Emergency Department Versus Operating Suite Intubation in Operative Trauma Patients: Does Location Matter?

BACKGROUND: Decreasing the time from patient arrival to definitive surgical care in injured patients requiring an operation improves outcomes. We sought to study the effect of intubation location (emergency department versus operating suite) on time to definitive surgical care. We hypothesized that patients requiring emergency surgical interventions intubated in the emergency department would have shorter times to definitive care when compared to patients intubated in the operating suite. METHODS: All injured patients with a preoperative emergency department dwell time of less than 30 min and undergoing emergency operative procedures with the trauma surgery service at an urban Level I center (2010-2017) were analyzed. Demographics, clinical variables, and outcomes were assessed in relation to emergency department intubation versus operating suite intubation. The primary study endpoint was time to initiation of definitive surgical care, defined as the total elapsed time from emergency department arrival until operating room incision time. To investigate the relationship between clinical variables and time, multivariable regression was performed. RESULTS: In total, 241 patients were included. In total, 138 patients were intubated in the emergency department and 103 patients were intubated in the operative suite. There was no difference between patients intubated in the emergency department and those intubated in the operating room with respect to age, gender, injury mechanism, initial heart rate or systolic blood pressure. Emergency department patients were more likely to sustain post-intubation, traumatic cardiopulmonary arrest (8.0 vs. 0.9%; p = 0.014). No statistical difference in total elapsed time from arrival to definitive surgical care was appreciated between study groups (41 vs. 43 min; p = 0.064). After controlling for clinical variables, emergency department intubation was not associated with time to definitive care (p = 0.386) in the multiple variable regression analysis. CONCLUSION: When emergency department and operative suite intubation patients were compared, emergency department intubation did not decrease total elapsed time until definitive surgery but was associated with post-intubation, traumatic cardiopulmonary arrest.

[Health-related quality of life assessment in depression after low-frequency transcranial magnetic stimulation]. / Qualité de vie liée à la santé dans la dépression après stimulation magnétique transcrânienne basse fréquence.

BACKGROUND: Major depressive disorder remains one of the leading causes of disability in developed countries despite pharmacological and psychological treatments. Patients with major depression have poorer health-related quality of life than persons of the general population, or patients with chronic somatic illness. Improvement of health-related quality of life in depression is thus a pertinent treatment objective. Both high-frequency repetitive transcranial magnetic stimulation (rTMS) over the left dorsolateral prefrontal cortex and low-frequency rTMS over the right dorsolateral prefrontal cortex have shown their effectiveness in medication-resistant depression. However, the Health-related Quality of Life questionnaire remains under-utilized to assess the effectiveness of rTMS in research or in a routine clinical setting. Our study aims to investigate in an open label trial the efficacy of low-frequency rTMS over the right dorsolateral prefrontal cortex on health-related quality of life and clinical outcomes in medication-resistant depression. METHODS: In a naturalistic trial, 33 unipolar and bipolar patients with medication-resistant depression were treated with daily low-frequency rTMS over the right dorsolateral prefrontal cortex for 4 weeks. Health-related quality of life was assessed using the SF-36 questionnaire. The SF-36 is a generic, self-administered, and worldwide-used questionnaire, consisting of 36 items describing eight health dimensions: physical functioning, social functioning, role-physical problems, role-emotional problems, mental health, vitality, bodily pain, and general health. Physical component summary and mental component summary scores were then obtained. Depression severity was assessed using the 21-item self-report Beck Depression Inventory. Anxiety severity was assessed using the State-Trait Anxiety Inventory. The SF-36, the Beck Depression Inventory and the State-Trait Anxiety Inventory were assessed before and after low-frequency rTMS. The effect of rTMS treatment on the SF-36 and the clinical outcome was evaluated for significance with the Wilcoxon two-tailed signed-rank test. The reliable change index (RCI) was calculated to determine clinically significant change in the eight dimension and composite scores of the SF-36 from pre-intervention to post-intervention, at the level of individual patients. Effect size (r) was then calculated, r values from 0.1 to 0.29, 0.3 to 0.49 and from 0.5 were considered as indicating small, medium and large effect sizes, respectively. Correlations between improvement in Health-related Quality of Life and improvement in the other rating scale scores were calculated using Spearman's correlation test. RESULTS: There were significant improvements of 37.6% in the mental health (P=0.018), 130 % in the role-emotional problem (P=0.045), 15.5% in the physical functioning (P=0.008), 110.6% in the role-physical problem (P=0.002), 22.4% in the bodily pain (P=0.013) dimensions, 6.1% in the Physical Component Score (P=0.043), and 22,5 % in the Beck Depression Inventory (P=0.002). Eighteen patients (54%) showed clinically significant improvement in one of the two composite scores after RCI calculation. Seven out of the eight SF-36 dimension scores and the two composite scores showed effect sizes ranging from 0.12 to 0.38, indicating small to moderate effect. Significant correlations were found between improvement in the Beck Depression Inventory and improvement in the Mental Component Score, the social functioning, the mental health, the general health, the vitality and the physical functioning dimensions. LIMITATIONS: Small sample size and non-controlled design. CONCLUSION: Low-frequency rTMS over the right dorsolateral prefrontal cortex improves Health-related Quality of Life in unipolar and bipolar patients with medication-resistant depression. Improvement in mental health-related quality of life is significantly correlated with improvement in depressive symptoms. However, further studies with larger samples and controlled designs are needed to clarify our findings.

From mild to gangrenous cholecystitis, laparoscopic cholecystectomy is safe 24 hours a day.

OBJECTIVES: Laparoscopic cholecystectomy (LC) at night remains controversial. Prior studies have not controlled for disease severity. We analyzed outcomes of LC performed day vs. night while controlling for the Parkland Grading Scale for Cholecystitis (PGS). METHODS: Analysis of the AAST multicenter evaluation of cholecystitis database was performed. Exclusion criteria included non-operative cases, open operations, and missing PGS. Cases were divided based on operation start time. PGS was used to control for disease severity. Outcomes included operative time, use of bailout techniques and complications. RESULTS: Of 759 procedures identified, 16% were nighttime LC. No differences in demographics, comorbidities, physiologic variables and PGS were noted. Operative time (108.6 min vs 105.6), bailout techniques (8.3% vs 7.4%) and complications (9.9% vs 11.3%) were similar between groups. CONCLUSION: Regardless of severity, laparoscopic cholecystectomy is safe 24-h a day. Operations performed at night have a similar complication profile to those performed during the day.

In-plane magnetic anisotropy and temperature dependence of switching field in (Ga, Mn) as ferromagnetic semiconductors.

We explore the magnetic anisotropy of GaMnAs ferromagnetic semiconductor by Planar Hall Effect (PHE) measurements. Using low magnitude of applied magnetic field (i.e., when the magnitude H is smaller than both cubic Hc and uniaxial Hu anisotropy field), we have observed various shapes of applied magnetic field direction dependence of Planar Hall Resistance (PHR). In particular, in two regions of temperature. At T < Tc/2, the "square-shape" signal and at T > Tc/2 the "zigzag-shape" signal of PHR. They reflect different magnetic anisotropy and provide information about magnetization reversal process in GaMnAs ferromagnetic semiconductor. The theoretical model calculation of PHR based on the free energy density reproduces well the experimental data. We report also the temperature dependence of anisotropy constants and magnetization orientations. The transition of easy axis from biaxial to uniaxiale axes has been observed and confirmed by SQUID measurements.

3D kinematic of bunched, medium and elongated sprint start.

The aim of this study was to test the influence of 3 different horizontal distances between the blocks (bunched, medium and elongated) on the velocity of the centre of mass (VCM) and the kinetic energy (KE) of the body segments and of the whole body. 9 well-trained sprinters performed 4 maximal 10 m sprints. An opto-electronic Motion Analysis® system (12 digital cameras 250 Hz) was used to collect the 3D trajectories of 63 markers during the starting block phase. The results demonstrated that the elongated start, compared to the bunched or medium start, induced an increase of VCM at block clearing (2.89±0.13; 2.76±0.11; 2.84±0.14 m.s - 1) and a decrease of the performance at 5 and 10 m. Both results were explained by a greater pushing time on the blocks in the elongated condition. During the starting block phase, the KE of the whole body was greater in the elongated start (324.3±48.0 J vs. 317.4±57.2 J, bunched and 302.1±53.2 J, medium). This greater KE of the whole body was mainly explained by the KE of the head-trunk segments. Thus, to improve the efficiency of the starting block phase, the athlete must produce greater KE of the head and trunk segments in the shortest time.

[Repetitive transcranial magnetic stimulation in major depression: response factor]. / Stimulation magnétique transcrânienne répétée dans la prise en charge des épisodes dépressifs majeurs : facteurs prédictifs de réponse thérapeutique.

OBJECTIVE: Repetitive transcranial magnetic stimulation (rTMS) is a brain stimulation technique that has been investigated as a novel treatment for psychiatric disorders, notably in major depression, and has shown statistically significant effects. The authors found it necessary to propose an up-to-date review of positive predictors for antidepressive response to repetitive transcranial magnetic stimulation. METHOD: Based on an exhaustive consultation of Medline data, supplemented by a manual research, only works evaluating response factors of rTMS in major depression were retained. RESULTS: Twenty-nine studies were retained, including meta-analyses, reviews, randomized controlled trials and open trials. The most concordant data clearly indicate that a high score of treatment resistance, a long duration of current episode, advanced age, and psychotic symptoms are negative predictors for treatment response to rTMS. In the older patients, menopausal women are especially concerned. However, some parameters should be adapted to the degree of cortical atrophy such as intensity of stimulation or total number of rTMS sessions. Previous response to rTMS therapy seems to be a good predictor contrary to non-response to electroconvulsive therapy. Adjunctive antidepressant treatment shows greater responsiveness to rTMS contrary to benzodiazepine or anticonvulsant treatment. To our knowledge, no study compares unipolar and bipolar depression, the profile of depression is not established yet. Imaging studies show that TMS antidepressant responders differed from non-responders in inferior frontal activity, at baseline, and even more so following treatment. Furthermore, reduced baseline cerebral metabolism in cerebellar, temporal, anterior cingulate and occipital regions of the brain was correlated with improvement after two weeks of fast (20Hz) left dorsolateral prefrontal cortex (DLPFC) rTMS. Additionally, a right frontal region emerges with divergent polarity in the metabolic prediction of response to low rTMS. Inhibiting right DLPFC or stimulating DLPFC shows similar results, the choice on the side of stimulation does not seem determining. Bilateral stimulation for the moment does not seem superior to unilateral stimulation. Parameters of stimulation associated with effectiveness of rTMS are an intensity of stimulation higher than 100% of the motor threshold, a number of stimulations per sessions superior to 1000, and a full number of days of treatment greater than 10. DISCUSSION: Parameters of stimulation must be adapted according to the treated patients. For example, older patients who present cortical atrophy need higher intensity of stimulation. Other criteria could influence effectiveness of rTMS in the same way. Would it be necessary, for example, to adapt the duration or the intensity of stimulation according to the severity of the depressive episode or its duration of evolution? Do antecedents of resistance to a pharmacological treatment oblige us to stimulate differently? Few studies exceed 10 days of treatment; will longer duration of treatment be more effective? Also, we did not find any data on the interest of maintenance treatment among responders. Should the characteristics of the depressive disorder or its evolution require maintenance treatment? What will be its rhythm and its duration? Should we adapt rTMS parameters to abnormalities highlighted by functional neuroimagery? The prospects for work remain numerous.

Subject-specific model-derived kinematics of the shoulder based on skin markers during arm abduction up to 180° - assessment of 4 gleno-humeral joint models.

Accuracy of shoulder kinematics predicted by multi-body kinematics optimisation depend on the joint models used. This study assesses the influence of four different subject-specific gleno-humeral joint models within multi-body kinematics optimisation: a 6-degree-of-freedom joint (i.e. single-body kinematics optimisation), a sphere-on-sphere joint (with two spheres of different radii) and a spherical joint with or without penalised translation. To drive these models, the 3D coordinates of 12 skin markers of 6 subjects performing static arm abduction poses up to 180° were used. The reference data was obtained using biplane X-rays from which 3D bone reconstructions were generated: scapula and humerus were 3D reconstructed by fitting a template model made of geometrical primitives on the two bones' X-rays. Without any motion capture system, the recording of the skin markers was performed at the very same time than the X-rays with radiopaque markers. The gleno-humeral displacements and angles, and scapula-thoracic angles were computed. The gleno-humeral sphere-on-sphere joint provided slightly better results than the spherical joint with or without penalised translation, but considerably better gleno-humeral displacements than the 6-DoF joint. Considering that it can easily be personalised from medical images, this sphere-on-sphere model seems promising for shoulder multi-body kinematics optimisation.

Uncertainty analysis and sensitivity of scapulothoracic joint angles to kinematic model parameters.

The purposes of this study were to determine the influence of kinematic model parameter variability on scapulothoracic angle estimates, and to define which parameters of the kinematic model have the largest effect on scapulothoracic angle estimates. Nominal subject-specific kinematic models of nine participants were implemented. Fifteen parameters of the nominal models relative to the clavicle length, ellipsoid, sternoclavicular and acromioclavicular joint centers, and contact point location were altered from - 1 to 1 cm. Then, scapulothoracic angles were computed during four movements using multibody kinematic optimizations for nominal and altered models. The percentage of scapulothoracic angle variance explained by each parameter of the kinematic model was computed using Effective Algorithm for Computing Global Sensitivity Indices. When altering simultaneously the 15 parameters of the kinematic model, scapulothoracic angles varied up to 50°. For all movements and degrees of freedom, the clavicle length significantly explained the largest part of scapulothoracic angle variance (up to 25%, p < 0.01). In conclusion, kinematic model parameters need to be estimated accurately to avoid any bias in scapulothoracic angle estimates especially in a clinical context. The present sensitivity analysis may also be used as a benchmark for future works focusing on improving shoulder kinematic models. The curves represent mean scapulothoracic angles computed with the nominal model and their variability when kinematic model parameters are altered. The colormap graphs represent the percentage of scapulothoracic angle variance explained by each parameter of the kinematic model.

The Conventional Gait Model's sensitivity to lower-limb marker placement.

Clinical gait analysis supports treatment decisions for patients with motor disorders. Measurement reproducibility is affected by extrinsic errors such as marker misplacement-considered the main factor in gait analysis variability. However, how marker placement affects output kinematics is not completely understood. The present study aimed to evaluate the Conventional Gait Model's sensitivity to marker placement. Using a dataset of kinematics for 20 children, eight lower-limb markers were virtually displaced by 10 mm in all four planes, and all the displacement combinations were recalculated. Root-mean-square deviation angles were calculated for each simulation with respect to the original kinematics. The marker movements with the greatest impact were for the femoral and tibial wands together with the lateral femoral epicondyle marker when displaced in the anterior-posterior axis. When displaced alone, the femoral wand was responsible for a deviation of 7.3° (± 1.8°) in hip rotation. Transversal plane measurements were affected most, with around 40% of simulations resulting in an effect greater than the acceptable limit of 5°. This study also provided insight into which markers need to be placed very carefully to obtain more reliable gait data.

The effect of ankle and hindfoot malalignment on foot mechanics in patients suffering from post-traumatic ankle osteoarthritis.

BACKGROUND: Ankle and hindfoot malalignment is a common finding in patients suffering from post-traumatic ankle osteoarthritis. However, no studies have addressed the effect of concomitant foot deformities on intrinsic foot kinematics and kinetics. Therefore, the objective of this study was to investigate the effect of ankle and hindfoot malalignment on the kinematics and kinetics of multiple joints in the foot and ankle complex in patients suffering from post-traumatic ankle osteoarthritis. METHODS: Twenty-nine subjects with post-traumatic ankle osteoarthritis participated in this study. Standardized weight-bearing radiographs were obtained preoperatively to categorize patients as having cavus, planus or neutral ankle and hindfoot alignment, based on 4 X-ray measurements. All patients underwent standard gait assessment. A 4-segment foot model was used to estimate intrinsic foot joint kinematics and kinetics during gait. Statistical parametric mapping was used to compare foot kinematics and kinetics between groups. FINDINGS: There were 3 key findings regarding overall foot function in the 3 groups of post-traumatic ankle osteoarthritis: (i) altered frontal and transverse plane inter-segmental angles and moments of the Shank-Calcaneus and Calcaneus-Midfoot joints in the cavus compared to the planus group; (ii) in cavus OA group, Midfoot-Metatarsus joint abduction sought to compensate the varus inclination of the ankle joint; (iii) there were no significant differences in inter-segmental angles and moments between the planus and neutral OA groups. INTERPRETATION: Future studies should integrate assessment of concomitant foot and ankle deformities in post-traumatic ankle osteoarthritis, to provide additional insight into associated mechanical deficits and compensation mechanisms during gait.

[Large iatrogenic colonic perforation treated by endoscopic suturing]. / Large perforation colique au cours d'une coloscopie traitée par fermeture endoscopique: rapport de deux observations.

Perforation of the colon during colonoscopy is still one of the most severe complications of this technique and occurs with a frequency of between 0.12 % and 0.2 % of cases after diagnostic colonoscopy and in up to 3 % of patients after therapeutic colonoscopy. The site of perforation is usually the sigmoid colon. The gold standard for treatment of this complication is surgery to be performed as rapidly as possible: a simple suture and peritoneal cleaning, with limited resection and anastomosis or colostomy only in case of confirmed fecal peritonitis. However, interventional endoscopy has made progress, in particular endoscopic suturing and Natural Orifice Transluminal Endocopic Surgery (NOTES) has been developed. There are several reports of endoscopically sutured perforated colons, most less than 10mm. We report our experience of two colonic perforations which were at least 10mm treated by endoscopic suturing with hemoclips: a perforated sigmoid diverticulum during simple colonoscopy in the first case and a large polypectomy by endoscopic mucosal resection of the ascending colon in the second.

[Affective disorders and repetitive transcranial magnetic stimulation: Therapeutic innovations]. / Troubles affectifs et stimulation magnétique transcrânienne répétée : innovations thérapeutiques.

Depression is the most common psychiatric disorder with a particularly important disability due to its evolution to chronicity and treatment-resistance. In the same way, the outcome of bipolar disorder is similar. Only 75% subjects remain remitted in the year following the onset of mood episode and depressive episode leads to worth responsiveness than patients in phase hypo/manic. Thus, treating mood episodes and fighting against resistant and residual symptoms or chronicity of the disorders constitute major clinical issues and economic challenges. They have generated great interest in finding new non-pharmacological approaches such as repetitive transcranial magnetic stimulation (rTMS). TMS is a non-invasive means of focal brain stimulation, rapidly fluctuating magnetic fields. Given the hypothesis that the right and left sides of the dorsolateral prefrontal cortex have opposing effects in mood control, high-frequency rTMS activates the left side and low-frequency to inhibit the right side in the treatment of depression. A literature review was conducted to study the efficacy of rTMS in the treatment of unipolar and bipolar depression, acute mania and long-term maintenance therapy. During the last decade, numerous studies including several meta-analyses have indicated the efficacy of rTMS in acute treatment of major depressive disorder. Overall, rTMS seems to be effective in the treatment of bipolar depression but further trials with larger cohorts should determine optimal parameters of stimulation. There are also few studies about rTMS in the treatment of acute mania. Protocols are reversed than in the treatment of depression. Results are promising but confounded by the presence of concurrent medications. Finally, the literature on the use of maintenance rTMS in the prevention of depressive relapse or as a mood stabiliser is limited. Nevertheless it demonstrates the importance of developing maintenance protocols to maintain the clinical improvement achieved at the end of the acute treatment. New techniques to improve the effectiveness of rTMS are already appearing.

Trauma video review utilization: A survey of practice in the United States.

INTRODUCTION: Trauma video review (TVR) for quality improvement and education in the United States has been described for nearly three decades. The most recent information on this practice indicated a declining prevalence. We hypothesized that TVR utilization has increased since most recent estimates. METHODS: We conducted a survey of TVR practices at level I and level II US trauma centers. We distributed an electronic survey covering past, current, and future TVR utilization to the Eastern Association for the Surgery of Trauma membership. RESULTS: 45.0% of US level I and level II trauma centers completed surveys. 71/249 centers (28.5%) had active TVR programs. The use of TVR did not differ between level I and level II centers (28.8% vs. 27.8%, p = 0.87). Respondents using TVR were overwhelmingly positive about its perception (median score 8, [IQR 6-9]; 10 = 'best') at their institutions. CONCLUSIONS: TVR use at Level I centers has increased over the past decade. Increased TVR utilization may form the basis for multicenter studies comparing processes of care during trauma resuscitation.

Correction for patient sway in radiographic biplanar imaging for three-dimensional reconstruction of the spine: in vitro study of a new method.

BACKGROUND: Three-dimensional (3D) reconstructions of the spine in the upright position are classically obtained using two-dimensional, non-simultaneous radiographic imaging. However, a subject's sway between exposures induces inaccuracy in the 3D reconstructions. PURPOSE: To evaluate the impact of patient sway between successive radiographic exposures, and to test if 3D reconstruction accuracy can be improved by a corrective method with simultaneous Moire-X-ray imaging. MATERIAL AND METHODS: Using a calibrated deformable phantom perceptible by both techniques (Moire and X-ray), the 3D positional and rotational vertebral data from 3D reconstructions with and without the corrective procedure were compared to the corresponding data of computed tomography (CT) scans, considered as a reference. All were expressed in the global axis system, as defined by the Scoliosis Research Society. RESULTS: When a sagittal sway of 10 degrees occurred between successive biplanar X-rays, the accuracy of the 3D reconstruction without correction was 8.8 mm for the anteroposterior vertebral locations and 6.4 degrees for the sagittal orientations. When the corrective method was applied, the accuracy was improved to 1.3 mm and 1.5 degrees , respectively. CONCLUSION: 3D accuracy improved significantly by using the corrective method, whatever the subject's sway. This technique is reliable for clinical appraisal of the spine, if the subject's sway does not exceed 10 degrees . For greater sway, improvement persists, but a risk of lack of accuracy exists.

A joint coordinate system proposal for the study of the trapeziometacarpal joint kinematics.

The International Society of Biomechanics (ISB) has recommended a standardisation for the motion reporting of almost all human joints. This study proposes an adaptation for the trapeziometacarpal joint. The definition of the segment coordinate system of both trapezium and first metacarpal is based on functional anatomy. The definition of the joint coordinate system (JCS) is guided by the two degrees of freedom of the joint, i.e. flexion-extension about a trapezium axis and abduction-adduction about a first metacarpal axis. The rotations obtained using three methods are compared on the same data: the fixed axes sequence proposed by Cooney et al., the mobile axes sequence proposed by the ISB and our alternative mobile axes sequence. The rotation amplitudes show a difference of 9 degrees in flexion-extension, 2 degrees in abduction-adduction and 13 degrees in internal-external rotation. This study emphasizes the importance of adapting the JCS to the functional anatomy of each particular joint.

Technical considerations in lateral extra-articular reconstruction coupled with anterior cruciate ligament reconstruction: A simulation study evaluating the influence of surgical parameters on control of knee stability.

BACKGROUND: Surgical parameters such as the selection of tibial and femoral attachment site, graft tension, and knee flexion angle at the time of fixation may influence the control of knee stability after lateral extra-articular reconstruction. This study aimed to determine how sensitive is the control of knee rotation and translation, during simulated pivot-shift scenarios, to these four surgery settings. METHODS: A computer model was used to simulate 625 lateral extra-articular reconstructions based upon five different variations of each of the following parameters: femoral and tibial attachment sites, knee flexion angle and graft tension at the time of fixation. For each simulated surgery, the lateral extra-articular reconstruction external rotation moment at the knee joint center was computed during simulated pivot-shift scenarios. The sensitivity of the control of knee rotation and translation to a given surgery setting was assessed by calculating the coefficient of variation of the lateral extra-articular reconstruction external rotation moment. FINDINGS: Graft tension had minimal influence on the control of knee rotation and translation with less than 2.4% of variation across the scenarios tested. Control of knee rotation and translation was the least affected by the femoral attachment site if the knee was close to full extension at the time of graft fixation. The choice of the tibial attachment site was crucial when the femoral fixation was proximal and posterior to the femoral epicondyle since 15 to 67% of variation was observed in the control of knee rotation and translation. INTERPRETATION: Femoral and tibial attachment sites as well as knee flexion angle at the time of fixation should be considered by surgeons when performing lateral extra-articular reconstruction. Variation in graft tension between the ranges 20-40 N has minimal influence on the control of knee rotation and translation.

[Quality and safety policy implementation for a new radiotherapy device]. / Mise en place d'une politique de qualité et de sécurité lors de l'installation d'un nouvel équipement dans un service de radiothérapie.

Modern radiotherapy techniques (intensity-modulated radiotherapy, volumetric-modulated arctherapy, image-guided radiotherapy) or stereotactic radiotherapy are in expansion in most French cancer centres. The arrival of such techniques requires updates of existing equipment or implementation of new radiotherapy devices with adapted options. With the arrival of these new devices, there is a need to develop a quality and safety policy. This is necessary to ease the process from the setup to the first treated patient. The quality and safety policy is maintained to ensure the quality assurance of the radiotherapy equipment. We conducted a review of the literature on the quality and safety policy in the French legal framework that can be proposed when implementing a new radiotherapy device.

Restricted role for methionine synthase reductase defined by subcellular localization.

Methionine synthase reductase (MSR; gene name MTRR) is responsible for the reductive activation of methionine synthase. Cloning of the MTRR gene had revealed two major transcription start sites which, by alternative splicing, allows for two potential translation products of 698 and 725 amino acids. While the shorter protein was expected to target the cytosol where methionine synthase is located, the additional sequence in the longer protein was consistent with a role as a mitochondrial leader sequence. The possibility that MSR might target mitochondria was also suggested by the work of Leal et al. [N.A. Leal, H. Olteanu, R. Banerjee, T.A. Bobik, Human ATP:Cob(I)alamin adenosyltransferase and its interaction with methionine synthase reductase, J. Biol. Chem. 279 (2004) 47536-47542.] who showed that it can act as the reducing enzyme in combination with MMAB (ATP:Cob(I)alamin adenosyltransferase) to generate adenosylcobalamin from cob(II)alamin in vitro. Here we examined directly whether MSR protein is found in mitochondria. We show that, while two transcripts are produced by alternative splicing, the N-terminal segment of the putative mitochondrial form of MSR fused to GFP does not contain a sufficiently strong mitochondrial leader sequence to direct the fusion protein to the mitochondria of human fibroblasts. Further, antibodies to MSR protein localized MSR to the cytosol, but not to the mitochondria of human fibroblasts or the human hepatoma line Huh-1, as determined by Western blot analysis and immunofluorescence of cells in situ. These data confirm that MSR protein is restricted to the cytosol but, based on the Leal study, suggest that a similar protein may interact with MMAB to reduce the mitochondrial cobalamin substrate in the generation of adenosylcobalamin.

Hip and knee joints are more stabilized than driven during the stance phase of gait: an analysis of the 3D angle between joint moment and joint angular velocity.

Joint power is commonly used in orthopaedics, ergonomics or sports analysis but its clinical interpretation remains controversial. Some basic principles on muscle actions and energy transfer have been proposed in 2D. The decomposition of power on 3 axes, although questionable, allows the same analysis in 3D. However, these basic principles have been widely criticized, mainly because bi-articular muscles must be considered. This requires a more complex computation in order to determine how the individual muscle force contributes to drive the joint. Conversely, with simple 3D inverse dynamics, the analysis of both joint moment and angular velocity directions is essential to clarify when the joint moment can contribute or not to drive the joint. The present study evaluates the 3D angle between the joint moment and the joint angular velocity and investigates when the hip, knee and ankle joints are predominantly driven (angle close to 0 degrees and 180 degrees ) or stabilized (angle close to 90 degrees ) during gait. The 3D angle curves show that the three joints are never fully but only partially driven and that the hip and knee joints are mainly stabilized during the stance phase. The notion of stabilization should be further investigated, especially for subjects with motion disorders or prostheses.