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Selective Microstimulation of Central Nervous System Neurons (2000)

McIntyre, Cameron C. ; Grill, Warren M.

Springer

Annals of biomedical engineering 28 (2000), S. 219-233

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ISSN: 1573-9686

Keywords: Neural model ; Electrode ; Stimulus ; Current-distance relationship ; Strength-duration relationship

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine , Technology

Notes: Abstract The goal of this study was to identify stimulus parameters and electrode geometries that were effective in selectively stimulating targeted neuronal populations within the central nervous system (CNS). Cable models of neurons that included an axon, initial segment, soma, and branching dendritic tree, with geometries and membrane dynamics derived from mammalian motoneurons, were used to study excitation with extracellular electrodes. The models reproduced a wide range of experimentally documented excitation patterns including current-distance and strength-duration relationships. Evaluation of different stimulus paradigms was performed using populations of fifty cells and fifty fibers of passage randomly positioned about an extracellular electrode(s). Monophasic cathodic or anodic stimuli enabled selective stimulation of fibers over cells or cells over fibers, respectively. However, when a symmetrical charge-balancing stimulus phase was incorporated, selectivity was greatly diminished. An anodic first, cathodic second asymmetrical biphasic stimulus enabled selective stimulation of fibers, while a cathodic first, anodic second asymmetrical biphasic stimulus enabled selective stimulation of cells. These novel waveforms provided enhanced selectivity while preserving charge balancing as is required to minimize the risk of electrode corrosion and tissue injury. Furthermore, the models developed in this study can predict the effectiveness of electrode geometries and stimulus parameters for selective activation of specific neuronal populations, and in turn represent useful tools for the design of electrodes and stimulus waveforms for use in CNS neural prosthetic devices. © 2000 Biomedical Engineering Society. PAC00: 8717Nn, 8719La, 8719Nn, 8717Aa

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1114/1.262

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Intramedullary bone repair and ingrowth into porous coated implants in the adult chicken: A histologic study and biochemical analysis of collagens (1989)

Brown, Cameron C. ; McLaughlin, Robert E. ; Balian, Gary

Hoboken, NJ [u.a.] : Wiley-Blackwell

Journal of Orthopaedic Research 7 (1989), S. 316-325

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ISSN: 0736-0266

Keywords: Collagen ; Bone ingrowth ; Porous coated prostheses ; Intramedullary bone repair ; Life and Medical Sciences

Source: Wiley InterScience Backfile Collection 1832-2000

Topics: Medicine

Notes: A new model was developed to study the histologic and biochemical events during intramedullary bone repair and ingrowth into porous coated implants. Adult chickens were used because of the availability of specific antibody probes. Repair in the metaphysis and diaphysis were compared. Entering through a medial arthrotomy, the distal tibiotarsus was reamed and either impianted with a double-ended porous coated rod or allowed to heal without implantation of a rod. Specimens analyzed histologically at 7, 14, 21, and 70 days postoperatively revealed direct formation of bone by osteoblasts with no evidence of a cartilaginous phase. At 70 days bony ingrowth was observed deep within the porous surface. Analysis of collagens with sodium dodecyl sulfate polyacrylamide gel electrophoresis demonstrated that the synthesis of type I collagen predominated. Biosynthetic data coupled with quantitative immunologic analyses using antibodies to type II and type X collagen showed that neither of these two collagen types, which are characteristic of cartilage undergoing endochondral ossification, were produced during intramedullary bone repair. These results establish that the adult chicken is capable of bony ingrowth into porous coated implants and that this process is through direct bone deposition by osteoblasts without a cartilaginous intermediate.

Additional Material: 6 Ill.