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PRecision Integrated Saturation Monitor (PRISM)

30 de junho de 2026 atualizado por: Danielle Gottlieb Sen, Le Bonheur Children's Hospital

PRISM: PRecision Integrated Saturation Monitor A Novel Approach to Monitoring Oxygen Saturation in Children A Prospective, Observational, Comparative Validation Clinical Study to Evaluate the Accuracy of a Novel Abdominal Pulse Oximeter With Integrated Motion Detection and Skin Tone Calibration Against Arterial Blood Gas (SaO₂) Measurements and Conventional Fingertip Pulse Oximetry (SpO₂) in Pediatric Patients.

The purpose of this study is to find out if an abdominal pulse oximeter device is as accurate as a conventional fingertip pulse oximeter in pediatric patients. In this study, we will be collecting data from your medical record while you are being treated in the hospital for your clinical care. Your baby will be in the study for 3 days. There will be no additional study visits. We will collect information already being obtained while your baby is at the hospital.

Visão geral do estudo

Descrição detalhada

Conventional pulse oximeters are prone to motion artifacts due to their placement on high-activity limbs. Traditionally, inpatient pulse oximetry relies on clinical staff to verify the accuracy of readings and distinguish between real and false desaturation events. However, in outpatient environments, caregivers are left to manage and interpret signals that may not provide reliable information about their child's health. PRISM aims to improve pulse oximetry monitoring for children. We will test an innovative pulse oximeter prototype that mitigates motion artifacts by shifting the monitoring location from a high-activity limb to the abdomen while incorporating motion detection capabilities. Previously, we have successfully developed an abdomen-worn prototype for collection of ECG signals for infant monitoring (Figure 1). We obtained high-quality signals with a robust correlation to the gold-standard ECG. Our preliminary results demonstrate the feasibility of collecting physiological signals from the abdomen, supporting its use as a novel, baby-friendly monitoring site. Figure 1. Comparison of ECG signals between gold-standard chest ECG and abdomen ECG. Protocol Version 2: 11 June 2026 IRB NUMBER: STUDY00000178 IRB APPROVAL DATE: 6/29/2026 IRB EXPIRATION DATE: 6/2/2027 We will incorporate a commercially available pulse oximetry sensor into a biocompatible, flexible, 3D printed housing. The child-focused design will be specific for application to the abdomen and will clip onto the diaper or pants of the baby; the tension from the diaper or pants will provide ample force to ensure sufficient contact between the device and the skin to achieve robust signals (Figure 2). The device will be removed with each diaper change. Figure 2. Schematic demonstrating the proposed pulse oximeter and its abdominal application As pulse oximetry uses optical sensors, external factors such as ambient light may interfere with data acquisition. Additionally, maintaining reliable contact with the skin is crucial to ensure the emitted light penetrates the underlying tissue, rather than reflecting off the skin's surface. Here, we will design the sensor housing to shield the pulse oximetry sensors from ambient light and provide a contact surface flexible enough for direct skin-to-sensor contact. The PRISM prototype is intended to minimize the impact of motion artifacts, a common phenomenon that leads to inaccurate readings and unnecessary alarms. By shifting the monitoring location from high-activity limbs to the more stable abdomen, we aim to enhance the accuracy and reliability of the device's measurements compared to traditional pulse oximeters. This design choice is particularly relevant for infants and young children, who often experience restlessness and movement during routine monitoring.

Successful accomplishment of this will result in a working prototype with motion artifact-resistant SpO2 reading error of less than 3.0% RMSE from SaO2. This development will allow the caregiver to continuously monitor accurate oxygen status Hypoxemic conditions, or medical problems stemming from low oxygen saturation, can result in half a million deaths annually. Oxygen saturation levels, which determine hypoxic conditions, can be measured directly from arterial blood. This is the gold standard of oxygen saturation measurement and is often called SaO2. Oxygen saturation measured from pulse oximetry, referred to as SpO2, uses light transmission and can allow for early detection of hypoxic conditions. It's a popular belief that melanin can absorb light in pulse oximetry, leading to the overestimation of SpO2 in darker skin. Although individuals with darker skin are observed to have a SpO2 overestimation, clinicians have yet to devise a method to accurately predict oxygen saturation given this overestimation[1]. Various clinical data has been curated to specifically address the issue of biases and disparities of pulse oximeter measurements in darker skin tones including the MIT Critical Datathon 2023 utilizing MIMIC IV and the blood-gas and oximetry linked dataset (BOLD)[2]. One issue with these datasets is race is often used as a proxy for skin tone, but there is great variability in skin color, even within a single race. Without an algorithm to account for how variation in skin tone biases in SpO2 measurement, a disproportionate amount of people of color may continue to receive incorrect diagnoses, leading to health inequities.

These incorrect diagnoses can lead to hidden hypoxemia, which is a condition where the gold standard oxygen saturation of a patient is less than 88% while the pulse oximeter measurement reads over 88%5. Studies show a significant disparity with black patients experiencing nearly three times the frequency of undetected hypoxemia compared to white patients6. They also emphasize the need to integrate pulse oximetry data with other clinical and patient-reported information to address this bias in medical technology.

These results are expected to generate evidence for proof-of-concept for this advanced next-generation pulse oximetry to be further tested and commercialized.

Tipo de estudo

Observacional

Inscrição (Estimado)

100

Contactos e Locais

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Locais de estudo

    • Tennessee
      • Memphis, Tennessee, Estados Unidos, 38105
        • Recrutamento
        • Le Bonheur Children's Hospital
        • Contato:

Critérios de participação

Os pesquisadores procuram pessoas que se encaixem em uma determinada descrição, chamada de critérios de elegibilidade. Alguns exemplos desses critérios são a condição geral de saúde de uma pessoa ou tratamentos anteriores.

Critérios de elegibilidade

Idades elegíveis para estudo

  • Filho

Aceita Voluntários Saudáveis

Não

Método de amostragem

Amostra Não Probabilística

População do estudo

Eligible infants hospitalized in the intensive care unit (PICU, PCVICU,NICU) who have already had an arterial line placed and on continuous pulse oximetry monitoring will be considered for enrollment and will be identified and approached for participation during their admission.

Descrição

Inclusion Criteria:

  • 0-12 months of age. (Must be less than 1 year of life for the pulse oximeter portion of the study) Weight greater than 2 Kg at time of study
  • Admitted to an intensive care unit. (Not applicable for outpatient cohort)
  • Arterial line in place as standard of care (Not applicable for outpatient cohort)
  • Informed consent provided by parent or LAR.

Exclusion Criteria:

  • Open Sternum
  • Skin abnormalities at the proposed sensor site (e.g., rash, eczema, wounds, stoma, or infection)
  • Known allergy or sensitivity to adhesives or materials used in the sensor
  • Excessive movement or irritability that precludes safe and effective placement of the sensor
  • Parent or legal guardian unable to provide informed consent

Plano de estudo

Esta seção fornece detalhes do plano de estudo, incluindo como o estudo é projetado e o que o estudo está medindo.

Como o estudo é projetado?

Detalhes do projeto

O que o estudo está medindo?

Medidas de resultados primários

Medida de resultado
Descrição da medida
Prazo
Abdominal SpO2 versus SaO2
Prazo: From enrollment to end of study at 72 hours.
The primary outcome is the accuracy of abdominal SpO₂ versus SaO₂, measured as root mean square error (RMSE); target ≤ 3.0% RMSE.
From enrollment to end of study at 72 hours.

Colaboradores e Investigadores

É aqui que você encontrará pessoas e organizações envolvidas com este estudo.

Datas de registro do estudo

Essas datas acompanham o progresso do registro do estudo e os envios de resumo dos resultados para ClinicalTrials.gov. Os registros do estudo e os resultados relatados são revisados ​​pela National Library of Medicine (NLM) para garantir que atendam aos padrões específicos de controle de qualidade antes de serem publicados no site público.

Datas Principais do Estudo

Início do estudo (Estimado)

1 de agosto de 2026

Conclusão Primária (Estimado)

1 de agosto de 2028

Conclusão do estudo (Estimado)

1 de dezembro de 2028

Datas de inscrição no estudo

Enviado pela primeira vez

30 de junho de 2026

Enviado pela primeira vez que atendeu aos critérios de CQ

30 de junho de 2026

Primeira postagem (Real)

7 de julho de 2026

Atualizações de registro de estudo

Última Atualização Postada (Real)

7 de julho de 2026

Última atualização enviada que atendeu aos critérios de controle de qualidade

30 de junho de 2026

Última verificação

1 de junho de 2026

Mais Informações

Termos relacionados a este estudo

Informações sobre medicamentos e dispositivos, documentos de estudo

Estuda um medicamento regulamentado pela FDA dos EUA

Não

Estuda um produto de dispositivo regulamentado pela FDA dos EUA

Não

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Ensaios clínicos em vital sign monitoring

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