Title
Adolescent Exposure to Methylphenidate Leads to Cross-Sensitization in Adult Mice [Poster]
Faculty Mentor(s)
Steven Lloyd and Ryan Shanks
Proposal Type
Poster
Location
Library Technology Center 3rd Floor Open Area
Start Date
29-3-2012 4:30 PM
End Date
29-3-2012 6:30 PM
Description/Abstract
Methylphenidate (MPD), commonly known as Ritalin, is widely prescribed for the treatment of ADHD and is also an abused drug. Although MPD stimulant therapy is effective for the symptoms of ADHD, little is known about the long-term developmental consequences of adolescent MPD exposure, especially for those who have been misdiagnosed or are abusing this potent dopamine agonist. Since, the mechanism of action of MPD is similar to that of Methamphetamine (METH), this study examined the relationship between adolescent MPD exposure and cross-sensitization to METH in adulthood. Cross-sensitization refers to a heightened drug response upon subsequent exposure to a drug with a similar mechanism of action. Since these drugs are psychostimulants, which cause motor activation, we tested this hypothesis using an open field chamber to assess locomotor activity. Given the sexual dimorphic development of the DAergic systems in mice, we predicted a more pronounced effect of METH to female mice pretreated with MPD. Our data supports a long-lasting effect of MPD on crosssensitization to METH in adulthood, which is more pronounced in female mice. [Poster]
Adolescent Exposure to Methylphenidate Leads to Cross-Sensitization in Adult Mice [Poster]
Library Technology Center 3rd Floor Open Area
Methylphenidate (MPD), commonly known as Ritalin, is widely prescribed for the treatment of ADHD and is also an abused drug. Although MPD stimulant therapy is effective for the symptoms of ADHD, little is known about the long-term developmental consequences of adolescent MPD exposure, especially for those who have been misdiagnosed or are abusing this potent dopamine agonist. Since, the mechanism of action of MPD is similar to that of Methamphetamine (METH), this study examined the relationship between adolescent MPD exposure and cross-sensitization to METH in adulthood. Cross-sensitization refers to a heightened drug response upon subsequent exposure to a drug with a similar mechanism of action. Since these drugs are psychostimulants, which cause motor activation, we tested this hypothesis using an open field chamber to assess locomotor activity. Given the sexual dimorphic development of the DAergic systems in mice, we predicted a more pronounced effect of METH to female mice pretreated with MPD. Our data supports a long-lasting effect of MPD on crosssensitization to METH in adulthood, which is more pronounced in female mice. [Poster]