This study investigated the anatomy of the nutrient foramen (NF) in German Shepherds by recording the number, site, position, and direction of penetration of the nutrient canal (NC) in the humerus, radius, and ulna of 50 individuals. The site index of the nutrient foramen (SI) was calculated as the ratio of the length to the NF site from the proximal end to the greatest length of the bone. The NF diameter was measured using different sized needles. Most humeri had only one NF on the caudal surface, particularly on the lateral supracondylar crest, or distal cranial surface. All radii had one NF, usually on the caudal surface, while most ulnae had one NF located on either the cranial or lateral surfaces. The SI and NF diameters were 58.0~59.5% and 0.73~0.78 mm in the humerus, 30.4~30.9% and 0.74~0.76 mm in the radius, and 29.3~29.8% and 0.67~0.68 mm in the ulna, respectively. With the exception of the relatively proximal NF of the radius, the direction of penetration followed Berard's rule. This study provides novel information on the location and diameter of the NF and direction of the NC in the long bones of the pectoral limb of German Shepherds.
Extremities* ; Haversian System ; Humerus ; Needles ; Radius ; Ulna

This study investigated the anatomy of the nutrient foramen (NF) in German Shepherds by recording the number, site, position, and direction of penetration of the nutrient canal (NC) in the humerus, radius, and ulna of 50 individuals. The site index of the nutrient foramen (SI) was calculated as the ratio of the length to the NF site from the proximal end to the greatest length of the bone. The NF diameter was measured using different sized needles. Most humeri had only one NF on the caudal surface, particularly on the lateral supracondylar crest, or distal cranial surface. All radii had one NF, usually on the caudal surface, while most ulnae had one NF located on either the cranial or lateral surfaces. The SI and NF diameters were 58.0~59.5% and 0.73~0.78 mm in the humerus, 30.4~30.9% and 0.74~0.76 mm in the radius, and 29.3~29.8% and 0.67~0.68 mm in the ulna, respectively. With the exception of the relatively proximal NF of the radius, the direction of penetration followed Berard's rule. This study provides novel information on the location and diameter of the NF and direction of the NC in the long bones of the pectoral limb of German Shepherds.
Extremities* ; Haversian System ; Humerus ; Needles ; Radius ; Ulna

No abstract available.
Adult* ; Fetus* ; Humans ; Humerus* ; Radius* ; Ulna*

We measured several relationships of humeral and glenoid articular surfaces with radiologic analysis in the 60 shoulders of normal adults(the 30 males and 30 females) who were without pain and limitation of motion. The average age was 29.1 year-old in the males(from 26 to 39), 27.7 year-old in the females(from 20 to 34). The results of measurement were as follows. The average radius of curvature of humeral head was 28.8±1.9mm in the males, 25.3±2,3mm in the females. The average radius of curvature of glenoid was 34.5±3.5mm in the males, 29.3±2.8mm in the females and there was difference between the radius of curvature of humeral head and glenoid about 4-Smm. Average surface area ratio of humeral head versus glenoid was 1.8±0.2 in male, 2.0±0.2 in female. The average thickness of humeral head from anatomical neck was 23.1±1.5mm in the males, 20.5±2.lmm in the females and there was distance between the radius of curvature of humeral head and the thickness of humeral head about 5 me and it was suggested that humeral head was not hemisphere. The average neck shaft angle of humerus was 51.6±4.8 degree in the males, 52.7±3.8 degree in the females. The average flare index was 3.6±0.6 in the males, 3.9±0.7 in the females, so that metaphysis of female was broader than that of male. The lateral humeral offset was 68.5±3.8mm in the males, 63.6±4.3mm in the females. The average distance from the greater tuberosity of humerus to the lateral acromion process was 20.1±3.9mm in the males, 17.6±5.1mm in the females. The average distance of upper surface from the humeral head to the greater tuberosity of humerus was 6.5±1.4mm in males, 5.9±2.0mm in females. The distance from the humeral head to the undersurface of acromion was 9.5±3.1mm in the males, 7.7±3.5mm in females. Our measurement of normal glenohumeral relationship would be useful in the diagnosis of shoulder disorders and in the design of prosthestic reconstruction in Korean. Further study would be required for the analysis of the three dimensional relationship because of the limitation of our two dimensional analysis.
Acromion ; Diagnosis ; Female ; Humans ; Humeral Head ; Humerus ; Male ; Neck ; Radius ; Shoulder ; Shoulder Joint

Individual identification procedure is one of the most improtant part in medicolegal fields. Recently, radiolegal investigation methods have been widely applicated to the medicolegal field for the purpose of individual identification. So authors attempted to determine sex and calculate stature by using roentgenographic findings of long bones of 248 subjects the living materials. In orthoscanographic study for long bones, we measured total length, midshaft width, epiphyseal width, cortical width, head diameter of each bones The total length, midshaft width, cortical width, condylar breath, horizontal & vertical head diameter of femur show statistically significant differentiation between two sexes, in tibia, total length, midshaft, cortical width, proximal and distal epiphyseal width show statistically significant. In fibula, Humerus, radius and ulna, total length is only statistically significant. And other wresults are statistically insignificant. Using femoral and fibial lengths (mm) with "Regression Analysis method" in SAS program, we derived the following fomulae. Height (cm)=95.62±0.148×Total length of Femur. (mm) Height(cm)=82.07±0.22×Total length of Tibia. (mm). In conclusion, radiologic measurement of long bone might be one of the useful methods in individual identification of unknown subject in Korea.
Femur ; Fibula ; Head ; Humerus ; Korea ; Radius ; Tibia ; Ulna

BACKGROUND: The location of the ulnar styloid process can be confusing because the radius and the hand rotate around the ulna. The purpose of this study was to identify the absolute location of the ulnar styloid process, which is independent of forearm pronation or supination, to use it as a reference for neutral forearm rotation on lateral radiographs of the wrist. METHODS: Computed tomography (CT) images of 23 forearms taken with elbow flexion of 70° to 90° were analyzed. The axial CT images were reconstructed to be perpendicular to the distal ulnar shaft. The absolute location of the ulnar styloid process in this study was defined as the position of the ulnar styloid process on the axial plane of the ulnar head relative to the long axis of the humeral shaft with the elbow set in the position for standard lateral radiographs of the wrist. To identify in which direction the ulnar styloid is located on the axial plane of the ulnar head, the angle between “the line of humeral long axis projected on the axial plane of the ulna” and “the line passing the center of the ulnar head and the center of the ulnar styloid” was measured (ulnar styloid direction angle). To identify how volarly or dorsally the ulnar styloid should appear on the true lateral view of the wrist, the ratio of “the volar-dorsal diameter of the ulnar head” and “the distance between the volar-most aspect of the ulnar head and the center of the ulnar styloid” was calculated (ulnar styloid location ratio). RESULTS: The mean ulnar styloid direction angle was 12° dorsally. The mean ulnar styloid location ratio was 1:0.55. CONCLUSIONS: The ulnar styloid is located at nearly the ulnar-most (the opposite side of the humerus with the elbow flexed) and slightly dorsal aspects of the ulnar head on the axial plane. It should appear almost midway (55% dorsally) from the ulnar head on the standard lateral view of the wrist in neutral forearm rotation. These location references could help clinicians determine whether the forearm is in neutral or rotated position on an axial CT/magnetic resonance imaging scan or a lateral radiograph of the wrist.
Elbow ; Forearm* ; Hand ; Head ; Humerus ; Pronation ; Radius ; Supination ; Ulna ; Wrist*

There were few studies about anatomic characteristics in Korean humerus recently. In addition, there was no comparison between Westerner (European and American) and Korean in anatomic characteristics of humerus. The aims of this paper are therefore to investigate anatomic characteristics in Korean humerus and to compare them with those of Westerner humerus. The seventy-two humerus (male : 66, female : 6) were scanned by computed tomography and three dimensional (3D) models of humerus were then reconstructed from acquired cross-section images. The twenty-one anatomic characteristics of the humerus were analyzed and were measured for each humerus. From the results, humeral head vertical diameter in the present study was generally bigger than that in the previous study (p<0.05). There was no significant difference between the anatomic characteristics of the right and left humerus in the present Korean (p>0.05). Humeral head inclination angle, greater tuberosity lateral offset distance, humeral head height in Korean were generally bigger than those in Westerner (p<0.05). This study may contribute to develop an optimal implants and prostheses for the treatment of humerus fractures of Koran.
Female ; Humans ; Humeral Head ; Humerus ; Prostheses and Implants

This is to report a case of the homogeneous transplantation of the single articular surface and its supporting bone of the proximal one third of the humerus and humeral head for the treatment of the giant cell tumor involving the proximal humerus.
Giant Cell Tumors ; Humeral Head ; Humerus

Complete plantar dislocation of the metatarsal head of the 2nd toe, irreducible by closed methods, is a rare injury. As with similar lesion in the hand, closed reduction is impossible because of interposition of volar plate. So author describes a case treated at Armed Forces Hospital by open reduction after failure of closed reduction, and anatomy of the 2nd M-P joint and pathomechanics of this rare dislocation are described.
Arm ; Dislocations ; Hand ; Head ; Joints ; Metatarsal Bones ; Toes

PURPOSE: To obtain basic anatomical data of proximal humerus of Korean adult skeleton. MATERIALS AND METHODS: Fifty-two dry humeri of Korean adults were measured with a caliper and goniometer. Measured parameters were retroversion, angle of the bicipital groove, bicipital groove-shaft angle, neck-shaft angle, diameters of the humeral head, dimension of the greater tuberosity, distance between humeral head and greater tuberosity, and length of the humerus. All of the eight parameters were measured twice. The correlations between retroversion and diameters of the humeral head, retroversion and length of the humerus, retroversion and angle of the bicipital groove, diameters of the humeral head and length of the humerus were analyzed by student t-test using SAS system. RESULTS: Retroversion was 34.2 degree with high individual variation, ranging from 17.0 degree to 50.0 degree. The angle of the bicipital groove was 36.2 (22.0-54.0) degree. The bicipital groove-shaft angle was 7.4 (1.0- 16.0) degree. The neck-shaft angle was 136.3 (120.0-150.0) degree. The superior-inferior diameter of the humeral head was 43.3 (35.5-52.0) mm, and anterior-posterior diameter was 39.9 (33.5-46.0) mm. The dimension of the greater tuberosity was 29.8 (19.0-46.0) mm, and the distance between humeral head and greater tuberosity was 7.9 (4.5-12.0) mm. The length of the humerus was 303.7 (265.0-388.0) mm. There was significant correlation between the head diameters, the retroversion, and the length, but no correlation between the retroversion and the angle of the bicipital groove. CONCLUSIONS: It is suggested that high individual variation of retroversion should be considered in case of arthroplasty. The humeral head was elliptical in shape. The mean narrow diameter of the humeral head was about 40 mm. The greater tuberosity was about 30 mm in dimension, and located 8 mm inferior to the humeral head. The bicipital groove was not a reliable reference in determining retroversion.
Adult* ; Arthroplasty ; Head ; Humans ; Humeral Head ; Humerus* ; Skeleton*