[Interventional endoscopy in hepatico-pancreatico-biliary disease]

Interventional endoscopy in hepatico-pancreatico-biliary disease Abstract. Interventional endoscopy has undergone an exciting evolution in recent years, especially in the treatment of hepatico-pancreatico-biliary disease. However, novel endoscopes have also improved diagnostics through direct visualization of the biliary tract and the pancreatic duct, including targeted biopsy-sampling of suspicious endoluminal lesions. The use of cholangioscopy also allows for lithotripsy of complex gallstones under direct visualization. In patients with malignant biliary obstruction, endosonography(EUS)-guided insertion of novel lumen-apposing metal stents allow for extraanatomical access to intra- or extrahepatic bile ducts, if traditional transpapillary stent insertion fails. Especially in patients with altered anatomy e. g., after surgery, EUS-guided transgastric drainage may be the most sensible approach. Using similar techniques, EUS-guided drainage of the pancreatic duct is also possible. Local tumor therapy may be achieved with novel endoscopic retrograde cholangiography-guided catheter-based radiofrequency ablation and photodynamic therapy. In chronic pancreatitis, similar to biliary disease, methods of endoluminal diagnosis, lithotripsy, and transgastric drainage may also be applied. This article provides an overview of novel endoscopic techniques and methods that are available in hepatico-pancreatico-biliary disease.

Diagnose und Monitoring bei chronisch-entzündlicher Darmerkrankung

Diagnosis and Monitoring of Inflammatory Bowel Disease Abstract. The diagnosis and monitoring of inflammatory bowel disease (IBD) is based on several factors: Clinical history, physical examination, laboratory values (blood and stool), endoscopy, histology and imaging. No single feature establishes the diagnosis alone. In recent years, therapeutic goals in IBD have evolved from clinical endpoints to endoscopic or even histologic targets. However, these targets, e. g. mucosal healing, still have to be uniformly defined. Repeated endoscopies are ill-tolerated by patients, therefore surrogate-markers of mucosal inflammation such as calprotectin, have been investigated and showed good correlation with endoscopic findings. In Crohn's Disease, directing therapy with tight control, based, among others, on fecal calprotectin, has been superior to conventional therapy-monitoring and decision making. However, these initial results need further confirmation. Therapeutic drug monitoring (TDM) has emerged as a second monitoring entity in the long term treatment of IBD patients. Especially with the increasing use of biologics, reactive TDM (in patients who relapse) and to a lesser extent proactive TDM (in patients who are in clinical remission / stable disease) have been studied and results have been adopted in current guidelines. Future studies will have to better define treatment targets and further investigate the impact of tight-monitoring on disease outcome.

Paramunity-inducing Factors (PINDs) in dendritic cell (DC) cultures lead to impaired antileukemic functionality of DC-stimulated T-cells

INTRODUCTION

Paramunity-inducing-Factors (PINDs) consist of attenuated/inactivated viruses of various poxvirus-genera, used in veterinary medicine as non-antigen-specific, non-immunising stimulators of the innate immune system against infectious and malignant diseases. Their danger-signaling-interactions were tested for their capacity to improve leukemic antigen-presentation on DC generated from AML-patients' blasts ('DC_leu') and DC-stimulation/activation of antileukemic T-cells.

METHODS

We analyzed, whether the addition of PINDs during DC cultures (15 healthy, 22 leukemic donors) and mixed lymphocyte culture (MLC, n = 15) with autologous (n = 6), allogeneic (n = 2) or T-cells after stem cell transplantation (SCT; n = 7) would alter the quality and quantity of DC, the composition of T-cell-subsets, and/or their antileukemic functionality (AF) as studied by FACS and functional Fluorolysis-cytotoxicity-assays.

RESULTS

Effects on 1. DC-cultures: PINDs in DC-cultures lead to increased proportions of mature DC and DC_leu, but reduced proportions of viable and overall, as well as TLR4- and TLR9-expressing DC. 2. MLC: PINDs increased early (CD8+) T-cell activation (CD69+), but reduced proportions of effector-T-cells after MLC 3. AF: Presence of PINDs in DC- and MLC-cultures reduced T-cells' as well as innate cells' antileukemic functionality. 4. Cytokine-release profile: Supernatants from PIND-treated DC- and MLC-cultures resembled an inhibitory microenvironment, correlating with impaired blast lysis.

CONCLUSIONS

Our data shows that addition of PINDs to DC-cultures and MLC result in a "blast-protective-capacity" leading to impaired AF, likely due to changes in the composition of T-/innate effector cells and the induction of an inhibitory microenvironment. PINDs might be promising in treating infectious diseases, but cannot be recommended for the treatment of AML-patients due to their inhibitory influence on antileukemic functionality.

Quality of T-cells after stimulation with leukemia-derived dendritic cells (DC) from patients with acute myeloid leukemia (AML) or myeloid dysplastic syndrome (MDS) is predictive for their leukemia cytotoxic potential

Myeloid leukemic cells can differentiate into leukemia-derived dendritic cells (DC(leu)), presenting known/unknown leukemic-antigens. Induced anti-leukemic T-cell-responses are variable. To further elicit DC/DC(leu)-induced T-cell-response-patterns we performed (functional)flow-cytometry/fluorolysis-assays before/after mixed lymphocyte cultures (MLC) of matched (allogeneic) donor-T-cells (n=6), T-cells prepared at relapse after stem cell transplantation (n=4) or (autologous) patients'-T-cells (n=7) with blast-containing-mononuclear-cells ('MNC') or DC(leu)-containing DC ('DC'). Compared to 'MNC' 'DC' were better mediators of anti-leukaemic T-cell-activity, although not in every case effective. We could define cut-off proportions of mature DC, DC(leu), proliferating, CD4(+), CD8(+) and non-naive T-cells after 'MNC'- or 'DC'-stimulation, that were predictive for an anti-leukemic-activity of stimulated T-cells as well as a response to immunotherapy. Interestingly especially ratios >1 of CD4:CD8 or CD45RO:CD45RA T-cells were predictive for anti-leukemic function after DC-stimulation. In summary the composition and quality of DC and T-cells after a MLC-stimulating-phase is predictive for a successful ex-vivo and in-vivo anti-leukemic response, especially with respect to proportions of proliferating, CD4(+) and CD45RO(+) T-cells. Successful cytotoxicity and the development of a T-cell-memory after 'DC'-stimulation could be predictive for the clinical course of the disease and may pave the way to develop adoptive immunotherapy, especially for patients at relapse after SCT.