Title :
Flow cytometry, MRI, PET and NMR spectroscopy methods of non-invasive drug monitoring in prostate tumor
Author :
Sharma, R. ; Kline, R.
Author_Institution :
Dept. of Radiol., Columbia Univ., New York, NY, USA
Abstract :
PET and MW images of mouse prostate tumors were correlated with histology, flow cytometry, DNA fragmentation analysis and NMR peaks. Hypotheses were: 1. signal intensities of intracellular sodium (/spl mu/MRI) and flouro-2-deoxy-glucose utilization (/spl mu/PET) increased in tumors; 2. image signal intensities were associated with apoptosis as result of DNA fragmentation and accumulation of NMR visible metabolites.PC-3 cell lines were compared with DU-145, LNCaP cell lines in culture for the [Na]/sub i/ and [Ca]/sub l/ ion sensing dyes, cell death NMR peaks and apoptosis staining for chemotherapeutic action of different drugs. After PC3 tumor imaging, taxotere (40 mg/kg; n=5) and VP-16 etoposide (1.2 mg/kg; n=7) was administered i.v. and imaging was done after 12 hours and 24 hours. Tumors were taken out for immunohistological staining by pentachrome, feulgen and ss-DNA antibody. /spl mu/PET and /spl mu/MRI images showed increased 18-FDG uptake and sodium signal intensities in tumor. In tumors, taxotere induced an increase in IC-Na 30 % (p<0.001) increase after 24 hours. FDG uptake increased 15 %(p<0.001) with decreased tumor size (10 %; p<0.001) than that of control tumors after 24 hours. Histological features were analyzed for high tumor risk (high ´IC/EC ratio´, high mitotic index and apoptotic index), decreased tumor viability (reduced mitotic figures, reduced diploidy or aneuploidy and proliferation index). These features in co-registered IC-Na, /spl mu/PET hypermetabolic and monoclonal antibody (ss-DNA) sensitive regions were identified that showed (% difference > 6 %). Sodium NMR peaks isolated intracellular sodium. Apoptosis rich regions showed characteristic nuclei with S phase DNA histogram, appearing brighter on IC-Na images and mild active on PET images. /sup 31/P-NMR spectra showed characteristic high phospho-choline peaks. Integrated sodium MRI and PET imaging, NMR peaks indicated apoptosis and offers in vivo drug monitoring method.
Keywords :
DNA; biological techniques; biological tissues; biomedical MRI; biomedical NMR; cancer; cellular biophysics; fluorescence; molecular biophysics; patient monitoring; positron emission tomography; sodium; tumours; /sup 31/P-NMR spectra; 18-FDG uptake; Ca; Ca ion sensing dyes; DNA fragmentation analysis; NMR spectroscopy methods; NMR visible metabolites; Na; Na NMR peaks; Na ion sensing dyes; Na signal intensities; PC-3 cell lines; PC3 tumor imaging; PET images; S phase DNA histogram; aneuploidy; apoptosis rich regions; apoptosis staining; apoptotic index; cell death; characteristic nuclei; chemotherapeutic action; diploidy; etoposide; feulgen; flouro-2-deoxy-glucose utilization; flow cytometry; histological features; histology; hypermetabolic antibody sensitive regions; immunohistological staining; in vivo drug monitoring method; integrated Na MRI PET imaging; intracellular Na; mitotic figures; mitotic index; monoclonal antibody sensitive regions; mouse prostate tumors; noninvasive drug monitoring; pentachrome; phospho-choline peaks; proliferation index; ss-DNA antibody; taxotere; tumor risk; tumor size; tumor viability; DNA; Drugs; Image analysis; Magnetic resonance imaging; Mice; Monitoring; Neoplasms; Nuclear magnetic resonance; Positron emission tomography; Spectroscopy;
Conference_Titel :
Computer-Based Medical Systems, 2003. Proceedings. 16th IEEE Symposium
Conference_Location :
New York, NY, USA
Print_ISBN :
0-7695-1901-6
DOI :
10.1109/CBMS.2003.1212799
