Radiofrequency (RF) lesions have been used for over 25 years in the treatment of intractable pain of spinal origin. The conventional understanding of this technique is that the heat which is produced in the tissue surrounding the electrode tip causes destruction of nervous tissue, which in turn reduces the input of noxious nerve stimuli and alleviates pain. Neuropathic pain is usually a contra-indication to the use of RF nerve lesioning. For treatment of patients with severe radicular pain we use pulsed radiofrequency who has been recently described as a technique to apply a relatively high voltage near a nerve but without the usual effects of rise in temperature or subsequent nerve injury. This study reports the effect of pulsed RF in 21 patients with severe radicular pain who had previously failed to respond to conventional therapy.
It is non-destructive procedure and it can therefore be used for different indication which were not suitable for conventional RF. Post-procedure discomfort does occur but it is less pronounced than following conventional RF. Although permanent sensory loss is a rare complication of RF it does occur. Pulsed RF does not have this complication.
They were allocated into 3 groups according to the duration of symptoms before surgery. Group A with symptoms lasting up to 24 months, B with 25–48 months and C with symptoms lasting for more than 48 months. The average age at the time of the operation was 68.9, 72.6 and 71.3 years, respectively. Forty-eight patients died and 18 refused or were not able to participate in the study. The average time of follow-up was 43.3 months, 42.2 in group A, 47.4 in B and 42.8 in C. No significant differences were noticed in the demographic, anesthetic and surgical parameters among the 3 groups. There were no mortality cases in the immediate postoperative period. The overall complication rate was 43.5%, nearly identical in all 3 groups. Two patients had cerebrovascular accident and 5 had myocardial ischemia but no one turned into infarction. Mild complications included 11 urinary retention, 24 urinary tract infections and 11 patients with superficial wound infection. Twenty-two patients were re-operated along the follow-up period. There was remarkable improvement in the perception of pain, walking distances and in the ability to perform basic activities of daily living in all 3 groups. Self-assessment of the final results disclosed 70% satisfied patients in group A, 67% in B and 67% in C.
The relatively large diameter of currently used cages dictates extensive manipulations, damaging structures that are crucial for spinal stability. The Expandable Spinal Fusion System, is 5 mm in diameter in closed configuration, applied in a minimally invasive technique, through a 6mm entering opening by an open or percutaneous posterior procedures. Once in position, its dimensions are increased to a precut size in a controlled procedure. Thus, this system maintains the integrity of facet joints, with no or minimal laminectomy, and minimal damage to the surrounding tissues.
Patient questionnaire pain and quality of life was evaluated using the Oswestry questionnaire and VAS measurement. The patient fill those pre-operatively and at each follow up visit.
Premature fusion of the triradiate cartilage was obtained surgically in 10 three-week-old rabbits, and compared with isolated fusion of the ilio-ischial and of the ilio-pubic limbs of the triradiate cartilage in two further groups of 10 rabbits. Complete fusion caused acetabular dysplasia five weeks after operation in all animals and hip dislocation at nine weeks in half of them; ilio-ischial fusion had a comparable effect. Ilio-pubic fusion had only a minimal effect on acetabular development. The posterior position of the ilio-ischial limb in the acetabulum and its predominance in the formation of the triradiate cartilage in quadrupeds may have contributed to its decisive effect on acetabular development.