Barbara K Smith1, David D Fuller2, A Daniel Martin3, Lawrence Lottenberg4, Saleem Islam5, Lee Ann Lawson6, Raymond P Onders7, Barry J Byrne8. 1. B.K. Smith, PT, PhD, Department of Physical Therapy, University of Florida, PO Box 100154, Gainesville, FL 32610 (USA), and Department of Pediatrics, University of Florida. bksmith@phhp.ufl.edu. 2. D.D. Fuller, PhD, Department of Physical Therapy, University of Florida. 3. A.D. Martin, PT, PhD, Department of Physical Therapy, University of Florida. 4. L. Lottenberg, MD, Department of Surgery, College of Medicine, Florida Atlantic University, Boca Raton, Florida. 5. S. Islam, MD, MPH, Department of Pediatrics, University of Florida, and Department of Surgery, University of Florida. 6. L.A. Lawson, MS, ARNP, Department of Pediatrics, University of Florida. 7. R.P. Onders, MD, Department of Surgery, Case Western Reserve University, Cleveland, Ohio. 8. B.J. Byrne, MD, PhD, Department of Pediatrics, University of Florida.
Abstract
BACKGROUND AND PURPOSE: Pompe disease is an inherited disorder notable for severe, progressive ventilatory compromise. Although ventilatory failure has been attributed to myofiber dysfunction secondary to diaphragmatic glycogen accumulation, neural involvement of the phrenic motor system is also a prominent feature. Direct diaphragm pacing supplements respiratory function in other disorders of the phrenic motor system. Accordingly, it is hypothesized that augmented neuromuscular activity via diaphragm pacing would promote weaning from mechanical ventilation in patients with Pompe disease who are unresponsive to conventional, muscle-directed treatments. CASE DESCRIPTION: Three patients with Pompe disease developed diaphragm paresis that resulted in chronic mechanical ventilation dependence. After preoperative inspiratory muscle strengthening exercises failed to improve function, fine-wire pacing electrodes were laparoscopically implanted into the diaphragm. Diaphragm conditioning was initiated the first postoperative week and consisted of gradual increases in stimulation parameters, lengthening of stimulation sessions, and ventilator weaning. Ventilation and intramuscular electromyographic activity were recorded periodically during conditioning to quantify diaphragm neuromuscular function. OUTCOMES: During paced breathing without mechanical ventilation, tidal volumes increased, and 2 patients were weaned from daytime ventilator dependence within the first 3 months of pacing, which has been sustained over the long-term. A third patient reduced reliance on daytime ventilation, but weaning was delayed by malacia of the large airways. In all patients, pacing appeared to facilitate spontaneous phrenic motor unit activity during independent breathing without ventilator or pacer support. DISCUSSION: The findings are consistent with the view that diaphragm pacing has potential rehabilitative value to reduce reliance on mechanical ventilation in people with Pompe disease, but further study is needed. Diaphragm pacing represents a paradigm shift in the management of respiratory insufficiency for Pompe disease that warrants further controlled examination.
BACKGROUND AND PURPOSE: Pompe disease is an inherited disorder notable for severe, progressive ventilatory compromise. Although ventilatory failure has been attributed to myofiber dysfunction secondary to diaphragmatic glycogen accumulation, neural involvement of the phrenic motor system is also a prominent feature. Direct diaphragm pacing supplements respiratory function in other disorders of the phrenic motor system. Accordingly, it is hypothesized that augmented neuromuscular activity via diaphragm pacing would promote weaning from mechanical ventilation in patients with Pompe disease who are unresponsive to conventional, muscle-directed treatments. CASE DESCRIPTION: Three patients with Pompe disease developed diaphragm paresis that resulted in chronic mechanical ventilation dependence. After preoperative inspiratory muscle strengthening exercises failed to improve function, fine-wire pacing electrodes were laparoscopically implanted into the diaphragm. Diaphragm conditioning was initiated the first postoperative week and consisted of gradual increases in stimulation parameters, lengthening of stimulation sessions, and ventilator weaning. Ventilation and intramuscular electromyographic activity were recorded periodically during conditioning to quantify diaphragm neuromuscular function. OUTCOMES: During paced breathing without mechanical ventilation, tidal volumes increased, and 2 patients were weaned from daytime ventilator dependence within the first 3 months of pacing, which has been sustained over the long-term. A third patient reduced reliance on daytime ventilation, but weaning was delayed by malacia of the large airways. In all patients, pacing appeared to facilitate spontaneous phrenic motor unit activity during independent breathing without ventilator or pacer support. DISCUSSION: The findings are consistent with the view that diaphragm pacing has potential rehabilitative value to reduce reliance on mechanical ventilation in people with Pompe disease, but further study is needed. Diaphragm pacing represents a paradigm shift in the management of respiratory insufficiency for Pompe disease that warrants further controlled examination.
Authors: David D Fuller; Mai K ElMallah; Barbara K Smith; Manuela Corti; Lee Ann Lawson; Darin J Falk; Barry J Byrne Journal: Respir Physiol Neurobiol Date: 2013-06-21 Impact factor: 1.931
Authors: P S Kishnani; D Corzo; M Nicolino; B Byrne; H Mandel; W L Hwu; N Leslie; J Levine; C Spencer; M McDonald; J Li; J Dumontier; M Halberthal; Y H Chien; R Hopkin; S Vijayaraghavan; D Gruskin; D Bartholomew; A van der Ploeg; J P Clancy; R Parini; G Morin; M Beck; G S De la Gastine; M Jokic; B Thurberg; S Richards; D Bali; M Davison; M A Worden; Y T Chen; J E Wraith Journal: Neurology Date: 2006-12-06 Impact factor: 9.910
Authors: Ans T van der Ploeg; Richard Barohn; Lisa Carlson; Joel Charrow; Paula R Clemens; Robert J Hopkin; Priya S Kishnani; Pascal Laforêt; Claire Morgan; Sharon Nations; Alan Pestronk; Horacio Plotkin; Barry E Rosenbloom; Katherine B Sims; Elisa Tsao Journal: Mol Genet Metab Date: 2012-09-17 Impact factor: 4.797
Authors: Lara R DeRuisseau; David D Fuller; Kai Qiu; Keith C DeRuisseau; William H Donnelly; Cathryn Mah; Paul J Reier; Barry J Byrne Journal: Proc Natl Acad Sci U S A Date: 2009-05-27 Impact factor: 11.205
Authors: Kun-Ze Lee; Kai Qiu; Milapjit S Sandhu; Mai K Elmallah; Darin J Falk; Michael A Lane; Paul J Reier; Barry J Byrne; David D Fuller Journal: Front Physiol Date: 2011-06-30 Impact factor: 4.566
Authors: A Daniel Martin; Barbara K Smith; Paul D Davenport; Eloise Harman; Ricardo J Gonzalez-Rothi; Maher Baz; A Joseph Layon; Michael J Banner; Lawrence J Caruso; Harsha Deoghare; Tseng-Tien Huang; Andrea Gabrielli Journal: Crit Care Date: 2011-03-07 Impact factor: 9.097
Authors: Jayakrishnan Nair; Kristi A Streeter; Sara M F Turner; Michael D Sunshine; Donald C Bolser; Emily J Fox; Paul W Davenport; David D Fuller Journal: J Neurophysiol Date: 2017-08-23 Impact factor: 2.714
Authors: Allison M Keeler; Donghai Liu; Marina Zieger; Lang Xiong; Jeffrey Salemi; Karl Bellvé; Barry J Byrne; David D Fuller; Ronghua ZhuGe; Mai K ElMallah Journal: Am J Physiol Lung Cell Mol Physiol Date: 2017-03-23 Impact factor: 5.464
Authors: Barbara K Smith; A Daniel Martin; Lee Ann Lawson; Valerie Vernot; Jordan Marcus; Saleem Islam; Nadeem Shafi; Manuela Corti; Shelley W Collins; Barry J Byrne Journal: Exp Neurol Date: 2016-07-21 Impact factor: 5.330
Authors: Anna F Fusco; Angela L McCall; Justin S Dhindsa; Lucy Zheng; Aidan Bailey; Amanda F Kahn; Mai K ElMallah Journal: Int J Mol Sci Date: 2020-03-24 Impact factor: 5.923