The following publications are possibly variants of this publication:
- Computational studies on ureter smooth muscle: modeling ion channels and their role in generating electrical activityChitaranjan Mahapatra, Rohit Manchanda. SCSC 2019: [doi]
- Modeling Vas Deferens Smooth Muscle Electrophysiology: Role of Ion Channels in Generating Electrical ActivityChitaranjan Mahapatra, Rohit Manchanda. socpros 2019: 655-663 [doi]
- A computational model of urinary bladder smooth muscle syncytium - Validation and investigation of electrical propertiesShailesh Appukuttan, Keith L. Brain, Rohit Manchanda. jcns, 38(1):167-187, 2015. [doi]
- Computational study of inward rectifying ion channel in urinary bladder over activity: student research abstractChitaranjan Mahapatra. SAC 2017: 31-32 [doi]
- A computational model of intracellular calcium oscillations in urinary bladder smooth muscle cellsSuranjana Gupta, Avni Majawadia, Rohit Manchanda. embc 2017: 2692-2695 [doi]
- A computational model of the Ca2+ transients and influence of buffering in guinea pig urinary bladder smooth muscle cellsVijay Dave, Rohit Manchanda. jbcb, 15(3):1-16, 2017. [doi]
- A mathematical model of the calcium transient in urinary bladder smooth muscle cellsVijay Dave, Chitaranjan Mahapatra, Rohit Manchanda. embc 2015: 5359-5362 [doi]
- Spontaneous synaptic drive in detrusor smooth muscle: computational investigation and implications for urinary bladder functionNilapratim Sengupta, Rohit Manchanda. jcns, 47(2-3):167-189, 2019. [doi]
- Computational Study of Hodgkin-Huxley Type Calcium-Dependent Potassium Current in Urinary Bladder Over ActivityChitaranjan Mahapatra, Keith L. Brain, Rohit Manchanda. iccabs 2018: 1-4 [doi]