PURPOSE: To evaluate sensitivity, specificity and the safest cut-offs of three predictive algorithms (WINROP, ROPScore and CHOP ROP) for retinopathy of prematurity (ROP).METHODS: A retrospective study was conducted in three centres from 2012 to 2014; 445 preterms with gestational age (GA) ≤ 30 weeks and/or birthweight (BW) ≤ 1500 g, and additional unstable cases, were included. No-ROP, mild and type 1 ROP were categorized. The algorithms were analysed for infants with all parameters (GA, BW, weight gain, oxygen therapy, blood transfusion) needed for calculation (399 babies).RESULTS: Retinopathy of prematurity (ROP) was identified in both eyes in 116 patients (26.1%), and 44 (9.9%) had type 1 ROP. Gestational age and BW were significantly lo...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Background/AimsPrematurely born infants undergo costly, stressful eye examinations to uncover the sm...
Objectives: To develop a simple prediction model for the pre-screening of Retinopathy of Prematurity...
Purpose: To evaluate sensitivity, specificity and the safest cut-offs of three predictive algorithms...
PURPOSE: To evaluate sensitivity, specificity and the safest cut-offs of three predictive algorithm...
AbstractPurposeTo evaluate sensitivity, specificity and the safest cut‐offs of three predictive algo...
OBJECTIVES: To evaluate the accuracy of the ROPScore algorithm as a predictor of retinopathy of prem...
Purpose: To determine the efficacy of the online monitoring tool, WINROP (https://winrop.com/) in de...
Objective: To retrospectively validate the WINROP (weight, insulin-like growth factor I, neonatal, r...
Objective: To retrospectively validate the WINROP (weight, insulin-like growth factor I, neonatal, r...
Abstract Objective: To evaluate the sensitivity and specificity of the WINROP algorithm for predict...
OBJECTIVE: To assess WINROP (https://winrop.com), an algorithm using postnatal weight measurements, ...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Background/AimsPrematurely born infants undergo costly, stressful eye examinations to uncover the sm...
Objectives: To develop a simple prediction model for the pre-screening of Retinopathy of Prematurity...
Purpose: To evaluate sensitivity, specificity and the safest cut-offs of three predictive algorithms...
PURPOSE: To evaluate sensitivity, specificity and the safest cut-offs of three predictive algorithm...
AbstractPurposeTo evaluate sensitivity, specificity and the safest cut‐offs of three predictive algo...
OBJECTIVES: To evaluate the accuracy of the ROPScore algorithm as a predictor of retinopathy of prem...
Purpose: To determine the efficacy of the online monitoring tool, WINROP (https://winrop.com/) in de...
Objective: To retrospectively validate the WINROP (weight, insulin-like growth factor I, neonatal, r...
Objective: To retrospectively validate the WINROP (weight, insulin-like growth factor I, neonatal, r...
Abstract Objective: To evaluate the sensitivity and specificity of the WINROP algorithm for predict...
OBJECTIVE: To assess WINROP (https://winrop.com), an algorithm using postnatal weight measurements, ...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Objective: To evaluate the ability of a postnatal weight-gain algorithm (WINROP) to identify sight-t...
Background/AimsPrematurely born infants undergo costly, stressful eye examinations to uncover the sm...
Objectives: To develop a simple prediction model for the pre-screening of Retinopathy of Prematurity...