Connectomic reconstruction of a female Drosophila ventral nerve cord.

A deep understanding of how the brain controls behaviour requires mapping neural circuits down to the muscles that they control. Here, we apply automated tools to segment neurons and identify synapses in an electron microscopy dataset of an adult female Drosophila melanogaster ventral nerve cord (VNC)1, which functions like the vertebrate spinal cord to sense and control the body. We find that the fly VNC contains roughly 45 million synapses and 14,600 neuronal cell bodies. To interpret the output of the connectome, we mapped the muscle targets of leg and wing motor neurons using genetic driver lines2 and X-ray holographic nanotomography3. With this motor neuron atlas, we identified neural circuits that coordinate leg and wing movements during take-off. We provide the reconstruction of VNC circuits, the motor neuron atlas and tools for programmatic and interactive access as resources to support experimental and theoretical studies of how the nervous system controls behaviour.

Synaptic architecture of leg and wing premotor control networks in Drosophila.

Animal movement is controlled by motor neurons (MNs), which project out of the central nervous system to activate muscles1. MN activity is coordinated by complex premotor networks that facilitate the contribution of individual muscles to many different behaviours2-6. Here we use connectomics7 to analyse the wiring logic of premotor circuits controlling the Drosophila leg and wing. We find that both premotor networks cluster into modules that link MNs innervating muscles with related functions. Within most leg motor modules, the synaptic weights of each premotor neuron are proportional to the size of their target MNs, establishing a circuit basis for hierarchical MN recruitment. By contrast, wing premotor networks lack proportional synaptic connectivity, which may enable more flexible recruitment of wing steering muscles. Through comparison of the architecture of distinct motor control systems within the same animal, we identify common principles of premotor network organization and specializations that reflect the unique biomechanical constraints and evolutionary origins of leg and wing motor control.

Assessment of Clinician-Reported Outcome Measures for Alopecia Areata: A Systematic Scoping Review.

Clinician-reported outcome measures (ClinROMs) are an important part of disease assessment in daily practice and clinical trials. There is a broad disagreement on the most appropriate ClinROM for a comprehensive assessment of alopecia areata (AA) severity. This paper aims to identify the currently available ClinROMs for AA through a systematic literature search, address their practical strengths and weaknesses, and identify the road ahead for future research. A search was conducted of the published, peer-reviewed literature via PubMed (Medline) and EMBASE (via Ovid) databases. Articles published in English within the last 23 years (post-2000) that objectively measured AA severity were included. We did not select scoring systems that were solely based on patient-reported outcomes (PROs). The literature search identified 1376 articles, of which 27 were chosen for full-text review. Based on our eligibility criteria, fourteen articles were identified, describing sixteen different ClinROMs. Five ClinROMs solely measured scalp hair loss (SALT, SALTⅡ, ALODEX, pSALT, and AA-IGA). Three trichoscopy-based ClinROMs assessed disease activity (AAPI, AAPS, and Coudability hair score). Six ClinROMs exclusively assessed non-scalp areas (BETA, BELA, ALBAS, ClinRO for Eyelash, Eyebrow, and Nail assessment). Two ClinROMs assessed both the scalp and beyond-scalp areas (AASI and AASc). The practical strengths and weaknesses of each assessment tool were described. Various practical limitations associated with established tools have impeded their universal implementation in routine clinical practice. There is a significant need for a holistic clinical severity scoring system to capture all the key severity identifiers beyond the involvement of the scalp.

Australian dermatologists' prescribing behaviours for male androgenetic alopecia.

Androgenetic alopecia (AGA) is highly prevalent among Australian men and can have significant psychological impacts. Despite its prevalence, treatment options have traditionally been limited. In this study, we examined the current prescribing patterns of Australian dermatologists for male AGA.

Biomarkers for the Early Diagnosis of Sepsis in Burns: Systematic Review and Meta-analysis.

OBJECTIVE: The aim of this study was to evaluate the diagnostic performance of all biomarkers studied to date for the early diagnosis of sepsis in hospitalized patients with burns. BACKGROUND: Early clinical diagnosis of sepsis in burns patients is notoriously difficult due to the hypermetabolic nature of thermal injury. A considerable variety of biomarkers have been proposed as potentially useful adjuncts to assist with making a timely and accurate diagnosis. METHODS: We searched Medline, Embase, Cochrane CENTRAL, Biosis Previews, Web of Science, and Medline In-Process to February 2020. We included diagnostic studies involving burns patients that assessed biomarkers against a reference sepsis definition of positive blood cultures or a combination of microbiologically proven infection with systemic inflammation and/or organ dysfunction. Pooled measures of diagnostic accuracy were derived for each biomarker using bivariate random-effects meta-analysis. RESULTS: We included 28 studies evaluating 57 different biomarkers and incorporating 1517 participants. Procalcitonin was moderately sensitive (73%) and specific (75%) for sepsis in patients with burns. C-reactive protein was highly sensitive (86%) but poorly specific (54%). White blood cell count had poor sensitivity (47%) and moderate specificity (65%). All other biomarkers had insufficient studies to include in a meta-analysis, however brain natriuretic peptide, stroke volume index, tumor necrosis factor (TNF)-alpha, and cell-free DNA (on day 14 post-injury) showed the most promise in single studies. There was moderate to significant heterogeneity reflecting different study populations, sepsis definitions and test thresholds. CONCLUSIONS: The most widely studied biomarkers are poorly predictive for sepsis in burns patients. Brain natriuretic peptide, stroke volume index, TNF-alpha, and cell-free DNA showed promise in single studies and should be further evaluated. A standardized approach to the evaluation of diagnostic markers (including time of sampling, cut-offs, and outcomes) would be useful.

Effective treatment of refractory lichen planus pemphigoides with a Janus kinase-1/2 inhibitor.

Lichen planus pemphigoides is a rare autoimmune subepidermal blistering disease clinically and histopathologically characterized by features of lichen planus and bullous pemphigoid. We describe a case of refractory lichen planus pemphigoides successfully treated with the selective and reversible Janus kinase-1/2 inhibitor, baricitinib.