This chapter will discuss methods for analyses of the rates of sphingomyelin synthesis and turnover associated with lipid rafts or plasma membrane. These methods involve the use of fluorescently (NBD-C6-ceramide or NBD-C6-Sphingomyelin)) or radioactively labeled substrates ([³H-methyl]-phosphatidylcholine, [³H-acyl]-ceramide, [¹⁴C-methyl]-sphingomyelin) to quantify in vitro the activity of the sphingomyelin synthase (SMS) (also known as phosphatidylcholine:ceramide phosphocholine transferase), acid sphingomyelinase (the endosomal/lysosomal (L-SMase) and the secretory (S-SMase) forms) and neutral sphingomyelinase-2 (nSMase-2). These methods allow to quantify changes in the activity of enzymes that affect the SM-to-ceramide ratio on the plasma membrane, and consequently, the lipid rafts biophysical properties, dynamics, and raft-associated receptor clustering and signaling events. Specific attention is paid to challenges caused by the fact that SMS and nSMase-2 are integral/membrane bound proteins and how to avoid the use of detergent that suppress their specific activities.