Spray-drying is an attractive method for preparing fine recombinant human growth hormone (rhGH) powders if the detrimental effect of protein degradation at the air-liquid interface on the protein can be minimized. In this study, we demonstrated that rhGH degradation (insoluble and soluble aggregate formation), as the consequence of air-liquid interfacial degradation, could be prevented using the appropriate formulation. Adding polysorbate-20 surfactant into the liquid feed (with no presence of sugar protectant) significantly reduced the formation of insoluble protein aggregates, while adding the divalent metal zinc ion effectively suppressed the formation of soluble protein aggregates. The combination of the two yielded a spray-dried rhGH powder having insignificant protein degradation. Our data suggest that the two components might protect the protein through different mechanisms. Polysorbate molecules occupy the air-liquid interface of spray droplets, thereby reducing the chance for rhGH to form insoluble aggregates by surface denaturation. Two zinc ions associate with two rhGH molecules to form a dimer complex that can resist the formation of soluble protein aggregates. Characterization of spray-dried powders by scanning electron microscopy suggests that both formulation and drying conditions have a strong influence on particle morphology and shape. Overall, spherical rhGH powders of smooth surface and good biochemical quality can be prepared by spray-drying using this formulation with no addition of sugar protectant.