Flattening filter removal for improved image quality of megavoltage fluoroscopy.

PURPOSE: Removal of the linear accelerator (linac) flattening filter enables a high rate of dose deposition with reduced treatment time. When used for megavoltage imaging, an unflat beam has reduced primary beam scatter resulting in sharper images. In fluoroscopic imaging mode, the unflat beam has higher photon count per image frame yielding higher contrast-to-noise ratio. The authors' goal was to quantify the effects of an unflat beam on the image quality of megavoltage portal and fluoroscopic images. METHODS: 6 MV projection images were acquired in fluoroscopic and portal modes using an electronic flat-panel imager. The effects of the flattening filter on the relative modulation transfer function (MTF) and contrast-to-noise ratio were quantified using the QC3 phantom. The impact of FF removal on the contrast-to-noise ratio of gold fiducial markers also was studied under various scatter conditions. RESULTS: The unflat beam had improved contrast resolution, up to 40% increase in MTF contrast at the highest frequency measured (0.75 line pairs/mm). The contrast-to-noise ratio was increased as expected from the increased photon flux. The visualization of fiducial markers was markedly better using the unflat beam under all scatter conditions, enabling visualization of thin gold fiducial markers, the thinnest of which was not visible using the unflat beam. CONCLUSIONS: The removal of the flattening filter from a clinical linac leads to quantifiable improvements in the image quality of megavoltage projection images. These gains enable observers to more easily visualize thin fiducial markers and track their motion on fluoroscopic images.

Gated treatment delivery verification with on-line megavoltage fluoroscopy.

PURPOSE: To develop and clinically demonstrate the use of on-line real-time megavoltage (MV) fluoroscopy for gated treatment delivery verification. METHODS AND MATERIALS: Megavoltage fluoroscopy (MVF) image sequences were acquired using a flat panel equipped for MV cone-beam CT in synchrony with the respiratory signal obtained from the Anzai gating device. The MVF images can be obtained immediately before or during gated treatment delivery. A prototype software tool (named RTReg4D) was developed to register MVF images with phase-sequenced digitally reconstructed radiograph images generated from the treatment planning system based on four-dimensional CT. The image registration can be used to reposition the patient before or during treatment delivery. To demonstrate the reliability and clinical usefulness, the system was first tested using a thoracic phantom and then prospectively in actual patient treatments under an institutional review board-approved protocol. RESULTS: The quality of the MVF images for lung tumors is adequate for image registration with phase-sequenced digitally reconstructed radiographs. The MVF was found to be useful for monitoring inter- and intrafractional variations of tumor positions. With the planning target volume contour displayed on the MVF images, the system can verify whether the moving target stays within the planning target volume margin during gated delivery. CONCLUSIONS: The use of MVF images was found to be clinically effective in detecting discrepancies in tumor location before and during respiration-gated treatment delivery. The tools and process developed can be useful for gated treatment delivery verification.

Compromised myelin integrity during psychosis with repair during remission in drug-responding schizophrenia.

Functional connection among the information-processing (grey-matter) centres within the CNS are necessary for the coordinated processing of perception, affect, thought and behaviour. Myelinated neuronal bundles provide the links among such processing centres. Magnetic resonance diffusion tensor imaging (DTI) can assess the physical integrity of myelin. Using DTI, the authors assessed diffusivity (Dm) within whole brain in 14 controls and within 13 acutely psychotic, drug-free schizophrenics both before and after 28 d of antipsychotic drug treatment. Drug-responder schizophrenicss (D-RS) (n=8) were differentiated from poor responders (PR) (n=5) according to previously defined criteria. Differences of Dm at both baseline and following treatment were assessed using Dm distributional analyses and Statistical Parametric Software (SPM2). Impaired physical integrity of myelin, demonstrated by an increase (overall p<0.05) of Dm, was found in the D-RS patients, with multiple regions demonstrating p<0.0005 patient-control differences. The pathological increase in Dm was reduced (p<0.03) following treatment-associated reduction of psychotic symptoms by 84%. Dm of PR patients did not differ from controls at baseline or following subacute treatment. While the pathophysiology(ies) underlying psychosis in poorly responsive (PR) schizophrenics does not appear to be related to a disordered myelin, the findings are consistent with a partially reversible disorder of myelin integrity, and may underlie a dys-synchrony of information processing in a major subgroup of drug-responsive patients with schizophrenia. An antipsychotic drug-induced cascade may partially restore myelin integrity and functional connectivity concomitant with antipsychotic effects in such D-RS patients.

Computer automated detection of head orientation for prevention of wrong-side treatment errors.

A medical error can occur when a patient is positioned in a medical imaging device such as an MRI scanner if information regarding their orientation is improperly entered into the device control software. If such an error is not detected and corrected, the erroneous orientation data will be stored in the image header information and will propagate with the images throughout the medical enterprise. Presented here is a fully automated algorithm for computing patient head orientation from the image data and detecting errors in image orientation labeling. This will enable errors in orientation labeling to be corrected at their source when they occur, thus preventing later medical treatment errors related to laterality.

Volume increases in striatum associated with positive symptom reduction in schizophrenia: a preliminary observation.

Eleven drug-free patients with a DSM-IV diagnosis of schizophrenia who were in a period of psychotic exacerbation were treated with antipsychotics for 4 weeks. To evaluate treatment-associated changes in the basal ganglia and in psychotic symptomatology, the patients were studied with magnetic resonance imaging and with the Scale for the Assessment of Positive Symptoms. Serial assessments of striatal volumes and psychotic symptoms were performed at baseline and at 4 weeks of treatment; dual assessments of striatal volumes were also performed in 11 untreated normal controls. Patients and controls did not differ in striatal volumes at baseline, but the patients demonstrated a significant posttreatment increase in striatal tissues (caudate-putamen). An increase in left striatum was not associated with drug treatment itself, but with a reduction of positive symptoms.

Cerebral cortical gray expansion associated with two second-generation antipsychotics.

BACKGROUND: Second-generation antipsychotics (SGAs) differ from first-generation antipsychotics (FGAs) with respect to induction of less extrapyramidal morbidity, partially reducing negative symptoms, and causing modest improvement in neurocognitive functioning in patients with schizophrenia. SGAs demonstrate 5-HT2a antagonism. Differential effects of SGAs and FGAs on cortical gray volumes are explored herein. METHODS: Cerebral cortical gray was examined volumetrically in 19 patients with schizophrenia before and following 28 days of treatment with two SGAs (risperidone and ziprasidone; n = 13) or a FGA (haloperidol; n = 6). Seven (untreated) control subjects were also assessed at a similar interval. RESULTS: During treatment with the SGAs risperidone and ziprasidone, cerebral cortical gray of 13 patients with schizophrenia expanded 20.6 +/- 11.4 cc (p < .0005). Six patients receiving the FGA haloperidol, as well as 7 control subjects, showed no change in cortical gray volumes (p = .983 and p = .932, respectively) at the time of reassessment. CONCLUSIONS: Volumetric increase of cerebral cortical gray occurred early in the course of treatment with the SGAs ziprasidone and risperidone, but not with the FGA haloperidol. Such cortical gray expansion may be relevant to the reported enhanced neurocognition and quality of life associated with SGA treatment.

Risk for early-onset schizophrenia assessed via gray-matter distributions.

Automated image analysis algorithms were used to measure regional gray matter volumes in children with early-onset schizophrenia. Logistic regression analysis of gray matter volumes within Brodman areas was used to test the ability to predict whether a subject was normal or schizophrenic. The ROC area-under-the-curve was 0.84 +/- 0.15 across the 10 cross validation groups indicating good discrimination between schizophrenic and normal subjects.

Magnetic resonance imaging study of brain asymmetries in dyslexic patients.

Research studies suggest that the left hemisphere is involved in the pathophysiology of dyslexia. Thus far, the exact location and nature of the purported lesion(s) remain a matter of contention. The present study describes the distribution of structural abnormalities as related to brain symmetry in the brains of dyslexic individuals. High-resolution three-dimensional magnetic resonance images (MRIs) were analyzed in 16 dyslexic men and 14 controls matched for sex, age, educational level, and handedness. A computerized image analysis system was used to assess the volumetric deformations required to match each brain with its left-right mirror image. The results showed significant abnormalities in five left hemisphere structures involving the extrapyramidal and limbic systems: amygdala, hippocampus proper, parahippocampal gyrus, putamen, and globus pallidus. The left hemisphere is thought to play a major role in the temporal analysis of information. This stream of temporal analysis is of importance in motor movements. Reading might have evolved as an exaptation to motor movements requiring the sequential analysis of information.

State-related thalamic changes during antipsychotic treatment in schizophrenia: preliminary observations.

Thalamic volumes and psychotic symptoms were assessed during psychotic exacerbation and during antipsychotic drug treatment. Reduction of psychotic symptoms (SAPS) during four weeks of treatment was highly correlated with volumetric expansion as measured by magnetic resonance imaging in both left and right thalamus [r(s)=0.75 and r(s)=0.82, respectively (both P<0.04)].

Normalization of brain magnetic resonance images using histogram even-order derivative analysis.

The even-ordered (2nd, 4th and 6th) derivatives of a brain MRI histogram were used to calculate a characteristic value for white matter, which was used to normalize the image intensity scale. Simulated image histograms were used to estimate the methodological error as a function of noise level, and the optimum derivative order was determined for each image type studied (T1-, T2- and density-weighted). The algorithm yielded highly reproducible results when used in conjunction with a threshold-sensitive brain segmentation algorithm. It also proved insensitive to the presence of extra-cranial tissues. This method of histogram analysis could find utility in a variety of applications that demand robust intensity normalization including image registration, brain segmentation, tissue classification and spatial inhomogeneity correction.

Software-annotated, digitally photographed, and printed MR images: suitability for publication.

RATIONALE AND OBJECTIVES: The authors performed this study to evaluate whether digitally photographed, computer-annotated MR images produced by clinical radiologists and printed with an inexpensive photo printer are suitable for publication. MATERIALS AND METHODS: Laser prints of 20 magnetic resonance images of the brain were photographed with a 3-megapixel digital camera and annotated with arrows, arrowheads, and asterisks by using graphics software that incorporates vector support. Then, 5 x 7-inch glossy prints with white borders were made by using an inexpensive photo printer. These prints were compared with those produced of the same 20 images by members of the medical center's graphics department with professional scanning and printing equipment and annotated with conventional rub-on symbols. Eight radiologists evaluated image and annotation quality and overall suitability for publication. RESULTS: In all three categories, the images produced by radiologists outscored those produced by the graphics department. CONCLUSION: Digitally photographed, software-annotated MR images printed with an inexpensive photo printer are suitable for publication.