Line 43: | Line 43: | ||
<div class="pagediv"> | <div class="pagediv"> | ||
<br><br><br><br> | <br><br><br><br> | ||
− | <div class="h3">Project Description</div> | + | <div class="h3" style="text-align:center">Project Description</div> |
<br> | <br> | ||
<div class = "para">The photoacoustic effect describes the conversion of electromagnetic energy to mechanical energy, namely, that an object absorbing non-ionizing laser pulses experiences local thermal expansions, and vibrates with frequencies in the ultrasonic range which may be detected. Imaging based on this effect yields high contrast from the optical component, and high resolution from the acoustic component (1). For biomedical purposes, users of this technique take advantage of endogenous and exogenous contrast agents to obtain physiological information from the biological tissue, endogenous examples including oxy- and deoxy-hemoglobin to determine blood flow speed (2). The bacterial pigment Violacein (Vio) has been reported to be an effective contrast agent under this technique (3). Furthermore, previous iGEM teams have developed and optimized a biosynthesis pathway for this pigment (4, 5). | <div class = "para">The photoacoustic effect describes the conversion of electromagnetic energy to mechanical energy, namely, that an object absorbing non-ionizing laser pulses experiences local thermal expansions, and vibrates with frequencies in the ultrasonic range which may be detected. Imaging based on this effect yields high contrast from the optical component, and high resolution from the acoustic component (1). For biomedical purposes, users of this technique take advantage of endogenous and exogenous contrast agents to obtain physiological information from the biological tissue, endogenous examples including oxy- and deoxy-hemoglobin to determine blood flow speed (2). The bacterial pigment Violacein (Vio) has been reported to be an effective contrast agent under this technique (3). Furthermore, previous iGEM teams have developed and optimized a biosynthesis pathway for this pigment (4, 5). |
Revision as of 14:48, 19 October 2016