Intracanal rib head penetration is a well-known entity in dystrophic scoliotic curves in neurofibromatosis type 1. There is potential for spinal cord injury if this is not recognised and managed appropriately. No current CT-based classification system is currently in use to quantify rib head penetration. This study aims to propose and evaluate a novel CT-based classification for rib head penetration primarily for neurofibromatosis but which can also be utilised in other conditions of rib head penetration. The grading was developed as four grades: normal rib head (RH) position—Grade 0, subluxed ext-racanal RH position—Grade 1, RH at pedicle—Grade 2, intracanal RH—Grade 3. Grade 3 was further classified depending on the head position in the canal divided into thirds. Rib head penetration into proximal third (from ipsilateral side)—Grade 3A, into the middle third—Grade 3B and into the distal third—Grade 3C. Seventy-five axial CT images of Neurofibromatosis Type 1 patients in the paediatric age group were reviewed by a radiologist and a spinal surgeon independently to assess interobserver and intraobserver agreement of the novel CT classification. Agreement analysis was performed using the weighted Kappa statistic.Abstract
Purpose
Materials and methods
No clinical CT based classification system is currently in use for Lumbar Foraminal Stenosis. MRI scanners are not easily available, are expensive and may be contraindicated in an increasing number of patients. This study aims to propose and evaluate the reproducibility of a novel CT based classification for lumbar foraminal stenosis. The grading was developed as 4 grades. Normal foramen – Grade 0, Anteroposterior(AP)/Superoinferior (SI)(single plane) fat compression – Grade 1, Both AP/SI compression (two planes) – Grade 2 (both AP and SI) without distortion of nerve root, Grade 2 with distortion of nerve root – Grade 3. 800 lumbar foramen of a cohort of 100 random patients over the age of 60 who had undergone both CT and MRI scans were reviewed by two radiologists independently to assess agreement of the novel CT classification against the MRI based grading system of Lee et al. Interobserver(n=400) and intraobserver agreement(n=160) was also evaluated. Agreement analysis was performed using the Weighted Kappa statistic.Abstract
Purpose
Materials and Methods
The Achilles tendon is the strongest and largest tendon in the body. Rupture of this tendon usually occurs in the third and fourth decade and can be significantly debilitating. Repair of neglected ruptures of Achilles tendon pose a challenge to the orthopaedic surgeon due to the retraction and atrophy of the ends of the tendon. Various surgical procedures have been described which include VY plasty, fascia lata, peroneus brevis, plantaris tendon, flexor digitorum longus, flexor hallucis longus, allograft, and synthetic materials. We carried out a prospective study to compare the results of peroneus brevis transfer with flexor hallucis longus transfer in the management of neglected ruptures of Achilles tendon. Forty-seven patients who had neglected ruptures of Achilles tendon were included in this study. They were randomly divided into two groups; the first group underwent peroneus brevis transfer (24 patients) and the second group had flexor hallucis longus transfer (23 patients). Patients were assessed using the Quigley's scoring system. We conclude that Flexor hallucis longus transfer is better than peroneus brevis transfer as it is a long, durable tendon which is much stronger when compared to other tendon transfers. Flexor hallucis longus acts in the same axis as the Achilles tendon, is in the same gait phase and is in close proximity, making harvesting of the tendon easy.