Global phylogeography of the ridley sea turtles (Lepidochelys spp.) as inferred from mitochondrial DNA sequences

BACKGROUND: The cardiovascular applications of magnetic resonance (MR) techniques in coronary artery disease have increased considerably in recent years. Technical advantages of MR imaging are the excellent spatial resolution, the characterization of myocardial tissue, and the potential for three-dimensional imaging. These characteristics allow the accurate assessment of left ventricular mass and volume, the differentiation of infarcted from normal tissue, and the determination of systolic wall thickening and regional wall motion abnormalities. METHODS: In addition to the conventionally used spin-echo and cine-echo techniques, newer techniques such as myocardial tagging, ultrafast MR imaging and MR coronary angiography have been developed. These newer techniques allow a more accurate assessment of ventricular function (tagging), myocardial perfusion (ultrafast imaging), and evaluation of stenosis severity (MR coronary angiography). Particularly early detection and flow assessment of stenosed coronary arteries and bypasses by MR angiography would constitute a major breakthrough in cardiovascular MR imaging. Apart from the MR imaging techniques, cardiac metabolism may be well assessed using MR spectroscopy. This provides unique information on the metabolic behaviour of the myocardium under conditions stress-induced ischemia. However, the definite niche of cardiac MR spectroscopy has still to be settled. CONCLUSION: Currently, MR techniques allow the evaluation of anatomy and function (accepted use), perfusion and viability (development phase), and coronary angiography (experimental phase). A particular strength of MR imaging is that one single MR test may encompass cardiac anatomy, perfusion, function, metabolism and coronary angiography. The replacement of multiple diagnostic tests with one MR test may have major effects on cardiovascular healthcare economics and would outweight the cost inherent to the MR angiography procedure.     

Pitfalls in quantitative contrast echocardiography: the steps to quantitation of perfusion

Current methods used clinically to assess myocardial perfusion are invasive and expensive. As the technology of ultrasound imaging improves, CE may provide a relatively inexpensive, noninvasive means of quantitating myocardial perfusion. Issues regarding stability of microbubble contrast agents must be studied more closely under physiologic conditions. As such, encapsulated microbubbles may provide more stability under physiologic pressures than free gas microbubbles. Introducing high concentrations of contrast, either by hyperconcentrating the contrast agent or by increasing the injection rate, may provide greater stability under physiologic conditions. Further, before quantitative statement of tissue perfusion can be made, the relationship between tracer concentration and system response must be established. Further, a "linear" postprocessing ultrasound setting does not eliminate this requirement as data must still undergo nonlinear transformation during log compression and time-gain compensation. Additionally, issues regarding "electronic thresholding" must be explored more extensively in vivo. Commercial ultrasound scanners, in their present form, may not offer adequate sensitivity for absolute quantitative studies. Further development of modified ultrasound systems may provide sufficient sensitivity for quantitative perfusion imaging. CE offers a potentially powerful tool in the clinical management of patients with ischemic heart disease. Conventional coronary angiography provides information on the size of a lesion, but accompanying tissue perfusion distal to the lesion cannot be determined. Doppler ultrasonography determines velocity of blood flow in large vessels but does not offer the potential to quantitate tissue perfusion. Clearly, CE has a place in the future of diagnostic imaging. The recent work of Ito et al. demonstrated the qualitative potential of CE in the identification of "areas at risk" in patients who had undergone thrombolysis or percutaneous transluminal coronary angioplasty after an acute myocardial infarction. With further improvement in the ultrasound imaging techniques and microbubble stability, CE may offer an inexpensive, noninvasive means of assessing myocardial perfusion.     

Clinical assessment of MR of the brain in nonsurgical inpatients

PURPOSE: To evaluate the effect of MR imaging of the brain on four domains of patient care: diagnosis, diagnostic workup, therapy, and prognosis. METHODS: Pre- and post-MR written questionnaires and oral interviews were administered to the referring clinicians of 103 medical and neurologic inpatients at a tertiary care institution. Additional information was obtained from radiologic reports and records. RESULTS: The study population had a diverse array of signs and symptoms and of presumptive clinical diagnoses, reflecting the breadth of disease seen at our institution. The vast majority of physicians (89%) reported that MR imaging added significant diagnostic information, playing an important role in guiding diagnostic workup (24%), planning treatment (34%), and estimating prognosis (47%). MR imaging was significantly more likely to decrease than to increase confidence in the presumptive clinical diagnosis. Thus, MR imaging may be most useful in the setting of diagnostic uncertainty. CONCLUSION: Our results show that MR imaging of the brain has important effects on each of the four domains of care for medical inpatients.     

Rapid MR imaging versus plain radiography in patients with low back pain: initial results of a randomized study

PURPOSE: To demonstrate the feasibility of a randomized trial to compare rapid magnetic resonance (MR) imaging with plain radiography as the initial imaging study in patients with low back pain, to test measures of the decision-making process and patient outcomes, and to offer a model for using randomized clinical trials to evaluate diagnostic tests. MATERIALS AND METHODS: The authors randomly selected 62 patients with low back pain to undergo either rapid MR imaging or plain radiography. The authors measured functional status, satisfaction, and general health status at baseline and at 3 months. The modified Roland scale was the primary outcome measure. In addition, the authors examined diagnostic and therapeutic decision making and resources used by each group. RESULTS: There were no statistically significant differences between the two patient groups with respect to outcome (Roland score: MR imaging = 12.5, radiography = 12.1). MR imaging provided more useful information to clinicians and resulted in greater patient reassurance. CONCLUSION: Randomly selecting patients to undergo imaging examinations and measuring outcomes is feasible; however, a larger, multicenter study is necessary to determine whether rapid MR imaging is a cost-effective replacement for plain radiography in patients with low back pain.     

Recurrence risk of a serious, noninherited chromosomal abnormality

The elbow has proven the most technically challenging of all of the major joints in MR imaging, particularly with regard to radiofrequency design. It is possible to obtain high-quality diagnostic studies on most clinical MR imaging systems that are made today using available coils and pulse sequences. This article evaluates techniques for MR imaging of the elbow.     

Advanced MR imaging techniques for evaluation of the heart and great vessels

A "one-stop shop" for evaluating cardiac disease with magnetic resonance (MR) imaging is progressing toward clinical reality and promises to have a major effect on the care of patients with cardiac disease. T1-weighted conventional spin-echo imaging gated to the cardiac cycle yields good anatomic detail but requires long imaging times and provides only static images of a single cardiac phase. Fast MR imaging with electrocardiographically (ECG) gated, low-flip-angle, segmented k-space gradient-recalled-echo (GRE) sequences provides excellent image quality with sufficiently high temporal resolution to "freeze" cardiac motion. Segmented k-space sequences improve on standard ECG-gated GRE sequences by allowing many cardiac phases, or frames of a cine sequence, to be imaged in a single breath hold with prospective cardiac gating. As commercial implementations of segmented k-space imaging become more widely available, the applications of this technique are expanding from research protocols to include many clinical applications in the heart and great vessels. Such applications include evaluation of vascular anatomy (coronary angiography, aortic disease, aberrant vessels, vascular access), cardiac anatomy (congenital anomalies, right ventricular dysplasia, constrictive pericarditis, valvular function), myocardial perfusion, and myocardial wall motion.     

Measurement of coronary flow reserve and its role in patient care

Coronary anatomy and myocardial blood flow are major determinants of clinical symptomatology and survival in patients with coronary artery disease. While coronary anatomy has been successfully assessed by coronary angiography and intravascular ultrasound imaging, measurements of coronary blood flow are more difficult and their prognostic value has not been definitively evaluated. Measurements of coronary flow reserve (CFR), defined as maximal hyperemic flow divided by resting flow, have been used to assess the functional significance of coronary artery lesions. However, functional assessment of epicardial coronary lesions is limited by several factors, such as diffuse coronary artery disease, small-vessel disease, regional variations in myocardial flow, endothelial dysfunction, and left ventricular hypertrophy. CFR can be measured by several techniques, each one with distinct advantages and limitations, which are discussed in this review. An important distinction is between techniques that measure coronary blood flow (e.g., positron emission tomography) and those that measure blood flow velocity (e.g., Doppler catheters), from which coronary velocity reserve (CVR) is calculated. Although clinical CFR measurements have been possible for over fifteen years, their implementation in patient care has been slow due to several factors including the requirement for a sophisticated technology, the difficult interpretation of CFR results, and the limited knowledge of their prognostic value. While a normal CFR in patients with single vessel coronary disease is associated with a good prognosis, the converse has not been established, i.e., that there is a critical reduction in CFR that requires interventional treatment. A recent study (DEBATE) showed a decrease in the incidence of cardiac events at 6 months after coronary balloon angioplasty in patients with a post-procedural percent diameter stenosis < 35% and a CVR > 2.5. The complex relation between coronary anatomy, myocardial perfusion, and patient outcome have enormous implications for both patient care and health costs, which need to be addressed in future prospective trials.     

Immunologic response to the dual murine anti-Id vaccine Melimmune-1 and Melimmune-2 in patients with high-risk melanoma without evidence of systemic disease

Medical imaging is now giving access not only to anatomy but also to functions of organs in the human body. Functional imaging may yield a direct appreciation of the function of a given organ, as is the case when measuring ejection fraction of heart with SPECT. Alternately the approach is indirect. This is the case of cerebral functional imaging, either with PET or NMR, where the perfusion increase induced by neuronal activity is detected. Recent developments of NMR, combining imaging and spectroscopy, allow now to detect modification of physiological parameters induced by muscular activity. Indirect detection of muscle activity is very rich in information alternately requiring invasive techniques. Water shifts resulting from intense exercise are detected either from muscle volume increase or water signal modifications, using simple NMR sequences. Then it is easy to identify which muscle is involved in a given protocol. These water shifts, studied in various muscles and several types of exercise protocols, reflect the perfusion increase induced by exercise, and the contribution of metabolic products such as lactate. In some patients with metabolic myopathies a decreased adaptation of perfusion has been detected. Perfusion measurements, previously performed by using venous occlusion plethysmography or radioactive tracers, now benefit from recently developed MR techniques. Oxygenation of muscle may be measured either by spectroscopy of myoglobin, allowing a time resolution of 1 second, or by spectroscopic imaging allowing a spatial resolution of 1-2 cm in a few minutes. Muscle temperature may be non invasively monitored by diffusion-weighted MR. Direct detection of muscle activity is useful only in those muscles that cannot be directly observed. Ultrafast MR imaging may be used to study vocal cords or oculomotor muscles. More interesting is the measurement of contractility, either in myocardium or skeletal muscle, allowed by MR with spin-tagging. Another contribution of MR to muscle studies is the possibility to quantify muscle cross section and muscle volume, in order to normalize strength or metabolism measurements. Sequences using T1 or T2 differences between muscular and adipose tissue allow to quantify the true muscular volume in patients with neuromuscular disorders. Protocols combining several of these parameters by interleaved NMR measurements of perfusion, phosphorylated metabolites, lactate, myoglobin, now open the way to many comprehensive non-invasive pathophysiological studies.     

Detection of coronary stenoses on source and projection images using three-dimensional MR angiography with retrospective respiratory gating: preliminary experience

OBJECTIVE: Our objective was to study the ability of three-dimensional MR angiography with retrospective respiratory gating to reveal stenoses in proximal coronary arteries on source and projection images. CONCLUSION: Proximal coronary artery stenoses can be identified using three-dimensional MR angiography with retrospective respiratory gating, both with projection images and on source images alone. Reasons for missed lesions included collateral vessels and retrograde flow distal to complete occlusion and volume averaging of vessels with adjacent structures. Causes of false-positive interpretations included small foci of decreased signal intensity distal to complete occlusion, partial volume effects on individual partitions, and regions of distal vessels leaving the imaging plane.     

The spread of methicillin-resistant Staphylococcus aureus in a rural community: will it become a common microorganism colonizing among the general population?

Myocardial perfusion imaging with 99mTc-MIBI was studied in 80 patients with coronary artery disease (CAD), 29 cases of normal controls and 37 cases of noncoronary heart diseases. The perfusion imaging was analysed both by qualitative and quantitative methods. The results revealed that the diagnostic sensitivity, specificity and accuracy for CAD were 91.5%, 83.8%, and 88.5% respectively by qualitativ method, and were 88.1%, 94.6% and 90.6% respectively by quantitative method. The diagnostic sensitivity of electrocardiogram (ECG) was 69.5%. Fourteen cases with the narrowing of coronary artery > 50% shown by coronary angiography also had abnormal myocardial perfusion imaging. It suggests that analysis of perfusion imaging by quantitative method in detecting CAD is superior than qualitative method and ECG.     

Computerised infrared imaging system for studying thermal activation on the skull following somatic stimulation in small animals

Stress radionuclide myocardial perfusion imaging and stress echocardiography are noninvasive imaging techniques with high diagnostic and prognostic utility. Previously, patient cohorts for studies using these methods have comprised predominantly men, but recent investigations have focused on women. Stress myocardial perfusion imaging is highly accurate for diagnosing coronary disease in women, particularly with newer techniques such as gated single-photon emission computed tomography, and has been shown to be a powerful prognostic predictor in both women and men. Comparable data for stress echocardiography are emerging. Older studies reported that for similar image findings fewer women than men were referred for invasive procedures, however, newer studies suggest an absence of such a gender bias. Further developments in attenuation correction for perfusion imaging and phase-contrast magnetic resonance imaging promise to enhance the utility of noninvasive imaging for both men and women.     

Sevoflurane selectively increases coronary collateral blood flow independent of KATP channels in vivo

BACKGROUND: Volatile anesthetic agents produce coronary vasodilation via activation of adenosine triphosphate-sensitive potassium (KATP) channels. The authors tested the hypothesis that sevoflurane selectively increases coronary collateral blood flow and assessed the role of KATP channel activation in this process. METHODS: Experiments were conducted in dogs 8 weeks after long-term implantation of a left anterior descending coronary artery (LAD) ameroid constrictor to stimulate coronary collateral growth. Dogs were instrumented for measurement of retrograde LAD blood flow (an index of large coronary collateral blood flow) and LAD tissue flow (via radioactive microspheres; an index of small collateral blood flow). Coronary collateral perfusion and normal (left circumflex coronary artery [LCCA]) zone tissue blood flow were determined in four groups of dogs pretreated with intracoronary glyburide (50 microg/kg) or vehicle in the presence or absence of sevoflurane (1 minimum alveolar concentration). Dose-response relationships to the KATP channel agonist nicorandil were established in each dog using doses (25, 50, and 100 microg/min) previously shown to increase coronary collateral blood flow. RESULTS: Sevoflurane increased blood flow through large and small collaterals and increased collateral vascular conductance in the presence of glyburide but did not affect LCCA blood flow or conductance. In contrast, nicorandil increased blood flow through small but not large collaterals. Nicorandil also increased LCCA blood flow and conductance, actions that were attenuated by glyburide. CONCLUSIONS: The results demonstrate that sevoflurane selectively increases large and small coronary collateral blood flow via mechanism(s) independent of KATP channel activation.     

Physiologic and clinical significance of myocardial blood flow quantitation: what is expected from these measurements in the clinical ward and in the physiology laboratory?

In this essay we review data on absolute quantitation of myocardial blood flow (MBF) in humans. Earlier work established that coronary heart disease (CAD) can be detected by coronary angiography and that this disease has characteristic features at rest and during stress, which indicate the linkage between regional metabolic needs and myocardial perfusion. In the 1970s myocardial perfusion was mapped in patients with radioxenon, but this method had significant technical limitations. About the same time, radioactive microspheres were introduced for cardiovascular research and investigations; these particles provided insights on MBF in acute infarction and ischemia, myocardial reperfusion, collateral circulation, myocardial blood flow during exercise, coronary flow reserve (CFR), and layer-to-layer distribution of MBF. Studies with microspheres also permitted investigators to establish the presence in the heart of MBF heterogeneity. Currently, there are several techniques that aim at extending these concepts into clinical investigation. Two of these techniques, i.e. Doppler coronary flow velocity and fast magnetic resonance imaging assess epicardial flow dynamics and CFR. Contrast myocardial echocardiography is another novel technique which has been useful in mapping the area at risk, reperfusion, myocardial viability and collateral circulation. This essay also considers the emerging technique of intracoronary ultrasound which has shown evidence of disease underestimation by conventional contrast angiography. Positron emission tomography (PET) is a noninvasive technique that uniquely and quantitatively maps myocardial perfusion and CFR. The latter can be computed before and after angioplasty. PET studies have further demonstrated that chronic myocardial ischemia does not exist as a distinct state in patients with CAD. From the above investigations the concept has arisen that not only is CAD an entity involving epicardial vessels but also, in a significant portion of patients, an abnormal microcirculation plays an important role in the pathogenesis of ischemic syndromes. PET studies have relatively low spatial resolution since they cannot resolve layer-to-layer absolute MBF.     

Coronary MR angiography

Coronary MR angiography is a new noninvasive diagnostic method in rapid evolution. It has the potential to combine structural information with functional assessment of coronary blood flow. Advances in technology will undoubtedly lead to enhanced resolution, improved accuracy, and shorter scan times. It is certain that coronary MR angiography will be a prominent diagnostic clinical tool in the years to come.     

Effects of dihydrotestosterone alone and combined with estrogen on bone mineral density, bone growth, and formation rates in ovariectomized rats

The combination of fast MR sequences and rapid i.v. injection of paramagnetic contrast media provides information on cerebral perfusion. MR-perfusion imaging primarily depicts the relative cerebral blood volume. The aim of this study was to test whether MR-perfusion imaging with a clinical MR scanner using a standard 2D-FLASH sequence provides clinically relevant information on patients with cerebrovascular diseases and brain tumors. Brain infarctions, lesions in cerebral microangiopathy and occlusions of the carotid artery with very poor collateralization showed definite differences in perfusion imaging compared with normal controls. However, our results show that acceleration of the imaging sequence and optimization of the contrast bolus and data processing are prerequisites for the clinical use of this method, which in principle may provide information on the absolute cerebral blood volume and even blood flow.     

Coarctation of the aorta: collateral flow assessment with phase-contrast MR angiography

OBJECTIVE: The purpose of this report is to describe a new use of MR imaging in coarctation of the aorta. The specific question addressed was how well collateral blood flow in intercostal arteries, as determined by phase-contrast MR angiography, correlated with findings during surgery or catheterization in patients with coarctation of the aorta. CONCLUSION: Phase-contrast MR angiography is an excellent technique for detecting the presence or absence of collateral blood flow in the intercostal arteries of patients with coarctation of the aorta. Knowing whether collateral blood flow is present in patients with narrowing of the juxtaductal aorta should help assess the clinical hemodynamic significance of the coarctation.     

MR first pass imaging: quantitative assessment of transmural perfusion and collateral flow

Recent advances with fast switching gradient coils, and the optimization of magnetic resonance techniques for multislice imaging have made it possible to apply models of contrast agent transit for the quantification of myocardial perfusion, and determination of the transmural distribution of blood flow. This article summarizes some of these recent developments and presents examples of quantitative, multi-slice myocardial perfusion imaging studies in patients and animal models. Multi-slice, true first pass imaging, with high temporal resolution, and T1-weighted, arrhythmia insensitive contrast enhancement is used for the quantification of perfusion changes accompanying mild to severe ischemia. The first pass imaging technique and the modeling approach are sufficiently robust for fitting of tissue residue curves corresponding to a wide, physiologically realistic range of myocardial blood flows. In animals this was validated by comparison to blood flow measurements with radiolabeled microspheres as gold standard. It is demonstrated that with the proposed modeling approach one can determine the myocardial perfusion reserve from two consecutive MR first pass measurements under resting and hyperemic conditions. In patients with microvascular dysfunction the MR studies show for the first time that the myocardial perfusion reserve correlates with Doppler flow measurements (linear regression with slope of 1.02 +/- 0.09; r = 0.80). Since perfusion limitations usually begin in the subendocardium as coronary flow is gradually reduced, first pass imaging with the prerequisitie spatial and temporal resolution allows early detection of a mild coronary stenosis.     

Cost effectiveness of magnetic resonance imaging of the knee

When compared to diagnostic arthroscopy in patients with knee complaints consistent with internal derangement, MR imaging emerges as a cost effective diagnostic supplement to clinical examination. This article concludes that the results of MR imaging can be used as a guide for the management of knee pain.     

Imaging of nodal metastases in the head and neck

Therapeutic outcome of head and neck cancer is influenced strongly by the presence of nodal metastases. Sensitivity and specificity of the physical examination for the diagnosis of nodal metastasis is unsatisfactory, resulting in both false negatives and false positives of 25 to 40%. Preoperative detection of nodal metastases therefore becomes one of the important goals of imaging studies of patients with head and neck cancer. Despite several advanced techniques and the wide clinical use of MR, MR has surprisingly added little to the diagnostic accuracy of contrast-enhanced CT. Although CT and MR allow detection of abnormally enlarged nodes or necrotic nodes, neither borderline-sized nodes without necrosis nor extracapsular spread are reliably differentiated from reactive or normal nodes in patients with head and neck cancer. Lack of definitive diagnostic methods of metastatic lymph nodes is a serious shortcoming in the preoperative workup for patients with head and neck cancer. To avoid missing small metastatic nodes, a large number of patients clinically staged as N0 have undergone elective neck dissection to exclude metastases. With development of more tissue-specific imaging techniques, patients can be better characterized according to the status of nodal disease so that an appropriate therapeutic protocol can be designed for an individual case.     

Utility of magnetic resonance in the etiologic diagnosis of hypopituitarism

The diagnosis of hypothalamic-pituitary disorders relies on a combination of clinical and biochemical data and imaging techniques. During the last decade, computed tomography (CT) has been the best technique for the evaluation of the hypothalamuspituitary region, but in recent years magnetic resonance (MR) has improved the diagnostic efficiency of CT. We retrospectively review the clinical records of 40 hypopituitary patients from the endocrinology unit of our hospital. The aim of the present study was to establish the role of MR in the etiologic diagnosis and anatomic definition of hypopituitarism, when compared with CT. Secondarily, we studied the different pituitary hormones in this condition. The diagnoses were: 12 postsurgical hypopituitarism, 10 empty sella turcica, 7 Sheehan's syndrome, 5 idiopathic hypopituitarism, 3 pituitary disgenesis, 2 craniopharyngioma and 1 macroprolactinoma. GH was the most commonly affected hormone, followed by gonadotrophins, corticotrophin and thyrotrophin (100%, 94%, 76% and 68% respectively). In 24 patients both MR and CT studies were performed. MR was diagnostic in 22 patients, and CT in 15 patients (p < 0.05). MR offered improved diagnostic or anatomical data in 16 patients of the 24 in whom both techniques were performed (p < 0.05). We conclude that MR allows a better definition of the hypothalamus-pituitary region than CT, contributing to the etiologic diagnosis and improving the anatomical findings. Empty sella turcica should be considered a common cause of hypopituitarism.