James F. Southern

Magnetic Resonance Images Lipid, Fibrous, Calcified, Hemorrhagic, and Thrombotic Components of Human Atherosclerosis In Vivo

BACKGROUND Although MRI can discriminate the lipid core from the collagenous cap of atherosclerotic lesions in vitro with T2 contrast, it has not yet produced detailed in vivo images of these human plaque components. METHODS AND RESULTS We imaged seven lesions from six patients who required surgical carotid endarterectomy and calculated T2 in vivo before surgery in various plaque regions. Using the same acquisition parameters, we repeated these measurements in vitro on the resected fragment and compared MR images with histology. T2 values calculated in vivo correlate with in vitro measurements for each plaque component; the in vitro discrimination we demonstrated previously with T2 contrast can therefore be performed similarly in vivo. CONCLUSIONS MRI is the first noninvasive imaging technique that allows the discrimination of lipid cores, fibrous caps, calcifications, normal media, and adventitia in human atheromatous plaques in vivo. This technique also characterizes intraplaque hemorrhage and acute thrombosis. This result may support further investigations that include MRI of plaque progression, stabilization, and rupture in human atherosclerosis.

Optical coherence tomography for optical biopsy : Properties and demonstration of vascular pathology

BACKGROUND Optical coherence tomography (OCT) is an recently developed medical diagnostic technology that uses back-reflected infrared light to perform in situ micron scale tomographic imaging. In this work, we investigate the ability of OCT to perform micron scale tomographic imaging of the internal microstructure of in vitro atherosclerotic plaques. METHODS AND RESULTS Aorta and relevant nonvascular tissue were obtained at autopsy. Two-dimensional cross-sectional imaging of the exposed surface of the arterial segments was performed in vitro with OCT. A 1300-nm wavelength, superluminescent diode light source was used that allows an axial spatial resolution of 20 microns. The signal-to-noise ratio was 109 dB. Images were displayed in gray scale or false color, Imaging was performed over 1.5 mm into heavily calcified tissue, and a high contrast was noted between lipid- and water-based constituents, making OCT attractive for intracoronary imaging. The 20-microns axial resolution of OCT allowed small structural details such as the width of intimal caps and the presence of fissures to be determined. The extent of lipid collections, which had a low backscattering intensity, also were well documented. CONCLUSIONS OCT represents a promising new technology for imaging vascular microstructure with a level of resolution not previously achieved with the use of other imaging modalities. It does not required direct contact with the vessel wall and can be performed with a catheter integrated with a relatively inexpensive optical fiber. The high contrast among tissue constituents, high resolution, and ability to penetrate heavily calcified tissue make OCT an attractive new imaging technology for intracoronary diagnostics.

Determination of the refractive index of highly scattering human tissue by optical coherence tomography.

We describe two new techniques, based on optical coherence tomography (OCT), for determining the refractive index of highly scattering human tissue. We obtained refractive indices of in vitro human tissue, using OCT to measure the physical and optical path lengths of the sample. We obtained measurements of the refractive index of in vitro and in vivo human tissue, using OCT to track the focal length shift that results from translating the focus along the optic axis within the tissue. The refractive indices of human skin, adipose, and muscle were measured and compared with previously published estimates.

Single mode fiber-optic catheter/endoscope for optical coherence tomography

Summary form only given. In order to apply OCT for imaging of internal organ systems, a flexible, small diameter, catheter/endoscope, which is capable of delivering, focusing, scanning, and collecting a single-spatial-mode optical beam, must be constructed. In this summary, we describe the design and performance of a prototype single-mode fiber-optic scanning OCT catheter with a diameter of 1 mm. OCT imaging may be performed at 1.3-micron wavelengths using either a superluminescent laser diode source or a Kerr-lens mode-locked Cr:forsterite laser, which provides high powers for high-speed imaging. This device is an enabling technology for OCT and will permit micron scale, cross-sectional medical diagnostic imaging in tissues such as the vascular system, the gastrointestinal tract, the urinary tract, and the respiratory tract.

Pathology of fatal perioperative myocardial infarction : implications regarding pathophysiology and prevention

The aim of this study was to determine the pathology of fatal postoperative myocardial infarction (MI) and compare it with that of non-operative myocardial infarction. Histopathological analyses of coronary arteries and myocardium were performed on autopsy heart specimens (n = 67), and clinical attributes were studied. Findings of perioperative MI (n = 42) were compared to those of non-perioperative MI (n = 25). Significant atherosclerotic obstruction (> 50% cross-sectional narrowing) was observed in the majority of patients (93%). Left main (> 50% cross-sectional narrowing) and/or three-vessel coronary artery disease were especially common (44%) in this group. Evidence of unstable plaques with disruption was noted in 55% of perioperative MI patients (n = 23); plaque hemorrhage was found in 45% (n = 19). Predicting the site of infarction based on severity of underlying stenosis would have been unsuccessful in more than half the patients in both perioperative and nonoperative MI groups. Clinical profiles of the patients in the two groups were similar in terms of prior cardiac history, gender and age. Fatal perioperative MI occurs predominantly in patients with multivessel coronary disease, especially left main and three-vessel disease. The severity of preexisting underlying stenosis did not predict the resulting infarct territory. Evidence of acute plaque disruption in the infarct-related artery is common. Perioperative MIs have similar coronary artery pathology to non-operative MIs with regard to coronary plaque hemorrhage, rupture, and thrombus formation and probably occur by a similar mechanism.

Assessing atherosclerotic plaque morphology: comparison of optical coherence tomography and high frequency intravascular ultrasound.

BACKGROUND: OCT can image plaque microstructure at a level of resolution not previously demonstrated with other imaging techniques because it uses infrared light rather than acoustic waves. OBJECTIVES: To compare optical coherence tomography (OCT) and intravascular ultrasound (IVUS) imaging of in vitro atherosclerotic plaques. METHODS: Segments of abdominal aorta were obtained immediately before postmortem examination. Images of 20 sites from five patients were acquired with OCT (operating at an optical wavelength of 1300 nm which was delivered to the sample through an optical fibre) and a 30 MHz ultrasonic transducer. After imaging, the microstructure of the tissue was assessed by routine histological processing. RESULTS: OCT yielded superior structural information in all plaques examined. The mean (SEM) axial resolution of OCT and IVUS imaging was 16 (1) and 110 (7), respectively, as determined by the point spread function from a mirror. Furthermore, the dynamic range of OCT was 109 dB compared with 43 dB for IVUS imaging. CONCLUSIONS: OCT represents a promising new technology for intracoronary imaging because of its high resolution, broad dynamic range, and ability to be delivered through intravascular catheters.

Cyst fluid analysis in the differential diagnosis of pancreatic cysts: A comparison of pseudocysts, serous cystadenomas, mucinous cystic neoplasms, and mucinous cystadenocarcinoma

Pancreatic cystic lesions include inflammatory pseudocysts, benign serous tumors, and mucinous neoplasms, some of which are malignant. Clinical and radiologic indices are often inadequate to discriminate reliably among these possibilities. In an attempt to develop new preoperative diagnostic criteria to assist in decisions regarding therapy, the authors have performed cyst fluid analysis for tumor markers (carcinoembryonic antigen: CEA, CA 125, and CA 19.9), amylase content, amylase isoenzymes, relative viscosity, and cytology on 26 pancreatic cysts. The cases included nine pseudocysts, five serous cystadenomas, 4 mucinous cystic neoplasms, 7 mucinous cystadenocarcinomas, and one mucinous ductal adenocarcinoma with cystic degeneration. Carcinoembryonic antigen levels were high (>367) in all benign and malignant mucinous cysts, but were low (<23) in the pseudocysts and benign serous cystadenomas, an indication that CEA discriminates between mucinous and nonmucinous cysts (p < 0.0001). Values for CA 125 were high in all malignant cysts, low in pseudocysts, and variable in mucinous cystic neoplasms and serous cystadenomas. Levels of Ca 19.9 were nondiscriminatory. Cyst fluid amylase and iipase content were variable but were generally high in pseudocysts and low in cystic tumors. Amylase isoenzyme analysis was useful to differentiate pseudocysts from cystic tumors. Measurement of the relative viscosity in cyst fluid showed high (> serum viscosity) values in 89% of mucinous tumors and low values (< serum) in all pseudocysts and serous cystadenomas (p < 0.01). Cytologic analysis of cyst fluids was of limited value in differentiating pseudocysts from serous cystadenoma, but in seven of eight mucinous tumors provided useful diagnostic information and correctly classified three of five malignant tumors. The authors conclude that cyst fluid analysis can provide a preoperative classification of these diagnostically difficult lesions. The combination of viscosity, CEA, CA 125, and cytology can reliably distinguish malignant cystic tumors and potentially premalignant mucinous cystic neoplasms from pseudocysts and serous cystadenomas. Amylase content with isoenzyme analysis is useful to identify pseudocysts.

Imaging of coronary artery microstructure (in vitro) with optical coherence tomography

OCT achieves high-resolution and image differentiation of vascular tissues to a degree that has not been previously possible with any method except excisional biopsy. Thus, OCT represents a promising new diagnostic technology for intracoronary imaging, which could permit the in vivo evaluation of critical vascular pathology.

Viral myocarditis mimicking acute myocardial infarction

Anecdotal reports have shown that myocarditis can mimic acute myocardial infarction with chest pain, electrocardiographic (ECG) abnormalities, serum creatine kinase elevation and hemodynamic instability. Thirty-four patients with clinical signs and symptoms consistent with acute myocardial infarction underwent right ventricular endomyocardial biopsy during a 6.5-year period after angiographic identification of normal coronary anatomy. Myocarditis was found on histologic study in 11 of these 34 patients. Cardiogenic shock requiring intraaortic balloon support developed within 6 h of admission in three (27%) of the patients with myocarditis. The mean age of the group with myocarditis was 42 +/- 5 years. A preceding viral illness had been present in six patients (54%). The ECG abnormalities were varied and included ST segment elevation (n = 6), T wave inversions (n = 3), ST segment depression (n = 2) and pathologic Q waves (n = 2). The ECG abnormalities were typically seen in the anterior precordial leads but were diffusely evident in three patients. Left ventricular function was normal in six patients and globally decreased in the remaining five patients, whose ejection fraction ranged from 14% to 45%. Lymphocytic myocarditis was diagnosed in 10 patients, and giant cell myocarditis was detected in the remaining patient. Four patients with impaired left ventricular function received immunosuppressive therapy with prednisone and either azathioprine (n = 2) or cyclosporine (n = 2). All six patients whose left ventricular function was normal on admission remain alive in functional class I. Of the five patients with impaired systolic function, ejection fraction normalized in three of the four patients who received immunosuppressive therapy within 3 months of treatment and in the one patient who received only supportive therapy.(ABSTRACT TRUNCATED AT 250 WORDS)

OPTICAL BIOPSY IN HUMAN UROLOGIC TISSUE USING OPTICAL COHERENCE TOMOGRAPHY

Optical Coherence Tomography (OCT) is a recently developed non-invasive technique for obtaining high resolution, cross-sectional images of human tissue. This work investigated the capability of OCT to differentiate the architectural morphology of urologic tissue with the long term aim of using OCT as an adjunct to endoscopic imaging and to improve the efficiency of interventional procedures such as transurethral prostatectomy (TURP). Urologic tissues were taken postmortem, dissected, and imaged using OCT. Microstructure was delineated in different urologic tissues, including the prostatic urethra, prostate, bladder, and ureter, with an axial resolution of 16 +/- 1 microm., higher than any clinically available endoscopic intraluminal imaging technology. The ability of OCT to provide non-contact high resolution imaging of urologic tissue architectural morphology (i.e. optical biopsy), without the need for excisional biopsy, suggests the potential of using OCT to obtain information on tissue microstructure that could only previously be obtained with conventional biopsy.