Light excitation methods for five dimensional optoacoustic imaging.
    
    
        
    
    
        
        Proc. SPIE 9539:95391A (2015)
    
    
    
		
		
			
				Multispectral optoacoustic tomography offers unprecedented capabilities in biological research and newly-developed systems prompt the clinical translation of this modality. By exciting tissues at multiple optical wavelengths, the distribution of spectrally-distinctive absorbers can be resolved with high resolution in deep tissues, thus enabling reading important biological parameters such as blood oxygenation or the biodistribution of photo-absorbing agents. Multispectral three-dimensional optoacoustic imaging generally comes at the expense of slow acquisition times, which limits the dynamic imaging capabilities of this modality. Recently, the feasibility of multispectral three-dimensional imaging in real time (five dimensional imaging) has been showcased. Two different illumination strategies can be used for this purpose. The first approach is based on tuning the wavelength of the laser on a per-pulse basis, which enables acquisition of large multispectral datasets on a very short time. The second approach is based on properly synchronizing the light beams from two (or more) laser sources. The performances of these two approaches are compared and discussed herein based on experiments with mice and human volunteers.CCC.
			
			
				
			
		 
		
			
				
					
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        Publikationstyp
        Artikel: Journalartikel
    
 
    
        Dokumenttyp
        Wissenschaftlicher Artikel
    
 
    
        Typ der Hochschulschrift
        
    
 
    
        Herausgeber
        
    
    
        Schlagwörter
        Five Dimensional Imaging ; Multispectral Imaging ; Real-time Imaging ; Three-dimensional Imaging
    
 
    
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        Sprache
        englisch
    
 
    
        Veröffentlichungsjahr
        2015
    
 
    
        Prepublished im Jahr 
        0
    
 
    
        HGF-Berichtsjahr
        2015
    
 
    
    
        ISSN (print) / ISBN
        0277-786X
    
 
    
        e-ISSN
        1996-756X
    
 
    
        ISBN
        
    
 
    
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        Konferenztitel
        Opto-Acoustic Methods and Applications in Biophotonics II
    
 
	
        Konferzenzdatum
        21 June 2015
    
     
	
        Konferenzort
        Munich, Germany
    
 
	
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        Quellenangaben
        
	    Band: 9539,  
	    Heft: ,  
	    Seiten: ,  
	    Artikelnummer: 95391A  
	    Supplement: ,  
	
    
 
  
        
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        Begutachtungsstatus
        Peer reviewed
    
 
     
    
        POF Topic(s)
        30205 - Bioengineering and Digital Health
    
 
    
        Forschungsfeld(er)
        Enabling and Novel Technologies
    
 
    
        PSP-Element(e)
        G-505590-001
    
 
    
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        Erfassungsdatum
        2017-06-06