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Transposition of Intravascular Lipid in Experimentally Induced Fat Embolism: A Preliminary Study

  • Hwang, So-Min (Aesthetic, Plastic and Reconstructive Surgery Center, Good Moonhwa Hospital) ;
  • Lee, Jong-Seo (Aesthetic, Plastic and Reconstructive Surgery Center, Good Moonhwa Hospital) ;
  • Kim, Hong-Il (Aesthetic, Plastic and Reconstructive Surgery Center, Good Moonhwa Hospital) ;
  • Jung, Yong-Hui (Aesthetic, Plastic and Reconstructive Surgery Center, Good Moonhwa Hospital) ;
  • Kim, Hyung-Do (Aesthetic, Plastic and Reconstructive Surgery Center, Good Moonhwa Hospital)
  • Received : 2014.03.17
  • Accepted : 2014.05.20
  • Published : 2014.07.15

Abstract

Background Liposuction is a procedure to reduce the volume of subcutaneous fat by physical force. Intracellular storage fat is composed of triglyceride, whereas circulating fat particles exist as cholesterol or triglycerol bound to carrier proteins. It is unavoidable that the storage form of fat particles enters the circulation system after these particles are physiologically destroyed. To date, however, no studies have clarified the fatal characteristics of fat embolism that occurs after the subclinical phase of free fat particles. Methods A mixture of human lipoaspirate and normal saline (1:100, 0.2 mL) was injected into the external jugular vein of rats, weighing 200 g on average. Biopsy specimens of the lung and kidney were examined at 12-hour intervals until postoperative 72 hours. The deposit location and transport of the injected free fat particles were confirmed histologically by an Oil Red O stain. Results Inconsistent with previous reports, free fat particles were transported from the intravascular space to the parenchyma. At 24 hours after infusion, free fat particles deposited in the vascular lumen were confirmed on the Oil Red O stain. At 72 hours after infusion, free fat particles were accumulated compactly within the parenchymal space near the perivascular area. Conclusions Many surgeons are aware of the fatal results and undiscovered pathophysiologic mechanisms of free fat particles. Our results indicate that free fat particles, the storage form of fat that has been degraded through a physiological process, might be removed through a direct transport mechanism and phagocytotic uptake.

Keywords

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  1. Microscopic and Macroscopic Fat Embolism: Solving the Puzzle with Case Reports vol.142, pp.4, 2018, https://doi.org/10.1097/prs.0000000000004810
  2. Experimentally induced fat embolism syndrome: shift from obstruction to toxic effects vol.27, pp.2, 2014, https://doi.org/10.14730/aaps.2020.02355