您是当前第 157355108 位来访者
论坛

Wang Y Hu S Hu X et al.

Intravoxel incoherent motion magnetic resonance imaging for diagnosis of cervical cancer and evaluation of response of uterine cervical cancer to radiochemotherapy: A pilot study[J]. Oncology 2015 4: 005.

AbstractObjective The aim of this study was to investigate the ability of intravoxel incoherent motion IVIM dif usion-weighted magnetic resonance imaging MRI to diagnose cervical cancer and to evaluate the response of uterine cervical cancer to radiochemotherapy CRT. Methods This prospective study was approved by the institutional review board and informed consent was obtained from al patients. A total of 23 patients with primary cervical cancer who were undergoing CRT and 16 age-matched healthy subjects were prospectively recruited for IVIM b = 0–800 s/mm2 and stan-dard pelvic MRI. Bi-exponential analysis was performed to derive f perfusion fraction), D* pseudo-dif usion coef icient), and D true molecular dif usion coef icient in cervical cancer n = 23 and the normal cervix n= 16. The apparent dif usion coef icient standard ADC was calculated. The independent-samples t-test and paired-samples t-test were used for comparisons. Results Pre-treatment cervical cancer had the lowest standard ADC 1.15 ± 0.13 × 10-3 mm2/s and D 0.89 ± 0.10 × 10-3 mm2/s values and these were significantly dif erent from the normal cervix and post-treatment cervical cancer P = 0.00. The f 16.67 ± 5.85% was lowest in pre-treatment cervical cancer and was significantly dif erent from the normal cervix and post-treatment cervical cancer p = 0.012 and 0.00 respectively. No dif erence was observed in D*. Conclusion IVIM is potential y promising for dif erentiating between the normal cervix and cervical can-cer because pre-treated cervical cancer has low perfusion and dif usion IVIM characteristics. Further the standard ADC D and f of cervical cancer showed a tendency to normalize after CRT; thus IVIM may be useful for monitoring the response to CRT in cervical cancer.

doi10.1007/s10330-015-0105-9