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ANALYSIS OF IN VIVO 1H MAGNETIC RESONANCE SPECTROSCOPY IN OSTEONECROSIS OF FEMORAL HEAD



Abstract

Introduction: Proton magnetic resonance spectroscopy (1H MRS) is a powerful non-invasive technique used to identify and quantify chemical compounds. In a recent study, the early histopathologic findings of osteonecrosis showed marrow edema and hemorrhage, and the late findings were fibrous marrow transformation with new bone formation. The purpose of this study was to apply 1H MRS to the bone marrow of osteonecrosis and bone marrow edema syndrome by measuring the amount of lipid relative to water of the femoral head and greater trochanter.

Materials and Methods: Magnetic Resonance (MR) imaging and MR spectroscopy were performed in twenty-five patients (male: female = 17:8, age = 29–69 years) who were diagnosed with osteonecrosis and bone marrow edema syndrome and compared with three normal control patients. Twenty-three cases were osteonecrosis and two were bone marrow edema syndrome. Ficat stages of osteonecrosis in the femoral heads were 1 patient with stage I, 8 patients with stage II, and 14 patients with stage III disease. Osteonecrosis developed in 14 patients with steroid therapy after kidney transplantation, in 6 alcoholics, and 3 were idiopathic. After routine hip MRI, spectroscopy was obtained from T2 weighted images by the 3-dimensional localization technique. Locations of voxels were the center of the osteonecrotic zone verified by T2-weighted MR images and from the fat marrow in the greater trochanter of femur. The values of the [Lipid/Water] ratios were calculated for all patients.

Results: The average Lipid/Water ratio of the osteonecrotic area was 3.15, those of the greater trochanter was 6.45, compared with 10.28 in the normal control group. The MRS pattern for osteonecrosis could be divided into 4 patterns: A, Lipid/Water > 10 ; B, 3 < Lipid/Water ≤ 10; C, 0.3 ≤ Lipid/Water < 3; and D, Lipid/Water ≤ 0.3. The numbers of cases for each pattern were 1 in A, 6 in B, 10 in C, and 6 in D. Interestingly, in one patient with Ficat stage I osteonecrosis diagnosed by only bone scintigraphy, 1H MR spectroscopy revealed a much higher lipid/water peak ratio compared to the normal control group. The average Lipid/Water ratio of the bone marrow edema syndrome patients was 0.71.

Discussion: This study revealed the decreasing pattern of lipid content as osteonecrosis progresses, which correlates with histopathologic results. In bone marrow edema syndrome, a reverse pattern to the normal control group was found. Further study is needed for the change of Lipid/Water ratio in early change of osteonecrosis.

The abstracts were prepared by Michael A. Mont, M.D. and Lynne C. Jones, Ph.D. Correspondence should be addressed to L. Jones at Good Samaritan Prof. Bldg., Suite 201, 5601 Loch Raven Blvd., Baltimore, MD 21239