Simon Décary

Prolonged voluntary wheel-running stimulates neural precursors in the hippocampus and forebrain of adult CD1 mice

Voluntary wheel‐running induces a rapid increase in proliferation and neurogenesis by neural precursors present in the adult rodent hippocampus. In contrast, the responses of hippocampal and other central nervous system neural precursors following longer periods of voluntary physical activity are unclear and are an issue of potential relevance to physical rehabilitation programs. We investigated the effects of a prolonged, 6‐week voluntary wheel‐running paradigm on neural precursors of the CD1 mouse hippocampus and forebrain. Examination of the hippocampus following 6 weeks of running revealed two to three times as many newly born neurons and 60% more proliferating cells when compared with standard‐housed control mice. Among running mice, the number of newly born neurons correlated with the total running distance. To establish the effects of wheel‐running on hippocampal precursors dividing during later stages of the prolonged running regime, BrdU was administered after 3 weeks of running and the BrdU‐retaining cells were analyzed 18 days later. Quantifications revealed that the effects of wheel‐running were maintained in late‐stage proliferating cells, as running mice had two to three times as many BrdU‐retaining cells within the hippocampal dentate gyrus, and these yielded greater proportions of both mature neurons and proliferative cells. The effects of prolonged wheel‐running were also detected beyond the hippocampus. Unlike short‐term wheel‐running, prolonged wheel‐running was associated with higher numbers of proliferating cells within the ventral forebrain subventricular region, a site of age‐associated decreases in neural precursor proliferation and neurogenesis. Collectively, these findings indicate that (i) prolonged voluntary wheel‐running maintains an increased level of hippocampal neurogenesis whose magnitude is linked to total running performance, and (ii) that it influences multiple neural precursor populations of the adult mouse brain.

Voluntary running exercise prevents β-cell failure in susceptible islets of the Zucker diabetic fatty rat

Physical activity improves glycemic control in type 2 diabetes (T2D), but its contribution to preserving β-cell function is uncertain. We evaluated the role of physical activity on β-cell secretory function and glycerolipid/fatty acid (GL/FA) cycling in male Zucker diabetic fatty (ZDF) rats. Six-week-old ZDF rats engaged in voluntary running for 6 wk (ZDF-A). Inactive Zucker lean and ZDF (ZDF-I) rats served as controls. ZDF-I rats displayed progressive hyperglycemia with β-cell failure evidenced by falling insulinemia and reduced insulin secretion to oral glucose. Isolated ZDF-I rat islets showed reduced glucose-stimulated insulin secretion expressed per islet and per islet protein. They were also characterized by loss of the glucose regulation of fatty acid oxidation and GL/FA cycling, reduced mRNA expression of key β-cell genes, and severe reduction of insulin stores. Physical activity prevented diabetes in ZDF rats through sustaining β-cell compensation to insulin resistance shown in vivo and in vitro. Surprisingly, ZDF-A islets had persistent defects in fatty acid oxidation, GL/FA cycling, and β-cell gene expression. ZDF-A islets, however, had preserved islet insulin mRNA and insulin stores compared with ZDF-I rats. Physical activity did not prevent hyperphagia, dyslipidemia, or obesity in ZDF rats. In conclusion, islets of ZDF rats have a susceptibility to failure that is possibly due to altered β-cell fatty acid metabolism. Depletion of pancreatic islet insulin stores is a major contributor to islet failure in this T2D model, preventable by physical activity.

Angiomotin p80/p130 ratio: a new indicator of exercise‐induced angiogenic activity in skeletal muscles from obese and non‐obese rats?

Skeletal muscle capillarisation responds to physiological and pathological conditions with a remarkable plasticity. Angiomotin was recently identified as a new pro‐angiogenic molecule. Angiomotin is expressed as two protein isoforms, p80 and p130. Whereas p80 stimulates endothelial cell migration and angiogenesis, p130 is rather characteristic of stabilized and matured vessels. To date, how angiomotin expression is physiologically regulated in vivo remains largely unknown. We thus investigated (1) whether angiomotin was physiologically expressed in skeletal muscle; (2) whether exercise training, known to stimulate muscle angiogenesis, affected angiomotin expression; and (3) whether such regulation was altered in obesity, a pathological situation often associated with an impaired angiogenic activity and some capillary rarefaction in skeletal muscle. Two models of obesity were used: a high fat diet regime and Zucker Diabetic Fatty rats (ZDF). Our results provide evidence that angiomotin was expressed both in capillaries and myofibres. In non‐obese rats, the p80 isoform was increased in plantaris muscle in response to endurance training whereas p130 was unaffected. In obese animals, no change was observed for p80 whereas training significantly decreased p130 expression. Exercise training induced angiogenesis in plantaris from both obese and non‐obese rats, possibly through the modulation of angiomotin level and its consequences on RhoA–ROCK signalling. In conclusion, any increase in p80 or decrease in p130, as respectively observed in non‐obese and obese animals, led to an increased ratio between p80 and p130 isoforms. This increased angiomotin p80/p130 ratio might then directly reflect the enhanced angiogenic ability of skeletal muscle in response to exercise training.

Striated muscle angio-adaptation requires changes in Vasohibin-1 expression pattern

Vasohibin-1 (VASH-1) was recently identified as a negative feedback regulator of angiogenesis. Here, we analyzed how the expression of the two active anti-angiogenic VASH-1 isoforms p36 and p42 was altered during physiological and pathological muscle angio-adaptation. Our results showed that VASH-1 protein expression was muscle-type specific, with higher levels detected in less vascularized muscles. In rat plantaris and heart muscles, the expression of VASH-1 protein was decreased in response to exercise training, a physiological pro-angiogenic stimulus leading to muscle capillary growth. Interestingly, expression patterns for p36 and p42 were different between plantaris and heart muscles. Next, we analyzed the time-course expression of VASH-1 isoforms in rat soleus muscles subjected to hindlimb unloading, a model that induces muscle capillary regression. Both p36 and p42 isoforms were increased, a signal in favor of some vessel destabilization and regression. Finally, we investigated VASH-1 expression in plantaris muscles from Zucker Diabetic Fatty rats (ZDF) that develop obesity and type-2 diabetes associated with a loss of capillaries in skeletal muscle. VASH-1 expression was higher in sedentary ZDF rats when compared to lean animals, suggesting its potential role during capillary regression. Interestingly, a physiological VASH-1 level was efficiently restored in spontaneously active ZDF animals where muscle capillarization was preserved. In conclusion, our results bring evidence that endogenous VASH-1 isoforms p36 and p42 are key actors of physiological and pathological muscle angio-adaptation.

The Timed Manual Wheelchair Slalom Test: A Reliable and Accurate Performance-Based Outcome Measure for Individuals With Spinal Cord Injury

OBJECTIVES To describe the timed manual wheelchair slalom test (MWST) and to quantify its test-retest reliability, standard error of measurement, and minimum detectable change (MDC). DESIGN Repeated-measures design. SETTING Pathokinesiology laboratory. PARTICIPANTS Manual wheelchair users (N=15) with spinal cord injury (SCI) (vertebral levels, C6 to T12; American Spinal Injury Association Impairment Scale: A, B, or C) participated in this study. Participants were 40.7±12.6 years of age, measured 1.77±.08m in height, weighed 79.6±23.9kg, and had been using a manual wheelchair as their primary mode of mobility for 5.9±7.5 years. INTERVENTIONS Participants propelled their own wheelchair at a self-selected maximum velocity along a slalom trajectory (linear length, 18m) defined by 7 cones aligned in a straight line and set 3m, 2m, and 1m apart from one another. Three trials (T=3) of the MWST were performed on 2 separate visits (V=2) 6.3±5.4 days apart. The generalizability theory was used to determine the reliability, standard error of measurement, and MDC and to propose testing protocols for the MWST. MAIN OUTCOME MEASURE The time needed to complete the MWST expressed in seconds. RESULTS All participants successfully completed the MWST. No adverse effect was reported. The time required to complete the MWST at visits 1 and 2 was 16.8±4.4 and 16.5±4.3 seconds, respectively. The reliability coefficient (φ=.981) and accuracy (standard error of measurement=3.47%, MDC=8.097%) were high when the time required for a participant to perform 3 MWST trials during a single visit (T=3, V=1) was averaged. CONCLUSIONS The timed MWST is a safe, reliable, and accurate performance-based outcome measure that can be administered easily and quickly in individuals with SCI who rely on a manually propelled wheelchair for mobility.

Validity of combining history elements and physical examination tests to diagnose patellofemoral pain.

OBJECTIVE To assess the validity of diagnostic clusters combining history elements and physical examination tests to diagnose or exclude patellofemoral pain (PFP). DESIGN Prospective diagnostic study. SETTINGS Orthopedic outpatient clinics, family medicine clinics, and community-dwelling. PARTICIPANTS Consecutive patients (N=279) consulting one of the participating orthopedic surgeons (n=3) or sport medicine physicians (n=2) for any knee complaint. INTERVENTIONS Not applicable. MAIN OUTCOME MEASURES History elements and physical examination tests were obtained by a trained physiotherapist blinded to the reference standard: a composite diagnosis including both physical examination tests and imaging results interpretation performed by an expert physician. Penalized logistic regression (least absolute shrinkage and selection operator) was used to identify history elements and physical examination tests associated with the diagnosis of PFP, and recursive partitioning was used to develop diagnostic clusters. Diagnostic accuracy measures including sensitivity, specificity, positive and negative predictive values, and positive and negative likelihood ratios with associated 95% confidence intervals (CIs) were calculated. RESULTS Two hundred seventy-nine participants were evaluated, and 75 had a diagnosis of PFP (26.9%). Different combinations of history elements and physical examination tests including the age of participants, knee pain location, difficulty descending stairs, patellar facet palpation, and passive knee extension range of motion were associated with a diagnosis of PFP and used in clusters to accurately discriminate between individuals with PFP and individuals without PFP. Two diagnostic clusters developed to confirm the presence of PFP yielded a positive likelihood ratio of 8.7 (95% CI, 5.2-14.6) and 3 clusters to exclude PFP yielded a negative likelihood ratio of .12 (95% CI, .06-.27). CONCLUSIONS Diagnostic clusters combining common history elements and physical examination tests that can accurately diagnose or exclude PFP compared to various knee disorders were developed. External validation is required before clinical use.

Clinical diagnosis of partial or complete anterior cruciate ligament tears using patients' history elements and physical examination tests

Objective To assess the diagnostic validity of clusters combining history elements and physical examination tests to diagnose partial or complete anterior cruciate ligament (ACL) tears. Design Prospective diagnostic study. Settings Orthopaedic clinics (n = 2), family medicine clinics (n = 2) and community-dwelling. Participants Consecutive patients with a knee complaint (n = 279) and consulting one of the participating orthopaedic surgeons (n = 3) or sport medicine physicians (n = 2). Interventions Not applicable. Main outcome measures History elements and physical examination tests performed independently were compared to the reference standard: an expert physicians’ composite diagnosis including history elements, physical tests and confirmatory magnetic resonance imaging. Penalized logistic regression (LASSO) was used to identify history elements and physical examination tests associated with the diagnosis of ACL tear and recursive partitioning was used to develop diagnostic clusters. Diagnostic accuracy measures including sensitivity (Se), specificity (Sp), predictive values and positive and negative likelihood ratios (LR+/-) with associated 95% confidence intervals (CI) were calculated. Results Forty-three individuals received a diagnosis of partial or complete ACL tear (15.4% of total cohort). The Lachman test alone was able to diagnose partial or complete ACL tears (LR+: 38.4; 95%CI: 16.0–92.5). Combining a history of trauma during a pivot with a “popping” sensation also reached a high diagnostic validity for partial or complete tears (LR+: 9.8; 95%CI: 5.6–17.3). Combining a history of trauma during a pivot, immediate effusion after trauma and a positive Lachman test was able to identify individuals with a complete ACL tear (LR+: 17.5; 95%CI: 9.8–31.5). Finally, combining a negative history of pivot or a negative popping sensation during trauma with a negative Lachman or pivot shift test was able to exclude both partial or complete ACL tears (LR-: 0.08; 95%CI: 0.03–0.24). Conclusion Diagnostic clusters combining history elements and physical examination tests can support the differential diagnosis of ACL tears compared to various knee disorders.

Diagnostic validity of combining history elements and physical examination tests for traumatic and degenerative symptomatic meniscal tears.

The current approach to the clinical diagnosis of traumatic and degenerative symptomatic meniscal tears (SMTs) proposes combining history elements and physical examination tests without systematic prescription of imaging investigations, yet the evidence to support this diagnostic approach is scarce.