An off-the-shelf Raman Spectrometer (RS) was used to noninvasively determine the presence of monosodium urate (MSU) crystals on the metatarsophalangeal joint (MTPJ) of a single gout sufferer. The spectrum sourced from the clinically diagnosed gout sufferer was compared to that sourced from an age-matched healthy subject scanned using the same protocol. Minimal signal processing was conducted on both spectra. Peaks characteristic of MSU crystals were evident on the spectrum sourced from the gout sufferer and not on the spectrum from the healthy control.
Atlantoaxial rotatory subluxation (AARS) is the loss of normal alignment and stability of the first (atlas) and second (axis) cervical vertebrae with respect to each other. We describe the clinical challenges of managing a 10-year-old boy who presented with repetitive episodes of torticollis. Open-mouth odontoid radiograph and computed tomographic (CT) scan gave a diagnosis in ARRS, based on its characteristic imaging findings. The child was admitted multiple times for continuous halter traction in the first 6 months after symptom onset. He also experienced a temporary complication from an overcorrection with correcting neck bracing. Seven months after symptom onset, this case was discussed by a multidisciplinary spine team and referred to chiropractic clinic. Despite persistent radiographic evidence of atlantoaxial instability, after 5 months of chiropractic treatment, the child was asymptomatic with nearly full range of neck movement. He also weaned off acetaminophen he had been taking over the past year. Incidentally, bilateral gynecomastia was discovered at the surveillance after treatment. The incidental finding of innocent gynecomastia, even if common in preteen boys, brings up the topic of acetaminophen's effects on the regulation of sex hormones that was previously overlooked.
Raman spectroscopy was applied to nail clippings from 633 postmenopausal British and Irish women, from six clinical sites, of whom 42% had experienced a fragility fracture. The objective was to build a prediction algorithm for fracture using data from four sites (known as the calibration set) and test its performance using data from the other two sites (known as the validation set). Results from the validation set showed that a novel algorithm, combining spectroscopy data with clinical data, provided area under the curve (AUC) of 74% compared to an AUC of 60% from a reduced QFracture score (a clinically accepted risk calculator) and 61% from the dual-energy X-ray absorptiometry T-score, which is in current use for the diagnosis of osteoporosis. Raman spectroscopy should be investigated further as a noninvasive tool for the early detection of enhanced risk of fragility fracture.