Removing barriers to emergency medicine point-of-care ultrasound: Illustrated by a roadmap for emergency medicine point-of-care ultrasound expansion in India

Point-of-care ultrasound (PoCUS) has a potentially vital role to play in emergency medicine (EM), whether it be in high-, medium-, or low-resourced settings. However, numerous barriers are present which impede EM PoCUS implementation nationally and globally: (i) lack of a national practice guideline or scope of practice for EM PoCUS, (ii) resistance from non-PoCUS users of ultrasound imaging (USI) and lack of awareness from those who undertake parallel or post-EM patient care, and (iii) heterogeneous pattern of resources available in different institutes and settings. When combined with the Indian Preconception and Prenatal Diagnostic Techniques (PCPNDT) Act, this has led to the majority of India’s 1.4 billion citizens being unable to access EM PoCUS. In order to address these barriers (globally as well as with specific application to India), this article outlines the three core principles of EM PoCUS: (i) the remit of the EM PoCUS USI must be well defined a priori, (ii) the standard of EM PoCUS USI must be the same as that of non-PoCUS users of USI, and (iii) the imaging performed should align with subsequent clinical decision-making and resource availability. These principles are contextualized using an integrated PoCUS framework approach which is designed to provide a robust foundation for consolidation and expansion across different PoCUS specialisms and health-care settings. Thus, a range of mechanisms (from optimization of clinical practice through to PoCUS educational reform) are presented to address such barriers. For India, these are combined with specific mechanisms to address the PCPNDT Act, to provide the basis for influencing national legislation and instigating an addendum to the Act. By mapping to the recent Lancet Commission publication on transforming access to diagnostics, this provides a global and cross-discipline perspective for the recommendations

Does Metabolic Syndrome Determine Severity and Disability of Chronic Low Backache?

Introduction: Obesity may be associated with more severe and disabling low backache (LBA) due to alteration in biomechanics, but there are no such studies from developing countries. Aims: We report the frequency of metabolic syndrome (MS) in chronic LBA (CLBA) and its association with severity and disability of CLBA. Subjects and Methods: Consecutive patients with CLBA attending to the neurology service from October 2015 to February 2016 were included in the study. Clinical and demographic parameters were recorded. Routine biochemical test was done. The severity of pain was assessed by a 0–10 Numeric Rating Scale (NRS) and disability by Oswestry Disability Index (ODI) version 2. Comparison of variables was done by Chi-square or independent t-test and correlation by Karl Pearson or Spearman's rank correlation test. Results: Seventy-none (39.3%) patients had MS as per the International Diabetic Federation (IDF) criteria and 68 (33.8%) as per the National Cholesterol Education Program Adult Treatment Panel III criteria. Abdominal obesity was the most common (171 [85.1%]) feature of MS. The patients with MS had longer duration of sitting work and did less frequently exercise. The NRS score (6.95 ± 1.06 vs. 6.65 ± 0.95; P = 0.04) and ODI score (54.91 ± 8.42 vs. 51.89 ± 8.54; P = 0.01) were higher in CLBA patients with MS compared to those without MS. Conclusion: About 40% patients with CLBA have metabolic syndrome, and they have more severe pain and disability

A study of diffusion tensor imaging in central post-stroke pain: Traveling beyond the pain pathways

Introduction: Central post-stroke pain (CPSP), seen in the aftermath of a stroke, is an underdiagnosed entity but quite a disabling complication. All the postulated theories regarding the pathogenesis of CPSP point to its origin in the central pain pathways. However, this study attempts to demonstrate the role of other contributing areas in the generation of CPSP. Materials and Methods: In this single-center tertiary care hospital-based study, 24 patients with both ischemic and hemorrhagic strokes of variable durations were recruited, and Magnetic Resonance Imaging (MRI) imaging with diffusion tensor imaging (DTI) acquisition was done. Fractional anisotropy (FA) and apparent diffusion coefficient (ADC) values of the spinothalamic tract (STT), corticospinal tract (CST), superior thalamic radiation (STR), basal ganglia (BG), and primary somatosensory cortex (SSC) were compared between normal and abnormal sides and also in extrathalamic lesions separately. Results: Significant differences with lower FA were noted in STT, CST, STR, and SSC and higher ADC values in BG, STR, CST, and SSC on comparison between the normal and lesion sides. On individual sub-analysis, ischemic stroke had significant changes in the FA value of CST and the ADC value of STR and CST, while hemorrhagic stroke had significant changes in the FA and ADC values of STR and SSC, as well as the FA value of STT. In the analysis of the extrathalamic strokes, significance persisted in all the studied parameters except the BG. The CST abnormalities were evident even in patients with clinical motor improvement. On multivariate analysis, visual analogue scale score severity was correlated with thalamic lesions. Conclusion: Contrary to the belief that STT is solely responsible for CPSP, the role of CST, STR, BG, and SSC as contributing areas is evident from this study and may be more well established if studied in a larger population