Purpose. To distinguish between normal (SV‐HUC‐1) and cancerous (TCCSUP) human
urothelial cell lines using microelectrical impedance spectroscopy (μEIS). Materials and …

The present study aims to investigate differences in impedance between normal (SV-HUC-
1) and cancerous (TCCSUP) human urothelial cell lines at multiple frequencies by using a …

Although the high incidence and recurrence rates of urothelial cancer of the bladder (UCB)
are heavy burdens, a noninvasive tool for effectively detecting UCB as an alternative to …

The prostate biopsy method shows a high false negative result because the suspicious
tissue considered as cancer is not confirmed during tissue sampling. Thus, repeated biopsy …

Bladder pathology is usually investigated visually by cystoscopy. At present, definitive
diagnosis of the bladder can be made by biopsy only, usually under general anaesthesia …

The electrical impedance of the human urinary bladder was measured using a frequency
range (62.500 Hz–1.024 MHz in 58 frequencies) electrical impedance spectroscopy system …

Differentiation of normal human bladder cell (SVHUC) between two different-grade bladder
cancer cell lines (TSGH8301, grade II and TCCSUP, grade IV) was successful developed …

Purpose: Quantification of the heterogeneity of tumor cell populations is of interest for many
diagnostic and therapeutic applications, including determining the cancerous stage of …

Purpose: Carcinoma in situ is an aggressive form of bladder cancer with a high propensity
for invasion if left untreated. On cystoscopy these flat lesions cannot be differentiated from …

Micro electrical impedance spectroscopy on a needle for ex vivo discrimination between
human normal and cancer renal tissues | Biomicrofluidics | AIP Publishing Skip to Main Content …