The purpose of this work was to investigate the relationship between the feed composition of 2-hydroxyethyl methacrylate (HEMA)/methacrylic acid (MAA) and the characteristics of the resultant hydrogel material. The monomer solutions of HEMA and MAA were mixed at different weight ratios of 98.8:0, 96.8:2, 93.8:4.9, 89:9.9, and 79.1:19.8, and were subjected to UV irradiation. Properties including surface hydrophobicity (by water contact angles), equilibrium water content (EWC), mean surface roughness (by AFM), and transparency (by UV/Vis-absorption spectrometer) were studied on these hydrogels. When the gel was soaked in DI water, the EWC was observed to be in the range of 30-40%. However, a significantly higher EWC (~60%) was perceived upon soaking in PBS. Our results indicated that the addition of hydrophilic MAA lead to a reduction in water contact angle, showing a negative correlation between the amount of MAA and surface hydrophobicity. Also, the addition of MAA was found to increase the mean surface roughness and surface energy, both are related to the decrease in hydrophobicity. Almost no difference was detected in the transparency of hydrogels soaked in DI water and PBS except for the latter exhibiting a rapid rise near the wavelength of 200 nm. In addition, the adsorption and desorption behaviors of a model protein, lysozyme, on the hydrogels were examined. The result indicated that the addition of MAA would increase lysozyme adsorption but the lysozyme desorption was decreased. We believe the result of this work may aid in the development and improvement of the materials used for soft contact lenses.