Application of intravoxel incoherent motion perfusion imaging to shoulder muscles after a lift-off test of varying duration.

Intravoxel incoherent motion (IVIM) MRI is a method to extract microvascular blood flow information out of diffusion-weighted images acquired at multiple b-values. We hypothesized that IVIM can identify the muscles selectively involved in a specific task, by measuring changes in activity-induced local muscular perfusion after exercise. We tested this hypothesis using a widely used clinical maneuver, the lift-off test, which is known to assess specifically the subscapularis muscle functional integrity. Twelve shoulders from six healthy male volunteers were imaged at 3 T, at rest, as well as after a lift-off test hold against resistance for 30 s, 1 and 2 min respectively, in three independent sessions. IVIM parameters, consisting of perfusion fraction (f), diffusion coefficient (D), pseudo-diffusion coefficient D* and blood flow-related fD*, were estimated within outlined muscles of the rotator cuff and the deltoid bundles. The mean values at rest and after the lift-off tests were compared in each muscle using a one-way ANOVA. A statistically significant increase in fD* was measured in the subscapularis, after a lift-off test of any duration, as well as in D. A fD* increase was the most marked (30 s, +103%; 1 min, +130%; 2 min, +156%) and was gradual with the duration of the test (in 10(-3) mm(2) /s: rest, 1.41 ± 0.50; 30 s, 2.86 ± 1.17; 1 min, 3.23 ± 1.22; 2 min, 3.60 ± 1.21). A significant increase in fD* and D was also visible in the posterior bundle of the deltoid. No significant change was consistently visible in the other investigated muscles of the rotator cuff and the other bundles of the deltoid. In conclusion, IVIM fD* allows the demonstration of a task-related microvascular perfusion increase after a specific task and suggests a direct relationship between microvascular perfusion and the duration of the effort. It is a promising method to investigate non-invasively skeletal muscle physiology and clinical perfusion-related muscular disorders.

On the Use of a Test to Exhaustion Specific to Tennis (TEST) with Ball Hitting by Elite Players

PURPOSE: We aimed to a) introduce a new Test to Exhaustion Specific to Tennis (TEST) and compare performance (test duration) and physiological responses to those obtained during the 20-m multistage shuttle test (MSST), and b) determine to which extent those variables correlate with performance level (tennis competitive ranking) for both test procedures. METHODS: Twenty-seven junior players (8 males, 19 females) members of the national teams of the French Tennis Federation completed MSST and TEST, including elements of the game (ball hitting, intermittent activity, lateral displacement), in a randomized order. Cardiorespiratory responses were compared at submaximal (respiratory compensation point) and maximal loads between the two tests. RESULTS: At the respiratory compensation point oxygen uptake (50.1 +/- 4.7 vs. 47.5 +/- 4.3 mL.min-1.kg-1, p = 0.02), but not minute ventilation and heart rate, was higher for TEST compared to MSST. However, load increment and physiological responses at exhaustion did not differ between the two tests. Players' ranking correlated negatively with oxygen uptake measured at submaximal and maximal loads for both TEST (r = -0.41; p = 0.01 and -0.55; p = 0.004) and MSST (r = -0.38; P = 0.05 and -0.51; p = 0.1). CONCLUSION: Using TEST provides a tennis-specific assessment of aerobic fitness and may be used to prescribe aerobic exercise in a context more appropriate to the game than MSST. Results also indicate that VO2 values both at submaximal and maximal load reached during TEST and MSST are moderate predictors of players competitive ranking.

Estimation de l'impact économique de l'introduction d'un test diagnostique rapide pour le dépistage des MRSA au CHUV

Contexte : Parmi les infections nosocomiales, le Staphylocoque méticilline résistant (MRSA) est le germe pathogène le plus couramment identifié dans les hôpitaux du monde entier. La stratégie de contrôle des MRSA au CHUV implique le dépistage des patients à risque. Avec la méthode de dépistage par culture, le temps d'attente est de plusieurs jours. Ceci occasionne des problèmes dans la gestion des flux des patients, principalement à cause des mesures d'isolement. Pour réduire le temps d'attente, l'hôpital envisage d'utiliser une méthode de diagnostic rapide par "polymerase chain reaction" (PCR). Méthodologie : Les données concernant les dépistages réalisés, dans trois services durant l'année 2007, ont été utilisées. Le nombre de jours d'isolement a d'abord été déterminé par patient et par service. Ensuite une analyse des coûts a été effectuée afin d'évaluer la différence des coûts entre les deux méthodes pour chaque service. Résultats : Le principal impact économique de la méthode par PCR dépend principalement du nombre de jours d'isolements évités par rapport à la méthode de culture. Aux services de soins, l'analyse a été menée sur 192 dépistages. Quand la différence de jours d'isolement est de deux jours, le coût des dépistages diminue de plus de 12kCHF et le nombre de jours d'isolement diminue de 384 jours. Au centre interdisciplinaire des urgences, sur 96 dépistages, le gain potentiel avec la méthode PCR est de 6kCHF avec une diminution de 192 jours d'isolement. Aux soins intensifs adultes, la méthode de dépistage par PCR est la méthode la plus rentable avec une diminution des coûts entre 4KCHF et 20K CHF et une diminution des jours d'isolement entre 170 et 310. Pour les trois services analysés, les résultats montrent un rapport coût-efficacité favorable pour la méthode PCR lorsque la diminution des jours d'isolement est supérieure à 1.3 jour. Quand la différence de jours d'isolement est inférieure à 1.3, il faut tenir compte d'autres paramètres, comme le coût de matériel qui doit être supérieur à 45.5 CHF, et du nombre d'analyses par dépistage, qui doit être inférieur à 3, pour que la PCR reste l'alternative la plus intéressante. Conclusions : La méthode par PCR montre des avantages potentiels importants, tant économiques qu'organisationnels qui limitent ou diminuent les contraintes liées à la stratégie de contrôle des MRSA au CHUV. [Auteure, p. 3]

Laboratory automation in clinical bacteriology: what system to choose?

Automation was introduced many years ago in several diagnostic disciplines such as chemistry, haematology and molecular biology. The first laboratory automation system for clinical bacteriology was released in 2006, and it rapidly proved its value by increasing productivity, allowing a continuous increase in sample volumes despite limited budgets and personnel shortages. Today, two major manufacturers, BD Kiestra and Copan, are commercializing partial or complete laboratory automation systems for bacteriology. The laboratory automation systems are rapidly evolving to provide improved hardware and software solutions to optimize laboratory efficiency. However, the complex parameters of the laboratory and automation systems must be considered to determine the best system for each given laboratory. We address several topics on laboratory automation that may help clinical bacteriologists to understand the particularities and operative modalities of the different systems. We present (a) a comparison of the engineering and technical features of the various elements composing the two different automated systems currently available, (b) the system workflows of partial and complete laboratory automation, which define the basis for laboratory reorganization required to optimize system efficiency, (c) the concept of digital imaging and telebacteriology, (d) the connectivity of laboratory automation to the laboratory information system, (e) the general advantages and disadvantages as well as the expected impacts provided by laboratory automation and (f) the laboratory data required to conduct a workflow assessment to determine the best configuration of an automated system for the laboratory activities and specificities.

Ten years of R&D and full automation in molecular diagnosis.

A 10-year experience of our automated molecular diagnostic platform that carries out 91 different real-time PCR is described. Progresses and future perspectives in molecular diagnostic microbiology are reviewed: why automation is important; how our platform was implemented; how homemade PCRs were developed; the advantages/disadvantages of homemade PCRs, including the critical aspects of troubleshooting and the need to further reduce the turnaround time for specific samples, at least for defined clinical settings such as emergencies. The future of molecular diagnosis depends on automation, and in a novel perspective, it is time now to fully acknowledge the true contribution of molecular diagnostic and to reconsider the indication for PCR, by also using these tests as first-line assays.