Would it be safe to have a dog in the MRI scanner before your own examination? A multicenter study to establish hygiene facts related to dogs and men.

OBJECTIVES: To determine whether it would be hygienic to evaluate dogs and humans in the same MRI scanner. METHODS: We compared the bacterial load in colony-forming units (CFU) of human-pathogenic microorganisms in specimens taken from 18 men and 30 dogs. In addition, we compared the extent of bacterial contamination of an MRI scanner shared by dogs and humans with two other MRI scanners used exclusively by humans. RESULTS: Our study shows a significantly higher bacterial load in specimens taken from men's beards compared with dogs' fur (p = 0.036). All of the men (18/18) showed high microbial counts, whereas only 23/30 dogs had high microbial counts and 7 dogs moderate microbial counts. Furthermore, human-pathogenic microorganisms were more frequently found in human beards (7/18) than in dog fur (4/30), although this difference did not reach statistical significance (p = 0.074). More microbes were found in human oral cavities than in dog oral cavities (p < 0.001). After MRI of dogs, routine scanner disinfection was undertaken and the CFU found in specimens isolated from the MRI scanning table and receiver coils showed significantly lower bacteria count compared with "human" MRI scanners (p < 0.05). CONCLUSION: Our study shows that bearded men harbour significantly higher burden of microbes and more human-pathogenic strains than dogs. As the MRI scanner used for both dogs and humans was routinely cleaned after animal scanning, there was substantially lower bacterial load compared with scanners used exclusively for humans. KEY POINTS: • Bearded men harbour significantly more microbes than dogs. • Dogs are no risk to humans if they use the same MRI. • Deficits in hospital hygiene are a relevant risk for patients.

Prospective cohort study using the breast cancer spheroid model as a predictor for response to neoadjuvant therapy--the SpheroNEO study.

BACKGROUND: Aim of this prospective study was to predict response to neoadjuvant therapy in breast cancer patients using an in vitro breast cancer spheroid model. METHODS: Three-dimensional spheroids were directly generated from fresh breast tumor biopsies of 78 patients eligible for neoadjuvant therapy. Cell survival was measured after in vitro exposure to the equivalent therapeutic agents in the breast cancer spheroid model. Treatment results in vitro were correlated with pathological complete response (pCR, i.e. ypT0 ypN0) determined at surgery. RESULTS: A mean cell survival of 21.8 % was found in the breast cancer spheroid model for 22 patients with pCR versus 63.8 % in 56 patients without pCR (P = .001). The area under the receiver operator characteristic curve to predict pCR was 0.86 (95 % CI: 0.77 to 0.96) for cell survival in vitro compared to 0.80 (95 % CI: 0.70 to 0.90) for a combined model of conventional factors (hormone- and HER2 receptor, and age). A cutoff at 35 % cell survival for the spheroid model was proposed. Out of the 32 patients with values below this threshold, 21 patients (65.6 %) and one patient (2.2 %) with a cell survival greater than 35 % achieved pCR respectively; (sensitivity 95.5 % (95 % CI: 0.86 to 1.00); specificity 80.4 % (95 % CI: 0.70 to 0.91)). Extent of residual disease positively correlated with increased cell survival (P = .021). CONCLUSION: The breast cancer spheroid model proved to be a highly sensitive and specific predictor for pCR after neoadjuvant chemotherapy in breast cancer patients.

Lysis of cancer cells by autologous T cells in breast cancer pleural effusates treated with anti-EpCAM BiTE antibody MT110.

In the present study, the efficacy of a new drug, i.e. the bispecific single-chain antibody MT110 targeting the epithelial antigen EpCAM and the T-cell antigen CD3 was tested ex vivo in malignant pleural effusions (MPEs). EpCAM+ epithelial cells were found in 78% of the MPEs (n = 18). Ex vivo treatment of seven MPEs resulted in a dose-dependent specific lysis of 37 +/- 27% (+/- SD) EpCAM+ cells with 10 ng/ml (P = 0.03) and 57 +/- 29.5% EpCAM+ cells with 1,000 ng/ml MT110 (P = 0.016) after 72 h. As a prerequisite for redirected lysis, stimulation of the autologous CD4+ and CD8+ cells in MPE by 1,000 ng/ml MT110 resulted in 21 +/- 17% CD4+/CD25+ and 29.4 +/- 22% CD8+/CD25+ cells (P = 0.016, respectively) after 72 h. This was confirmed by a 22-fold release of TNF-alpha and 230-fold release of IFN-gamma (1,000 ng/ml, 48 h, P = 0.03, respectively). Thus, relapsed breast cancer patients resistant to standard treatment might benefit from targeted therapy using MT110.

Estrogen receptor expression profile of disseminated epithelial tumor cells in bone marrow of breast cancer patients.

The estrogen receptor (ER) status in primary breast cancer represents an important prognostic factor and has a profound impact on therapeutic decisions. However, ER expression profile on disseminated breast cancer cells is largely unknown, although these cells are one of the main target structures in adjuvant therapy after local curative resection (R0) achieved in most breast cancer patients. Thus, the present pilot study was designed to evaluate the ER expression profile on disseminated epithelial cells in bone marrow, one of the preferential organs for manifestation of distant metastases in breast cancer. Using the alkaline phosphatase anti-alkaline phosphatase-immunogold double staining procedure, in a panel of 17 breast cancer patients, epithelial cells (mab CK2) detected in bone marrow were analyzed for ER expression (mab 1D5) and compared with ER expression in the corresponding primary tumors. Whereas eleven of the 17 patients (64.7%) were ER-positive in primary carcinomas, only two patients (11.8%) revealed ER-positive epithelial cells in bone marrow. In addition, one of these two patients demonstrated a heterogeneous ER expression pattern, with both ER-positive and ER-negative epithelial cells in bone marrow. Although in both of these cases the ER-positive epithelial cells in bone marrow derived from ER-positive primary tumors, in this small patient cohort none of the prognostic relevant clinical and pathological factors tested, i.e., TNM-classification, grading, and ER status in primary breast cancer, correlated with the ER status in bone marrow. The striking discrepancy between ER expression in primary breast cancers and the corresponding disseminated epithelial cells in bone marrow suggests either the selective dissemination of ER-negative tumor cells into the bone marrow or a negative impact of the bone marrow microenvironment on epithelial ER expression. This phenomenon might influence therapeutic effects of antihormonal treatment.