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Background: This study aims to assess the role of ductoscopy for detecting intraductal anomalies in patients with nipple discharge in comparison to conventional tests and to find an effective combination of both approaches. Materials and Methods: Prior to duct excision, ductoscopy was performed in 97 women. Histologic and all other diagnostic results were compared. Sensitivity, specificity, and efficiency were calculated for all methods. These parameters were also calculated for all possible test combinations in 12 patients who had completed all tests. Results: Breast sonography reached the highest sensitivity (64.1%) and efficiency (64%); mammography had the highest specificity (100%). The sensitivity of ductoscopy was 53.2%, its specificity 60%, and its efficiency 55.1%. Among combinations of all methods, the combination ductoscopy + galactography was the most sensitive (80%). Mammography, magnetic resonance imaging, and ductoscopy were each 100% specific. Ductoscopy was the most efficient (75%) single method. Conclusion: Ductoscopy is a valuable test for diagnosing intraductal lesions in patients with nipple discharge. It is more efficient than conventional tests in patients undergoing all tests.
The aim of this retrospective observational study is to describe and discuss various complications that can arise after insertion of alloplastic materials in the field of urogynecology that require further surgical interventions in order to manage them or to at least improve the quality of life in those women. We were able to collect data on 77 patients who fulfilled the criteria. Medical history, data of clinical findings, and outcomes were collected and analyzed. The most common complication seen as an indication for resecting slings or meshes was de novo overactive bladder syndrome (40%). Other indications seen were lower urinary tract obstruction or obstructive voiding symptoms (21%), chronic pain (21%), and de novo dyspareunia (13%). 36% of the patients had recurrent symptoms (failure) after insertion of alloplastic materials in the form of urinary incontinence or prolapse, 32% presented with vaginal erosions, 2 women had severe signs of infection with abscess formation, another 3 women had urogenital fistulae. Other rare complications after mesh or sling insertion are perforations of the urinary bladder or urethra. Proper case selection is the key factor. The use of meshes and slings seems justified only in patients with known connective tissue weakness and recurrences after native tissue repair. Otherwise, patients will be exposed to unnecessary risk without any expectable improvement to their quality of life. Most of the complications are mainly caused by wrong and inadequate surgical techniques, wrong indications, or missed diagnosis of the underlying problem. In addition, lack of long-term follow-up is usually the cause behind the negligence towards many complications. Therefore, only experienced physicians should be allowed to perform such procedures, and long-term postoperative follow-up is strongly recommended. As slings and meshes are used for procedures of choice as means to improve quality of life, and not for life threatening situations, there is a need for intensive informed consent. All possible alternatives have to be discussed, as do the pros and cons of selected procedures, even the rare complications. Mesh or sling resection is considered to be an effective solution for the management of such complications. It has shown a high success rate in comparison to conservative treatment, and the majority of patients were satisfied and experienced a big improvement in their quality of life. The most common complication after resection is the recurrence of primary symptoms, either urinary incontinence or prolapse. Major or serious intra- or postoperative complications are very rare. All complications were classified and given a code according to the classification system of the international urogynecological association and the international continence society (IUGA/ICS) on 2011. The applicability and practicability of this code were evaluated, looking for ways to possibly improve it or to identify missing parameters. Many patients had more than one code, a problem that entirely torpedoed the idea of “simple” classification. Some complications are not covered individually in the classification, such as failure and recurrence or overactive bladder syndrome. These complications should be included. Many cases began with the same code, despite having different complications. Further sub-classifications should be considered to enable the reader to easily recognize the complication at hand. Patients who came with complications more than one year after mesh or sling insertion were categorized as (T4), regardless of whether the complication arose after 1 year of after 10. Therefore, sub-classifications in the (T4) category are recommended. The “site” category was not applicable in many cases. Furthermore, it is necessary that the severity of a complication is discernible, and should be mentioned in the code. We did not find any correlation between the code given and patient satisfaction. After re-modification and completion, the IUGA/ICS code could be more practical for clinical use, which would allow for the comparison of complications and make the assessment of adverse effects easier for research purposes.
Introduction:
The amniotic fluid – as the medium surrounding the fetus, it is holding a crucial role in the maintenance and development of a successful pregnancy. While providing mechanical protection to the fetus, it also offers considerable immunological defense. In fact, it is known that the amniotic fluid plays a significant role in the innate immune system, as many of its corresponding substances show substantial antimicrobial function. Also, components of the adaptive immune system, including B cells, have been described within the amniotic fluid. An increase of immune cells in the amniotic fluid in cases of intra-amniotic infection indicates their involvement in inflammation-related pathologies of pregnancy. However, especially B cells in the amniotic fluid have not yet been thoroughly investigated.
The aim of this work is a deeper examination of the B-lymphocytes within the amniotic fluid. Based on the analysis of surface molecules this includes their phenotype, origin and func-tion. In the long term this could substantiate our understanding of intraamniotic inflammation and or infection, which are casually linked with preterm birth, fetal inflammatory response syndrome and fetal morbidity.
This, in turn, could pave the way for potential diagnostic methods and treatments.
Methods:
For all experiments 8-12-weeks-old pregnant mice were sacrificed at day 14 of pregnancy. The amniotic fluid was collected and specific cell subsets were isolated using MACS cell separation. Cells were then co-cultured with a bone marrow stromal cell line and stimulated in vitro.
The analysis of the population distribution and cytokine production was performed by flow cytometry. To analyze IgM-levels in the supernatant of the co culture, ELISA was used. Statistical analysis was performed using GraphPad Prism software.
Results:
The amniotic fluid contains different developmental stages of B cells, which most likely are of fetal origin. This is supported by the expression of paternal surface markers. An extensive proliferation and switch towards a more mature phenotype upon co-culture shows that the immature subsets of amniotic fluid B cells are able to expand and mature in vitro. Amniotic
fluid B cells spontaneously produce IgM and show functional adaption upon in vitro stimula-tion as evidenced by the increase of cell activation markers.
Conclusion:
For the first time a deep investigation of B-cells within the amniotic fluid was performed, covering phenotype and cell functionality. This work shows that there is a B cell compartment within the amniotic fluid, which, to a certain extent, is able to mature and gain functionality when exposed to external stimuli. This supports the hypothesis of the amniotic fluid as crucial immunological line of defense against inflammatory and infectious challenges during pregnancy.
The success of pregnancy depends on precisely adjusted, local immune mechanisms. In early pregnancy, fetal trophoblast cells implant into the endometrium to build and anchor the placenta. Simultaneously, they mediate fetal tolerance and defense against infections. To cover these versatile requirements, local immune factors must be in balance. A too tolerogenic milieu can lead to an inadequate placentation; while a too inflammatory milieu can cause rejection of the semi-allogenic fetus. Bacterial infections can provoke these inflammatory pregnancy complications as well. Therefore, the pregnant uterus was long thought to be sterile. Descriptions of a placental microbiome opened a scientific discourse, which is unsolved due to contrary studies. The colonization of the non-pregnant endometrium is, however, confirmed. It is supposed to affect both, uterine pathologies and fertility. Precise data are lacking. Aim of this work was to assess if and under which circumstances a bacterial colonization would be tolerable.
One of the described species in placental and endometrial samples is Fusobacterium nucleatum. It is an opportunistic bacterium, which is known from the human oral cavity and associated with the development of colon carcinomas. F. nucleatum supports tumorigenesis by the induction of epithelial proliferation, survival, migration and invasion as well as angiogenesis and tumor tolerance. Since similar processes are required for implantation and placentation, F. nucleatum might support these as well. In this work, the effects of F. nucleatum on leukocyte-trophoblast-interactions, especially of macrophages and innate lymphoid cells type 3 (ILC3), were assessed.
The monocytic cells (THP-1) were differentiated into inflammatory M1 (IFN-γ) or tissue-repairing and tolerogenic M2a (IL-4) and M2c (TGF-β) macrophages. Inactivated F. nucleatum, LPS or E. coli was added. Only small concentrations of inactivated bacteria were used (bacteria:leukocyte ratio of 0.1 or 1), since it was not the aim to analyze infections. Conditioned medium of treated leukocytes was added to trophoblastic cells (HTR-8/SVneo). Migratory, invasive and tube formation behavior of trophoblastic cells was quantified.
Treated M1 macrophages impaired trophoblast function, whereas M2a macrophages induced trophoblast invasion. M2c macrophages supported trophoblast migration and tube formation if treated with the smaller, but not with the higher concentration of F. nucleatum. This treatment induced the accumulation of HIF-1α and the secretion of VEGF-A in M2c macrophages as well. Moreover, the higher concentration of F. nucleatum caused rather inflammatory responses (NF-κB activation and cytokine expression). The activation of the HIF-1α-VEGF-A axis under the influence of TGF-β might serve as a mild immune stimulation by low abundant commensal bacteria supporting placentation.
In contrast to macrophages, the function of ILC3s during pregnancy is still unknown. In general, ILC3s are located in mucosal tissue, such as the gut. They participate in tolerance mechanisms and form the local micromilieu by the secretion of cytokines and the presentation of antigens. In order to characterize local, uterine ILC3s, murine ILC3s were compared to peripheral, splenic ILC3s. Uterine ILC3s were more activated and produced higher levels of IL-17 compared to splenic ILC3s. However, uterine ILC3s barely expressed MHCII on their surface. A reduced antigen presentation potential was confirmed in human ILC3s differentiated from cord blood stem cells by the addition of TGF-β or hCG. The treatment with bacteria increased MHCII expression, but not to the initial level. The higher bacterial concentration induced IL-8 secretion and led to an increased trophoblast invasion. ILC3s were less sensitive to bacterial stimulation than macrophages.
Recent studies on the uterine or placental presence of bacteria during pregnancy are discrepant. The results of this project indicate that bacteria or bacterial residues might serve as a mild stimulus under certain circumstances to support implantation without negative effects. The current discussion must therefore not only be expanded by additional studies, but especially include differentiated local conditions. In this context, the sheer presence of bacteria or bacterial components must not be equated with an infection representing a known hazard.
Early pregnancy is marked by placentation and embryogenesis, which take place under physiological low oxygen concentrations. This oxygen condition is crucial for many aspects of placentation, trophoblast function, vascularization and immune function. Recently, a new family of innate lymphoid cells has been found to be expressed at the fetomaternal interface. Among these, type 3 innate lymphoid cells (ILC3) are important antigen presenting cells in the context of MHC-II. The expression of MHC-II on ILC3s during pregnancy is reduced. We tested the hypothesis that low oxygen concentrations reduce the potential of ILC3s to present antigens promoting fetal tolerance.
Using an in vitro approach, NCR+ ILC3s generated from cord blood stem cell precursors were incubated under different O2 concentrations in the presence or absence of the pregnancy-related hormones hCG and TGF-β1. The expression of MHC-II, accessory molecules and an activation marker were assessed by flow cytometry. We observed that 1% O2 reduced the expression of the MHC-II molecule HLA-DR as compared to 21% O2 and modulated the relative effects of hCG and TGF-β1.
Our data indicate that low oxygen concentrations reduce the antigen presentation potential of NCR+ ILC3s and suggest that it may promote fetal tolerance during the first trimester of pregnancy.
Background/Aim: Laparoscopic single-port surgery has emerged as a growing trend in minimally invasive surgery. Single-port access is preferred among women undergoing gynecologic surgery who have cosmetic concerns about scarring. Furthermore, this approach results in comparable clinical outcomes to standard laparoscopic surgery and perioperative morbidity rates have been reported to be low. The hypothesis is that a single-port technique might offer such advantages over the standard multi-port laparoscopy as less postoperative pain and better cosmetic results by decreasing abdominal wall tissue trauma. The potential disadvantages of single-port approaches are the larger umbilical incision and the technical difficulties. There are only a few randomized studies in the literature that investigate the value and safety of single-incision laparoscopic surgery in gynecological surgery. The aim of this study was to compare the safety and quality of life in patients who undergo single-incision laparoscopic assisted vaginal hysterectomy and those who undergo conventional laparoscopic assisted vaginal hysterectomy.
Methods: In a prospective randomized trial, 64 patients from three different centers in Germany were randomized (1:1) to conventional laparoscopic assisted vaginal hysterectomy (n=32) or single-incision laparoscopic assisted vaginal hysterectomy (n=30). Data was collected on 60 patients who fulfilled the criteria.
Results: The baseline characteristics of patients were similar in both groups. The mean operative time was comparable in both groups (68.2 vs 73.6 min., p = 0.409). Within the two groups, no differences were seen regarding estimated blood loss (p = 0.915), intra- and postoperative complications (p = 0.944), and wound infection rates (p = 0.944). Patients within the single-incision laparoscopic surgery group experienced significantly less pain in the first 24 hours postoperatively (p = 0.006), while pain scores at days 3, 5, 7 and 2 months postoperatively were comparable.
Conclusion: This study demonstrates that single-incision laparoscopic assisted vaginal hysterectomy is a reliable and safe setup in gynecologic surgery. Compared to conventional laparoscopic assisted vaginal hysterectomy, Notably, patients undergoing single-incision laparoscopic assisted vaginal hysterectomy experienced less pain postoperatively.
Pregnancy involves adaptations of the cellular composition in utero to establish a functioning fetal-maternal interface. Different subsets of leukocytes populate the endometrium and contribute to tolerance of the fetal allograft while protecting it from potentially threatening infections or rejection. ¬¬Innate lymphoid cells are recently discovered immune cells that, besides the gut, lung and skin, possess immunoregulatory functions in the female reproductive tract, especially during gestation. Although present at the fetal-maternal interface, the dynamics of ILC migration during pregnancy remains poorly investigated. The involvement of homing receptors in ILC migration to the uterus was the main subject of the present work.
First, the expression of homing receptors on ILCs from miscellaneous organs was assessed across the course of murine pregnancy in vivo by means of flow cytometry. Then, their migratory capacity towards pregnancy-relevant chemokines was investigated in vitro. The impact of pregnancy related hormones on the migration and homing of ILCs was then analysed in vitro via migration assays.
The results confirm altered proportions of ILCs in utero and the altered expression of homing receptors in ILCs in pregnancy. Different murine lymphoid organs showed augmented expression of chemokine receptors and decreased levels of homing integrin α4β7 in the first trimester, suggesting enhanced migration patterns of ILCs during early pregnancy. Subsequently, migration assays were used to demonstrate the role of different chemokine ligands in enhancing ILC migration.
Eventually, the alterations in homing receptor expression were correlated with female pregnancy hormones. Progesterone treatment caused similar effects on homing receptor expression in ILCs as observed during early gestation. These results represent the first study evaluating the effect of sex steroid hormones on ILC chemokine receptor distribution.
Taken together, our results indicate the involvement of pregnancy-relevant chemokines, including CCL4, CCL20 and CCL28, in the recruitment of ILCs to the uterus during pregnancy. The data highlight an endocrinological-immune crosstalk in the regulation of ILC homing to the female reproductive tract. Gestation alters chemokine receptor expression in order to regulate the access of immune cell subsets to the fetal-maternal interface. An adequate regulation is highly needed, as a lack or abundance of different subgroups could result in pregnancy complications, including fetal loss, pre-eclampsia or pre-term birth. Thus, the role of ILC chemotaxis to the pregnant uterus and its regulation are of interest in the understanding, prevention and treatment of the clinically relevant obstetric diseases.
Abstract
In this work we investigated immunological mechanisms involved in the onset of PE, a multifactorial pregnancy related disease of global importance. The clinical symptoms range from de novo hypertension, renal and hepatic damage, to IUGR and convulsions (eclampsia). An imbalance between vasospastic and vasodilatory mediators, leading to generalized endothelial dysfunction, is most probable responsible for the onset of the disorder. Autoimmune reactions provoked by the semi-allogen fetus have also been postulated as a possible cause. Preterm delivery is the only curative therapie available.
Our focus was on a subset of B lymphocytes, the CD19+ CD5+ B1-a B cells. These cells belong to the innate immune system and produce natural polyreactive (and possibly autoreactive) antibodies such as AT1-AA but also different cytokines. In the context of PE it has been reported that B1-a B cells in the peripheral blood are augmented. Female sex hormones, pregnancy associated hCG and its isoform h-HCG modulate the immune functions in pregnancy and thus may be involved in the development of PE. Cytokine production patterns of B1-a B cells and the impact of female sex hormones were analyzed.
For our experiments an established mouse model for immunological pregnancy loss (CBA/J x DBA/2J model) was used. Aditionally, isolated human peripheral blood B1-a B cells were used.
In the mouse model we could demonstrate that in vivo transferred B1-a B cells induced deposits in the mothers’ kidneys, correlating with renal damage. Secretion patterns of the cytokines IL10, IFN-γ, TNF-α and IL17 in disturbed pregnancies were altered as measured by FACS or MBAA respectively. Our data revealed an increased expression of anti-inflammatory IL10 in normal pregnant mice.
The activation levels of human and murine B1-a B cells (as recorded by CD69 and CD86 expression) were influenced by female sex hormones in a dose-dependent manner. In humans, recombinant h-HCG had a strong capacity to activate B1-a B cells. PG exerted a comparable effect on murine B1-a B cells.
We provide further evidence for a possible autoimmune component in the pathogenesis of PE. B1-a B cell involvement might include AA secretion as well as cytokine production. H-HCG emerges as a potentially important factor for human B1-a B cell activation in vitro.
Introduction: For a successful pregnancy, a set of physiological requirements has to be fulfilled. The mother has to provide enough nutrients and the proper anatomical environment for the developing fetus and protect him and herself against pathogens. The cells of the im-mune system constantly monitor the organism in search for pathogens and mount a response to eradicate the threat. The favourable outcome of an immune response re-lays on the capacity of those cells to recognize structures that shouldn’t be present in the organism and the speed or strength at which the cells react. During pregnancy, however, a fetus is able to establish a firm contact with the endometrium of the mother and then grow for an extended period of time. This “exception to the rule” hides behind a set of fine-tuned regulations of the immune responses which are not completely un-derstood. Though many cell types have been extensively investigated in the past dec-ades, B cells play yet enigmatic roles. The aim of this work is to uncover the events occurring within the B cell development during pregnancy and to study the role of certain subtypes in healthy pregnancy and pregnancy miscarriage. Methods: For all experiments, 8-weeks-old female mice either non-pregnant, having normal preg-nancies or miscarriage were used. Organs were removed and cells isolated using standard protocols. The analysis of the population distribution was performed by Flow Cytometry. For in vitro experiments, specific cell subsets were isolated using MACS Cell Separation. Bio-plex method was used for the assessment of Immunoglobulin isotypes in serum, while CBA Array was the method used to measure cytokine levels in the supernatant of cell cultures. Statistical analysis was done using GraphPad Prism software. Results: Pregnancy had a strong impact on the murine B cell development. The restructuration of the B cell compartment could be appreciated already from the bone marrow progeni-tors, reduced in pregnant mice. Peripheral subsets drastically adapted their develop-mental pathways, with a drift towards the generation of marginal zone B cells. B cells also showed functional adaptations to gravidity, as evidenced by the changes in the immunoglobulin production and immunomodulatory capacity. Conclusions: For the first time a deep investigation of the consequences of pregnancy on the B cell development was performed, covering several aspects of B cell functionality. This work shows that B lymphocyte compartment is remodelled during pregnancy. Aberration of this process may lead to pregnancy complications including miscarriage.
During pregnancy, the maternal immune system faces a double dilemma: tolerate the growing semi-allogeneic fetus and at the same time protect the mother and the progeny against pathogens. This requires a fine and extremely regulated equilibrium between immune activation and tolerance. As professional antigen presenting cells, B cells and in particular B-1a B cells, can activate or tolerize T cells and thus participate in the generation or regulation of the immune response. B-1a B cells were involved in the humoral immune response leading to pre-eclampsia, one of the main medical complications during pregnancy. Here we demonstrated that B-1a B cells are additionally involved in cellular immune mechanisms associated with pregnancy complications. Using a mouse model of pregnancy disturbances, we showed that B-1a B cells from animals suffering pregnancy disturbances but not from those developing normal pregnancies induce the differentiation of naïve T cells into Th17 and Th1 cells. This differential role of B-1a B cells during pregnancy seems to be associated with the co-stimulatory molecule CD86 as normal pregnant mice showed lower percentages of CD86 expressing B-1a B cells as compared to pregnant mice developing pregnancy disturbances or to non-pregnant animals. Our data bring to light a new and not explored role of B-1a B cells in the context of pregnancy.