Publications [#132786] of G. Allan Johnson
- HH Qiu, LW Hedlund, MR Neuman, CR Edwards, RD Black, GP Cofer, GA Johnson, Measuring the progression of foreign-body reaction to silicone implants using in vivo MR microscopy.,
IEEE transactions on bio-medical engineering, UNITED STATES, vol. 45 no. 7
pp. 921-7, ISSN 0018-9294
(last updated on 2005/08/03)
We used in vivo magnetic resonance (MR) microscopy to follow the growth of fibrous capsule as a foreign body reaction to silicone implants in rats. Anesthetized rats were imaged 1, 7, 14, and 28 days after silicone-coated MR imaging coils were sutured to their neck muscles. On the twenty-eighth day, rats were sacrificed and coils and adjacent tissues were removed en bloc and fixed in formalin, reimaged with MR, and sectioned for conventional histology. Three-dimensional (3-D) spin-echo [3DFT] acquisition gave in-plane resolution of 32 x 32 microns in vivo and 16 x 16 microns ex vivo. All MR images showed a diffuse band of elevated signal intensity between the silicone of the coil and adjacent tissue. The border of the hyperintense band was thin and not well defined at seven days post-implantation. From 7-28 days, the band showed relatively homogeneous signal intensity and its thickness increased 44% on the rectus muscle side and 78% on the subcutaneous side. The capsule thickness determined either by MR in vivo and ex vivo microscopy or conventional histology was not significantly different, and there was a significant correlation between thickness measurements among those methods. MR in vivo microscopy provides sufficient resolution and spatial information to serially evaluate the growth of the foreign body fibrous capsule over time, thus achieving greater accuracy and consistency in measurements.
Animals • Female • Foreign-Body Reaction • Magnetic Resonance Imaging* • Microscopy • Neck • Prostheses and Implants • Rats • Rats, Sprague-Dawley • Silicones • adverse effects* • etiology • methods • pathology* • surgery