Presumably, the affect is driven by increases in testosterone like those associated with copulins. It would have been great to disassociate the fecal connection from these odors, but this will not represent a problem for those who understand hormone metabolism.
My point is that it takes only a few active ingredients in the mixture, which means there are likely to be only a few copulins and only a few human pheromones. The relative concentrations of the pheromones is important to their effect on hormones and their affect on behavior. Advertized “highest concentrations” of 6-12 “pheromones” is not likely to equate with beneficial affects.
A mixture of odorant molecules potentially indicating oestrus in mammals elicits penile erections in male rats In Press, Uncorrected Proof, Available online 22 August 2011
Birte L. Nielsen, Nathalie Jerôme, Audrey Saint-Albin, Catherine Thonat, Christine Briant, Franck Boué, Olivier Rampin, Yves Maurin
A common set of odorous molecules may indicate female receptiveness across species, as male rats display sexual arousal when exposed to the odour of oestrous faeces from rats, vixens and mares. More than 900 different compounds were identified by GC–MS analyses performed on faeces samples from di-oestrous and oestrous females and from males of the three species. Five carboxylic acids were found in lower concentrations in faeces from all oestrous females. We subjected 12 sexually trained male rats to a 30 min exposure to different dilutions of a mixture of these five molecules in the same proportions as found in female oestrous faeces. The behavioural responses of the rats were compared to those displayed when exposed to water (negative control) and faeces from oestrous female rats (positive control). Frequency of penile erections were found to be significantly dependent on mixture dilution, with two intermediate dilutions eliciting frequencies of penile erections that did not differ from those obtained during exposure to oestrous female rat faeces. Higher and lower dilutions did not elicit more penile erections than observed with water. These results support our hypothesis that a small set of odorous molecules may indicate sexual receptiveness in mammalian females.