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ORCIDRohit Manchanda
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2020 – today
- 2024
[j9]Satchithananthi Aruljothi, Rohit Manchanda:
A biophysically comprehensive model of urothelial afferent neurons: implications for sensory signalling in urinary bladder. J. Comput. Neurosci. 52(1): 21-37 (2024)- 2020
- [c18]Shailesh Appukuttan
, Darshan Mandge, Rohit Manchanda:
Implementation of Syncytial Models in NEURON Simulator for Improved Efficiency. PDP 2020: 266-273
2010 – 2019
- 2019
- [j8]Suranjana Gupta, Rohit Manchanda:
A computational model of large conductance voltage and calcium activated potassium channels: implications for calcium dynamics and electrophysiology in detrusor smooth muscle cells. J. Comput. Neurosci. 46(3): 233-256 (2019) - [j7]Nilapratim Sengupta, Rohit Manchanda:
Spontaneous synaptic drive in detrusor smooth muscle: computational investigation and implications for urinary bladder function. J. Comput. Neurosci. 47(2-3): 167-189 (2019) - [c17]Darshan Mandge, Pooja Rajesh Shukla, Archit Bhatnagar, Rohit Manchanda:
Computational Model for Cross-Depolarization in DRG Neurons via Satellite Glial Cells using [K]o: Role of Kir4.1 Channels and Extracellular Leakage. EMBC 2019: 2320-2323 - [c16]Suranjana Gupta, Rohit Manchanda:
A Computational Study on the Effect of Intracellular Calcium Concentration and ATP on Detrusor Smooth Muscle Contraction. NER 2019: 1212-1215 - [c15]Chitaranjan Mahapatra, Rohit Manchanda:
Computational studies on ureter smooth muscle: modeling ion channels and their role in generating electrical activity. SummerSim 2019: 63:1-63:6 - 2018
- [j6]Mrunal Rane, Rohit Manchanda:
Effects of location and extent of spine clustering on synaptic integration in striatal medium spiny neurons - a computational study. Medical Biol. Eng. Comput. 56(7): 1173-1187 (2018) - [j5]Darshan Mandge, Rohit Manchanda:
A biophysically detailed computational model of urinary bladder small DRG neuron soma. PLoS Comput. Biol. 14(7) (2018) - [c14]Rohit Manchanda:
Effect of Gating Charges on Mediating the Dual Activation of BK Channels in Smooth Muscle Cells: A Computational Study. EMBC 2018: 5838-5841 - [c13]Nilapratim Sengupta, Keith L. Brain, Rohit Manchanda:
Cellular Environment in a Bundle Modulates SEJP Characteristics in Detrusor Smooth Muscle. EMBC 2018: 5842-5845 - [c12]Chitaranjan Mahapatra, Keith L. Brain, Rohit Manchanda:
Computational Study of Hodgkin-Huxley Type Calcium-Dependent Potassium Current in Urinary Bladder Over Activity. ICCABS 2018: 1-4 - 2017
- [j4]Vijay Dave, Rohit Manchanda:
A computational model of the Ca2+ transients and influence of buffering in guinea pig urinary bladder smooth muscle cells. J. Bioinform. Comput. Biol. 15(3): 1750011:1-1750011:16 (2017) - [c11]Suranjana Gupta, Avni Majawadia, Rohit Manchanda:
A computational model of intracellular calcium oscillations in urinary bladder smooth muscle cells. EMBC 2017: 2692-2695 - [c10]Satchithananthi Aruljothi, Darshan Mandge, Rohit Manchanda:
A biophysical model of heat sensitivity in nociceptive C-fiber neurons. NER 2017: 596-599 - [c9]Darshan Mandge, Archit Bhatnagar, Rohit Manchanda:
Computational model for intercellular communication between DRG neurons via satellite glial cells using ATP. NER 2017: 648-651 - [c8]Chitaranjan Mahapatra, Rohit Manchanda:
Modeling Vas Deferens Smooth Muscle Electrophysiology: Role of Ion Channels in Generating Electrical Activity. SocProS (2) 2017: 655-663 - 2015
- [j3]Shailesh Appukuttan, Keith L. Brain, Rohit Manchanda:
A computational model of urinary bladder smooth muscle syncytium - Validation and investigation of electrical properties. J. Comput. Neurosci. 38(1): 167-187 (2015) - [c7]Vijay Dave, Chitaranjan Mahapatra, Rohit Manchanda:
A mathematical model of the calcium transient in urinary bladder smooth muscle cells. EMBC 2015: 5359-5362 - [c6]Darshan Mandge, Rohit Manchanda:
Computational studies on bladder small dorsal root ganglion neurons: Modelling BK channels. EMBC 2015: 5376-5379 - [c5]Nilapratim Sengupta, Keith L. Brain, Rohit Manchanda:
Spatiotemporal dynamics of synaptic drive in urinary bladder syncytium: A computational investigation. EMBC 2015: 8074-8077 - [c4]Shailesh Appukuttan, Keith L. Brain, Rohit Manchanda:
Syncytial Basis for Diversity in Spike Shapes and their Propagation in Detrusor Smooth Muscle. ICCS 2015: 785-794 - [c3]Shailesh Appukuttan, Rohan Sathe, Rohit Manchanda:
Modular approach to modeling homotypic and heterotypic gap junctions. ICCABS 2015: 1-6 - [c2]Chitaranjan Mahapatra, Keith L. Brain, Rohit Manchanda:
Computational studies on urinary bladder smooth muscle: Modeling ion channels and their role in generating electrical activity. NER 2015: 832-835
2000 – 2009
- 2009
- [j2]John Eric Steephen, Rohit Manchanda:
Differences in biophysical properties of nucleus accumbens medium spiny neurons emerging from inactivation of inward rectifying potassium currents. J. Comput. Neurosci. 27(3): 453-470 (2009) - 2000
- [j1]Priya P. Vaidya, Krischeti Venkateswarlu, Uday B. Desai, Rohit Manchanda:
Analysis of synaptic quantal depolarizations in smooth muscle using the wavelet transform. IEEE Trans. Biomed. Eng. 47(6): 701-708 (2000)
1990 – 1999
- 1998
- [c1]Priya J. Godbole, Rohit Manchanda, Uday B. Desai, Krischeti Venkateswarlu:
Characterization of autonomic release sites using the time-frequency analysis of junction potentials in smooth muscle. ICASSP 1998: 1813-1816
Coauthor Index
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