This paper presents an in situ impedance chip system, which allows studying the effects of drugs on the behaviors of living cell in real-time. A new label-free measurement approach is introduced, which enables to assess the extent of the adhesion of a cell population to the extracellular matrix (ECM)-coated microelectrode array, by adding together all the impedance changes from individually controlled microelectrodes. A high sensitivity was demonstrated and allowed us to monitor cell attachment with the resolution of a "few cells". The dose and pre-incubation time effects of antibodies against beta1-integrin and its subunit alpha2beta1-integrin on the adhesion behavior of NCI-H460 lung cancer cells to collagen type I was extensively studied. Results show that both anti-beta1-integrin and anti-alpha2beta1-integrin inhibit NCI-H460 cells attachment to collagen I. This indicates that beta1-integrin is present on the surface of NCI-H460 cancer cells, and that its subunit alpha2beta1 significantly affects NCI-H460 cells attachment on collagen I.