The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examin... more The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examined in 10 dyskinetic patients with Parkinson's disease (DPD), and compared to 10 age/gender-matched non-dyskinetic patients with Parkinson's disease (NDPD) and 10 healthy controls. Whole-body movement (WBM) and MT performance were recorded simultaneously with a 6-degrees-of-freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line they controlled via wrist rotation. Results show that DPD patients had greater WBM magnitude at rest and during the motor task, both in displacement and in velocity. All groups displayed some increase in WBM displacement from rest to MT, but only the DPD group had a significant increase in WBM velocity during movement. As for MT performance (determined by assessing the positional mismatch between subjects' and target lines), ERROR in displacement was statistically similar between groups. There was no correlation between ERROR and the magnitude of WBM within the DPD group. The DPD group showed significant increased ERROR when the velocity of the subject's line was compared with that of the velocity of the target line. When two distinct target pace segments were examined (FAST/SLOW), no significant differences were found in ERROR for displacement for either group, but both the NDPD and DPD group showed increased ERROR from SLOW to FAST for velocity. This was accompanied with an increase in WBM velocity only in the DPD group. The lack of increased ERROR during the SLOW tracking portion in the DPD group supports the notion that the dyskinesias themselves were not primarily responsible for the ERROR seen in the patients. When examining the positive or negative values of ERROR (i.e., faster or slower than the target), we found that the increased ERROR in velocity observed in the DPD group was the result of excess velocity rather than bradykinesia, manifested as isolated deviations from the target trace in the DPD group that were coherent in time with increased ERROR in velocity. In conclusion, evidence presented in the present study shows that the LID was not the primary cause of the ERROR seen in the DPD group. Accordingly, we propose that the increased ERROR seen in the DPD group resulted from a mechanism distinct from the one generating LID.
The influence of peak-dose drug-induced dyskinesia (DID) on manual tracking (MT) was examined in ... more The influence of peak-dose drug-induced dyskinesia (DID) on manual tracking (MT) was examined in 10 dyskinetic patients (OPO), and compared to 10 age/gendermatched non-dyskinetic patients (NDPD) and 10 healthy controls. Whole body movement (WBM) and MT were recorded with a 6-degrees of freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line controlled via wrist rotation. Results show that OPO patients had greater WBM displacement and velocity than other groups. All groups displayed increased WBM from rest to MT, but only DPD and NDPO patients demonstrated a significant increase in WBM displacement and velocity. In addition, OPO patients exhibited excessive increase in WBM suggesting overflow DID. When two distinct target pace segments were examined (FAST/SLOW), all groups had slight increases in WBM displacement and velocity from SLOW to FAST, but only OPO patients showed significantly increased WBM displacement and velocity from SLOW to FAST. Therefore, it can be suggested that overflow DID was further increased with increased task speed. OPO patients also showed significantly greater ERROR matching target velocity, but no significant difference in ERROR in displacement, indicating that significantly greater WBM displacement in the OPO group did not have a direct influence on tracking performance. Individual target and performance traces demonstrated this relatively good tracking performance with the exception of distinct deviations from the target trace that occurred suddenly, followed by quick returns to the target coherent in time with increased performance velocity. In addition, performance hand velocity was not correlated with WBM velocity in DPO patients, suggesting that increased ERROR in velocity was not a direct result of WBM velocity. In conclusion, we propose that over-excitation of motor cortical areas, reported to be present in DPO patients, resulted in overflow DID during voluntary movement. Furthermore, we propose that the increased ERROR in velocity was the result of hypermetric voluntary movements also originating from the over-excitation of motor cortical areas
The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examin... more The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examined in 10 dyskinetic patients with Parkinson's disease (DPD), and compared to 10 age/gender-matched non-dyskinetic patients with Parkinson's disease (NDPD) and 10 healthy controls. Whole-body movement (WBM) and MT performance were recorded simultaneously with a 6-degrees-of-freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line they controlled via wrist rotation. Results show that DPD patients had greater WBM magnitude at rest and during the motor task, both in displacement and in velocity. All groups displayed some increase in WBM displacement from rest to MT, but only the DPD group had a significant increase in WBM velocity during movement. As for MT performance (determined by assessing the positional mismatch between subjects' and target lines), ERROR in displacement was statistically similar between groups. There was no correlation between ERROR and the magnitude of WBM within the DPD group. The DPD group showed significant increased ERROR when the velocity of the subject's line was compared with that of the velocity of the target line. When two distinct target pace segments were examined (FAST/SLOW), no significant differences were found in ERROR for displacement for either group, but both the NDPD and DPD group showed increased ERROR from SLOW to FAST for velocity. This was accompanied with an increase in WBM velocity only in the DPD group. The lack of increased ERROR during the SLOW tracking portion in the DPD group supports the notion that the dyskinesias themselves were not primarily responsible for the ERROR seen in the patients. When examining the positive or negative values of ERROR (i.e., faster or slower than the target), we found that the increased ERROR in velocity observed in the DPD group was the result of excess velocity rather than bradykinesia, manifested as isolated deviations from the target trace in the DPD group that were coherent in time with increased ERROR in velocity. In conclusion, evidence presented in the present study shows that the LID was not the primary cause of the ERROR seen in the DPD group. Accordingly, we propose that the increased ERROR seen in the DPD group resulted from a mechanism distinct from the one generating LID.
We investigated the likelihood that bradykinesia coexisted with levodopa-induced dyskinesias (LID... more We investigated the likelihood that bradykinesia coexisted with levodopa-induced dyskinesias (LID) in 10 dyskinetic Parkinson's disease patients (DPD). Their motor performance was compared to that of 10 age/gender-matched non-dyskinetic patients (NDPD) and 10 healthy controls. Whole-body movement (WBM) and rapid alternating movements (RAM) at the wrist were recorded simultaneously using 6-degree of freedom magnetic motion tracker and forearm rotational sensors, respectively. WBM was recorded prior to, and while subjects performed pronation-supination movements of their dominant hand with maximal rotational excursion, and as fast as possible for 10s. RANGE, VELOCITY and IRREGULARITY of pronation-supination cycles were quantified to assess motor performance. Results show that DPD patients had greater WBM than NDPD and controls during rest and RAM performance, as expected. There were no differences in motor performance between DPD and NDPD groups for RANGE and VELOCITY, despite significantly longer disease duration for the DPD group (15.5+/-6.2 years versus 6.6+/-2.6 years). However, both the NDPD and DPD groups showed significantly lower RANGE and reduced VELOCITY compared to controls, suggesting the presence of bradykinesia. For IRREGULARITY, DPD patients showed increased fluctuations in pronation-supination cycle amplitude compared to NDPD and controls. However, the lack of correlation between WBM magnitude and IRREGULARITY within the DPD group (Spearman's rank order, rho = 0.31, p > 0.05), suggests that LID were not the primary cause of increased IRREGULARITY. In conclusion, our results demonstrated that bradykinesia can coexist with dyskinesias, suggestive of distinct neural circuits. Our results also demonstrated that the occurrence of LID is not inevitably accompanied with worsening of motor performance.
The present study characterized involuntary movements associated with levodopa-induced dyskinesia... more The present study characterized involuntary movements associated with levodopa-induced dyskinesias (LID) in patients with Parkinson's disease. We used amplitude, proportional energy, frequency dispersion and sample entropy to determine whether LID movement patterns are truly random, as clinical description seems to suggest, or possess some underlying pattern that is not visible to the naked eye. LID was captured using a magnetic tracker system, which provided 3D rendering of whole-body LID. Patients were instructed to maintain a standing position, with arms extended in front of them. We compared the measurements of the dyskinetic PD group (DPD) with 10 patients without dyskinesias (NDPD) and 10 control subjects. In comparison to the other two groups, movement patterns from the DPD group had significantly higher amplitude, confirming the presence of dyskinesias. In addition, higher frequency components in the power spectrum of velocity were detected, suggestive of higher velocity in LID movement. Furthermore, there was a concentration in narrow frequency bands, which suggested stable oscillatory activity. Finally, sample entropy revealed more regularity in the DPD group. Although not statistically significant, we found that the amplitude from the NDPD group had a tendency to be smaller than those of controls. As well, the spectra were often more dispersed for the NDPD group. In conclusion, the present results suggest that LID cannot be considered as purely random movement since they possess some deterministic pattern of motion. This may provide a way for patients to adapt to these involuntary movements while performing voluntary motor acts.
The efficacy and safety of prone positioning is unclear in nonintubated patients with acute hypox... more The efficacy and safety of prone positioning is unclear in nonintubated patients with acute hypoxemia and COVID-19. OBJECTIVE To evaluate the efficacy and adverse events of prone positioning in nonintubated adult patients with acute hypoxemia and COVID-19. DESIGN, SETTING, AND PARTICIPANTS Pragmatic, unblinded randomized clinical trial conducted at 21 hospitals in Canada, Kuwait, Saudi Arabia, and the US. Eligible adult patients with COVID-19 were not intubated and required oxygen (Ն40%) or noninvasive ventilation. A total of 400 patients were enrolled between May 19, 2020, and May 18, 2021, and final follow-up was completed in July 2021. INTERVENTION Patients were randomized to awake prone positioning (n = 205) or usual care without prone positioning (control; n = 195). MAIN OUTCOMES AND MEASURES The primary outcome was endotracheal intubation within 30 days of randomization. The secondary outcomes included mortality at 60 days, days free from invasive mechanical ventilation or noninvasive ventilation at 30 days, days free from the intensive care unit or hospital at 60 days, adverse events, and serious adverse events. RESULTS Among the 400 patients who were randomized (mean age, 57.6 years [SD, 12.83 years]; 117 [29.3%] were women), all (100%) completed the trial. In the first 4 days after randomization, the median duration of prone positioning was 4.8 h/d (IQR, 1.8 to 8.0 h/d) in the awake prone positioning group vs 0 h/d (IQR, 0 to 0 h/d) in the control group. By day 30, 70 of 205 patients (34.1%) in the prone positioning group were intubated vs 79 of 195 patients (40.5%) in the control group (hazard ratio, 0.81 [95% CI, 0.59 to 1.12], P = .20; absolute difference, −6.37% [95% CI, −15.83% to 3.10%]). Prone positioning did not significantly reduce mortality at 60 days (hazard ratio, 0.93 [95% CI, 0.62 to 1.40], P = .54; absolute difference, −1.15% [95% CI, −9.40% to 7.10%]) and had no significant effect on days free from invasive mechanical ventilation or noninvasive ventilation at 30 days or on days free from the intensive care unit or hospital at 60 days. There were no serious adverse events in either group. In the awake prone positioning group, 21 patients (10%) experienced adverse events and the most frequently reported were musculoskeletal pain or discomfort from prone positioning (13 of 205 patients [6.34%]) and desaturation (2 of 205 patients [0.98%]). There were no reported adverse events in the control group. CONCLUSIONS AND RELEVANCE In patients with acute hypoxemic respiratory failure from COVID-19, prone positioning, compared with usual care without prone positioning, did not significantly reduce endotracheal intubation at 30 days. However, the effect size for the primary study outcome was imprecise and does not exclude a clinically important benefit.
PurposeThe purpose of the article is to assess the effectiveness, compliance, adoption and lesson... more PurposeThe purpose of the article is to assess the effectiveness, compliance, adoption and lessons learnt from the pilot implementation of a data integration solution between an acute care hospital information system (HIS) and a long-term care (LTC) home electronic medical record through a case report.Design/methodology/approachUtilization statistics of the data integration solution were captured at one-month post implementation and again one year later for both the emergency department (ED) and LTC home. Clinician feedback from surveys and structured interviews was obtained from ED physicians and a multidisciplinary LTC group.FindingsThe authors successfully exchanged health information between a HIS and the electronic medical record (EMR) of an LTC facility in Canada. Perceived time savings were acknowledged by ED physicians, and actual time savings as high as 45 min were reported by LTC staff when completing medication reconciliation. Barriers to adoption included awareness, trai...
IntroductionEndotracheal intubation and invasive mechanical ventilation are lifesaving interventi... more IntroductionEndotracheal intubation and invasive mechanical ventilation are lifesaving interventions that are commonly performed in the intensive care unit (ICU). Laryngeal oedema is a known complication of intubation that may cause airway obstruction in a patient on extubation. To date, the only test available to predict this complication is the cuff leak test (CLT); however, its diagnostic accuracy and utility remains uncertain. Herein, we report the protocol for the CuffLeak and AirwayObstruction in MechanicallyVentilated ICU Patients (COMIC) pilottrial.Methods and analysisThis will be a multicentred, pragmatic, pilot randomised controlled trial (RCT). We will enrol 100 mechanically ventilated patients in the ICU who are deemed ready for extubation. We will exclude patients at a high risk of laryngeal oedema. All enrolled patients will have a CLT done before extubation. In the intervention arm, the results of the CLT will be communicated to the bedside physician, and decision to ...
Coördinatie van multicenter gerandomiseerde studies kan op meerdere manieren. Diverse centra neme... more Coördinatie van multicenter gerandomiseerde studies kan op meerdere manieren. Diverse centra nemen deel aan de HEALTH trial (Hip Fracture Evaluation with ALternatives of Total Hip Arthroplasty versus Hemi-Arthroplasty). In Nederland voert een centrale studiecoördinator namens de deelnemende centra nagenoeg alle onderzoekstaken uit. Canadese en Amerikaanse centra zijn zelf verantwoordelijk voor alle taken. Het doel van deze studie was analyseren of de coördinatiestrategie het verloop van de studie beïnvloedt. Opzet: Prospectieve, observationele studie. Methode: Per centrum zijn gegevens over het traject van de medisch ethische toetsing, de tijd tot starten van de studie, het inclusieverloop en de kwaliteit van follow-up gegevens verzameld en vergeleken. Gegevens uit pre-trial inclusie-inventarisatie zijn vergeleken met de daadwerkelijke inclusie. Resultaten: De mediane opstarttijd van de studie na METC goedkeuring was in Nederland korter dan in Canada en de VS (4.6 versus 11.6 weken). Het aantal inclusies per maand was vergelijkbaar (0.62 versus 0.64/maand). In Nederland was het mediane percentage geïncludeerde patiënten 27.3% versus 17.0% in Canada/VS. Inclusiepercentages waren lager dan na pre-trial inclusie-inventarisatie werd verwacht. Het percentage uitgevoerde follow-up bezoeken was in beide groepen >90%. Conclusie: In deze studie heeft centrale studiecoördinatie bijgedragen aan een kortere opstarttijd en een hoger inclusiepercentage, maar had geen effect op de kwaliteit van followup. Centrale trialcoördinatie is daarmee een geschikt alternatief voor lokale coördinatie in combinatie met betaling per patiënt. Centrale coördinatie biedt niet-academische ziekenhuizen de mogelijkheid te participeren in studies. Randvoorwaarden zijn beschikbaarheid van budget, een hanteerbaar aantal inclusies en bereisbare afstand tussen de deelnemende centra.
BackgroundCoronavirus disease 2019 (COVID-19), may progress to respiratory failure requiring inva... more BackgroundCoronavirus disease 2019 (COVID-19), may progress to respiratory failure requiring invasive mechanical ventilation. Due to ventilator shortage and healthcare systems strain, affordable interventions such as awake prone positioning has been used to improve oxygenation, however, the effect of this intervention on patient-important outcomes is uncertain. The COVI-PRONE trial aims to determine if awake prone positioning in hypoxemic COVID-19 patients reduces the need for invasive mechanical ventilation.Study designA pragmatic, multicenter, international, parallel-group, and stratified randomized controlled trial, aiming to enrol 400 hospitalized adults with COVID-19.ParticipantsThe target population is hospitalized adults with confirmed or suspected COVID-19, hypoxemia that requires ≥40% oxygen or ≥ 5 L/min by nasal cannula, and abnormal chest x-ray. We will exclude patients with any of the following: immediate need for intubation; altered mental status; contraindication to pr...
The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examin... more The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examined in 10 dyskinetic patients with Parkinson's disease (DPD), and compared to 10 age/gender-matched non-dyskinetic patients with Parkinson's disease (NDPD) and 10 healthy controls. Whole-body movement (WBM) and MT performance were recorded simultaneously with a 6-degrees-of-freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line they controlled via wrist rotation. Results show that DPD patients had greater WBM magnitude at rest and during the motor task, both in displacement and in velocity. All groups displayed some increase in WBM displacement from rest to MT, but only the DPD group had a significant increase in WBM velocity during movement. As for MT performance (determined by assessing the positional mismatch between subjects' and target lines), ERROR in displacement was statistically similar between groups. There was no correlation between ERROR and the magnitude of WBM within the DPD group. The DPD group showed significant increased ERROR when the velocity of the subject's line was compared with that of the velocity of the target line. When two distinct target pace segments were examined (FAST/SLOW), no significant differences were found in ERROR for displacement for either group, but both the NDPD and DPD group showed increased ERROR from SLOW to FAST for velocity. This was accompanied with an increase in WBM velocity only in the DPD group. The lack of increased ERROR during the SLOW tracking portion in the DPD group supports the notion that the dyskinesias themselves were not primarily responsible for the ERROR seen in the patients. When examining the positive or negative values of ERROR (i.e., faster or slower than the target), we found that the increased ERROR in velocity observed in the DPD group was the result of excess velocity rather than bradykinesia, manifested as isolated deviations from the target trace in the DPD group that were coherent in time with increased ERROR in velocity. In conclusion, evidence presented in the present study shows that the LID was not the primary cause of the ERROR seen in the DPD group. Accordingly, we propose that the increased ERROR seen in the DPD group resulted from a mechanism distinct from the one generating LID.
The influence of peak-dose drug-induced dyskinesia (DID) on manual tracking (MT) was examined in ... more The influence of peak-dose drug-induced dyskinesia (DID) on manual tracking (MT) was examined in 10 dyskinetic patients (OPO), and compared to 10 age/gendermatched non-dyskinetic patients (NDPD) and 10 healthy controls. Whole body movement (WBM) and MT were recorded with a 6-degrees of freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line controlled via wrist rotation. Results show that OPO patients had greater WBM displacement and velocity than other groups. All groups displayed increased WBM from rest to MT, but only DPD and NDPO patients demonstrated a significant increase in WBM displacement and velocity. In addition, OPO patients exhibited excessive increase in WBM suggesting overflow DID. When two distinct target pace segments were examined (FAST/SLOW), all groups had slight increases in WBM displacement and velocity from SLOW to FAST, but only OPO patients showed significantly increased WBM displacement and velocity from SLOW to FAST. Therefore, it can be suggested that overflow DID was further increased with increased task speed. OPO patients also showed significantly greater ERROR matching target velocity, but no significant difference in ERROR in displacement, indicating that significantly greater WBM displacement in the OPO group did not have a direct influence on tracking performance. Individual target and performance traces demonstrated this relatively good tracking performance with the exception of distinct deviations from the target trace that occurred suddenly, followed by quick returns to the target coherent in time with increased performance velocity. In addition, performance hand velocity was not correlated with WBM velocity in DPO patients, suggesting that increased ERROR in velocity was not a direct result of WBM velocity. In conclusion, we propose that over-excitation of motor cortical areas, reported to be present in DPO patients, resulted in overflow DID during voluntary movement. Furthermore, we propose that the increased ERROR in velocity was the result of hypermetric voluntary movements also originating from the over-excitation of motor cortical areas
The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examin... more The influence of peak-dose, levodopa-induced dyskinesias (LID) on manual tracking (MT) was examined in 10 dyskinetic patients with Parkinson's disease (DPD), and compared to 10 age/gender-matched non-dyskinetic patients with Parkinson's disease (NDPD) and 10 healthy controls. Whole-body movement (WBM) and MT performance were recorded simultaneously with a 6-degrees-of-freedom magnetic motion tracker and forearm rotation sensors, respectively. Subjects were asked to match the length of a computer-generated line with a line they controlled via wrist rotation. Results show that DPD patients had greater WBM magnitude at rest and during the motor task, both in displacement and in velocity. All groups displayed some increase in WBM displacement from rest to MT, but only the DPD group had a significant increase in WBM velocity during movement. As for MT performance (determined by assessing the positional mismatch between subjects' and target lines), ERROR in displacement was statistically similar between groups. There was no correlation between ERROR and the magnitude of WBM within the DPD group. The DPD group showed significant increased ERROR when the velocity of the subject's line was compared with that of the velocity of the target line. When two distinct target pace segments were examined (FAST/SLOW), no significant differences were found in ERROR for displacement for either group, but both the NDPD and DPD group showed increased ERROR from SLOW to FAST for velocity. This was accompanied with an increase in WBM velocity only in the DPD group. The lack of increased ERROR during the SLOW tracking portion in the DPD group supports the notion that the dyskinesias themselves were not primarily responsible for the ERROR seen in the patients. When examining the positive or negative values of ERROR (i.e., faster or slower than the target), we found that the increased ERROR in velocity observed in the DPD group was the result of excess velocity rather than bradykinesia, manifested as isolated deviations from the target trace in the DPD group that were coherent in time with increased ERROR in velocity. In conclusion, evidence presented in the present study shows that the LID was not the primary cause of the ERROR seen in the DPD group. Accordingly, we propose that the increased ERROR seen in the DPD group resulted from a mechanism distinct from the one generating LID.
We investigated the likelihood that bradykinesia coexisted with levodopa-induced dyskinesias (LID... more We investigated the likelihood that bradykinesia coexisted with levodopa-induced dyskinesias (LID) in 10 dyskinetic Parkinson's disease patients (DPD). Their motor performance was compared to that of 10 age/gender-matched non-dyskinetic patients (NDPD) and 10 healthy controls. Whole-body movement (WBM) and rapid alternating movements (RAM) at the wrist were recorded simultaneously using 6-degree of freedom magnetic motion tracker and forearm rotational sensors, respectively. WBM was recorded prior to, and while subjects performed pronation-supination movements of their dominant hand with maximal rotational excursion, and as fast as possible for 10s. RANGE, VELOCITY and IRREGULARITY of pronation-supination cycles were quantified to assess motor performance. Results show that DPD patients had greater WBM than NDPD and controls during rest and RAM performance, as expected. There were no differences in motor performance between DPD and NDPD groups for RANGE and VELOCITY, despite significantly longer disease duration for the DPD group (15.5+/-6.2 years versus 6.6+/-2.6 years). However, both the NDPD and DPD groups showed significantly lower RANGE and reduced VELOCITY compared to controls, suggesting the presence of bradykinesia. For IRREGULARITY, DPD patients showed increased fluctuations in pronation-supination cycle amplitude compared to NDPD and controls. However, the lack of correlation between WBM magnitude and IRREGULARITY within the DPD group (Spearman's rank order, rho = 0.31, p > 0.05), suggests that LID were not the primary cause of increased IRREGULARITY. In conclusion, our results demonstrated that bradykinesia can coexist with dyskinesias, suggestive of distinct neural circuits. Our results also demonstrated that the occurrence of LID is not inevitably accompanied with worsening of motor performance.
The present study characterized involuntary movements associated with levodopa-induced dyskinesia... more The present study characterized involuntary movements associated with levodopa-induced dyskinesias (LID) in patients with Parkinson's disease. We used amplitude, proportional energy, frequency dispersion and sample entropy to determine whether LID movement patterns are truly random, as clinical description seems to suggest, or possess some underlying pattern that is not visible to the naked eye. LID was captured using a magnetic tracker system, which provided 3D rendering of whole-body LID. Patients were instructed to maintain a standing position, with arms extended in front of them. We compared the measurements of the dyskinetic PD group (DPD) with 10 patients without dyskinesias (NDPD) and 10 control subjects. In comparison to the other two groups, movement patterns from the DPD group had significantly higher amplitude, confirming the presence of dyskinesias. In addition, higher frequency components in the power spectrum of velocity were detected, suggestive of higher velocity in LID movement. Furthermore, there was a concentration in narrow frequency bands, which suggested stable oscillatory activity. Finally, sample entropy revealed more regularity in the DPD group. Although not statistically significant, we found that the amplitude from the NDPD group had a tendency to be smaller than those of controls. As well, the spectra were often more dispersed for the NDPD group. In conclusion, the present results suggest that LID cannot be considered as purely random movement since they possess some deterministic pattern of motion. This may provide a way for patients to adapt to these involuntary movements while performing voluntary motor acts.
The efficacy and safety of prone positioning is unclear in nonintubated patients with acute hypox... more The efficacy and safety of prone positioning is unclear in nonintubated patients with acute hypoxemia and COVID-19. OBJECTIVE To evaluate the efficacy and adverse events of prone positioning in nonintubated adult patients with acute hypoxemia and COVID-19. DESIGN, SETTING, AND PARTICIPANTS Pragmatic, unblinded randomized clinical trial conducted at 21 hospitals in Canada, Kuwait, Saudi Arabia, and the US. Eligible adult patients with COVID-19 were not intubated and required oxygen (Ն40%) or noninvasive ventilation. A total of 400 patients were enrolled between May 19, 2020, and May 18, 2021, and final follow-up was completed in July 2021. INTERVENTION Patients were randomized to awake prone positioning (n = 205) or usual care without prone positioning (control; n = 195). MAIN OUTCOMES AND MEASURES The primary outcome was endotracheal intubation within 30 days of randomization. The secondary outcomes included mortality at 60 days, days free from invasive mechanical ventilation or noninvasive ventilation at 30 days, days free from the intensive care unit or hospital at 60 days, adverse events, and serious adverse events. RESULTS Among the 400 patients who were randomized (mean age, 57.6 years [SD, 12.83 years]; 117 [29.3%] were women), all (100%) completed the trial. In the first 4 days after randomization, the median duration of prone positioning was 4.8 h/d (IQR, 1.8 to 8.0 h/d) in the awake prone positioning group vs 0 h/d (IQR, 0 to 0 h/d) in the control group. By day 30, 70 of 205 patients (34.1%) in the prone positioning group were intubated vs 79 of 195 patients (40.5%) in the control group (hazard ratio, 0.81 [95% CI, 0.59 to 1.12], P = .20; absolute difference, −6.37% [95% CI, −15.83% to 3.10%]). Prone positioning did not significantly reduce mortality at 60 days (hazard ratio, 0.93 [95% CI, 0.62 to 1.40], P = .54; absolute difference, −1.15% [95% CI, −9.40% to 7.10%]) and had no significant effect on days free from invasive mechanical ventilation or noninvasive ventilation at 30 days or on days free from the intensive care unit or hospital at 60 days. There were no serious adverse events in either group. In the awake prone positioning group, 21 patients (10%) experienced adverse events and the most frequently reported were musculoskeletal pain or discomfort from prone positioning (13 of 205 patients [6.34%]) and desaturation (2 of 205 patients [0.98%]). There were no reported adverse events in the control group. CONCLUSIONS AND RELEVANCE In patients with acute hypoxemic respiratory failure from COVID-19, prone positioning, compared with usual care without prone positioning, did not significantly reduce endotracheal intubation at 30 days. However, the effect size for the primary study outcome was imprecise and does not exclude a clinically important benefit.
PurposeThe purpose of the article is to assess the effectiveness, compliance, adoption and lesson... more PurposeThe purpose of the article is to assess the effectiveness, compliance, adoption and lessons learnt from the pilot implementation of a data integration solution between an acute care hospital information system (HIS) and a long-term care (LTC) home electronic medical record through a case report.Design/methodology/approachUtilization statistics of the data integration solution were captured at one-month post implementation and again one year later for both the emergency department (ED) and LTC home. Clinician feedback from surveys and structured interviews was obtained from ED physicians and a multidisciplinary LTC group.FindingsThe authors successfully exchanged health information between a HIS and the electronic medical record (EMR) of an LTC facility in Canada. Perceived time savings were acknowledged by ED physicians, and actual time savings as high as 45 min were reported by LTC staff when completing medication reconciliation. Barriers to adoption included awareness, trai...
IntroductionEndotracheal intubation and invasive mechanical ventilation are lifesaving interventi... more IntroductionEndotracheal intubation and invasive mechanical ventilation are lifesaving interventions that are commonly performed in the intensive care unit (ICU). Laryngeal oedema is a known complication of intubation that may cause airway obstruction in a patient on extubation. To date, the only test available to predict this complication is the cuff leak test (CLT); however, its diagnostic accuracy and utility remains uncertain. Herein, we report the protocol for the CuffLeak and AirwayObstruction in MechanicallyVentilated ICU Patients (COMIC) pilottrial.Methods and analysisThis will be a multicentred, pragmatic, pilot randomised controlled trial (RCT). We will enrol 100 mechanically ventilated patients in the ICU who are deemed ready for extubation. We will exclude patients at a high risk of laryngeal oedema. All enrolled patients will have a CLT done before extubation. In the intervention arm, the results of the CLT will be communicated to the bedside physician, and decision to ...
Coördinatie van multicenter gerandomiseerde studies kan op meerdere manieren. Diverse centra neme... more Coördinatie van multicenter gerandomiseerde studies kan op meerdere manieren. Diverse centra nemen deel aan de HEALTH trial (Hip Fracture Evaluation with ALternatives of Total Hip Arthroplasty versus Hemi-Arthroplasty). In Nederland voert een centrale studiecoördinator namens de deelnemende centra nagenoeg alle onderzoekstaken uit. Canadese en Amerikaanse centra zijn zelf verantwoordelijk voor alle taken. Het doel van deze studie was analyseren of de coördinatiestrategie het verloop van de studie beïnvloedt. Opzet: Prospectieve, observationele studie. Methode: Per centrum zijn gegevens over het traject van de medisch ethische toetsing, de tijd tot starten van de studie, het inclusieverloop en de kwaliteit van follow-up gegevens verzameld en vergeleken. Gegevens uit pre-trial inclusie-inventarisatie zijn vergeleken met de daadwerkelijke inclusie. Resultaten: De mediane opstarttijd van de studie na METC goedkeuring was in Nederland korter dan in Canada en de VS (4.6 versus 11.6 weken). Het aantal inclusies per maand was vergelijkbaar (0.62 versus 0.64/maand). In Nederland was het mediane percentage geïncludeerde patiënten 27.3% versus 17.0% in Canada/VS. Inclusiepercentages waren lager dan na pre-trial inclusie-inventarisatie werd verwacht. Het percentage uitgevoerde follow-up bezoeken was in beide groepen >90%. Conclusie: In deze studie heeft centrale studiecoördinatie bijgedragen aan een kortere opstarttijd en een hoger inclusiepercentage, maar had geen effect op de kwaliteit van followup. Centrale trialcoördinatie is daarmee een geschikt alternatief voor lokale coördinatie in combinatie met betaling per patiënt. Centrale coördinatie biedt niet-academische ziekenhuizen de mogelijkheid te participeren in studies. Randvoorwaarden zijn beschikbaarheid van budget, een hanteerbaar aantal inclusies en bereisbare afstand tussen de deelnemende centra.
BackgroundCoronavirus disease 2019 (COVID-19), may progress to respiratory failure requiring inva... more BackgroundCoronavirus disease 2019 (COVID-19), may progress to respiratory failure requiring invasive mechanical ventilation. Due to ventilator shortage and healthcare systems strain, affordable interventions such as awake prone positioning has been used to improve oxygenation, however, the effect of this intervention on patient-important outcomes is uncertain. The COVI-PRONE trial aims to determine if awake prone positioning in hypoxemic COVID-19 patients reduces the need for invasive mechanical ventilation.Study designA pragmatic, multicenter, international, parallel-group, and stratified randomized controlled trial, aiming to enrol 400 hospitalized adults with COVID-19.ParticipantsThe target population is hospitalized adults with confirmed or suspected COVID-19, hypoxemia that requires ≥40% oxygen or ≥ 5 L/min by nasal cannula, and abnormal chest x-ray. We will exclude patients with any of the following: immediate need for intubation; altered mental status; contraindication to pr...
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Papers by Sarah Culgin