View clinical trials related to Respiratory Rate.
Filter by:The LINQ™ Respiration study will collect and characterize Reveal LINQ™ derived respiration data from patients undergoing a simulated 24-hour time period while being monitored with capnography.
The purpose of this study was to assess the effectiveness of Kangarooing small babies on the back of a mother
This is a prospective pivotal study in patients admitted/visiting the cardiology ward and/or outpatient clinics for various indications. The study will be conducted in two stages. The first stage will comprise a pilot study with 10 subjects, which will be completed and analyzed prior to initiation of the second stage. The two studies are independent and are included in the same protocol for logistical reasons. The second stage of the study, which will include 120 subjects, is pivotal and intended to validate the Gili BioSensor System. Testing procedure will include seating the subject in either a steady chair in front of a table, or in bed with the bedrest raised in front of a cardiac table (or similar). The subject will be seated for 5 minutes to reach a physiological steady state. During this time, the subject will be connected to the reference device according to the manufacturer's guidelines. The investigational device will be placed on a stable surface in front of the subject (table / cardiac table or similar) and will point to the left side of the subject's chest. Both the investigational and reference devices will be temporally synchronized to maintain coordinated recording. Following the 5-minute resting period, both investigational and reference devices will be activated for a comparative recording session to acquire at least 180 seconds (3 minutes) of evaluable data. Each 60-sec interval will be used separately for comparative analyses.
The primary purpose of this study is to conduct a Respiratory Rate accuracy validation comparing the Spire Medical Health Tag to a FDA cleared End Tidal Carbon Dioxide monitor Reference Standard (GE Datex-Ohmeda). After IRB approval, a minimum of 20 healthy volunteer test subjects, 18 or older will be entered into this study designed to validate the accuracy of the respiratory rate feature of the Spire Medical Health Tag (Device Under Test). The subjects will be selected to represent a range of body types including small, average, muscular, and large with a range of BMIs. Each subject will be connected to a FDA cleared EtCO2 monitor (GE Datex-Ohmeda) and will be instrumented with a mouthpiece or open system mask that allows for measurement of EtCO2 derived respiratory rate. A range of stable respiratory rates will be elicited from each volunteer test subject with the use of a paced breathing application on a mobile phone. Subjects will also be connected to a 3-lead ECG (GE Datex-Ohmeda) for the purpose of monitoring heart rate and comparing to the pulse rate measurements recorded by the Spire Medical Health Tag. The respiratory rate and pulse rate will be measured simultaneously for the Reference and the Device Under Test.
Introduction. The increasing use of telephone medical advice requires the development of telemedicine tools to assess the patient's severity. Respiratory rate (RR) is a simple vital parameter and is often associated with morbidity and mortality of patients. There is no standardized measure of RR by telephone. Objective: The investigators wanted to evaluate the RR measurement by phone using a smartphone application called RRate. Methods. Adults who have been admitted for less than 6 hours to the emergency department after calling Center 15 and whose main reason for consultation is dyspnea will be included. Patients with non-invasive or tracheotomized ventilation will be excluded. The main objective will be to compare by Bland-Altman method the accuracy of the RRate measurement by phone to a one-minute RR measurement at patient's bedside. Secondary endpoints will evaluate the length of RR measurement according to the different methods used; measurement failure criteria; the accuracy of different measurement techniques (RRate at patient's bedside, impedancemetry, traditional measurement during 15s or 30s). Expected Results. The accuracy of the RR measurement by RRate over the telephone should be within the limits of agreement. The measurement time should be shorter with the RRate application than with traditional methods. However, the measurement by telephone should not always be feasible in patients with mild dyspnea or with poorly audible breathing.
The purpose of this study is to conduct a Respiratory Rate accuracy validation comparing the BORA BAND™ Wristband Monitoring System to the Reference. Respiratory Rate will be compared to an FDA cleared End Tidal Carbon Dioxide monitor (GE Datex-Ohmeda). The testing will be conducted in two phases. The first phase will be an initial data collection to assist in the algorithm development of respiration rate. Upon a successful Phase one performance, the second phase will be the Respiratory Rate Validation conducted at a different period in time.
In a collaborative project between University Hospital Southampton NHS Trust and the University of Southampton, the investigators have developed a wearable, mobile, non invasive, low-cost, continuous respiratory rate monitor device called a capaciflector. This study will be the first ever study undertaken to attempt to measure the respiratory rate and heart rate on patients using a capaciflector. Investigators will evaluate whether the correlation between the capaciflector's measurements of respiratory rate and heart rate when compared with the gold standard pneumotachometer and electrocardiogram respectively is high enough to promote its potential future use within a device for clinical practice.
This proposal describes the evaluation of a CE-marked, FDA cleared vital signs Surveillance Monitoring system in a paediatric outpatient population in KK Women's and Children's Hospital ("KKH"), the main tertiary women and children hospital in Singapore. User acceptance of Aingeal and the Surveillance System will be considered within the clinical settings.
20 volunteer test subjects will be entered into an accuracy study that is designed to validate accuracy of the respiratory rate of the Polso Monitoring system
This proposal describes the evaluation of a CE-marked, FDA cleared vital signs Surveillance Monitoring system within an adult in-patient setting KK Women's and Children's Hospital ("KKH"), the main tertiary women and children hospital in Singapore. User acceptance of Aingeal and the Surveillance System will be considered within the clinical settings.