check this out from the Am J Physiol Endocrinol Metab 267: E475-E484, 1994;
ARTICLES
Anabolic effects of the beta 2-adrenoceptor agonist salmeterol are dependent on route of administration
N. G. Moore, G. G. Pegg and M. N. Sillence
Department of Chemistry, University of Central Queensland, Rockhampton, Australia.
It is reported that a long duration of action is required for beta 2-adrenoceptor agonists to evoke an anabolic response. In the present study, we compare the potency of clenbuterol with that of the new long-acting compound salmeterol, when given at equimolar doses to female Wistar rats by different routes of administration. Given orally for 10 days, salmeterol had no effect on growth at a dose of 120 micrograms/day, whereas at 2.4 mg/day the drug caused significant increases in body and carcass weight and in the mass of the mixed-fiber gastrocnemius/plantaris and tibialis anterior muscles, but there were no increases in the slow-twitch soleus muscles. A similar growth response was seen when clenbuterol was given orally at a dose of only 97 micrograms/day, with an additional response seen in soleus muscle at 1.9 mg/day. Thus clenbuterol was more potent than salmeterol when given by this route of administration. When the drugs were infused by osmotic minipump, both salmeterol (130 micrograms/day) and clenbuterol (100 micrograms/day) caused increases in body weight gain and in the weights of the mixed-fiber muscles, with the most dramatic effect of infusion being to greatly increase the anabolic effect of salmeterol in soleus muscle. A single intraperitoneal injection of salmeterol (53 micrograms) or clenbuterol (40 micrograms) caused a similar rapid increase in the concentration of adenosine 3',5'-cyclic monophosphate in gastrocnemius muscle. These results indicate that the potency of salmeterol in vivo is dependent on its route of administration and that slow-twitch muscles are less sensitive than mixed-fiber muscles to the anabolic effects of beta 2-adrenoceptor agonists.
It looks like eating it would not work--at least in rats
