Liverpool Skylilne

Sport and Exercise Sciences

Prof Jonathan Jarvis

Prof Jonathan Jarvis

Telephone: 0151 904 6253

Publications

Highlighted publications

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Journal article

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Stephenson RS, Boyett MR, Hart G, Nikolaidou T, Cai X, Corno AF, Alphonso N, Jeffery N, Jarvis JC. 2012. Contrast enhanced micro-computed tomography resolves the 3-dimensional morphology of the cardiac conduction system in mammalian hearts. PLoS One, 7 :e35299 >DOI >Link >Public Url

Taylor AM, Preston AJ, Paulk NK, Sutherland H, Keenan CM, Wilson PJM, Wlodarski B, Grompe M, Ranganath LR, Gallagher JA, Jarvis JC. 2012. Ochronosis in a murine model of alkaptonuria is synonymous to that in the human condition. Osteoarthritis Cartilage, 20 :880-886 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Taylor AM, Boyde A, Wilson PJM, Jarvis JC, Davidson JS, Hunt JA, Ranganath LR, Gallagher JA. 2011. The role of calcified cartilage and subchondral bone in the initiation and progression of ochronotic arthropathy in alkaptonuria. Arthritis Rheum, 63 :3887-3896 >DOI >Link

Tinti L, Taylor AM, Santucci A, Wlodarski B, Wilson PJ, Jarvis JC, Fraser WD, Davidson JS, Ranganath LR, Gallagher JA. 2011. Development of an in vitro model to investigate joint ochronosis in alkaptonuria. Rheumatology (Oxford), 50 :271-277 >DOI >Link

Jeffery NS, Stephenson RS, Gallagher JA, Jarvis JC, Cox PG. 2011. Micro-computed tomography with iodine staining resolves the arrangement of muscle fibres. J Biomech, 44 :189-192 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Russold MF, Ramnarine I, Ashley Z, Sutherland H, Salmons S, Jarvis JC. 2010. Practical and effective stomal sphincter creation: evaluation in pigs. Dis Colon Rectum, 53 :467-474 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Moore LM, Fisher AG, Coulson JM, Salmons S, Jarvis JC. 2008. Real-time polymerase chain reaction to follow the response of muscle to training. Artif Organs, 32 :630-633 >DOI >Link

Salmons S, Jarvis JC. 2008. Functional electrical stimulation of denervated muscles: an experimental evaluation. Artif Organs, 32 :597-603 >DOI >Link

Ashley Z, Sutherland H, Russold MF, Lanmüller H, Mayr W, Jarvis JC, Salmons S. 2008. Therapeutic stimulation of denervated muscles: the influence of pattern. Muscle Nerve, 38 :875-886 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Ashley Z, Salmons S, Boncompagni S, Protasi F, Russold M, Lanmuller H, Mayr W, Sutherland H, Jarvis JC. 2007. Effects of chronic electrical stimulation on long-term denervated muscles of the rabbit hind limb. J Muscle Res Cell Motil, 28 :203-217 >DOI >Link

Russold M, Jarvis JC. 2007. Implantable stimulator featuring multiple programs, adjustable stimulation amplitude and bi-directional communication for implantation in mice. Med Biol Eng Comput, 45 :695-699 >DOI >Link

Ashley Z, Sutherland H, Lanmüller H, Russold MF, Unger E, Bijak M, Mayr W, Boncompagni S, Protasi F, Salmons S, Jarvis JC. 2007. Atrophy, but not necrosis, in rabbit skeletal muscle denervated for periods up to one year. Am J Physiol Cell Physiol, 292 :C440-C451 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Sutherland H, Salmons S, Ramnarine IR, Capoccia M, Walsh AA, Jarvis JC. 2006. Adaptive conditioning of skeletal muscle in a large animal model (Sus domesticus). J Anat, 209 :165-177 >DOI >Link

Ramnarine IR, Capoccia M, Ashley Z, Sutherland H, Russold M, Summerfield N, Salmons S, Jarvis JC. 2006. Counterpulsation from the skeletal muscle ventricle and the intraaortic balloon pump in the normal and failing circulations. Circulation, 114 :I10-I15 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Ramnarine IR, Salmons S, Jarvis JC. 2005. Use what you have--biological assistance for the treatment of heart failure in the Caribbean. West Indian Med J, 54 :65-69 >DOI >Link

Ashley Z, Sutherland H, Lanmuller H, Unger E, Li F, Mayr W, Kern H, Jarvis JC, Salmons S. 2005. Determination of the chronaxie and rheobase of denervated limb muscles in conscious rabbits. Artif Organs, 29 :212-215 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Sutherland H, Zolle O, Khundkar R, Simpson AWM, Jarvis JC, Salmons S. 2004. A nonradioactive assay for nitric oxide synthase activity in tissue extracts. Methods Mol Biol, 279 :105-111 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Shortland AP, Jarvis JC, Salmons S. 2003. Haemodynamic considerations in the design of a skeletal muscle ventricle. Med Biol Eng Comput, 41 :529-535 >Link

Sutherland H, Jarvis JC, Salmons S. 2003. Pattern dependence in the stimulation-induced type transformation of rabbit fast skeletal muscle. Neuromodulation, 6 :176-189 >DOI >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Capoccia M, Sutherland H, Salmons S, Jarvis JC. 2002. The hemodynamic function of intrathoracic skeletal muscle ventricles after recovery from surgery in pigs. Artif Organs, 26 :235-237 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Sutherland H, Khundkar R, Zolle O, McArdle A, Simpson AW, Jarvis JC, Salmons S. 2001. A fluorescence-based method for measuring nitric oxide in extracts of skeletal muscle. Nitric Oxide, 5 :475-481 >DOI >Link

Jarvis JC, Rijkhoff NJ. 2001. Functional electrical stimulation for control of internal organ function. Neuromodulation, 4 :155-164 >DOI >Link

Salmons S, Gunning GT, Taylor I, Grainger SR, Hitchings DJ, Blackhurst J, Jarvis JC. 2001. ASIC or PIC? Implantable stimulators based on semi-custom CMOS technology or low-power microcontroller architecture. Med Eng Phys, 23 :37-43 >Link

Jarvis JC, Salmons S. 2001. The application and technology of implantable neuromuscular stimulators: an introduction and overview. Med Eng Phys, 23 :3-7 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link

Lopez-Guajardo A, Sutherland H, Jarvis JC, Salmons S. 2000. Dynamics of stimulation-induced muscle adaptation: insights from varying the duty cycle. J Muscle Res Cell Motil, 21 :725-735 >Link