Critical care clinics
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Simulation in health-care professions has grown in the last few decades. We provide an overview of the history of simulation in other fields, the trajectory of simulation in health professions education, and research in medical education, including the learning theories and tools to assess and evaluate simulation programs. We also propose future directions for simulation and research in health professions education.
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Critical care clinics · Apr 2023
ReviewCytokine Release Syndrome in the Pediatric Population and Implications for Intensive Care Management.
Cytokine release syndrome represents a spectrum of disease varying from fever alone to multiorgan system failure. Most commonly seen following treatment with chimeric antigen receptor T cell therapy, it is increasingly being described with other immunotherapies as well as following hematopoietic stem cell transplant. ⋯ Given the high risk of cardiopulmonary involvement, critical care providers must be familiar with the cause, symptoms, and therapeutic options. Current treatment modalities focus on immunosuppression and targeted cytokine therapy.
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Critical care clinics · Apr 2023
ReviewScreening for Social Determinants of Health in the Pediatric Intensive Care Unit: Recommendations for Clinicians.
Social determinants of health (SDoH) play a significant role in the health and well-being of children in the United States. Disparities in the risk and outcomes of critical illness have been extensively documented but are yet to be fully explored through the lens of SDoH. In this review, we provide justification for routine SDoH screening as a critical first step toward understanding the causes of, and effectively addressing health disparities affecting critically ill children. Second, we summarize important aspects of SDoH screening that need to be considered before implementing this practice in the pediatric critical care setting.
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Critical care clinics · Apr 2023
ReviewPediatric Critical Care in the Twenty-first Century and Beyond.
Pediatric critical care addresses prevention, diagnosis, and treatment of organ dysfunction in the setting of increasingly complex patients, therapies, and environments. Soon burgeoning data science will enable all aspects of intensive care: driving facilitated diagnostics, empowering a learning health-care environment, promoting continuous advancement of care, and informing the continuum of critical care outside the intensive care unit preceding and following critical illness/injury. Although novel technology will progressively objectify personalized critical care, humanism, practiced at the bedside, defines the essence of pediatric critical care now and in the future.