# Combined mechanical ventilatory and mechanical circulatory support aids pulmonary vascular state in cardiogenic shock

**Authors:** Kimberly K. Lamberti, Elazer R. Edelman, Steven P. Keller

PMC · DOI: 10.1186/s40635-025-00811-2 · Intensive Care Medicine Experimental · 2025-10-15

## TL;DR

Combining mechanical ventilation and circulatory support in cardiogenic shock can improve heart and lung function in unexpected ways.

## Contribution

This study reveals that increased PEEP in pVAD-supported cardiogenic shock can enhance left ventricular output and pulmonary vascular compliance.

## Key findings

- Increased PEEP in pVAD-supported cardiogenic shock improved left ventricular output and pulmonary vascular compliance.
- Right ventricular function aligned with changes in pulmonary vascular state during combined cardiopulmonary support.
- Combined cardiopulmonary support can optimize volume status in complex shock scenarios.

## Abstract

Percutaneous ventricular assist devices (pVADs) support patients in circulatory failure and increasingly concomitant respiratory failure. The presence of co-existent lung disease creates a management challenge due to cardiopulmonary interactions, especially when there is simultaneous mechanical ventilation and mechanical circulatory support. Enhanced understanding of the combined effects of these devices is necessary to better inform care for circulatory failure patients.

A porcine model of titratable acute cardiogenic shock was used to quantify the effect of pVAD support on cardiac loading states in five intubated animals with positive pressure ventilation and varied intrathoracic pressure. Cardiovascular hemodynamics were assessed across positive end-expiratory pressure (PEEP) ramps in animals in health, health with pVAD, and pVAD-supported cardiogenic shock induced via coronary microembolization.

This study employed invasive physiological metrics and assessment of right and left ventricular press-volume loops to recreate classic Frank-Starling curves. Increased intrathoracic pressure altered transmural pressure in the ventricles and the pulmonary vasculature and resulted in decreased venous return and stroke volume while increasing end-diastolic pressure consistent with decreased ventricular compliance. In pVAD-supported cardiogenic shock, elevated PEEP enhanced left ventricular output and increased pulmonary vascular compliance in several animals, contrary to traditional decrements observed with elevated PEEP. The right ventricular functional response aligned with these varied responses in pulmonary vascular state.

These results demonstrate that combined used of cardiopulmonary support devices in cardiogenic shock can create variable responses compared to classic physiological understanding. In pVAD-supported cardiogenic shock, an increase in ventilatory PEEP increased unloading from the heart and improved right ventricular function, counter to traditional findings. This demonstrates that combined use of these technologies could be leveraged to optimize a patient’s volume status in complex shock and provides promise for management of patients with cardiopulmonary failure requiring simultaneous use of mechanical circulatory support and mechanical ventilation.

The online version contains supplementary material available at 10.1186/s40635-025-00811-2.

## Linked entities

- **Diseases:** cardiogenic shock (MONDO:0800175)
- **Species:** Sus scrofa (taxon 9823)

## Full-text entities

- **Diseases:** lung disease (MESH:D008171), stroke (MESH:D020521), cardiopulmonary failure (MESH:D051437), respiratory failure (MESH:D012131), circulatory failure (MESH:D012769), cardiogenic shock (MESH:D012770)
- **Chemicals:** pVAD (-)
- **Species:** Homo sapiens (human, species) [taxon 9606]

## Full text

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## Figures

6 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12528517/full.md

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Source: https://tomesphere.com/paper/PMC12528517