Parameterized evaluation of macromolecules and lipids in proton MR spectroscopy of brain diseases

## Abstract Magnetic resonance (MR) imaging and localized proton MR spectroscopy of the occipital lobes were performed in a patient with cortical blindness following brain trauma. Computed tomography (CT) scans and MR images of the visual cortex were normal in the acute stage. Six weeks after the t

H MR spectroscopy was used to correlate the metabolite signals in 60 untreated metastatic brain tumors with the results of Gd-DTPA enhanced MRI. Cubic volumes containing brain metastases of lung cancer ( n = 17), mammary carcinoma (n=24), melanoma (n = 12) and those originating from other tumors (n=

## Abstract We measured metabolites in large tumors of the female pelvis (23 cases total: 6 malignant cases, 17 benign cases) using single‐voxel proton magnetic resonance (MR) spectroscopy and evaluated the clinical significance of this method in the differential diagnosis of female pelvic tumors.

## Abstract ## Purpose To investigate if in vivo localized proton magnetic resonance spectroscopy (MRS) can detect putative metabolic changes in the irradiated rat brain and quantitatively measure brain metabolite changes in this model. ## Materials and Methods A total of 20 adult male Fischer 3

## Abstract Image localized, water‐suppressed proton magnetic resonance spectra were obtained from affected brain in patients with multiple sclerosis. In patients with moderate to severe chronic disease, spectra revealed a decreased ratio of __N__‐acetylaspartate to creatine resonance intensities.

## Purpose: To study intracranial cestodal cysts using in vivo proton magnetic resonance spectroscopy ((1)h mrs) in an effort to identify metabolite(s) that may help in recognizing the parasitic etiology and, perhaps, viability of such tapeworm cysts. cestodal infestations of the human central nerv