Journal of Pain Research (Oct 2021)
The Telemedicine-Based Pediatric Examination of the Neck and Upper Limbs: A Narrative Review
Abstract
Virginie Boisvert-Plante,1,* Constantinos Dean Noutsios,1,* Jordi Perez,2,3 Pablo Ingelmo3,4 1Faculty of Medicine, McGill University, Montreal, QC, Canada; 2Alan Edwards Pain Management Unit, Montreal General Hospital (McGill University Health Centre), Montreal, QC, Canada; 3Alan Edwards Centre for Pain Research, McGill University, Montreal, QC, Canada; 4Edwards Family Interdisciplinary Complex Pain Centre, Montreal Children’s Hospital (McGill University Health Centre), Montreal, QC, Canada*These authors contributed equally to this workCorrespondence: Pablo Ingelmo Email [email protected]: With the COVID-19 pandemic hastening the adoption of telemedicine into clinical practice, it has also prompted an abundance of new literature highlighting its capabilities and limitations. The purpose of this review is to summarize the current state of the literature on telemedicine applied in the context of a musculoskeletal examination of the neck and upper limbs for children 3 to 18 years old. The PubMed and ScienceDirect databases were searched for relevant articles from January 2015 to August 2021 using a combination of keywords and nested searches. General examination components including inspection, guided self-palpation, range of motion, sensory and motor examination, as well as special testing are described. Although the literature is focused mainly on adult populations, we describe how each component of the exam can be reliably incorporated into a virtual appointment specific to pediatric patients. Caregivers are generally needed for most consultations, but certain maneuvers can be self-performed by older children and adolescents alone. There is general feasibility, validity, and substantial reliability in performing most examination components of the upper limbs remotely, except for the shoulder exam. Compared to those made in person, clinical diagnoses established virtually were found to be either the same or similar in most cases, and management decisions also had high agreement. Despite this, there is evidence that some pediatric providers may not be able to collect all the information needed from a telemedicine visit to make a complete clinical assessment. Lastly, currently available smartphone applications measuring joint range of motion were found to have high reliability and validity. This narrative review not only establishes a foundation for a structured pediatric musculoskeletal examination, but also aims to increase physicians’ confidence in incorporating telemedicine into their standard of care.Keywords: telehealth, telemedicine, eHealth, pediatric, musculoskeletal, evaluation