Imaging melanin cancer growth in-vivo using Raster-Scan Optoacoustic Mesoscopy (RSOM) at 50 MHz and 100 MHz .
    
    
        
    
    
        
        Proc. SPIE 9708:97080S (2016)
    
    
    
		
		
			
				We used raster-scan optoacoustic mesoscopy (RSOM) at 50 MHz, and at 100 MHz, to monitor tumor growth, and tumor angiogenesis, which is a central hallmark of cancer, in-vivo. In this study we compared the performance, and the effect of the 50 MHz, and the 100 MHz frequencies on the quality of the final image. The system is based on a reflection-mode implementation of RSOM. The detectors used are custom made, ultrawideband, and spherically focused. The use of such detectors enables light coupling from the same side as the detector, thus reflection-mode. Light is in turn coupled using a fiber bundle, and the detector is raster scanned in the xy-plane. Subsequently, to retrieve small features, the raw data are reconstructed using a multi-bandwidth, beamforming reconstruction algorithm. Comparison of the system performance at the different frequencies shows as expected a higher resolution in case of the 100 MHz detector compared to the 50 MHz. On the other hand the 50 MHz has a better SNR, can detect features from deeper layers, and has higher angular acceptance. Based on these characteristics the 50 MHz detector was mostly used. After comparing the performance we monitored the growth of B16F10 cells, melanin tumor, over the course of 9 days. We see correspondence between the optoacoustic measurements and the cryoslice validations. Additionally, in areas close to the tumor we see sprouting of new vessels, starting at day 4-5, which corresponds to tumor angiogenesis.
			
			
				
			
		 
		
			
				
					
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        Publikationstyp
        Artikel: Journalartikel
    
 
    
        Dokumenttyp
        Wissenschaftlicher Artikel
    
 
    
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        Sprache
        englisch
    
 
    
        Veröffentlichungsjahr
        2016
    
 
    
        Prepublished im Jahr 
        
    
 
    
        HGF-Berichtsjahr
        2016
    
 
    
    
        ISSN (print) / ISBN
        0277-786X
    
 
    
        e-ISSN
        1996-756X
    
 
    
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        Konferenztitel
        Photons Plus Ultrasound: Imaging and Sensing 2016
    
 
	
        Konferzenzdatum
        14-17 February 2017
    
     
	
        Konferenzort
        San Francisco, CA, USA
    
 
	
        Konferenzband
        
    
 
     
		
    
        Quellenangaben
        
	    Band: 9708,  
	    Heft: ,  
	    Seiten: ,  
	    Artikelnummer: 97080S 
	    Supplement: ,  
	
    
 
  
        
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            SPIE
        
 
        
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        Peer reviewed
    
 
     
    
        POF Topic(s)
        30205 - Bioengineering and Digital Health
    
 
    
        Forschungsfeld(er)
        Enabling and Novel Technologies
    
 
    
        PSP-Element(e)
        G-505500-001
    
 
    
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        Erfassungsdatum
        2016-06-29