Your search keyword '"Ohnishi I"' showing total 6 results

1. Measurement of mechanical properties with respect to gap healing in a rabbit osteotomy model using echo tracking.

Author

Tobita K, Ohnishi I, Matsuyama J, Sakai R, Ohashi S, Ogawa K, Minagawa E, Miyasaka K, and Nakamura K

Subjects

Algorithms, Animals, Computer Simulation, Elastic Modulus, Image Enhancement methods, Male, Models, Biological, Osteotomy, Rabbits, Reproducibility of Results, Sensitivity and Specificity, Tensile Strength, Tibia surgery, Elasticity Imaging Techniques methods, Fracture Healing physiology, Image Interpretation, Computer-Assisted methods, Tibia diagnostic imaging, Tibia physiopathology, Tibial Fractures diagnostic imaging, Tibial Fractures physiopathology

Abstract

The most important issue in the assessment of fracture healing is to acquire information about the restoration of the mechanical integrity of bone. Echo tracking (ET) can noninvasively measure the displacement of a certain point on the bone surface under a load. Echo tracking has been used to assess the bone deformation angle of the fracture healing site. Although this method can be used to evaluate bending stiffness, previous studies have not validated the accuracy of bending stiffness. The purpose of the present study is to ensure the accuracy of bending stiffness as measured by ET. A four-point bending test of the gap-healing model in rabbit tibiae was performed to measure bending stiffness. Echo tracking probes were used to measure stiffness, and the results were compared with results of stiffness measurements performed using laser displacement gauges. The relationship between the stiffness measured by these two devices was completely linear, indicating that the ET method could precisely measure bone stiffness., (Copyright © 2012 World Federation for Ultrasound in Medicine & Biology. All rights reserved.)

Published

2012

2. Measurement of mechanical properties on gap healing in a rabbit osteotomy model until the remodeling stage.

Author

Tobita K, Ohnishi I, Matsumoto T, Ohashi S, Bessho M, Kaneko M, and Nakamura K

Subjects

Animals, Elastic Modulus, Humans, Male, Osteotomy, Rabbits, Tensile Strength, Tibia surgery, Bone Remodeling physiology, Disease Models, Animal, Tibia injuries, Tibia physiopathology, Tibial Fractures physiopathology, Wound Healing physiology

Abstract

Background: The most important issue in the assessment of fracture healing is to acquire information about the restoration of the mechanical integrity of bone. Many researchers have attempted to monitor stiffness either directly or indirectly for the purpose of assessing strength, as strength has been impossible to assess directly in clinical practice. The purpose of this study was thus to determine the relationship between bending stiffness and strength using mechanical testing at different times during the healing process., Methods: Unilateral, transverse, mid-tibial osteotomies with a 2-mm gap were performed in 28 rabbits. The osteotomy site was stabilized using a double-bar external fixator. The animals were divided into four groups (n=7/group/time point; 4, 6, 8 and 12 weeks). A series of images from micro-computed tomography of the gap was evaluated to detect the stage of fracture healing and a 4-point bending test was performed to measure stiffness and strength. Relative stiffness and strength values were also acquired from calculation of ratios relative to those of the non-osteotomized contralateral bones., Findings: Formation of cortex and medullary canal at the gap was seen in the 12-week group and would represent the remodeling stage. In addition, the relationship between stiffness and strength remained almost linear until at least 12 weeks. However, stiffness recovered much more rapidly than strength., Interpretation: Strength was not fully restored until the later stages of fracture healing. However, the current study demonstrated that stiffness could be monitored as a surrogate marker of strength until at least the remodeling stage., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

3. [Bone fracture and the healing mechanisms. A new method for evaluation of fracture healing by echo tracking].

Author

Ohnishi I and Matsuyama J

Subjects

Biomedical Engineering instrumentation, Humans, Ultrasonography instrumentation, Biomechanical Phenomena, Biomedical Engineering methods, Fracture Healing, Tibia diagnostic imaging, Tibia physiology, Tibial Fractures diagnostic imaging, Ultrasonography methods

Abstract

Assessment of bone healing on radiographs is not necessarily objective. A clinical system was developed to quantify the stiffness of healing fractures of the tibia in patients by the echo tracking (ET) method in a manner similar to a three-point bending test. The lower leg was supported. An ultrasound probe was placed on the proximal and distal fragments and a load of 25 N was applied. With a multiple ET system, two probes measured the displacement of five tracking points on each of the proximal and distal fragments of the tibia, thereby detecting the bending of the two fragments generated by the load. ET angle was defined as the sum of the inclinations of the proximal and distal fragments. Patients with tibial fracture treated by a cast or internal fixation were measured over time. In patients with radiographically normal healing, the bending angle decreased exponentially over time. However, in patients with nonunion, the angle remained the same over time. It was demonstrated that the ET method could be clinically applicable to evaluate fracture healing as a versatile, quantitative and noninvasive technique.

Published

2009

4. A new method for evaluation of fracture healing by echo tracking.

Author

Matsuyama J, Ohnishi I, Sakai R, Bessho M, Matsumoto T, Miyasaka K, Harada A, Ohashi S, and Nakamura K

Subjects

Adult, Aged, Biomechanical Phenomena, Casts, Surgical, Female, Fracture Fixation, Internal methods, Humans, Male, Middle Aged, Tibia physiopathology, Tibial Fractures physiopathology, Tibial Fractures therapy, Treatment Outcome, Ultrasonography, Fracture Healing, Tibia diagnostic imaging, Tibial Fractures diagnostic imaging

Abstract

Assessment of bone healing on radiographs depends on the volume and radio-opacity of callus at the healing site, but is not necessarily objective, and there are differences of judgment among observers. To overcome this disadvantage, a clinical system was developed to quantify the stiffness of healing fractures of the tibia in patients by the echo tracking (ET) method in a manner similar to a three-point bending test. The purpose of this study was to ensure that the ET system could clinically assess the progress, delay or arrest of healing. The fibular head and the lateral malleolus were supported. A 7.5-MHz ultrasound probe was placed on the proximal and distal fragments and a load of 25 N was applied. Five tracking points were set along the long axis of the ultrasound probe at intervals of 10 mm. With a multiple ET system, two probes measured the displacement of five tracking points on each of the proximal and distal fragments of the tibia, thereby detecting the bending of the two fragments generated by the load. ET angle was defined as the sum of the inclinations of the proximal and distal fragments. Eight tibial fractures in seven patients treated by a cast or internal fixation were measured over time. In patients with radiographically normal healing, the bending angle decreased exponentially over time. However, in patients with nonunion, the angle remained the same over time. It was demonstrated that the ET method could be clinically applicable to evaluate fracture healing as a versatile, quantitative and noninvasive technique.

Published

2008

5. Evaluation of the fracture site mechanical properties in vivo by monitoring the motion of a dynamic pin clamp during simulated walking.

Author

Ohnishi I, Nakamura K, Okazaki H, Sato W, and Kurokawa T

Subjects

Adult, Elasticity, Equipment Design, External Fixators, Female, Humans, Male, Models, Biological, Motion, Oscillometry instrumentation, Oscillometry methods, Sensitivity and Specificity, Tibia physiopathology, Tibia surgery, Viscosity, Weight-Bearing, Bone Nails, Fracture Healing physiology, Tibial Fractures physiopathology, Tibial Fractures surgery, Transducers, Walking

Abstract

Objective: To monitor pin clamp motion using a displacement sensor over time during weight bearing and to investigate whether this method could contribute to quantitative assessment of the mechanical properties of fracture healing., Methods: Patients with a shaft fracture of the tibia were monitored, all of whom were in the stage of dynamization. The hifixator equipped with a ball bearing mechanism was used as a dynamic external fixator. The displacement was recorded versus time during stamping with weight bearing of the patients. The displacement curve had an oscillatory component synchronized with touch down and lift up of the foot, a time-dependent component expressed by shifting of the baseline, and an irreversible component during a non-weight bearing period after stamping. The three components were analyzed with a simple Voigt model., Results: In all patients, both the amplitude of the oscillatory component and the time-dependent component expressed as retardation time decreased as fracture healing proceeded, and by the time of fixator removal the irreversible component had disappeared., Conclusions: The monitoring method could quantitatively evaluate viscoelastoplasticity of the healing fracture site., Relevance: Until now, there has been few method for assessing the viscoelastic property of the healing fracture site in vivo. Although the method described here involves some assumptions and approximations, it was able to quantitatively assess the viscoelasticity of the healing fracture site.

Published

2002

6. Sliding performance of unilateral external fixators for tibia.

Author

Matsushita T, Nakamura K, Ohnishi I, and Kurokawa T

Subjects

Biomechanical Phenomena, Biomedical Engineering, Equipment Design, Evaluation Studies as Topic, Fracture Healing, Humans, Models, Biological, Fracture Fixation instrumentation, Tibial Fractures surgery

Abstract

Some unilateral external fixators have a sliding mechanism to achieve dynamic axial fixation. However, it has been reported that binding of this mechanism occurs during routine ambulation. The Hifixator, a unilateral external fixator, has been developed which has a new type of sliding mechanism. The mechanism of the Hifixator was tested by connecting it to a fractured bone model with pins, and applying dynamic axial loading. The conditions of connection between the pins and bone model were varied to simulate loosening of the pins. Two other external fixators commonly used for tibias, Orthofix and Monotube (blue), were tested for comparison. The amount of sliding motion of the Hifixator was maintained at more than 72% of the motion at the fracture site even when pins were loose and a torque of 4 N m was applied. The sliding mechanism of the Hifixator was shown to be more durable than those of the other fixators tested for conditions found in application to tibias.

Published

1998