Your search keyword '"Manjit S. Dhillon"' showing total 5 results

1. Three-dimensional printing and porous metallic surfaces: A new orthopedic application

Author

Alain Curodeau, Mora C. Melican, J. Russell Parsons, Amrit R. Ponnambalam, Manjit S. Dhillon, and Mark C. Zimmerman

Subjects

Materials science, Layer by layer, Biomedical Engineering, Osseointegration, Biomaterials, visual_art, Shear stress, visual_art.visual_art_medium, Ceramic, Surface layer, Texture (crystalline), Porosity, Layer (electronics), Biomedical engineering

Abstract

As-cast, porous surfaced CoCr implants were tested for bone interfacial shear strength in a canine transcortical model. Three-dimensional printing (3DP) was used to create complex molds with a dimensional resolution of 175 microm. 3DP is a solid freeform fabrication technique that can generate ceramic pieces by printing binder onto a bed of ceramic powder. A printhead is rastered across the powder, building a monolithic mold, layer by layer. Using these 3DP molds, surfaces can be textured "as-cast," eliminating the need for additional processing as with commercially available sintered beads or wire mesh surfaces. Three experimental textures were fabricated, each consisting of a surface layer and deep layer with distinct individual porosities. The surface layer ranged from a porosity of 38% (Surface Y) to 67% (Surface Z), whereas the deep layer ranged from 39% (Surface Z) to 63% (Surface Y). An intermediate texture was fabricated that consisted of 43% porosity in both surface and deep layers (Surface X). Control surfaces were commercial sintered beaded coatings with a nominal porosity of 37%. A well-documented canine transcortical implant model was utilized to evaluate these experimental surfaces. In this model, five cylindrical implants were placed in transverse bicortical defects in each femur of purpose bred coonhounds. A Latin Square technique was used to randomize the experimental implants left to right and proximal to distal within a given animal and among animals. Each experimental site was paired with a porous coated control site located at the same level in the contralateral limb. Thus, for each of the three time periods (6, 12, and 26 weeks) five dogs were utilized, yielding a total of 24 experimental sites and 24 matched pair control sites. At each time period, mechanical push-out tests were used to evaluate interfacial shear strength. Other specimens were subjected to histomorphometric analysis. Macrotexture Z, with the highest surface porosity, failed at a significantly higher shear stress (p = 0.05) than the porous coated controls at 26 weeks. It is postulated that an increased volume of ingrown bone, resulting from a combination of high surface porosity and a high percentage of ingrowth, was responsible for the observed improvement in strength. Macrotextures X and Y also had significantly greater bone ingrowth than the controls (p = 0.05 at 26 weeks), and displayed, on average, greater interfacial shear strengths than controls, although they were not statistically significant.

Published

2001

2. Dual X-ray absorptiometry forearm software: Accuracy and intermachine relationship

Author

Giuseppe Guglielmi, Harry K. Genant, Manjit S. Dhillon, S. Hagiwara, Klaus Engelke, David L. Nelson, and Seoung-Oh Yang

Subjects

Adult, Male, Models, Anatomic, Quality Control, Bone density, Endocrinology, Diabetes and Metabolism, Mineralogy, In Vitro Techniques, Absorptiometry, Photon, Forearm, Bone Density, Cadaver, medicine, Humans, Orthopedics and Sports Medicine, Dual x-ray absorptiometry, Mathematics, Measurement method, Dual energy, business.industry, Reproducibility of Results, medicine.anatomical_structure, Calibration, Linear Models, Bone mineral content, Female, Nuclear medicine, business, Software, Bone mass

Abstract

An ash study was performed to analyze the accuracy of forearm measurements at the one-third site of three dual x-ray absorptiometry (DXA) systems using 20 cadavers. A Hologic QDR-2000, a Hologic QDR-1000/W, and a Lunar DPX-L system were used. The correlations between ash weight and DXA BMC were excellent for the three instruments (r0.97, p0.001), with accuracy errors5.2%. To perform a forearm cross-calibration of bone mineral content (BMC) and density (BMD) between the scanners, 10 healthy volunteers were additionally scanned at the distal one-third radius. The correlations among the DXA machines were excellent (r0.95); the absolute BMC and BMD values were significantly different between the two Hologics and the Lunar machine. The slope and intercept of both the BMC and BMD between the two Hologic systems were close to unity. In conclusion, the DXA forearm software packages provide accurate methods for assessing bone mineral content and density. The conversion of data among different manufacturers should be performed by careful cross-calibration measurements.

Published

2009

3. Demyelinating focal motor neuropathy of the ulnar nerve masquerading as compression in Guyon's canal: a case report

Author

Martin A. Posner, Manjit S. Dhillon, and Mary Lynn Chu

Subjects

Adult, medicine.medical_specialty, Neural Conduction, Electromyography, Diagnosis, Differential, Pregnancy, medicine, Humans, Orthopedics and Sports Medicine, Ulnar nerve, Ulnar Nerve, Neurologic Examination, medicine.diagnostic_test, Guillain-Barre syndrome, business.industry, Muscle weakness, Hand surgery, Compression (physics), medicine.disease, Ulnar Nerve Compression Syndromes, Surgery, Pregnancy Complications, Demyelinating neuropathy, Female, medicine.symptom, business, Ulnar Neuropathies, Motor neuropathy, Demyelinating Diseases

Abstract

Ulnar nerve-innervated intrinsic muscle weakness, in the absence of sensory complaints or deficits, usually is the result of compression at the ulnar nerve in zone II of Guyon's canal. In rare instances the problem is not caused by a compressive neuropathy but by a demyelinating focal motor neuropathy. Demyelinating neuropathies have been well documented in the neurologic literature but they have received little attention in the hand surgery literature. We report on one such case and the importance of differentiating the 2 neuropathies. Although surgery often is necessary for a compressive neuropathy it is contraindicated for a demyelinating neuropathy.

Published

2003

4. Accuracy and diagnostic sensitivity of radiographic absorptiometry of the second metacarpal

Author

Klaus Engelke, M. Takada, Manjit S. Dhillon, S. Hagiwara, Harry K. Genant, Stephan Grampp, and Seoung-Oh Yang

Subjects

musculoskeletal diseases, Adult, medicine.medical_specialty, Entire metacarpal, Endocrinology, Diabetes and Metabolism, Radiography, Sensitivity and Specificity, Endocrinology, Absorptiometry, Photon, Forearm, Cadaver, Bone Density, Spinal fracture, Image Processing, Computer-Assisted, Medicine, Humans, Orthopedics and Sports Medicine, Osteoporotic fracture, Aged, Aged, 80 and over, Postmenopausal women, business.industry, Middle Aged, musculoskeletal system, medicine.disease, body regions, medicine.anatomical_structure, Fractures, Spontaneous, Orthopedic surgery, Osteoporosis, Spinal Fractures, Female, Radiology, Metacarpus, business

Abstract

The accuracy of a radiographic absorptiometry (RA) technique called digital image processing (DIP), discriminative ability of RA for osteoporotic fracture, and the relationship between RA and dual X-ray absorptiometry (DXA) of the spine and forearm were evaluated. We measured 16 cadaver hands, 32 healthy non-black premenopausal women, 39 healthy non-black postmenopausal women, and 35 non-black osteoporotic postmenopausal females. The overall correlation between the ash weights of the entire metacarpal and the DIP values was excellent (r = 0.954, P < 0.001, SEE = 0.14, CV = 6.4%). Short-term precision error of DIP was 3.5%. Age-related bone loss determined by DIP is comparable to that of spinal and forearm DXA: annual BMD decreases were 0.46% for DIP, 0.45% for forearm, and 0.32% for the spine. DIP of the 2nd metacarpal shows a gradient of risk for spinal fracture only slightly below that of forearm DXA, but substantially below that of spinal DXA. Age-adjusted odds ratios were 1.81 for RA, 2.45 for spinal DXA, and 1.94 for forearm DXA.

Published

1998

5. Radiographic absorptiometry for bone mineral measurement of the phalanges: precision and accuracy study

Author

Seoung Oh Yang, Eli J. Bendavid, Manjit S. Dhillon, Osamu Soejima, S. Hagiwara, Giuseppe Guglielmi, Klaus Engelke, Harry K. Genant, and David L. Nelson

Subjects

musculoskeletal diseases, Bone mineral, Accuracy and precision, Bone density, business.industry, musculoskeletal, neural, and ocular physiology, Radiography, Dentistry, Phalanx, In Vitro Techniques, musculoskeletal system, humanities, Bone and Bones, Fingers, Absorptiometry, Photon, Bone Density, Medicine, Bone mineral content, Humans, Radiology, Nuclear Medicine and imaging, Cadaveric spasm, business, Nuclear medicine

Abstract

PURPOSE: To evaluate the accuracy and precision of a radiographic absorptiometry (RA) method for assessment of bone mineral of the middle phalanges. MATERIALS AND METHODS: Nineteen cadaveric hands were radiographed with an aluminum wedge, once at 50 kVp and 400 mA and once at 60 kVp and 300 mA. Bone mineral content (BMC) and bone mineral density (BMD) of the second to fourth middle phalanges, expressed in arbitrary units (BMC-AU and BMD-AU), were analyzed and averaged in each hand. RESULTS: The precision error of this method was 1.0% for BMC-AU and 0.6% for BMD-AU. A 2.0%-2.4% reduction in BMD-AU seen on radiographs obtained through ethanol thicknesses of 5 and 6 mm compared with that seen on controls was statistically significant (P < .01). The correlation between BMC-AU and forearm BMC determined with dual x-ray absorptiometry was good (r = .887), and that between BMC-AU and ash weight in the phalanges was excellent (r = .983). CONCLUSION: The RA method is precise and accurate for bone mineral assessmen...

Published

1994