Wade G. Holcomb scite author profile

The authors have previously shown that conditioning of the diaphragm for continuous bilateral pacing is a feasible and effective means of ventilation in patients with complete respiratory paralysis from high cervical (above C3) quadriplegia. The present study reports the long-term results of continuous diaphragmatic pacing. Twelve quadriplegia patients underwent bilateral phrenic nerve pacemaker placement and diaphragm conditioning from 1981 to 1987. Pacing was initiated at 11 Hz and progressively decreased to 7.1 Hz. A pulse train duration of 1.3 seconds for adults and 0.9 seconds for children was used. Long-term follow-up information obtained included pacing status (full-time, part-time, or mechanical ventilation), ventilation parameters, and social circumstances. Of the 12 patients, 6 continued to pace full time (mean 14.8 years); all were living at home. Three patients paced for an average of 1.8 years before stopping; two were institutionalized. One patient who paced full time for 6.5 years before lapsing to part time, lived at home. Two patients were deceased; one paced continuously for 10 years before his demise, the other stopped pacing after 1 year. Patients who stopped full-time pacing did so mainly for reasons of inadequate social or financial support or associated medical problems. All patients demonstrated normal tidal volumes and arterial blood gases while pacing full time. Despite theoretical concerns about long-term nerve damage, no patient lost the ability to pace the phrenic nerve. Threshold currents did not increase over time (original/follow-up: 0.46/0.47 for right, 0.45/0.46 for left), nor did maximal currents (original/follow-up: 1.16/1.14 for right, 1.37/1.26 for left). This follow-up confirms that quadriplegic patients are able to meet long-term, full-time ventilation requirements using phrenic nerve stimulation of the conditioned diaphragm. Careful review of diaphragmatic pacing candidates with respect to associated medical conditions, social support, and motivation is essential for appropriate patient selection and successful long-term results.

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Central Hypoventilation; Long-term Ventilatory Assistance by Radiofrequency Electrophrenic Respiration

Glenn

et al. 1970

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Long-Term Ventilatory Support by Diaphragm Pacing in Quadriplegia

Glenn¹,

Holcomb²,

Shaw³

et al. 1977

Survey of Anesthesiology

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Thirty-seven quadriplegic patients with respiratory paralysis were treated by electrical stimulation of the phrenic nerves to pace the diaphragm. Full-time ventilatory support by diaphragm pacing was accomplished in 13 patients. At least half-time support was achieved in 10 others. There were two deaths unrelated to pacing in these two groups. Fourteen patients could not be paced satisfactorily, and 8 of these patients died, most of them from respiratory infections. The average time the 13 patients on total ventilatory support have had bilateral diaphragm pacemakers is 26 months. The longest is 60 months. Many of these patients are out of the hospital and several are in school or working. Injury to the phrenic nerves either by the initial trauma to the cervical cord or during operation for implantation of the nerve cuff was the most significant complication. Nerve damage from prolonged electrical stimulation has not been a problem thus far. A description of the pacemaker, the technique of its implantation, and the pacing schedule are reported.IT HAS NOW BEEN nearly 5 years since total support of ventilation was first accomplished in a quadriplegic patient by means of bilateral, programmed electrical stimulation of the phrenic nerves (diaphragm pacing) (3). That patient continues to do well, unaided by mechanical respiratory support. He has been living at home since May, 1971, and is gainfully employed. Diaphragm pacing has subsequently been applied with varying success to 36 other patients with respiratory paralysis accompanying quadriplegia. Nine of these patients were treated in our institution, the remainder in a number of other institutions. As far as we know, this is the total experience with diaphragm pacing in quadriplegic patients.

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Venous clots: evaluation with MR imaging.

Rapoport¹,

Sostman²,

Pope³

et al. 1987

Radiology

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In vitro and in vivo studies were performed to determine the proton relaxation and imaging characteristics of static blood and acute and organized clot in canine jugular veins. In vivo, it was found that two inversion recovery sequences using a short inversion time (100 msec) demonstrated better differentiation of signal intensity of intravascular clot from surrounding soft tissues than did standard T1- and T2-weighted sequences. In vitro, quantitative measurements showed marked reduction of both T1 and T2 relaxation time of acute clot compared with stagnant blood. In addition, the T1 relaxation time, and to a lesser extent the T2 relaxation time, shortened as the clot aged, indicating a potential role for magnetic resonance imaging in determining the age of venous thrombi.

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Total Ventilatory Support in a Quadriplegic Patient with Radiofrequency Electrophrenic Respiration

Glenn¹,

Holcomb²,

McLaughlin³

et al. 1972

N Engl J Med

100

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Wade G. Holcomb

Long‐Term Follow‐Up of Pacing of the Conditioned Diaphragm in Quadriplegia

Central Hypoventilation; Long-term Ventilatory Assistance by Radiofrequency Electrophrenic Respiration

Long-Term Ventilatory Support by Diaphragm Pacing in Quadriplegia

Venous clots: evaluation with MR imaging.

Total Ventilatory Support in a Quadriplegic Patient with Radiofrequency Electrophrenic Respiration

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