Stiffness mapping prostate biopsy samples using a tactile sensor

Previous studies have demonstrated that the stiffness of cancerous cells reflects their pathological stage and progression rates, with increased cancerous cell stiffness associated with increased aggressiveness. Therefore, the elasticity of the cancerous cells has the potential to be used as an indicator of the cancer's aggressiveness. However, the sensitivity and resolution of current palpation and imaging techniques are not sufficient to detect small cancerous tissues. In previous studies, we developed a tactile-based device to map with high resolution the stiffness of a tissue section. The purpose of this study is to evaluate this device using different tissues (BPH, Cancer and PZ) collected from human prostates. The preliminary results show that the tactile device is sensitive enough to tell the differences of the stiffness of different tissues. The results also disclosed the factors (humidity, temperature and tissue degradation) which could dramatically affect the results of stiffness mapping. The tactile technology described in this paper has the potential to help disclose the underlying mechanical mechanisms that lead to increased stiffness in prostate tumors.

[1]  M. Terris,et al.  Random systematic versus directed ultrasound guided transrectal core biopsies of the prostate. , 1989, The Journal of urology.

[2]  J F Greenleaf,et al.  In vitro comparative study of vibro-acoustography versus pulse-echo ultrasound in imaging permanent prostate brachytherapy seeds. , 2009, Ultrasonics.

[3]  M. Long,et al.  Comparison of the viscoelastic properties of normal hepatocytes and hepatocellular carcinoma cells under cytoskeletal perturbation. , 2000, Biorheology.

[4]  T. Miyagawa,et al.  Real-time elastography for the diagnosis of prostate cancer: evaluation of elastographic moving images. , 2009, Japanese journal of clinical oncology.

[5]  G. Bartsch,et al.  Prostate cancer diagnosis: value of real-time elastography , 2008, Abdominal Imaging.

[6]  J. Rao,et al.  Nanomechanical analysis of cells from cancer patients. , 2007, Nature nanotechnology.

[7]  E. Messing,et al.  Quantitative characterization of viscoelastic properties of human prostate correlated with histology. , 2008, Ultrasound in medicine & biology.

[8]  Y. Mizutani,et al.  The utility of transrectal real-time elastography in the diagnosis of prostate cancer. , 2008, Ultrasound in medicine & biology.

[9]  M. Brawer,et al.  Prostate‐specific antigen: Current status , 1999, CA: a cancer journal for clinicians.

[10]  Subra Suresh,et al.  Biomechanics and biophysics of cancer cells. , 2007, Acta biomaterialia.

[11]  Gang Zhang,et al.  Mechanical properties of hepatocellular carcinoma cells. , 2002, World journal of gastroenterology.

[12]  D. Rubens,et al.  Tissue elasticity properties as biomarkers for prostate cancer. , 2008, Cancer biomarkers : section A of Disease markers.