrous cycle.

Rats (n=20) were randomly assigned to two groups; in treated group (n=10), PX (manufactured by STADA, Ampoule, 100mg/5ml) in dose of 5mg/kg twice a day was administered subcutaneously (s.c) and in control group (n=10) normal saline as placebo was administered with the same dose (19, 20).

In second laparotomy, which was done in Proestrous phase too, at first we collected 5 milliliter of blood by heart puncture and sent to laboratory for measuring the number of Leukocyte count in serum. Then, the skin was cut and the endometrial tissues removed and the abdominal cavity was examined and all of our observations about adhesions, cystic formation, size and site of implantation were recorded carefully. The endometriotic implants in each animal were measured (length x width) and the average size (mm2) for each place was calculated along with the total implant mass (mm2; defined as the sum of the size of all implants in the same places) (20). The tissues were put in 10% formalin and sent to laboratory for microscopic evaluation. Endometriosis was confirmed by observation of gland and stroma of endometrium in implants. The surgeries were done by one surgeon and the slides were evaluated by one pathologist blindly.

Statistical analysis

These data were analyzed by SPSS program (ttest and Mann-Whitney for quantitive and Chi-Square and if needed Fisher exact test for qualitive variants). p<0.05 was considered as significant.

Results

Age, weight and size of implanted fragments were similar in both groups. Daily pap smear showed that the number of Esterous cycles was similar in both groups.

The mean size of the implants in both groups is shown in Table I. In treated group, the size of implants in right subcutaneous (8.05 vs. 13.50mm) p<0.01, left subcutaneous (7.64 vs. 14.00 mm) p<0.01, right ovary (6.64 vs. 15.22mm) p<0.001 and left ovary (7.18 vs. 14.56 mm)p<0.005 were significantly decreased. In right and left peritoneum (8.59 vs. 12.83 and 8.59 vs. 12.83 mm) p<0.09, the size of implants were decreased in treated group compare with control group but this was not significant.

In treated group the results indicate, the total count of Leukocyte was less than control group (5259.54± 178.78 vs. 15833± 259.27) p<0.02 (Table II). The number of Estorous cycle was similar between two groups.

Table I. Comparison between the size of endometrial implants in both group, based on the site of implantation.

Mean size(mm) in two groups
Site P
Control (n=10) Treated (n=10)
Right subcutaneous 13.50 8.05 0.01
Left subcutaneous 14.00 7.64 0.01
Right peritoneum 12.83 8.59 0.09
Left peritoneum 12.83 8.59 0.096
Right ovary 15.22 6.64 0.001
Left ovary 14.56 7.18 0.005

Table II. Comparison of pathological reports between two groups, based on the site of implantation.

Pathological report in two groups
Site p
Control (n=10) Treated (n=10)
Right subcutaneous 0- / 10+ 6- / 4+ 0.003
Left subcutaneous 0- / 10+ 4- / 6+ 0.01
Right peritoneum 6- / 4+ 7- / 3+ 0.5
Left Peritoneum 6- / 4+ 6- / 4+ 0.5
Right Ovary 1- / 8+ 8- / 2+ 0.03
Left Ovary 3- / 8+ 7- / 2+ 0.00

-= No sign of endometriosis (stroma and gland of endometrium) in pathological report
+ = There are sign of endometriosis ( stroma and gland of endometrium )in pathological report

Discussion

Our findings showed that in treated group with PX, the size of endometrial implants were smaller than control group .This finding was similar to Nothnick et al study (1994) who reported that PX could modulate growth in endometriotic implant rat and also rise in production process of implantspecific proteins (ENDO-1& ENDO-2) (20).This is different from our study because we studied the size of endometrial fragments in different places and compared it with the same places in control group.

In treated group, the size of implants was decreased significantly as follows: in right subcutaneous, left subcutaneous, right ovary and left ovary. In right and left peritoneum, the size of implants was decreased in comparison with control group but not significantly. These findings suggest that the suppressive effect of PX was not similar in all places. This might be valuable when we are making decision for treatment of different types of endometriosis.

At the time of our study, there were a few studies on the effect of PX in female rats (19, 20) and in human (21, 22).

Although in animal studies (19, 20), Pentoxifylline could have a good effect on endometriosis, the human studies (21, 22) couldn't be able to show the significant changes in treated group with PX.

In treated group, the total count of Leukocytes was decreased. These findings suggested that endometriosis in rats was accompanied with important changes in Leukocyte count in serum and PX could decrease the total count of Leukocyte. It seems that alternation in immune system in endometriosis which might be accompanied with alternation in Leukocyte count, can suppress endometrial growth in rats. This effect of PX was not evaluated in different studies on rats (19-21). Therefore this finding is nearly new and needs further studies for better evaluation. In order to better understanding of the suppressive effect of the PX, we suggest further studies on natural killer (NK) cells and TNF-α during treatment.

In our study, PX didn't have any adverse effect on menstrual cycles in treated group. This is an important benefit in treatment with PX. Other drugs suppress ovarian function and induce hypoestrogenic state in women. Hot flash and osteoporesis with these drugs can hurt women (4,5). Based on our findings, under PX treatment, ovaries can secret hormones, these symptoms aren't seen and fertility ability will be intact. These findings are similar to Steinleitner et al study (1991) findings. They induced endometriosis in female rats through surgical process and noticed that treatment with intra peritoneal PX in comparison with normal saline could increase fertility rates (90% vs. 2.3 %). They suggested that PX could increase fertility rates in endometriosis in rats (19).

In this study we didn't allow the rats to get pregnant. This effect can be evaluated with future study.

Conclusion

PX can decrease the size of endometrial implants especially in ovaries and subcutaneous areas. In addition, significant reduction in Leukocyte count was noticed after PX therapy.

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