The texture observation has long been the core technique in liquid crystal (LC)-based biosensing. However, quantitative analysis of this method for determining the biomolecular concentration can hardly be realized since the existence of biomolecules immobilized on the substrate is examined in accordance with the brightness of optical textures. In considering with the electrical response of birefringence and dielectric anisotropy of LC materials, in this study, two approaches―electro-optical and capacitive measurements, are proposed specifically for quantitative analysis of LC-based biosensing. Here, the biomolecule used is bovine serum albumin (BSA), a protein standard commonly used in the assay of protein concentration, and the LC material used as the sensing platform is highly birefringent HDN with positive dielectric anisotropy. Experimental results indicate that the detection limit of the BSA concentration is 106 g/ml for the electro-optical measurement and is 109 g/ml for the electric capacittance measurement. The difference between the detection limit of the two measurements stems from the method used for the immobilization of BSA on the DMOAP-coated substrates. For the electro-optical measurement, the BSA biomolecules were spin-coated on the substrate to reduce percentage error on the calculation of phase retardation, attributable to the light scattering. By measuring voltage-dependent transmission (VT) curves and calculating phase retardations of experimental samples, we propose an N value, defined as the ratio of the effective refractive index of the sample to the birefringence of the LC material, to quantitatively estimate the influence of the BSA concentration on the orientation of LC molecules. On the other hand, samples used for the capacitive measurement were prepared using droplets to attach protein on the substrates. Experimental results based on the voltage-dependent capacitive (VC) curves render information on the maximum capacitance Cmax and the capacitance difference ΔC. Furthermore, a quantitative value defined as the ratio of Cmax to ΔC of a sample driven by external AC voltages is calculated to analyze the relationship between the LC tilted angle and the BSA concentration.