Your search keyword '"Microscopy, Acoustic methods"' showing total 619 results

601. Characterization of cardiovascular liver motion for the eventual application of elasticity imaging to the liver in vivo.

Author

Kolen AF, Miller NR, Ahmed EE, and Bamber JC

Subjects

Algorithms, Artifacts, Elasticity, Humans, Image Enhancement methods, Microscopy, Acoustic methods, Myocardial Contraction physiology, Reproducibility of Results, Sensitivity and Specificity, Echocardiography methods, Heart physiology, Image Interpretation, Computer-Assisted methods, Liver diagnostic imaging, Liver physiology, Movement physiology, Subtraction Technique

Abstract

Elastography, which uses ultrasound to image the tissue strain that results from an applied displacement, can display tumours and heat-ablated tissue with high contrast. However, its application to liver in vivo may be problematic due to the presence of respiratory and cardiovascular sources of displacement. The aim of this study was to measure the cardiovascular-induced component of natural liver motion for the purpose of planning future work that will either use the motion to produce elasticity images or will compensate for it when employing an external source of displacement. A total of 36 sequences of 7 s real-time radio frequency (RF) echo images of the liver were acquired from six healthy volunteers during breath-hold using a stationary 3.5 MHz transducer. For each image sequence, the axial and lateral components of displacement were measured for each pair of consecutive RF images using 2D-echo tracking. The spatio-temporal character of these displacements was then analysed using a novel approach, employing proper orthogonal decomposition, whereby the dominant motion patterns are described by eigenvectors with the highest eigenvalues. The motion patterns of different liver segments were complex, but they were also found to be cyclic, highly repeatable and capable of producing measurable displacements in the liver. These observations provide good evidence to suggest that it may be possible to correct for natural liver motion when using an externally applied displacement for elasticity imaging. It was also found that about 65%-70% of all liver motion could be described using the first eigenvector. Use of only this component of the motion will greatly simplify the design of a mechanical system to be used in an objective study of elasticity imaging of phantoms and excised tissues in the presence of simulated cardiovascular-induced liver motion.

Published

2004

602. Biological effects of high-frequency ultrasound exposure during mouse organogenesis.

Author

Brown AS, Reid AD, Leamen L, Cucevic V, and Foster FS

Subjects

Animals, Biometry, Body Temperature physiology, Body Weight, Female, Gestational Age, Litter Size, Mice, Mice, Inbred Strains, Microscopy, Acoustic methods, Pregnancy, Ultrasonography, Doppler methods, Fetal Development physiology, Ultrasonics

Abstract

Little has been reported on bioeffects of high-frequency ultrasound (US) and guidelines for US use do not necessarily apply to high frequencies. Pregnant CD-1 mice were exposed to Doppler or B-mode US biomicroscopy (UBM) on embryonic day (E) 8.5 or E10.5, during organogenesis. Operating frequency was 40 MHz with a free field I(SPTA) of 11.9 W/cm(2) (Doppler) and 2.6 mW/cm(2) (B-mode), peak negative pressures of 6.61 MPa and MI of 1.05 (B-mode). Offspring were assessed weekly from 1 day postnatally to euthanasia at 6 weeks, with no significant difference in pup weight, body length or crown-rump length observed. E8.5 Doppler-exposed mice showed a small reduction in weight and length at 3 weeks and in weight at 6 weeks. E10.5 Doppler-exposed animals exhibited slight growth reduction in weeks 2 to 4, but were not significantly different at 6 weeks. Our results indicate similar exposures of mice should not cause significant adverse bioeffects.

Published

2004

603. Identification of hibernating myocardium by acoustic microscopy.

Author

Ng DW, Sathish S, Khan A, Chandrasoma P, Wijns W, and Chandraratna PA

Subjects

Glycogen analysis, Humans, Myocytes, Cardiac diagnostic imaging, Myocytes, Cardiac physiology, Myofibrils diagnostic imaging, Pilot Projects, Vacuoles diagnostic imaging, Microscopy, Acoustic methods, Myocardial Stunning diagnostic imaging

Abstract

Hibernating myocardium is viable myocardium that recovers after revascularization. The observation of loss of contractile proteins (myofibrils) and accumulation of glycogen in hibernating cardiomyocytes provide the basis for diagnosing hibernating myocardium. In this pilot study, acoustic microscopy was used to identify the cellular structure of normal vs. hibernating myocardium. Sections cut at 5-microm of archival paraffin blocks on glass slides were used for this study. Acoustic microscopy of normal cardiomyocytes showed intracellular linear echoes suggestive of myofibrils, and cardiomyocytes of hibernating myocardium revealed absence of myofibrils and dense intracellular echoes that corresponded to glycogen accumulation on optical microscopy. This modality of visualization allows a definitive diagnosis of hibernating myocardium.

Published

2004

604. Possible temperature effects computed for acoustic microscopy used for living cells.

Author

Kujawska T, Wójcik J, and Filipczyński L

Subjects

Acoustics, Animals, Hot Temperature, Microscopy, Acoustic instrumentation, Pressure, Cells diagnostic imaging, Microscopy, Acoustic methods, Models, Biological, Temperature

Abstract

Imaging of living cells or tissues at a microscopic resolution, where GHz frequencies are used, provides a foundation for many new biological applications. The possible temperature increase causing a destructive influence on the living cells should be then avoided. However, there is no information on possible local temperature increases at these very high frequencies where, due to strongly focused ultrasonic beams, nonlinear propagation effects occur. Acoustic parameters of living cells were assumed to be close to those of water; therefore, the power density of heat sources in a water medium was determined as a basic quantity. Hence, the numerical solution of temperature distributions at the frequency of 1 GHz was computed for high and low powers generated by the transducer equal to 0.32 W and 0.002 W. In the first case, typical nonlinear propagation effects were demonstrated and, in the second one, propagation was almost linear. The focal temperature increase obtained in water equaled 14 degrees C for the highest possible theoretical repetition frequency of fr = 10 MHz and for the thermal insulation at the sapphire lens-water boundary. Simultaneously, the scanning velocity of the tested object was assumed to be incomparably low in respect to the acoustic beam velocity. The maximum temperature increase in water occurred exactly at this boundary, being equal there to 20 degrees C. It was shown that, first of all, the very high absorption of water was significant for the temperature distribution in the investigated region, suppressing the focal temperature peaks. Because the temperature increases are proportional to the repetition frequency, so for example, at its practical value of fr = 0.1 MHz, all temperature increases will be 100 times lower than listed above. For the low transducer power of 0.002 W, the corresponding temperature increases were about 140 times lower than those for the high power of 0.32 W. The presented solutions are devoted mainly to the reflection pulse mode; however, they can be also applied for the transmitting (continuous-wave) mode, as shown in an example. Pressure distributions were computed for the acoustic field of the microscope for the first and higher harmonics. Hence, at the frequency of 1 GHz, the effective focal radius in water measured as the -6-dB amplitude pressure drop was found to be 1,1 microm, and 0.7 microm for the second harmonic, independently of the assumed transducer power. So the width of the beam, scanning the living cells in the focal region, was equal to 2.2 microm at the fundamental frequency of 1 GHz.

Published

2004

605. [A new method for small displacement test and measurement based on the light reflection theory].

Author

Chen RW, Sun YF, and Chen Y

Subjects

Biomechanical Phenomena, Equipment Failure Analysis, Fiber Optic Technology methods, Materials Testing methods, Microscopy, Acoustic economics, Microscopy, Acoustic methods, Nanotechnology, Optical Fibers, Ultrasonics, Kinetics, Light, Materials Testing economics, Scattering, Radiation

Abstract

A new idea for small displacement test and measurement system based on light reflection is presented in this paper. Some theoretical researches using the method and experiments in practice were carried out. The results proved that the theory is feasible and efficient. Compared with the traditional small displacement test and measurement system, such as mechanical displacement magnifier; resistance strain test and measurement method; piezoelectric material strain test and measurement system and so on, this method has the following advantages: it creates little disturbance of the test and measurement system; the displacement magnification coefficient is high and is convenient for user to adjust; the test and measurement precision is high and is very easy for its realization; and the cost is low. It fits a lot of test and measurement situations.

Published

2004

606. A high-frequency, 2-D array element using thermoelastic expansion in PDMS.

Author

Buma T, Spisar M, and O'Donnell M

Subjects

Computer Simulation, Elasticity, Equipment Design, Feasibility Studies, Models, Theoretical, Reproducibility of Results, Sensitivity and Specificity, Thermal Conductivity, Dimethylpolysiloxanes radiation effects, Lasers, Microscopy, Acoustic instrumentation, Microscopy, Acoustic methods, Silicones radiation effects, Transducers

Abstract

Optical generation of ultrasound is a promising alternative to piezoelectricity for high-frequency arrays. An array element is defined by the size and location of a laser beam focused on a suitable surface. Optical generation using the thermoelastic effect has traditionally suffered from low conversion efficiency. We previously demonstrated an increase in conversion efficiency of nearly 20 dB with an optical absorbing layer consisting of a mixture of polydimethylsiloxane (PDMS) and carbon black spin coated onto a glass microscope slide. Radiation pattern measurements with an 85 MHz spherically focused transducer indicated an array element size of 20 microm. These measurements lacked the spatial resolution required to reveal fine details in the radiated acoustic field. Here we report radiation pattern measurements with a 5-microm spatial sampling, showing that the radiated acoustic field is degraded by leaky Rayleigh waves launched from the PDMS/glass interface. We demonstrate that replacing the glass with a clear PDMS substrate eliminates the leaky Rayleigh waves, producing a broad and smooth radiation pattern suitable for a two-dimensional (2-D) phased array operating at frequencies greater than 50 MHz.

Published

2003

607. Chronological age modifies the microscopic remodeling process in viable cardiac tissue after infarction.

Author

Handley SM, Ngo F, McLean M, Hall CS, Allen J, Crowder K, Miller JG, Lin SJ, Hughes MS, and Wickline SA

Subjects

Animals, Cell Size, Collagen analysis, Microscopy, Acoustic methods, Muscle Cells pathology, Myocardial Infarction diagnostic imaging, Myocardial Infarction pathology, Myocardium chemistry, Rats, Rats, Inbred F344, Aging, Myocardial Infarction physiopathology, Ventricular Remodeling

Abstract

To define the impact of age on microscopic structural remodeling after myocardial infarction, the physical properties of infarct scar tissue and viable remote zone tissues in young (3 months) and older adult (18 months) Fischer rats were quantified with the use of high-frequency (50 MHz) high-resolution acoustic microscopy 3 months after coronary artery occlusion. We observed that integrated backscatter increased by 100% in the viable zones of old animals after infarction, but remained relatively unaffected in the same regions of younger animals. Mathematical models of myocardial scattering behavior indicated that a 25% increase in stiffness of the extracellular matrix materials in viable zones likely occurred in the older animals. Alterations in gross tissue collagen content were not responsible for this increased stiffness. These observations are compatible with the hypothesis that progressive age-related changes in the quality of the collagen (e.g., excessive age-related crosslinking) rather than its amount per se may have altered the stiffness of the extracellular matrix of remodeled viable tissue in older animals.

Published

2003

608. An acoustic wave sensor incorporated with a microfluidic chip for analyzing muscle cell contraction.

Author

Li PC, Wang W, and Parameswaran Ash M

Subjects

Animals, Cell Size, Microscopy, Acoustic methods, Rats, Myocardial Contraction, Myocytes, Cardiac cytology

Abstract

We report the fabrication of a microfluidic chip or lab-on-a-chip integrated with a thickness-shear mode (TSM) acoustic wave sensor for muscle cell analysis. The sensor, essentially an AT-cut quartz crystal, serves as a detector for recording changes in acoustic wave properties occurring in an attached cardiomyocyte (single heart muscle cell) during its contraction and relaxation. Presumably, the changes resulted from alterations in viscoelastic properties (e.g. stiffness) of the cells. The effects of excitation electrode size, the presence of a microfluidic channel plate, and liquid loading on the sensor were first examined. Thereafter, muscle cell contraction analysis upon chemical stimuli were described. The potential of the chip for screening of cardiovascular drugs is discussed.

Published

2003

609. Onset of cardiac function during early mouse embryogenesis coincides with entry of primitive erythroblasts into the embryo proper.

Author

Ji RP, Phoon CK, Aristizábal O, McGrath KE, Palis J, and Turnbull DH

Subjects

Animals, Aorta embryology, Aorta physiology, Blood Circulation physiology, Blood Flow Velocity physiology, Cell Movement physiology, Embryo, Mammalian blood supply, Heart Rate, Fetal, In Situ Hybridization, Mice, Microscopy, Acoustic methods, Time Factors, Ultrasonography, Doppler, Ultrasonography, Prenatal, Erythroblasts cytology, Heart embryology, Heart physiology, Myocardium cytology, Organogenesis physiology

Abstract

When cardiac function and blood flow are first established are fundamental questions in mammalian embryogenesis. The earliest erythroblasts arise in yolk sac blood islands and subsequently enter the embryo proper to initiate circulation. Embryos staged 0 to 30 somites (S) were examined in utero with 40- to 50-MHz ultrasound biomicroscopy (UBM)-Doppler, to determine onset of embryonic heartbeat and blood flow and to characterize basic physiology of the very early mouse embryonic circulation. A heartbeat was first detected at 5 S, and blood vascular flow at 7 S. Heart rate, peak arterial velocity, and velocity-time integral showed progressive increases that indicated a dramatically increasing cardiac output from even the earliest stages. In situ hybridization revealed an onset of the heartbeat coincident with the appearance of yolk sac-derived erythroblasts in the embryo proper at 5 S. Early maturation of the circulation follows a tightly coordinated program.

Published

2003

610. Preliminary results using ultrasound transmission for image-guided thermal therapy.

Author

King RL, Clement GT, Maruvada S, and Hynynen K

Subjects

Animals, Cattle, Feasibility Studies, Rabbits, Swine, Ultrasonic Therapy instrumentation, Catheter Ablation methods, Imaging, Three-Dimensional instrumentation, Microscopy, Acoustic methods, Ultrasonic Therapy methods, Ultrasonography, Interventional methods

Abstract

The feasibility of using an acoustic camera as a real-time imaging device for thermal surgery was investigated. The study compares camera images of tissue samples taken before, during and after a volume of tissue was thermally coagulated using focused ultrasound (US). This apparatus has analogous acoustic counterparts to an optical charge couple device (CCD) camera. The setup was operated in transmission mode, with a tissue sample placed between the camera and a 10-MHz illuminating transducer. A high-intensity continuous-wave US signal from a therapeutic transducer was focused inside the sample tissue. A reversible, time-dependent variation in image intensity was observed in the region of the therapeutic sonications in all tissues tested: bovine fat and porcine and rabbit livers. Correlations between image intensities and temperatures were shown; rabbit liver resulted in a correlation coefficient (R(2)) of 0.6694 and bovine fat resulted in an R(2) of 0.9455. When temperatures high enough to coagulate tissue were reached, permanent changes in the images were observed. Lesion locations and dimensions from the images were found to be comparable to the sectioned tissue samples. An R(2) of 0.919 resulted when lesion size detected from the camera was compared to the actual lesion size. Preliminary results may indicate that the camera has an application for monitoring thermal surgery.

Published

2003

611. The role of ultrasound in molecular imaging.

Author

Liang HD and Blomley MJ

Subjects

Animals, Contrast Media, Drug Delivery Systems methods, Genetic Therapy methods, Humans, Microbubbles, Microscopy, Acoustic methods, Neovascularization, Physiologic physiology, Ultrasonography, Doppler methods, Molecular Biology methods, Ultrasonography methods

Abstract

Ultrasound has received less attention than other imaging modalities for molecular imaging, but has a number of potential advantages. It is cheap, widely available and portable. Using Doppler methods, flow information can be obtained easily and non-invasively. It is arguably the most physiological modality, able to image structure and function with less sedation than other modalities. This means that function is minimally disturbed, and multiple repeat studies or the effect of interventions can easily be assessed. High frame rates of over 200 frames a second are achievable on current commercial systems, allowing for convenient cardiac studies in small animals. It can be used to guide interventional or invasive studies, such as needle placement. Ultrasound is also unique in being both an imaging and therapeutic tool and its value in gene therapy has received much recent interest. Ultrasound biomicroscopy has been used for in utero imaging and can guide injection of virus and cells. Ultrahigh frequency ultrasound can be used to determine cell mechanical properties. The development of microbubble contrast agents has opened many new opportunities, including new functional imaging methods, the ability to image capillary flow and the possibility of molecular targeting using labelled microbubbles.

Published

2003

612. Ultrasound biomicroscopic study of ciliary body changes in the post-treatment phase of Vogt-Koyanagi-Harada disease.

Author

Wada S, Kohno T, Yanagihara N, Hirabayashi M, Tabuchi H, Shiraki K, and Miki T

Subjects

Adult, Anterior Chamber diagnostic imaging, Anterior Chamber pathology, Choroid diagnostic imaging, Choroid pathology, Ciliary Body pathology, Female, Humans, Male, Microscopy, Acoustic methods, Middle Aged, Uveomeningoencephalitic Syndrome pathology, Ciliary Body diagnostic imaging, Uveomeningoencephalitic Syndrome diagnostic imaging

Abstract

Aims: To investigate the usefulness of ultrasound biomicroscopy for evaluating changes in the ciliary body in patients with Vogt-Koyanagi-Harada disease., Methods: Ultrasound biomicroscopy was used to evaluate 14 eyes of seven patients diagnosed with Vogt-Koyanagi-Harada disease. Cross sectional images of the ciliary body and thickness of the pars plana 3.0 mm posterior to the scleral spur were examined. Predicted thickness of the pars plana was obtained by multiple linear regression analysis of thickness in the acute phase and in the remission phase., Results: In the active phase, the cross sectional images showed a shallow anterior chamber in eight of the 14 eyes, ciliochoroidal detachment in five eyes, and a thickened ciliary body in all 14 eyes. Internal reflectivity of the ciliary stroma was low, with ciliary processes being unclear in 13 eyes. One month after steroid treatment, slit lamp examination findings were normal in 14 eyes. 10 eyes of five patients were examined by ultrasound biomicroscopy at this stage. Ciliochoroidal detachment was no longer seen in any eye. Internal reflection of the ciliary stroma became relatively homogeneous, and the ciliary processes were seen, though not clearly. However, the pars plana remained thickened. The actual thickness was greater at 1 month after steroid treatment than the predicted thickness for the remission phase. In the remission phase, the internal reflection was homogeneous and the ciliary processes were delineated clearly in all 14 eyes., Conclusion: Objective, quantitative evaluation of the ciliary body is possible with ultrasound biomicroscopy during the course of Vogt-Koyanagi-Harada disease. Ultrasound biomicroscopy is useful in determining disease activity in the anterior segment and in monitoring the clinical course, and it may improve evaluation of the efficacy of treatment.

Published

2002

613. Experimental evaluation of human teeth using noninvasive ultrasound: echodentography.

Author

Ghorayeb SR and Valle T

Subjects

Dental Restoration, Permanent, Humans, In Vitro Techniques, Models, Biological, Dental Caries diagnostic imaging, Dental Pulp Calcification diagnostic imaging, Microscopy, Acoustic methods, Molar diagnostic imaging, Tooth Fractures diagnostic imaging

Abstract

Anomalies present in the hard tissue of teeth are manifested in several ways such as cavities, decay, and caries. The most extensively and commonly used diagnostic modality for the assessment of these abnormalities are x-rays. Unfortunately, these rays are harmful to the human body and may be a source of health risk. This work describes the development of a new testing technique that uses ultrasound designed to complement, or even replace, existing tools used in dentistry applications. Previous studies have shown several models of acoustic field simulation, propagation, and interaction of ultrasound with the layers of several tooth structures. In this paper, experimental data is gathered for the purpose of assessing the viability of this technique in an attempt to detect cavities and fractures in extracted human teeth. A low-intensity, high-frequency ultrasonic set-up is used in all in vitro tests. Four cases have been examined: an intact tooth, a tooth containing an amalgam restoration and a natural surface fissure, a tooth containing a machine side-drilled hole that mimics a cavity, and a calcified tooth--a rare naturally occurring condition. Upon analysis of the obtained A-scans and B-scans, it is verified that these experimental measurements confirm predictions reported in earlier finite element and transmission line studies and suggest that ultrasound is a valuable tool which has the potential to be an addition to, or even an improvement upon, current dental imaging systems.

Published

2002

614. Measurement of the ultrasonic properties of human coronary arteries in vitro with a 50-MHz acoustic microscope.

Author

Machado JC, Foster FS, and Gotlieb AI

Subjects

Adult, Aged, Aged, 80 and over, Cadaver, Coronary Artery Disease diagnostic imaging, Coronary Artery Disease pathology, Female, Humans, Image Processing, Computer-Assisted, Male, Middle Aged, Models, Cardiovascular, Tunica Intima diagnostic imaging, Coronary Vessels diagnostic imaging, Microscopy, Acoustic methods

Abstract

Ultrasonic attenuation coefficient, wave propagation speed and integrated backscatter coefficient (IBC) of human coronary arteries were measured in vitro over the -6 dB frequency bandwidth (36 to 67 MHz) of a focused ultrasound transducer (50 MHz, focal distance 5.7 mm, f/number 1.7). Corrections were made for diffraction effects. Normal and diseased coronary artery sub-samples (N = 38) were obtained from 10 individuals at autopsy. The measured mean +/- SD of the wave speed (average over the entire vessel wall thickness) was 1581.04 +/- 53.88 m/s. At 50 MHz, the average attenuation coefficient was 4.99 +/- 1.33 dB/mm with a frequency dependence term of 1.55 +/- 0.18 determined over the 36- to 67-MHz frequency range. The IBC values were: 17.42 +/- 13.02 (sr.m)-1 for thickened intima, 11.35 +/- 6.54 (sr.m)-1 for fibrotic intima, 39.93 +/- 50.95 (sr.m)-1 for plaque, 4.26 +/- 2.34 (sr.m)-1 for foam cells, 5.12 +/- 5.85 (sr.m)-1 for media and 21.26 +/- 31.77 (sr.m)-1 for adventitia layers. The IBC results indicate the possibility for ultrasound characterization of human coronary artery wall tissue layer, including the situations of diseased arteries with the presence of thickened intima, fibrotic intima and plaque. The mean IBC normalized with respect to the mean IBC of the media layer seems promising for use as a parameter to differentiate a plaque or a thickened intima from a fibrotic intima.

Published

2002

615. Quantitative imaging of Rayleigh wave velocity with a scanning acoustic microscope.

Author

Sathish S and Martin RW

Subjects

Alloys, Crystallography instrumentation, Materials Testing instrumentation, Microscopy, Acoustic instrumentation, Crystallography methods, Glass chemistry, Materials Testing methods, Microscopy, Acoustic methods, Models, Theoretical, Titanium chemistry

Abstract

An acoustic microscope operating with impulse excitation has been used to perform measurements of the Rayleigh wave velocity by measuring the time difference between the direct reflected signal and the Rayleigh wave signal. The accuracy and precision of the methodology have been examined by performing measurements at a single location on an elastically isotropic sample of E6 glass. The accuracy of the Rayleigh wave velocity measurement has been determined to be better than 0.5%. The measured Rayleigh wave velocity of (3035+/-5) m/s differs by 0.3% from measurements reported in the literature for a similar sample, using two different techniques. The methodology has been extended to acquire the Rayleigh wave velocity while raster scanning the sample to develop a quantitative velocity image. The background noise in the Rayleigh wave velocity image has been investigated by mapping the velocity on elastically isotropic E6 glass. Possible reasons for background noise in the images is discussed. The methodology has been extended to acquire quantitative Rayleigh wave velocity images on Ti-6Al-4V. The contrast in the images is attributed to the variation of the Rayleigh wave velocity in individual grains or regions. Applicability of the technique to investigate crystallographic texture in materials is discussed.

Published

2002

616. Microscopy.

Author

Saijo Y and Chubachi N

Subjects

Elasticity, Humans, Microscopy, Acoustic instrumentation, Transducers, Microscopy, Acoustic methods

Published

2000

617. [Comparison of results of chamber angle examination by ultrasound biomicroscopy and gonioscopy].

Author

Wang N, Ye T, Lai M, Ou Y, Zeng M, and Yang C

Subjects

Adult, Aged, Anterior Chamber anatomy & histology, Female, Humans, Male, Middle Aged, Anterior Chamber diagnostic imaging, Gonioscopy methods, Microscopy, Acoustic methods

Abstract

Objective: To compare the consistency of the chamber angles examined by ultrasound biomicroscope (UBM) and gonioscope and provide gonioscopic examination with new methods and technology., Methods: 10 patients (20 eyes) were selected for the research. The same eyes were examined by UBM and gonioscope in turns. The results from the two methods were compared and the data were analyzed with Spearman correlation test., Results: The results of two methods of chamber angle examination were well consistent when the angle was wide, but the consistency was not good when it was narrow. The angle examined by a gonioscope was wider than that by UBM. When the iris root insertion was evaluated in a narrow angle, the consistency was also not good, and when the peripheral iris morphology was evaluated, there were almost inconsistent results in one-fourth of the patients., Conclusions: The results of chamber angle examined by a gonioscope show a little wider than its natural status. Especially, it is difficult to distinguish the functional closure from the adhesive closure. Under the influence of light, the determination of iris root insertion by a gonioscope has a sense of conjecture. When peripheral iris morphology is evaluated, the influence of irregular iris might result in a wrong conclusion. Therefore, the technique of gonioscopic examination should be improved.

Published

1999

618. [Study on the dynamic examination of anterior chamber angle by ultrasound biomicroscopy].

Author

Huang W, Peng D, and Chen X

Subjects

Anterior Chamber anatomy & histology, Anthropometry, Glaucoma, Angle-Closure pathology, Gonioscopy methods, Humans, Microscopy, Acoustic methods, Anterior Chamber diagnostic imaging, Anterior Chamber pathology, Glaucoma, Angle-Closure diagnostic imaging

Abstract

Purpose: To study the factors that influence ultrasound biomicroscopy(UBM) examination on anterior chamber angle, and explore a dynamic differentiating method., Method: To compare the UBM morphologic characters of the anterior chamber angle of the high-risk chamber angle and adhered angle groups under different illumination., Result: Under routine working condition, some eyes of the high-risk-group (9/12) displayed bombing iris with extremely narrowly-opened angle; but 3/12 cases and the control group showed bombing iris and closed angle. Under bright circumstances, all angles of the high-risk group showed widely-opened, but the control group remained closed., Conclusion: Different illumination influences the UBM examination of the anterior chamber angle significantly, we should differentiate the angle morphologic characters under different illumination if it seems to be closed. Factors that affect the UBM examination were also discussed.

Published

1998

619. [The application of Ultrasound Biomicroscope in anterior segment contusion].

Author

Lai M, Wang N, Ye T, Chen X, and Zhou W

Subjects

Adult, Female, Humans, Male, Middle Aged, Anterior Eye Segment diagnostic imaging, Anterior Eye Segment injuries, Contusions diagnostic imaging, Microscopy, Acoustic methods

Abstract

Purpose: To study the clinical value of Ultrasound Biomicroscope in anterior segment contusion., Methods: Seven eyes with anterior segment contusion were examined by regular ophthalmic examination, ophthalmic B-scan, and Ultrasound Biomicroscope., Results: Ultrasound Biomicroscope can show angle recession, cyclodialysis, iridodialysis, zonular breaking, lens dislocation and vitreous protrusion to posterior chamber. In most cases cyclodialysis and shallow detachment of choroid can not be diagnosed because shallow anterior chamber and hypton., Conclusion: The result suggests that Ultrasound Biomicroscope has high clinical value in diagnosis of anterior segment contusion, especially in cornea edema, hyphemia, hypton, Ultrasound Biomicroscope can refer precise diagnosis of anterior segment contusion.

Published

1996