Literature DB >> 26472866

Cervical spinal cord injury exacerbates ventilator-induced diaphragm dysfunction.

Ashley J Smuder1, Elisa J Gonzalez-Rothi2, Oh Sung Kwon3, Aaron B Morton3, Kurt J Sollanek3, Scott K Powers3, David D Fuller2.   

Abstract

Cervical spinal cord injury (SCI) can dramatically impair diaphragm muscle function and often necessitates mechanical ventilation (MV) to maintain adequate pulmonary gas exchange. MV is a life-saving intervention. However, prolonged MV results in atrophy and impaired function of the diaphragm. Since cervical SCI can also trigger diaphragm atrophy, it may create preconditions that exacerbate ventilator-induced diaphragm dysfunction (VIDD). Currently, no drug therapy or clinical standard of care exists to prevent or minimize diaphragm dysfunction following SCI. Therefore, we first tested the hypothesis that initiating MV acutely after cervical SCI will exacerbate VIDD and enhance proteolytic activation in the diaphragm to a greater extent than either condition alone. Rats underwent controlled MV for 12 h following acute (∼24 h) cervical spinal hemisection injury at C2 (SCI). Diaphragm tissue was then harvested for comprehensive functional and molecular analyses. Second, we determined if antioxidant therapy could mitigate MV-induced diaphragm dysfunction after cervical SCI. In these experiments, SCI rats received antioxidant (Trolox, a vitamin E analog) or saline treatment prior to initiating MV. Our results demonstrate that compared with either condition alone, the combination of SCI and MV resulted in increased diaphragm atrophy, contractile dysfunction, and expression of atrophy-related genes, including MuRF1. Importantly, administration of the antioxidant Trolox attenuated proteolytic activation, fiber atrophy, and contractile dysfunction in the diaphragms of SCI + MV animals. These findings provide evidence that cervical SCI greatly exacerbates VIDD, but antioxidant therapy with Trolox can preserve diaphragm contractile function following acute SCI.
Copyright © 2016 the American Physiological Society.

Entities:  

Keywords:  antioxidant; diaphragm; mechanical ventilation; respiratory muscles; spinal cord injury

Mesh:

Substances:

Year:  2015        PMID: 26472866      PMCID: PMC4719055          DOI: 10.1152/japplphysiol.00488.2015

Source DB:  PubMed          Journal:  J Appl Physiol (1985)        ISSN: 0161-7567


  56 in total

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2.  Oxidative stress is required for mechanical ventilation-induced protease activation in the diaphragm.

Authors:  Melissa A Whidden; Ashley J Smuder; Min Wu; Matthew B Hudson; W Bradley Nelson; Scott K Powers
Journal:  J Appl Physiol (1985)       Date:  2010-03-04

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Journal:  Acta Anat (Basel)       Date:  1995

4.  Muscle-selective synaptic disassembly and reorganization in MuSK antibody positive MG mice.

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5.  Respiratory complications in traumatic quadriplegia. Analysis of 20 years' experience.

Authors:  R Bellamy; F W Pitts; E S Stauffer
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6.  Increased proteolysis, myosin depletion, and atrophic AKT-FOXO signaling in human diaphragm disuse.

Authors:  Sanford Levine; Chhanda Biswas; Jamil Dierov; Robert Barsotti; Joseph B Shrager; Taitan Nguyen; Seema Sonnad; John C Kucharchzuk; Larry R Kaiser; Sunil Singhal; Murat T Budak
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7.  Oxidation enhances myofibrillar protein degradation via calpain and caspase-3.

Authors:  Ashley J Smuder; Andreas N Kavazis; Matthew B Hudson; W Bradley Nelson; Scott K Powers
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8.  Cross-talk between the calpain and caspase-3 proteolytic systems in the diaphragm during prolonged mechanical ventilation.

Authors:  W Bradley Nelson; Ashley J Smuder; Matthew B Hudson; Erin E Talbert; Scott K Powers
Journal:  Crit Care Med       Date:  2012-06       Impact factor: 7.598

9.  Mechanical ventilation depresses protein synthesis in the rat diaphragm.

Authors:  R Andrew Shanely; Darin Van Gammeren; Keith C Deruisseau; A Murat Zergeroglu; Michael J McKenzie; Kevin E Yarasheski; Scott K Powers
Journal:  Am J Respir Crit Care Med       Date:  2004-08-05       Impact factor: 21.405

10.  Mechanical ventilation induces diaphragmatic mitochondrial dysfunction and increased oxidant production.

Authors:  Andreas N Kavazis; Erin E Talbert; Ashley J Smuder; Matthew B Hudson; W Bradley Nelson; Scott K Powers
Journal:  Free Radic Biol Med       Date:  2009-01-13       Impact factor: 7.376
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  15 in total

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6.  Intraspinal microstimulation and diaphragm activation after cervical spinal cord injury.

Authors:  L M Mercier; E J Gonzalez-Rothi; K A Streeter; S S Posgai; A S Poirier; D D Fuller; P J Reier; D M Baekey
Journal:  J Neurophysiol       Date:  2016-11-23       Impact factor: 2.714

Review 7.  Mitochondrial dysfunction induces muscle atrophy during prolonged inactivity: A review of the causes and effects.

Authors:  Hayden Hyatt; Rafael Deminice; Toshinori Yoshihara; Scott K Powers
Journal:  Arch Biochem Biophys       Date:  2018-11-16       Impact factor: 4.013

8.  Crosstalk between autophagy and oxidative stress regulates proteolysis in the diaphragm during mechanical ventilation.

Authors:  Ashley J Smuder; Kurt J Sollanek; W Bradley Nelson; Kisuk Min; Erin E Talbert; Andreas N Kavazis; Matthew B Hudson; Marco Sandri; Hazel H Szeto; Scott K Powers
Journal:  Free Radic Biol Med       Date:  2017-11-29       Impact factor: 7.376

9.  Ampakines stimulate phrenic motor output after cervical spinal cord injury.

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10.  Diaphragm Pacing and a Model for Respiratory Rehabilitation After Spinal Cord Injury.

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