Introduction
Ocular lens dislocation is a relatively rare and difficult to diagnose disorder. Computed tomography often confirms the diagnosis, however may be unavailable in resource limited settings. Bedside ultrasound offers an alternative method of diagnosis which is rapid, inexpensive, and relatively easy.
Case
A 59-year-old man presented with a complaint of decreased vision in his right eye after being assaulted. Exam was remarkable for decreased visual acuity and increased intraocular pressure. Maxillofacial and brain CT as well as bedside ultrasound demonstrated a posteriorly dislocated ocular lens. The patient’s intraocular pressures were medically managed and he was discharged with close follow-up with ophthalmology.
Conclusion
Ocular lens dislocation may be easily diagnosed with ultrasound. Direction of lens dislocation dictates management, however posterior dislocations may be amenable to outpatient management.
Background
Lung ultrasound is a well-established technique to assess extravascular lung water, a proxy for volume status, in the adult population. Despite its utility, the data are limited supporting the use of ultrasound to evaluate fluid volume status among pediatric patients. Our study uses a simplified ultrasound protocol to evaluate changes in extravascular lung water, represented by b-lines, among pediatric patients undergoing hemodialysis.
Methods
This prospective single-center study included children from birth to 18 years of age. The number of b-lines per ml/kg of fluid removed was compared prior to, at the midpoint, and following termination of dialysis. An 8-zone protocol was utilized, and b-lines were correlated to hemoconcentration measured by the CRIT-LINE® hematocrit.
Results
Six patients with a total of 26 hemodialysis sessions were included in this study. The b-line measurements post-dialysis were 2.27 (p < 0.001; 94%CI -3.31, -1.22) lower relative to pre-dialysis. The number of b-lines was reduced by 1.69 (p < 0.001; -2.58, -0.80) between pre-dialysis and at the midpoint of dialysis and by 0.58 (p = 0.001; -0.90, -0.24) between the midpoint of dialysis and post-dialysis. A 1 mL/kg fluid loss correlated to a decrease in the original b-lines by 0.079. An inverse relationship (r = -0.54; 95% CI: -0.72, -0.34; p < 0.001) was noted between the b-lines and the patients’ hematocrit levels.
Conclusions
A simplified 8-zone ultrasound protocol can assess fluid volume change in real time and correlates with hematocrit levels obtained throughout dialysis. This provides a valuable method for monitoring fluid status in volume overloaded patient populations.
Graphical abstract
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Supplementary information
Supplementary Information
The online version contains supplementary material available at 10.1007/s00467-022-05723-x.
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