Hysteroscopic dilation techniques in hysteroscopic adhesiolysis. / é•œä¸‹æ‰©å®«æ³•åœ¨å®«è ”é•œå®«è ”ç²˜è¿žåˆ†ç¦»æœ¯ä¸­çš„åº”ç”¨.

OBJECTIVES: Intrauterine adhesion (IUA) is mainly caused by intrauterine operations such as pregnancy-related curettage and hysteroscopic surgery, resulting in the trauma to the basal layer of the endometrium. Hysteroscopic adhesiolysis is a crucial step in the comprehensive treatment of IUA, and the most common complication is uterine perforation. More than half of all uterine perforations occur during the hysteroscopy or probe/dilator pass through the internal os. Furthermore, inappropriate surgical procedures may lead to endometrial injury, recurrence or even aggravation of adhesions, and complications such as cervix laceration and false passage formation. This study aims to explore the usage of the hysteroscopic dilatation techniques to dilate the internal os and lower uterine segment, which is via hysteroscopy entering the internal os laterally and swinging, or by directly opening the forceps or scissors and bluntly spreading dissection under direct hysteroscopic vision. By using the hysteroscopic dilatation techniques, we intend to improve the effectiveness and safety of cervical dilation in patients with IUA in the internal os and/or lower uterine segment. METHODS: A total of 282 patients with adhesions in the internal os or lower uterine segment underwent HA in the Third Xiangya Hospital of Central South University from January 2020 to June 2021 were included, ranging from 21 to 46 (33.0±4.8) years old in age and 5 to 12 in the American Fertility Society score. Among them, there were 2 cases of false passage formation caused by traditional dilatation in other hospitals. All patients underwent hysteroscopy with integrated hysteroscopy with 5Fr instrument channel and 4.9 mm outer sheath diameter. The internal orifice of cervix and the lower segment of uterine cavity were dilated under the microscope. After the hysteroscopy entered the uterine cavity, the separation of uterine cavity adhesion and the placement of uterine contraceptive ring or uterine stent into the uterine cavity were performed routinely. Age, surgical records, and surgical videos of all included cases were collected. The success rate of dilation and the incidence of surgical complications were assessed. RESULTS: In all cases, the hysteroscopys successfully entered into the uterine cavity by using the hysteroscopic dilatation techniques without failure and switching to cervical dilators. In the 2 cases of false passage due to previous cervical dilation, the uterine cavity was identified and found successfully under direct hysteroscopic vision. During the whole surgery, the vision was clear, and no complications (such as cervix laceration, false passage formation, uterine perforation or water intoxication) occurred. One to 3 months postoperative hysteroscopy revealed no significant fibrotic stenosis in the internal os and lower uterine segment. CONCLUSIONS: The hysteroscopic dilation techniques are a strategy for separation methods that is following structural hierarchy anatomy in the mode of "see and treat" for the adhesion in the internal os and uterine cavity under direct hysteroscopic vision. This method not only has ultrasound guidance, but also has the judgment of structural hierarchy anatomy under direct hysteroscopic vision, so there is less chance of anatomical level judgment error. This method makes full use of the hysteroscopic judgement of the experienced hysteroscopic surgeons, so that surgeons can timely find and avoid re-entering the old false passage caused by previous surgery. The adhesions in the internal os and lower uterine segment were separated by the hysteroscopic dilation techniques. In this way, the damage to the endometrium caused by forced insertion of the hysteroscopy can be avoided. Meticulous separation of adhesions and cervical dilation under direct hysteroscopic vision can effectively reduce the occurrence of surgical complications such as false passage formation, cervical laceration, and uterine perforation. The use of mini-hysteroscopy eliminates the need for preoperative cervical preparation, avoiding associated risks and side effects. Moreover, for patients with adhesions in the internal os and lower uterine segment, preoperative cervical preparation is not effective in cervical dilation, while the hysteroscopic dilation techniques are effective, with higher patient acceptance due to the absence of preoperative cervical preparation. For the skilled hysteroscopic surgeons, the hysteroscopic dilation technique is easy to operate and worthy of clinical application.

Interleukin-27 (IL-27) Promotes Chlamydial Infection in the Female Genital Tract.

Intravaginal infection of mice with Chlamydia muridarum has been used for investigating the mechanisms of Chlamydia trachomatis-induced pathogenicity and immune responses. In the current study, the mouse model was used to evaluate the impact of interleukin-27 (IL-27) and its receptor signaling on the susceptibility of the female genital tract to chlamydial infection. Mice deficient in IL-27 developed significantly shortened courses of chlamydial infection in the female genital tract. The titers of live Chlamydia recovered from the genital tract of IL-27-deficient mice declined significantly by day 7 following intravaginal inoculation. These observations suggest that IL-27 may promote chlamydial infection in the female mouse genital tract. This conclusion was validated using IL-27 receptor (R)-deficient mice. Further, the reduction in chlamydial burden corelated with the increase in gamma interferon (IFN-γ) and IL-17 in the genital tract tissues of the IL-27R-deificent mice. However, depletion of IFN-γ but not IL-17 from the IL-27R-deificent mice significantly increased the chlamydial burden, indicating that IL-27 may mainly suppress IFN-γ-mediated immunity for promoting chlamydial infection. Finally, knockout of IL-27R from T cells alone was sufficient for significantly shortening the infectious shedding courses of Chlamydia in the mouse genital tract. The above-described results have demonstrated that Chlamydia can activate IL-27R signaling in Th1-like cells for promoting its infection in the female genital tract, suggesting that attenuating IL-27 signaling in T cells may be used for enhancing genital tract immunity against chlamydial infection.

Chlamydia Deficient in Plasmid-Encoded Glycoprotein 3 (pGP3) as an Attenuated Live Oral Vaccine.

Despite the extensive efforts, there is still a lack of a licensed vaccine against Chlamydia trachomatis in humans. The mouse genital tract infection with Chlamydia muridarum has been used to both investigate chlamydial pathogenic mechanisms and evaluate vaccine candidates due to the C. muridarum's ability to induce mouse hydrosalpinx. C. muridarum mutants lacking the entire plasmid or deficient in only the plasmid-encoded pGP3 are highly attenuated in inducing hydrosalpinx. We now report that intravaginal immunization with these mutants as live attenuated vaccines protected mice from hydrosalpinx induced by wild type C. muridarum. However, these mutants still productively infected the mouse genital tract. Further, the mutant-infected mice were only partially protected against the subsequent infection with wild type C. muridarum. Thus, these mutants as vaccines are neither safe nor effective when they are delivered via the genital tract. Interestingly, these mutants were highly deficient in colonizing the gastrointestinal tract. Particularly, the pGP3-deficient mutant failed to shed live organisms from mice following an oral inoculation, suggesting that the pGP3-deficient mutant may be developed into a safe oral vaccine. Indeed, oral inoculation with the pGP3-deficient mutant induced robust transmucosal immunity against both the infection and pathogenicity of wild type C. muridarum in the genital tract. Thus, we have demonstrated that the plasmid-encoded virulence factor pGP3 may be targeted for developing an attenuated live oral vaccine.

Characterization of Pathogenic CD8+ T cells in Chlamydia-Infected OT1 Mice.

Chlamydia trachomatis is a leading infectious cause of infertility in women due to its induction of lasting pathology such as hydrosalpinx. Chlamydia muridarum induces mouse hydrosalpinx because C. muridarum can both invade tubal epithelia directly (as a first hit) and induce lymphocytes to promote hydrosalpinx indirectly (as a second hit). In the current study, a critical role of CD8+ T cells in chlamydial induction of hydrosalpinx was validated in both wild type C57BL/6J mice and OT1 transgenic mice. OT1 mice failed to develop hydrosalpinx partially due to the failure of their lymphocytes to recognize chlamydial antigens. CD8+ T cells from naive C57BL/6J mice rescued the ability of recipient OT1 mice to develop hydrosalpinx when naive CD8+ T cells were transferred at the time of infection with Chlamydia. However, when the transfer was delayed for 2 weeks or longer after the Chlamydia infection, naive CD8+ T cells no longer promoted hydrosalpinx. Nevertheless, CD8+ T cells from mice immunized against Chlamydia still promoted significant hydrosalpinx in the recipient OT1 mice even when the transfer was delayed for 3 weeks. Thus, CD8+ T cells must be primed within 2 weeks after Chlamydia infection to be pathogenic, but, once primed, they can promote hydrosalpinx for >3 weeks. However, Chlamydia-primed CD4+ T cells failed to promote chlamydial induction of pathology in OT1 mice. This study optimized an OT1 mouse-based model for revealing the pathogenic mechanisms of Chlamydia-specific CD8+ T cells.

Lactobacillus rhamnosus GG attenuates the pathology of Chlamydial muridarium in the upper genital tract in mice. / å£æœé¼ æŽç³–ä¹³æ†èŒGGå‡è½»é¼ è¡£åŽŸä½“æ„ŸæŸ“å¼•èµ·çš„ä¸Šç”Ÿæ®–é“ç— å˜.

OBJECTIVES: Chlamydia trachomatis is a pathogen which can cause hydrosalpinx and tubal fibrosis when infecting the urogenital tract. However, the mechanism is still not clear. There is growing evidence that the gut microbiota is associated with the pathogenesis of both intestinal and extra-intestinal disorders, such as cardiovascular disease, hepatocirrhosis, allergy, respiratory tract infection, polycystic ovary syndrome, endometriosis, and bacterial vaginitis. Lactobacillus rhamnosus GG (LGG) is one of the most extensively studied and widely used probiotic bacteria, the benefits of LGG including the treatment in gastrointestinal disorders and immunomodulation are well demonstrated, and it can also alleviate hypersensitivity reaction and diarrhoea, inhibit a variety of respiratory and urogenital diseases. Chlamydia muridarium (Cm) infection is a good model for the study on human Chlamydia pathogenicity in genitourinary tract. The mice infected with Cm were used as animal models to preliminarily explore the mechanism for the effect of LGG on upper reproductive tract infection in the mice, and to provide experimental basis for the pathogenesis of Chlamydia trachomatis genitourinary tract infection and the new idea for the treatment of Chlamydia trachomatis infection. METHODS: Five to six weeks-old C57BL/6J mice were divided into 2 groups: An experimental group and a control group. The experimental group were administrated with 5×108 colony forming units (CFU) LGG for 19 consecutive days, while the control group were feed PBS. The mice in the 2 group were subcutaneously injected with 2.5 mg progesterone on Day 9 and infected with 1×105 inclusion body forming unit of Cm via the vaginal tract on Day 14. Vaginal and rectal swabs were taken every 7 days to infect HeLa cells for 24 hours, then the indirect immunofluorescence assay was used and the number of inclusion bodies of Chlamydia were calculated. Mice were euthanized on Day 14 and Day 63 after Cm inoculation, the vaginal tracts were dissected, and the tissue homogenates were prepared to culture the pathogens for 24 hours. The Cm bearing capacity in the bilateral uterine horn, tubal ovary, and cervical vaginal tissues in the 2 groups were calculated. The spleen cells were harvested to assay the intracellular IFN-γ, IL-5, and IL-17 by flow cytometry. On Day 63 after the Chlamydia infection, the pathology injury in the bilateral uterine horn and oviduct was observed, and the pathological sections and HE staining in the various part of genital tract were performed. The inflammatory cell infiltration and lumen dilatation was assessed. The specific IgM and IgG in sera were detected by indirect ELISA on Day 14 and 63 after infection. RESULTS: There was no effect of LGG on the clearing of Cm from the urogenital tract, the Chlamydia ascending to fallopian tube or the uterine horn, and the organism dissemination and colonization to the gastrointestinal tract (all P>0.05). On Day 14 after Cm infection via the vagina, the IL-17 expression level in the experimental group was significant decreased than that in the control group (t=2.486, P<0.05), but there was no significant difference between the 2 groups in the CD4+ T rate in spleen and IgM and IgG levels in serum after Cm intravaginal infection (all P>0.05). On Day 63 after Cm infection, there was no difference in the severity of inflammation in the uterine horns and fallopian tubes between the 2 groups (P>0.05), but the dilation of the fallopian tubes and hydrosalpinx was attenuated in the experimental group compared with the control group (P<0.05). CONCLUSIONS: Oral administration of LGG has no effect on inhibiting Cm ascending to upper genital tract and preventing the dissemination and colonization of Cm to the gastrointestinal tract, which also cannot affect the secretion of specific IgM and IgG in sera. Oral administration of LGG can suppress the production of IL-17 in the spleen cells and attenuate hydrosalpinx development when following Cm intravaginal infection in mice.

Chlamydia Spreads to the Large Intestine Lumen via Multiple Pathways.

Chlamydia in the genital tract is known to spread via the blood circulation system to the large intestine lumen to achieve long-lasting colonization. However, the precise pathways by which genital Chlamydia accesses the large intestine lumen remain unclear. The spleen was recently reported to be critical for chlamydial spreading. In the current study, it was found that following intravaginal inoculation with Chlamydia, mice with and without splenectomy both yielded infectious Chlamydia on rectal swabs, indicating that the spleen is not essential for genital Chlamydia to spread to the gastrointestinal tract. This conclusion was validated by the observation that intravenously inoculated Chlamydia was also detected on the rectal swabs of mice regardless of splenectomy. Careful comparison of the tissue distribution of live chlamydial organisms following intravenous inoculation revealed redundant pathways by which Chlamydia can reach the large intestine lumen. The intravenously inoculated Chlamydia was predominantly recruited to the spleen within 12 h and then detected in the stomach lumen by 24 h, in the intestinal lumen by 48 h, and on rectal swabs by 72 h. These observations suggest a potential spleen-to-stomach pathway for hematogenous Chlamydia to reach the large intestine lumen. This conclusion was supported by the observation made in mice under coprophagy-free condition. However, in the absence of spleen, hematogenous Chlamydia was predominantly recruited to the liver and then simultaneously detected in the intestinal tissue and lumen, suggesting a potential liver-to-intestine pathway for Chlamydia to reach the large intestine lumen. Thus, genital/hematogenous Chlamydia may reach the large intestine lumen via multiple redundant pathways.

Gastrointestinal Chlamydia-Induced CD8+ T Cells Promote Chlamydial Pathogenicity in the Female Upper Genital Tract.

Chlamydia is known to both ascend to the upper genital tract and spread to the gastrointestinal tract following intravaginal inoculation. Gastrointestinal Chlamydia was recently reported to promote chlamydial pathogenicity in the genital tract since mice intravaginally inoculated with an attenuated Chlamydia strain, which alone failed to develop pathology in the genital tract, were restored to develop hydrosalpinx by intragastric coinoculation with wild-type Chlamydia. Gastrointestinal Chlamydia promoted hydrosalpinx via an indirect mechanism since Chlamydia in the gut did not directly spread to the genital tract lumen. In the current study, we further investigated the role of CD8+ T cells in the promotion of hydrosalpinx by gastrointestinal Chlamydia. First, we confirmed that intragastric coinoculation with wild-type Chlamydia promoted hydrosalpinx in mice that were inoculated with an attenuated Chlamydia strain in the genital tract 1 week earlier. Second, the promotion of hydrosalpinx by intragastrically coinoculated Chlamydia was blocked by depleting CD8+ T cells. Third, adoptive transfer of gastrointestinal Chlamydia-induced CD8+ T cells was sufficient for promoting hydrosalpinx in mice that were intravaginally inoculated with an attenuated Chlamydia strain. These observations have demonstrated that CD8+ T cells induced by gastrointestinal Chlamydia are both necessary and sufficient for promoting hydrosalpinx in the genital tract. The study has laid a foundation for further revealing the mechanisms by which Chlamydia-induced T lymphocyte responses (as a 2nd hit) promote hydrosalpinx in mice with genital Chlamydia-triggered tubal injury (as a 1st hit), a continuing effort in testing the two-hit hypothesis as a chlamydial pathogenic mechanism.

Effectiveness of Platelet-Rich Plasma in the Prevention of Chlamydia-Induced Hydrosalpinx in a Murine Model.

Chlamydia trachomatis (C. trachomatis) is a major pathogen implicated in the formation of hydrosalpinx in the female reproductive tract. In mice, a related strain of Chlamydia, Chlamydia trachomatis (C. trachomatis) can induce almost 100% bilateral hydrosalpinx. This model was used as a hydrosalpinx induction model to test whether oviduct delivery of platelet-rich plasma (PRP) can attenuate chlamydia induction of hydrosalpinx in a mouse model. Mice were infected intravaginally with Chlamydia muridarum organisms, and 21 days after the infection, PRP was instilled into the lumen of one oviduct, and a sham instillation with phosphate buffer solution was performed on the contralateral oviduct. Mice were then sacrificed at designated time points after infection for oviduct pathologic evaluation including incidence, severity, and histopathologic grade of chronic inflammation. Oviduct instillation of PRP was associated with a 36% reduction in the incidence of hydrosalpinx and a 33% reduction in severity compared with sham. The median grade of chronic inflammation on histopathology was significantly lower with PRP instillation compared with sham and control. No differences were observed in vaginal or rectal shedding of C. muridarum between the test group and the control group. In short, the results suggest that oviduct instillation of PRP can significantly reduce the incidence and severity of C. muridarum-induced hydrosalpinx without affecting chlamydial infection courses in CBA/J mice.

Effects of Immunomodulatory Drug Fingolimod (FTY720) on Chlamydia Dissemination and Pathogenesis.

Fingolimod (FTY720), an FDA-approved immunomodulatory drug for treating multiple sclerosis, is an agonist of sphingosine-1-phosphate receptor (S1PR), which has been used as a research tool for inhibiting immune cell trafficking. FTY720 was recently reported to inhibit Chlamydia dissemination. Since genital Chlamydia spreading to the gastrointestinal tract correlated with its pathogenicity in the upper genital tract, we evaluated the effect of FTY720 on chlamydial pathogenicity in the current study. Following an intravaginal inoculation, live chlamydial organisms were detected in mouse rectal swabs. FTY720 treatment significantly delayed live organism shedding in the rectal swabs. However, FTY720 failed to block chlamydial spreading to the gastrointestinal tract. The live chlamydial organisms recovered from rectal swabs reached similar levels between mice with or without FTY720 treatment by day 42 in C57BL/6J and day 28 in CBA/J mice, respectively. Thus, genital Chlamydia is able to launch a 2nd wave of spreading via an FTY720-resistant pathway after the 1st wave of spreading is inhibited by FTY720. As a result, all mice developed significant hydrosalpinx. The FTY720-resistant spreading led to stable colonization of chlamydial organisms in the colon. Consistently, FTY720 did not alter the colonization of intracolonically inoculated Chlamydia Thus, we have demonstrated that, following a delay in chlamydial spreading caused by FTY720, genital Chlamydia is able to both spread to the gastrointestinal tract via an FTY720-resistant pathway and maintain its pathogenicity in the upper genital tract. Further characterization of the FTY720-resistant pathway(s) explored by Chlamydia for spreading to the gastrointestinal tract may promote our understanding of Chlamydia pathogenic mechanisms.

Gastrointestinal Coinfection Promotes Chlamydial Pathogenicity in the Genital Tract.

Sexually transmitted Chlamydia, which can cause fibrotic pathology in women's genital tracts, is also frequently detected in the gastrointestinal tract. However, the medical significance of the gastrointestinal Chlamydia remains unclear. A murine Chlamydia readily spreads from the mouse genital tract to the gastrointestinal tract while inducing oviduct fibrotic blockage or hydrosalpinx. We previously proposed a two-hit model in which the mouse gastrointestinal Chlamydia might induce the second hit to promote genital tract pathology, and we are now providing experimental evidence for testing the hypothesis. First, chlamydial mutants that are attenuated in inducing hydrosalpinx in the genital tract also reduce their colonization in the gastrointestinal tract, leading to a better correlation of chlamydial induction of hydrosalpinx with chlamydial colonization in the gastrointestinal tract than in the genital tract. Second, intragastric coinoculation with a wild-type Chlamydia rescued an attenuated Chlamydia mutant to induce hydrosalpinx, while the chlamydial mutant infection in the genital tract alone was unable to induce any significant hydrosalpinx. Finally, the coinoculated gastrointestinal Chlamydia failed to directly spread to the genital tract lumen, suggesting that gastrointestinal Chlamydia may promote genital pathology via an indirect mechanism. Thus, we have demonstrated a significant role of gastrointestinal Chlamydia in promoting pathology in the genital tract possibly via an indirect mechanism. This study provides a novel direction/dimension for further investigating chlamydial pathogenic mechanisms.

Wuzang Wenyang Huayu decoction regulates differentially expressed transcripts in the rats' hippocampus after cerebral hypoperfusion.

The modified Wenyang Huayu decoction has been widely used to treat vascular dementia in China for thousands of years. We have previously proved that a modified version, Wuzang Wenyang Huayu decoction has the potential to be a more effective clinical treatment that can attenuate cerebral ischaemic injury. However, the global transcript profile and signalling conduction pathways regulated by this recipe remains unclear. This study established a two-vessel occlusion rat model by bilateral common carotid artery occlusion. Two groups of rats were intragastrically treated Wuzang Wenyang Huayu 2.5 g/kg vs or Piracetam 0.15 g/kg for 2 weeks. Learning and memory abilities were measured with Morris water maze. Neuronal plasticity was observed by HE staining. Differentially expressed transcripts of rat hippocampus were analysed by transcriptomics with Illumina HiSeq2500 platform. Results showed that Wuzang Wenyang Huayu decoction significantly alleviated learning, memory deficits, coordination dysfunction and prevented hippocampus cellular injury; Results further revealed the increased gene expression in KEGG metabolic pathways (MT-ND2. MT-ND3, MT-ND4, MT-ND4L, MT-ND5 and MT-ATP8) and genes involved in signal transduction, carcinogenesis, immune system, endocrine system, nervous system etc (Results further revealed differential expression of genes involved in various systems, including MT-ND2) Our discovery is likely to provide new insights to molecular mechanisms of Wuzang Wenyang Huayu regarding hippocampal transcripts in a murine vascular dementia model.