Device and method for detecting, while using a microfluidic chip, the resistance of bacteria to an active substance to be analyzed

1 . A device for detecting the resistance of bacteria to an active substance to be analyzed, comprising: a microfluidic chip comprising: fluidic structures comprising a fluid inlet and an interaction chamber fluidically connected to the fluid inlet; a labeled substrate that is immobilized inside the interaction chamber and is configured to enter into a verifiable interaction with bacterial factors of bacteria, so that by introducing a culture medium comprising an active substance to be analyzed and the bacteria into the interaction chamber and by detecting the result of the verifiable interaction, it can be ascertained whether the bacteria are resistant to the active substance to be analyzed, a void volume of the fluidic structures not exceeding 100 μl; a detector configured to detect information that is a measure of whether or not the verifiable interaction has taken place; and an analyzer configured to output, on the basis of the detected information, a display with regard to the resistance of the bacteria to the active substance to be analyzed. 2 . The device as claimed in claim 1 , wherein the analyzer is configured to compare the detected information to at least one threshold value and to output a display, as a function of the comparison, as to whether or not the bacteria are resistant to the active substance to be analyzed, or wherein the analyzer is configured to compare the detected information to several threshold values and to output a display, as a function of the comparison, as to whether the bacteria are resistance, intermediate, or sensitive to the active substance to be analyzed. 3 . The device as claimed in claim 1 , wherein the microfluidic chip comprises a plurality of plastic foils, at least one of which is structured to define the fluidic structures. 4 . The device as claimed in claim 1 , wherein the substrate is labeled with a substance that is detached from the substrate by the interaction with the bacterial factors. 5 . The device as claimed in claim 4 , wherein the fluidic structures of the microfluidic module comprise a detection chamber fluidically coupled to the interaction chamber, a retention device being fluidically connected between the interaction chamber and the detection chamber, the retention device being configured to allow labels and/or labeled substrate fragments, which are detached from the labeled substrate on account of the interaction, to pass through and to retain the bacteria. 6 . The device as claimed in claim 1 , wherein the microfluidic chip further comprises an enrichment chamber fluidically connected between the fluid inlet and the interaction chamber. 7 . The device as claimed in claim 6 , comprising a heating element configured to heat contents of the enrichment chamber to a temperature suited for enriching the bacteria within the culture medium. 8 . Device as claimed in claim 1 , comprising a heating element configured to heat contents of the interaction chamber to a temperature suited for the verifiable interaction. 9 . The device as claimed in claim 1 , wherein the substrate is labeled with fluorescent dyes, absorption dyes or radioactive marked labels. 10 . The device as claimed in claim 1 , wherein the labeled substrate is mounted on a wall of the interaction chamber or on fibrous or particulate structures immobilized inside the interaction chamber. 11 . The device as claimed in claim 1 , wherein the microfluidic chip comprises several substrates labeled with different labels and immobilized inside one or more fluid chambers of the microfluidic chip. 12 . The device as claimed in claim 11 , wherein the labeled substrate is labeled with fluorophores or absorption dyes, and wherein the detector comprises a photomultiplier or a one-photon detector. 13 . A method of detecting the resistance of bacteria to an active substance to be analyzed, comprising: introducing a culture medium comprising an active substance to be analyzed and bacteria into the interaction chamber of a microfluidic chip which comprises fluidic structures comprising a fluid inlet and an interaction chamber fluidically connected to the fluid inlet, and comprises a labeled substrate immobilized inside the interaction chamber and being configured to enter into a verifiable interaction with bacterial factors of bacteria, a void volume of the fluidic structures not exceeding 100 μl; detecting information that is a measure of whether or not the verifiable interaction has taken place; and outputting a display, on the basis of the detected information, with regard to the resistance of the bacteria to the active substance to be analyzed. 14 . The method as claimed in claim 13 , comprising comparing the detected information to at least one threshold value and outputting the display, on the basis of the comparison, as to whether there are resistant bacteria. 15 . The method as claimed in claim 14 , comprising comparing the detected information to several threshold values and outputting the display, on the basis of the comparison, as to whether the bacteria are resistant, intermediate, or sensitive to the active substance to be analyzed. 16 . The method as claimed in claim 14 , the bacteria being known bacteria and the method being configured to perform an active-substance screening.