Predictive validity of the Lacey Assessment of Preterm Infants for motor outcome at 2 years corrected age.

INTRODUCTION: The Lacey Assessment of Preterm Infants (LAPI) is a clinical tool used to assess neuromotor development in preterm infants at high risk of developmental problems. The aim of this study was to determine its predictive validity for estimating later motor outcome at 2 years of age, to ensure appropriate referral to early intervention and thus optimise the infant's outcome. METHOD: LAPI outcomes (usual or monitor) for preterm infants born between January 2012-2017 at a single tertiary level neonatal intensive care unit in London, UK were retrospectively reviewed. Predictive validity for later "moderate/severe" motor delay was determined by comparing LAPI outcomes with locomotor scores estimated using the Griffiths Mental Development Scales-Extended Revised (GMDS-ER) or Griffiths III at 2 years corrected age. RESULTS: 118 infants were included (GMDS-ER = 87, Griffiths III = 31). Infants classified as usual on the LAPI showed significantly less motor delay on the GMDS-ER locomotor subset at 2 years, compared to infants in the monitor group (usual = 2.00 months, monitor = 6.00 months; p = 0.001). Sensitivity was found to be only 47.37%, with higher specificity of 84.85%. CONCLUSION: The LAPI shows high specificity but low sensitivity for prediction of later motor delay. It may therefore be useful for screening lower-risk infants, however on-going monitoring would be advised. Further studies investigating the reliability of the LAPI and use in conjunction with other predictive tools to improve sensitivity are recommended.

An fMRI Compatible Smart Device for Measuring Palmar Grasping Actions in Newborns.

Grasping is one of the first dominant motor behaviors that enable interaction of a newborn infant with its surroundings. Although atypical grasping patterns are considered predictive of neuromotor disorders and injuries, their clinical assessment suffers from examiner subjectivity, and the neuropathophysiology is poorly understood. Therefore, the combination of technology with functional magnetic resonance imaging (fMRI) may help to precisely map the brain activity associated with grasping and thus provide important insights into how functional outcomes can be improved following cerebral injury. This work introduces an MR-compatible device (i.e., smart graspable device (SGD)) for detecting grasping actions in newborn infants. Electromagnetic interference immunity (EMI) is achieved using a fiber Bragg grating sensor. Its biocompatibility and absence of electrical signals propagating through the fiber make the safety profile of the SGD particularly favorable for use with fragile infants. Firstly, the SGD design, fabrication, and metrological characterization are described, followed by preliminary assessments on a preterm newborn infant and an adult during an fMRI experiment. The results demonstrate that the combination of the SGD and fMRI can safely and precisely identify the brain activity associated with grasping behavior, which may enable early diagnosis of motor impairment and help guide tailored rehabilitation programs.

Functional MR imaging of the eustachian tube in patients with clinically proven dysfunction: correlation with lesions detected on MR images.

OBJECTIVES: To visualise the function of the Eustachian tube by MRI and assess the effect of surrounding lesions. METHODS: Using 1.5 T MRI, 32 Eustachian tubes of 16 patients with clinically proven dysfunction (clinical symptoms, such as autophonia and fullness and non-opening at tympanometry) were investigated. For depiction of the anatomy and associated abnormalities, coronal and axial T2-weighted turbo spin echo sequences and a T1-weighted-2D-gradient echo sequences were acquired. Eustachian tube opening was analysed with real time turbo-gradient echo sequences during a Valsalva manoeuvre. RESULTS: Dysfunction, that is, failure of opening of the Eustachian tube as shown by MRI, correlated in all patients with tympanometry. Lesions detected included nasopharyngeal carcinoma in 4 patients. Mucosal swelling in the paranasal sinus was present in 9 patients. One patient had postoperative defects. In two patients both pharyngotympanic tubes did not open although no structural abnormalities could be depicted. CONCLUSIONS: The opening of the Eustachian tubes during the Valsalva manoeuvre is assessable on MRI. Failure of opening may be due to swelling of the mucosa and may be also associated with tumours. MRI assessment may be helpful in patients with chronic otitis media, where the information about tubal function is important in preoperative planning. KEY POINTS: •Eustachian tube opening during Valsalva manoeuvre can be visualised with MRI •Lesions hampering tubal opening can be delineated at the same MRI examination •Functional MRI of the Eustachian tubes might determine the cause of dysfunction.