The Problem

In Fontan physiology, the lack of an active ventricular pump to deliver blood is a significant cause of  decreased baseline Cardiac Output (CO) and Pulmonary Blood Flow (PBF). Limitations in CO in the Fontan population have primarily been attributed to increased pulmonary vascular resistance, ventricular dysfunction, and decreased afterload.

Due to the absence of the subpulmonary ventricle, the diaphragm is considered to be the most important inspiratory muscle for maintenance of venous return in the Fontan population.  Respiration acts as a significant source of cardiac output in patients with Fontan physiology, and as such, findings of poor chest wall compliance, respiratory muscle weakness and restrictive lung physiology, which are commonly observed in the Fontan population, have significant impact on the cardiovascular flows of Fontan patients.[1]

 

The Solution

In numerous studies, Biphasic Cuirass Ventilation (BCV) has been shown to outperform both Positive Pressure Ventilation (PPV) and other forms of Negative Pressure Ventilation (NPV) in increasing Cardiac Output, and Pulmonary Blood Flow in Post-Fontan patients.

The Study

BCV for Post-Fontan Patients

“The hemodynamic effects of cuirass NPV were prospectively studied on 18 separate occasions in 14 paralyzed and fully sedated patients (8 males; median age, 6.3 years) who were initially receiving IPPV after Fontan-like operations. Nine studies were carried out in the immediate postoperative period and nine were carried out in the late postoperative (convalescent) phase after elective cardiac catheterization with the patients under general anesthesia. Four patients were studied in both the acute and convalescent phases.”

"While PPV was found to be detrimental to cardiac flows, NPV was reported to enhance PBF and CO, particularly in those with single ventricle physiology... Unanimously, these studies demonstrated the beneficial role of NPV in children early after surgery for single ventricle palliation"

Shekerdemian L.S., et al, Cardiopulmonary Interactions after Fontan Operations: Augmentation of Cardiac Output Using Negative Pressure Ventilation" 1997:96:3934 - 3942

How Did BCV Impact These Patients?

Increased Stroke Volume

  • Implementation of negative pressure increased stroke volume, with no increase in heart rate.

Increased Cardiac Output

  • A brief period of cuirass NPV increased the pulmonary blood flow of patients with the Fontan circulation by 42%.

Lasting Results

  • The improvement in blood flow was not only sustained, but further continued if the period of NPV was extended.

"an improvement of >50% in pulmonary blood flow and stroke volume alone coupled with a marked rise in mixed venous saturation is probably unmatched by any other current therapeutic alternative that is available and applicable to this complex group"

Shekerdemian L.S., et al, Cardiopulmonary Interactions after Fontan Operations: Augmentation of Cardiac Output Using Negative Pressure Ventilation" 1997:96:3934 - 3942

“The patient’s appearance and chest radiography before and after the treatment of BCV.
A: Before the treatment: His body weight and the serum albumin level are 28.6 kg and 2.2 g/dL, respectively. Chest radiography reveals cardiomegaly (CTR of 0.56), marked pulmonary congestion, and pleural thickening and effusion.
B: Three months after the treatment: Various symptoms related to PLE are dramatically improved. His body weight is decreased to 26.1 kg, and the serum albumin level is increased to 3.0 g/dL. Chest radiography shows improvement of the symptoms related to pulmonary congestion (CTR of 0.52). “

Study #2: Okada et al. for the International Heart Journal 2018; 59: 873-876

BCV in Adult Post-Fontan with PLE

When A 16-year-old male patient with hypoplastic left heart syndrome who developed protein-losing enteropathy (PLE) and plastic bronchitis (PB) after a Fontan operation. He received medical therapies, including albumin infusion, unfractionated heparin, and high-dose anti-aldosterone therapy but could not obtain clinical relief. 

Biphasic cuirass ventilation (BCV) led to expectoration of bronchial casts and prompt resolution of PB. Notably, clinical symptoms related to PLE were dramatically improved after starting BCV. A brief period of BCV increased stroke volume from 26±1.4 to 39±4.0 mL.

 

Quoted from Okada et al. Successful Treatment of Protein-Losing Enteropathy and Plastic Bronchitis by Biphasic Cuirass Ventilation in a Patient with Failing Fontan Circulation (Int Heart J 2018; 59: 873-876)

"BCV may be beneficial for the treatment of PB because it has the capacities of not only reducing CVP in Fontan circulation but also expectorating casts as an instrument of respiratory physical therapy ... BCV could be an effective treatment for major problems, such as PLE or PB, long after a Fontan operation."

Okada S. et al, Successful Treatment of Protein-Losing Enteropathy and Plastic Bronchitis by Biphasic Cuirass Ventilation in a Patient with Failing Fontan Circulation (Int Heart J 2018; 59: 873-876)
Study #3: Charla P, Karur GR, Yamamura K, et al. Heart 2021;107:142–149.

BCV Late After Fontan Palliation

Complex congenital heart disease consisting of a functional single ventricle is typically managed with a Fontan palliative strategy in early childhood, where the systemic venous return is directed to the pulmonary arteries in the absence of an interposed pumping chamber.

Notwithstanding excellent surgical results in children, the natural history late after Fontan surgery is characterized by an inexorable increase in systemic venous pressure over time, relatively decreased pulmonary blood flow (PBF) and lower cardiac output (CO) as compared with patients with a biventricular circulation. With age, increasing numbers of Fontan survivors develop a constellation of findings attributable to vascular insufficiency (venous congestion and/or low output) described as failing Fontan physiology, which can result in morbidity and mortality due to intracardiac and extracardiac disease.

The study found that BPV (BCV) was superior to NPV in the Fontan population, with the support on expiration potentially augmenting the pressure gradient for venous return throughout the respiratory cycle by effectively reducing the intrathoracic pressure during inspiration as well as increasing intra-abdominal pressure during exhalation.  This additional support resulted in a greater magnitude and extent of vascular flow increase as compared with even standard NPV.

 

Quoted from Charla P, Karur GR, Yamamura K, et al. Heart 2021;107:142–149.

Panel A: Impact of external ventilation modes on vascular flows are shown in Fontan subjects (n=10). Measurements of indexed flows are shown at baseline and following biphasic ventilation (BPV) and negative pressure ventilation (NPV)

Panel B: Magnitude of change according to ventilation mode is also shown (delta BPV and delta NPV)

 

 

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