Touchless intra-operative display for interventional radiologist

International audienceImaging records are an essential part of the overall management of patients due to undergo invasive interventional radiology (IR) or surgery. Imaging is needed for diagnosis, to confirm operability, plan the procedure, and as a per-operative guide [1]. In both IR and surgery, it is essential to be able to visualise and manipulate images from the workstation [2,3]. Current solutions, including the use of the PACS in operating theatres, are completely inadequate. The practice has become routine in interventional CT and the main manufacturers offer dedicated equipment to work with the imaging instrument and images [4]. The interface which offers the most is the use of a joystick to move the cursor on the screen in the same way as the conventional mouse. Manipulation, however, is imprecise and makes it slow and frustrating to use. Telecommand is easier to use but does not allow complex interactions. In reality, once the operator is under sterile conditions, working with pre-and per-operative imaging becomes extremely limited. In complex situations, it requires a third party (loading previous imaging, MR or PET-CT displays, multi-planar reformatting, zooming in onto an area of interest, etc.) sometimes leading to loss of concentration and loss of time [5]

Usefulness of imaging fusion for therapeutic planning in skull base lesions

We propose critical considerations on the usefulness of CT, MRI, and fMRI imaging fusion for the treatment of skull base lesions evaluating 41 cases (24 meningiomas: six petroclival, seven clinoidal, four olfactory, two in the foramen magnum, two spheno-petro-clival, one in the planum sphenoidale, one in the posterior pyramid and one in the PCA; five acoustic schwannomas, three epidermoids, two pituitary adenomas, two craniopharingiomas, two posterior fossa aneurysms, one trigeminal schwannoma, one dermoid and one juvenile angiofibroma). Data were collected, fused, integrated and reconstructed by a dedicated Stealth-Station system for Neuronavigation. CT images were acquired on axial non-overlapping slices, 1-3 mm thick; MRI images were obtained with a 1.5 T system, same FOV and thickness. During surgery the Mean Fiducially Error measured at 6 cm depth and anatomical distortion due to CSF loss was evaluated. Neuronavigation was possible in all cases and successfully applied in preoperative planning and during surgical procedures. The Mean Fiducially Error at 6 cm was 1.7 mm. CSF loss during surgery produced modifications on planned anatomy in a mean value of 0.6 mm. In all cases, imaging fusion for pre and intra-operative neuronavigation provided great advantages in the choice of the best approach, placing of bone flap, correct definition of tumour boundaries and meningeal implant, relationship with functional areas, early identification and real-time correction of the surgical route with respect of deep normal or distorted anatomic or pathologic structures and their eventual encasement or involvement by the pathologic primary process. Neuronavigation appeared ideal for skull base meningiomas making surgical manoeuvres safer, more effective and less invasive. In skull base lesions, CSF loss appeared not significant due to the fact that posterior fossa structures are strictly connected to each other and to the bone, thus are poorly affected by surgical deliquoration. We propose the possible extension of imaging fusion technique with the aim of optimizing the target in radiotherapy for intracranial tumours

Prevalence Study of Iliopsoas Bursitis in a Cohort of 860 Patients Affected by Symptomatic Hip Osteoarthritis

We used ultrasound to evaluate iliopsoas bursitis (IB) prevalence in 860 patients (568 males, 292 females, 62 \ub1 7 years) suffering from symptomatic Kellgren-Lawrence grade II-III-IV hip osteoarthritis. Lequesne index and visual analogue scale (VAS) were recorded. Anterior hip was scanned and images recorded. Maximum IB diameter was measured and drained (volume recorded). Two radiologists evaluated the presence of IB, joint effusion, synovial hypertrophy, communication between bursa and articular space. IB was found in 19/860 (2.2%) patients (16 males, 3 females, 65 \ub1 11 years; grade II osteoarthritis = 4; III = 9; IV = 6). Mean bursa diameter = 2.9 \ub1 0.9 cm, volume = 35 \ub1 34 mL. Effusion was present in 9/19 patients, hypertrophy in 6/19 and communication in 9/19. In patients with no IB, effusion was detected in 27/860 and hypertrophy in 25/860 (p < 0.001 compared with IB patients) \u3ba = 1 for all. VAS index and Lequesne index were not significantly different between patients with or without IB (p 65 0.468). Ultrasound can detect associate findings in grade II-IV hip osteoarthritis patients with high reproducibility. \ua9 2012 World Federation for Ultrasound in Medicine & Biology

Usefulness of imaging fusion for therapeutic planning in skull base lesions

We propose critical considerations on the usefulness of CT, MRI, and fMRI imaging fusion for the treatment of skull base lesions evaluating 41 cases (24 meningiomas: six petroclival, seven clinoidal, four olfactory, two in the foramen magnum, two spheno-petro-clival, one in the planum sphenoidale, one in the posterior pyramid and one in the PCA; five acoustic schwannomas, three epidermoids, two pituitary adenomas, two craniopharingiomas, two posterior fossa aneurysms, one trigeminal schwannoma, one dermoid and one juvenile angiofibroma). Data were collected, fused, integrated and reconstructed by a dedicated Stealth-Station system for Neuronavigation. CT images were acquired on axial non-overlapping slices, 1-3 mm thick; MRI images were obtained with a 1.5 T system, same FOV and thickness. During surgery the Mean Fiducially Error measured at 6 cm depth and anatomical distortion due to CSF loss was evaluated. Neuronavigation was possible in all cases and successfully applied in preoperative planning and during surgical procedures. The Mean Fiducially Error at 6 cm was 1.7 mm. CSF loss during surgery produced modifications on planned anatomy in a mean value of 0.6 mm. In all cases, imaging fusion for pre and intra-operative neuronavigation provided great advantages in the choice of the best approach, placing of bone flap, correct definition of tumour boundaries and meningeal implant, relationship with functional areas, early identification and real-time correction of the surgical route with respect of deep normal or distorted anatomic or pathologic structures and their eventual encasement or involvement by the pathologic primary process. Neuronavigation appeared ideal for skull base meningiomas making surgical manoeuvres safer, more effective and less invasive. In skull base lesions, CSF loss appeared not significant due to the fact that posterior fossa structures are strictly connected to each other and to the bone, thus are poorly affected by surgical deliquoration. We propose the possible extension of imaging fusion technique with the aim of optimizing the target in radiotherapy for intracranial tumours

Usefulness of imaging fusion for therapeuthic planning in skull base lesions

We propose critical considerations on the usefulness of CT, MRI, and fMRI imaging fusion for the treatment of skull base lesions evaluating 41 cases (24 meningiomas: six petroclival, seven clinoidal, four olfactory, two in the foramen magnum, two spheno-petro-clival, one in the planum sphenoidale, one in the posterior pyramid and one in the PCA; five acoustic schwannomas, three epidermoids, two pituitary adenomas, two craniopharingiomas, two posterior fossa aneurysms, one trigeminal schwannoma, one dermoid and one juvenile angiofibroma). Data were collected, fused, integrated and reconstructed by a dedicated Stealth-Station system for Neuronavigation. CT images were acquired on axial non-overlapping slices, 1-3 mm thick; MRI images were obtained with a 1.5 T system, same FOV and thickness. During surgery the Mean Fiducially Error measured at 6 cm depth and anatomical distortion due to CSF loss was evaluated. Neuronavigation was possible in all cases and successfully applied in preoperative planning and during surgical procedures. The Mean Fiducially Error at 6 cm was 1.7 mm. CSF loss during surgery produced modifications on planned anatomy in a mean value of 0.6 mm. In all cases, imaging fusion for pre and intra-operative neuronavigation provided great advantages in the choice of the best approach, placing of bone flap, correct definition of tumour boundaries and meningeal implant, relationship with functional areas, early identification and real-time correction of the surgical route with respect of deep normal or distorted anatomic or pathologic structures and their eventual encasement or involvement by the pathologic primary process. Neuronavigation appeared ideal for skull base meningiomas making surgical manoeuvres safer, more effective and less invasive. In skull base lesions, CSF loss appeared not significant due to the fact that posterior fossa structures are strictly connected to each other and to the bone, thus are poorly affected by surgical deliquoration. We propose the possible extension of imaging fusion technique with the aim of optimizing the target in radiotherapy for intracranial tumours

Intra-Articular Injections of Infliximab in the Treatment of Inflammatory Rheumatic Diseases: Case Reports and Review of Literature

Inflammatory chronic diseases involving joints together with other organs are usually treated with a systemic approach. In a few cases, where arthritis is not responsive to traditional treatments, an intraarticular (I.A.) therapy could be useful. Furthermore, patients not eligible for systemic therapy with anti-TNF or other DMARDs, as well as patients with an initial arthritis with the involvement of a single joint, such as the knee or hip joint, could use the I.A. injection therapy. In this article we report our experience with five patients affected by rheumatic inflammatory diseases, not responding to traditional systemic DMARDs-based therapies or not eligible for systemic use of biological response modifiers who underwent ultrasound-guided I.A. injection of Infliximab. Three of 5 patients showed a positive and long-lasting response to treatment with local Infliximab. Safety profile was good according to literature data. Moreover, in this article we review the literature on this therapeutic approach. This is the first report of I.A. use of Infliximab in the hip joint

Infiltrations épiduro-foraminales versus foraminales sous guidage scanner.

Objectifs: Evaluer l'intérêt d'une double infiltration sous guidage scanner épiduro-foraminale versus foraminale seule dans les conflits disco -radiculaires. Matériels et méthodes: Etude randomisée prospective monocentrique portant sur 110 patients évaluant à J1, J7 et J30 l'évolution clinique par EVA, ODI et prise antalgiques. L'ensembledes interventions est réalisé sous guidage scanner avec opacification de la zone traitée pour confirmer le bon positionnement des corticoïdes . Résultats: Une différence significative (p&lt;0,04) est montrée pour les hernies postéro-latérales avec une meilleure efficacité de l'injection double épidurale et foraminale.Aucune complication majeure n'a été constatée sur les 400 patients eligibles. Conclusion: Les infiltrations sous scanner sont des interventions efficaces et sûres . Le double abord épidural et foraminal présente un intérêt dans les herniespostéro-latérales