Since 1959, we have used a superior extension of the anterior approach to the cervical spine of Robinson and Smith in a consecutive series of seventeen patients. This approach provided anterior access to the neural elements from the clivus to the body of the third cervical vertebra, without the need for posterior dissection of the carotid sheath or entrance into the hypopharynx or oral cavity. It also provided adequate exposure for the insertion of iliac or fibular strut grafts, which was necessary in thirteen patients. The approach gave excellent exposure for anterior intralesional excision of a tumor in ten patients, marginal excision of an osteochondroma, two corpectomies of the second cervical vertebra combined with removal of the odontoid process, corpectomy of the second cervical vertebra for the treatment of fixed atlanto-axial subluxation, removal of a bullet anterior to the clivus, reduction of a dislocation of the second on the third cervical vertebra secondary to an unstable fracture of the pedicles of the second cervical vertebra, and anterior débridement for treatment of pyogenic vertebral osteomyelitis. In contrast to the reported results of transmucosal approaches to the atlas and axis, there were no infections or iatrogenic neurological deficits of the spine in the present series. Twelve patients who were followed for two years or more had a solid anterior fusion and no subsequent loss of cervical stability. Pain in the neck was relieved in all of the patients who had had a pathological or traumatic fracture.
It is a biologic fact that all open wounds contain bacteria and remain contaminated with varying levels of bacteria until scucessful wound closure has been accomplished. The sine qua non in the management of the contaminated wound has been and remains adequate sharp debridement. In a standardized experimental model, three methods of irrigation were compared employing quantitative bacteriology of tissue to evaluate their effectiveness at decreasing bacterial levels and reducing wound infection. The pulsating jet lavage was found to be significantly better than gravity flow irrigation or wound irrigation with a bulb syringe. These data on tissue biopsies support previous reports using surface and wound exudate cultures.
Skeletal tissues from children sustaining acute skeletal trauma were analyzed with detailed radiologic and histologic techniques to assess the failure patterns of the developing skeleton. In the physis- and epiphysis-specific fracture propagation varied, usually going through the portion of the hypertrophic zone adjacent to the metaphysis. However, the physeal fracture in types 1 and 2 sometimes involved the germinal zone. There may also be microscopic propagation at oblique angles from the primary fracture plane, splitting cell columns apart longitudinally. The cartilage canals supplying the germinal zone appear to be "weak" areas into which the fracture may propagate, especially in infancy. Incomplete type 1 physeal fractures, which cannot be detected by routine radiography, may occur. Types 1, 2, and 4 physeal injuries may be comminuted. In type 3 injuries, discrete segments of physis that include the germinal zone may "adhere" to the metaphysis, separating the cells from their normal vascularity. In types 2 and 3, comminution may occur at the site of fracture redirection from the physis. Direct type 5 crushing of the physeal germinal zone does not occur, even in the presence of significant pressure-related changes within other areas of the epiphysis. Type 7 separation between cartilage and bone at any chondro-osseous epiphyseal interface may occur, but is similarly impossible to diagnose radiographically. In the metaphysis torus, fractures result from plastic deformation of the cortex, coupled with a partial microfracturing that may be difficult to visualize with clinical radiography. Some of the energy absorption may also be transmitted to the physis, causing metaphyseal hemorrhage adjacent to the growth plate and variable microscopic damage within the physis. In the diaphysis, the greenstick fracture is associated with longitudinal tensile failure through the developing osteons of the "intact" cortex. The inability of these failure patterns to "narrow" after the fracture force dissipates is the probable cause of retained bowing (plastic deformation). In both torus and greenstick fractures, the fractured bone ends show micro-splitting through the osteoid seams. In the diaphysis, metaphysis, and epiphyseal ossification center there may be areas of focal hemorrhage and microfracture that correlate with the reported MRI phenomenon of "bone bruising." Again, such injury cannot be diagnosed during routine radiography.
Rabbit femora and ulnae were tested to fracture in a torsion loading experiment. Various mechanical parameters were determined under five loading rates ranging from 0.003 to 13.2 radians per second. The maximum torque, maximum torsional deformation, energy absorbed to fracture, and torsional stiffness all increased with the rate of deformation, reached a maximum, and then declined. The bones absorbed 67 per cent more energy, had 33 per cent more torque and torsional deformation, and 5 per cent more stiffness at the highest rate of deformation as compared with the lowest.
Abstract An epidemiologic case‐control study undertaken in Connecticut during 1979–1981 indicated that persons with jobs requiring lifting objects of more than 11.3 kg (25 lb) an average of more than 25 times per day had over three times the risk for acute prolapsed lumbar intervertebral disc as people whose jobs did not involve lifting objects of this weight. If the body was usually twisted while the lifting was done, this elevation in risk was apparent with less frequent lifting. An especially high risk for prolapsed lumbar disc was associated with jobs involving lifting objects of more than 11.3 kg with the body usually twisted and the knees not bent while the lifting was done. Neither lifting objects of less than 11.3 kg nor twisting without lifting was associated with an increase in risk.
Four surgical approaches to the vertebral bodies have been developed which, in conjunctions with costotransversectomy, allow surgical ascess to all portions of the bodies of the vertebral column. The pharyngcal incision is used for the first and second cervical vertebrae. The anterior tervical approach is used for lesions from the third cervical to the first thoracie vertbra. Costotransversectomy and lateral rachotomy are used for lesions of the first thoracie to the twelfth thoracic vertebra, inclusive. The anterolateral approach is used to gain access to the first to fifth lumbar vertebra and allows excellent visualization and treatment, particularly of extensive lesions. The posterolateral approach is less formidable and is sufficient for treatment of a small lumbar lesion. In a period of over ten years, there has not been a death from the use of these surgical approaches, and serious complications have been avoided. Use of the approaches has been highsly effective not only in obtaining early positive diagnosis of vertebral lesions but also in their definitive treatment.
