Spontaneous rectus sheath hematoma in a patient with COVID-19 and chronic myeloid leukemia. A case report and literature review.

Introduction: Rectus sheath hematoma is a rare entity. This report presents a clinical case of a rectus sheath hematoma in a patient with COVID-19 pneumonia and chronic myeloid leukemia, along with a review of the literature. Case Report: A 55-year-old male patient, hospitalized for COVID-19 pneumonia and chronic myeloid leukemia, presents with tachycardia and hypotension. Computed tomography shows a rectus sheath hematoma. Surgical management was performed to control bleeding and drainage of the hematoma. There were no postoperative complications or need for reoperation. Discussion(s): Hemorrhagic complications in patients with COVID-19 are seldomly reported. Bleeding is a possible complication in patients with chronic myeloid leukemia. It is important to take into account rectus sheath hematoma in patients with COVID-19 and/or chronic myeloid leukemia who present with abdominal pain, for early management by a multidisciplinary team. Conclusion(s): Active surveillance and a high index of suspicion are key to identifying potential bleeding complications in patients with COVID-19 and/or chronic myeloid leukemia.Copyright © 2023, Sociedad de Cirujanos de Chile. All rights reserved.

Comparison of the efficiency of core stabilization exercises and abdominal corset in the treatment of postpartum diastasis recti abdominis.

OBJECTIVE: To examine the feasibility of three physiotherapy interventions for the treatment of diastasis recti abdominis (DRA): core stabilization exercises, abdominal corset and a combination of exercise and abdominal corset. STUDY DESIGN: Forty-five women 6 to 12 weeks postpartum who were diagnosed with DRA by a gynecologist/obstetrician were recruited for the study. The women were randomly divided into three groups: core stabilization exercises (1st group), the combination of exercise and abdominal corset (2nd group) and abdominal corset (3rd group). The treatment session for each group continued for 8 weeks. Outcome measurements were pain evaluation, inter-rectus distance (IRD) measured using ultrasound, trunk flexion strength and endurance, balance with open eyes/closed with a balance board, and Oswestry Disability Index (ODI). RESULTS: Statistically significant difference was observed in all outcome measures except the balance eyes closed results in the first group (p < 0.05). There was a statistically significant difference in all outcome measures in the second group (p < 0.05). Also, there was a statistically significant difference in visual analog scale, trunk flexor endurance, IRD results, balance with open eyes and ODI results in the third group (p < 0.05). When the values pre and post-treatment between the groups were examined, a statistically significant change was observed in trunk flexion strength, trunk flexor endurance, and balance with open eyes/closed parameters (p < 0.05). CONCLUSIONS: Physiotherapy interventions as core stabilization exercises and the abdominal corset can positively impact IRD, trunk flexion muscle strength and endurance, balance and disability in DRA management. The combination of exercise and corset was found more effective in the postpartum process.

Abdominal Haematomas following subcutaneous heparin injections in COVID19 patients, Food for thought in daily practice

Introduction: Abdominal haematomas are an uncommon complication of subcutaneous injection of low molecular weight heparin (LMWH) although the latter is widely administered. Aim(s): To review clinical cases of abdominal haematomas following subcutaneous LMWH injection, discover the root causes and identify appropriate solutions to improve clinical practice. Material(s) and Method(s): Retrospective case review of all clinical cases linked to abdominal haematomas secondary to LMWH injection. Result(s): Between 09.2020-01.2022, 760 patients were admitted in our Department due to COVID19 pneumonia. 4 cases of abdominal haematomas were reported (all females, mean age 70.5 years). All patients received therapeutic LMWH(3 for atrial fibrillation). All patients presented haematomas on rectus abdominis muscle and subsequently in the pelvic area. All patients presented with haemodynamic instability and required blood transfusions. Clinical outcomes included death (1), nephrostomy (1) (due to haematoma expansion and ureteral obstruction) and prolonged hospital stay by 12 days (2). Route cause analysis revealed improper injection technique in the following order;narrow abdominal margins, no skin folding, injection speed<10secs. Solutions were identified and followed including multidisciplinary nursing re-training that was implemented across the board and was accompanied by continuous monitoring of nursing practice. Conclusion(s): The rare complication of abdominal haematomas following LMWH was closely reviewed in our department and was turned into an opportunity to reconsider daily clinical practice, to contribute to quality improvement and improve patient safety.

Life Threatening Spontaneous Hematoma in Unusual sites in patient with Covid-19 on Anticoagulant Therapy (4 case reports)

Introduction: Thromboembolic manifestations is a common phenomenon in patients affected by Corona virus (SARS CoV-2). Recent studies have shown that patients with Acute Renal Failure are also at a greater risk of venous and arterial thromboembolism, 15-30% in ICU, 7% inpatient care. However, frequently unjudicial use of anticoagulant may develop severe life-threatening hematoma. In our Hospital settings we had a dedicated COVID Unit with Hemodialysis facility. Our Nephrology department had managed 381 patients being COVID positive along with renal impairment from March 2020 to January 2022. Among these patients, four patients developed spontaneous non traumatic hematoma in unusual sites. On admission all the patients received treatment according to our national guidelines for Covid-19. Method(s): It is a retrospective analysis in a single-centered hospital. Four cases with confirmed COVID-19 with acute kidney injury and on anticoagulant therapy had developed sudden concealed bleeding. These patients had no previous history of anticoagulant therapy before admission. Case 1: Developed hemorrhage in Right lower anterior paramedian deep parietal wall of abdomen, Case 2: Had hematoma in retroperitoneal space and in lower third of Iliopsoas, Case 3: Developed hemorrhage in left cerebral hemisphere, Case 4: Had Intramuscular Hematoma in left rectus abdominis. Out of these four patients two of them required Hemodialysis and one of them went into shock. Result(s): All patients included were male. The mean age was 57+/-19.64 years. All the four patients were initially managed conservatively with keen monitoring and with proper volume resuscitation, blood transfusion and discontinuation of the anticoagulants. Three of the patients survived with conservative management and one patient died due to sudden massive cardiac arrest. Conclusion(s): The use of therapeutic anticoagulant can increases the risk of bleeding in atypical sites and may exhibit higher patient death with COVID-19 if not identified at early stage. So a risk-benefit ratio of usage of anticoagulants should be kept in mind and further clinical trials needed to justify its random use in COVID-19. No conflict of interestCopyright © 2023

Effectiveness of Early Postpartum Rectus Abdominis versus Transversus Abdominis Training in Patients with Diastasis of the Rectus Abdominis Muscles: A Pilot Randomized Controlled Trial

Purpose: To determine feasibility of a randomized controlled trial (RCT) comparing postpartum rectus abdominis training with transversus abdominis training in reducing the inter-recti distance in patients with diastasis of the rectus abdominis muscles (DRAM). Method: A pilot, randomized controlled trial with longitudinal assessment following vaginal delivery at 6 and 12 weeks postpartum was completed. Forty-four women with DRAM (inter-recti distance of >= 30mm as measured by digital calipers) were recruited from a regional public hospital in Australia. The standard treatment group (n = 21) was provided with a 5-second transversus abdominis activation exercise in crook lying. The experimental group (n = 23) was provided with a 1-second rectus abdominis crunch exercise. Dosage was between 1-10 repetitions at baseline and between 1-20 at 6 weeks, twice a day, at least 5 days per week, prescribed depending on individual participant ability. The primary outcome measure was inter-recti distance. Feasibility measures were recruitment rate, loss to follow-up, adverse events, and exercise adherence. Results: The rectus abdominis group achieved greater reduction of the inter-recti distance at 6 weeks (at and below the umbilicus) and 12 weeks (above, below, and at the umbilicus). Recruitment rate was acceptable (45%) and there were no adverse events, but loss to follow-up was high due to COVID-19 impacts and participants did not return exercise adherence diaries. Conclusion: Prescription of rectus abdominis exercise during the early postpartum period following vaginal delivery resulted in a greater reduction of the inter-recti distance at 6 and 12 weeks when compared with transversus abdominis exercise. This pilot trial was impacted by high loss to follow up due to COVID-19 restrictions, but feasibility was otherwise acceptable. The findings of the study will inform future fully powered trials comparing these two exercise types in postpartum women with DRAM.

Evolution of Respiratory Muscles Thickness in Mechanically Ventilated Patients With COVID-19.

BACKGROUND: Given the long ventilation times of patients with COVID-19 that can cause atrophy and contractile weakness of respiratory muscle fibers, assessment of changes at the bedside would be interesting. As such, the aim of this study was to determine the evolution of respiratory muscle thickness assessed by ultrasound. METHODS: Adult (> 18 y old) patients admitted to the ICU who tested positive for SARS-CoV-2 and were ventilated for < 24 h were consecutively included. The first ultrasound examination (diaphragm, rectus abdominis, and lateral abdominal wall muscles) was performed within 24 h of intubation and regarded as baseline measurement. After that, each following day an additional examination was performed, for a maximum of 8 examinations per subject. RESULTS: In total, 30 subjects were included, of which 11 showed ≥ 10% decrease in diaphragm thickness from baseline; 10 showed < 10% change, and 9 showed ≥ 10% increase from baseline. Symptom duration before intubation was highest in the decrease group (12 [11-14] d, P = .03). Total time ventilated within the first week was lowest in the increase group (156 [129-172] h, P = .03). Average initial diaphragm thickness was 1.4 (1.1-1.6) mm and did not differ from final average thickness (1.3 [1.1-1.5] mm, P = .54). The rectus abdominis did not show statistically significant changes, whereas lateral abdominal wall thickness decreased from 14 [10-16] mm at baseline to 11 [9-13] mm on the last day of mechanical ventilation (P = .08). Mixed-effect linear regression demonstrated an association of atrophy and neuromuscular-blocking agent (NMBA) use (P = .01). CONCLUSIONS: In ventilated subjects with COVID-19, overall no change in diaphragm thickness was observed. Subjects with decreased or unchanged thickness had a longer ventilation time than those with increased thickness. NMBA use was associated with decreased thickness. Rectus muscle thickness did not change over time, whereas lateral abdominal muscle thickness decreased but this change was not statistically significant.

Biomechanical effects of using a passive back support exoskeleton during prone-positioning maneuver: A pilot study

Introduction Musculoskeletal disorders associated with patients care and manipulation are frequent among healthcare workers, due to force exertion and sustained awkward postures (EU Commission 2011, Davis 2015). During the COVID-19 pandemic, intensive care units (ICUs) staffs had to perform prone-positioning (PP) of a large number of intubated patients suffering from Acute Respiratory Distress Syndrome (ARDS) many times a day. PP maneuver consists in repositioning a patient from a supine position (on the back) to a prone position (on the front side), which improves oxygenation and ventilatory mechanisms in ARDS patients (Guérin et al. 2013). PP is a delicate procedure (risk of extubation) which requires the medical staff to remain bent forward for several minutes (Figure 1). This posture result in back loading and in the long-term potential injuries in the low-back. Similar postures are common in industrial tasks, and recently occupational exoskeletons have started to be commercialized to help reduce physical load on workers (DeLooze et al. 2016). Exoskeletons therefore appear as a promising solution to support healthcare workers, though few studies focused on this sector (e.g. Miura et al. 2020;Iishi et al. 2015). But while studies overall agree that back-support exoskeletons, and specifically passive devices, have the potential to reduce lumbar muscle activity in tasks involving trunk bending, the exact efficacy and usability of such devices appear largely device-and task-dependent (Theurel et al. 2019). A preliminary study of our team (Settembre et al. 2020) identified the Laevo passive exoskeleton for lumbar support (Laevo, the Netherlands) as the exoskeleton that best matched the PP maneuver and ICU constraints, among 4 exoskeletons that were available at the time of the test during the COVID-19 first wave. The present study presents a pilot investigation of the biomechanical effects of using the Laevo during PP maneuver. 2. Methods 2.1. Experimental protocol Two healthy volunteers with PP experience performed PP maneuvers both with and without wearing the Laevo, on a patient simulator (manikin) at the Hospital Simulation Center of the University of Lorraine (Figure 1). Each maneuver lasted about 4 min. In a first experiment, the participants were equipped with the Xsens MVN Link inertial motion capture system (capture rate 240 Hz) to record wholebody kinematics. In a subsequent experiment, the participants were equipped with a Delsys Trigno EKG sensor to measure heart rate, and 12 Delsys Trigno sEMG sensors (sampling rate 4370 sa/sec) placed according to the Seniam recommendations bilaterally on the erector spinae longissimus (ESL), erector spinae iliocostalis (ESI), trapezius ascendens (TA), and biceps femoris long head (BF), and laterally on the right rectus abdominis at T10 level (RA), rectus femoris (RF), gluteus maximus (GM) and tibialis anterior (TAL). 2.2. Data analysis In order to analyze the kinematics and dynamics of the maneuver, we replayed the recorded motions in a physics-engine based simulation using a 43 degrees of freedom digital human model (DHM). The recorded motions were retargeted on the DHM directly in the Cartesian space by using a quadratic programming controller (QP) typically used for humanoid robots (Maurice et al. 2019). The QP control directly estimates the joint torques associated with the motion. This method has the advantage to blend the traditional inverse kinematics and inverse dynamics steps into one faster step, since the computation runs in close to real-time. Since we did not have a direct measurement of the support torque provided by the Laevo, we used the empirical calibration curve published by (Koopman et al. 2019) to estimate the lumbar support torque depending on the trunk flexion angle. We used the resulting L5/S1 flexion/extension estimated joint torque as a complement to the physiological measurements obtained with the sEMG. 3. Results and discussion Kinematic results: Using the Laevo did not significantly modify the kinematics of the motion during PP. Specific lly, the profile of the lumbar flexion angle remained overall similar (Figure 2). This result was confirmed by the subjective feedback of the participants who reported that they did not feel the exoskeleton was affecting the way they performed the task. Dynamic results: The median value of the estimated L5/S1 flexion/extension torque decreased by about 12% when using the Laevo (Figure 2). This result agrees with the reduced perceived lumbar effort reported by participants, and is aligned with the 15% reduction observed by (Koopman et al. 2019) in a similar static forward bending task. Yet those results should be considered cautiously, since only the assistive torque of the exoskeleton was modeled, and not the full effect of the load transfer. Physiological results: We did not observe any major change in heart rate when using the Laevo. This might be due to the short duration of the experimental task (4 min). The activity of the back extensor muscles (except ESI) and hip extensor muscles overall decreased when using the Laevo (Table 1). The other recorded muscles remained mostly unaffected by the exoskeleton. Those results are consistent with the perceived reduced effort reported by the participants. 4. Conclusions Our pilot study, though limited to a small number of participants, suggests that using the Laevo could help reduce the musculoskeletal load on the low back during PP maneuver, without causing any significant negative side-effect nor modifying the practice. Following this study, 2 Laevos have been successfully deployed in the ICU of CHRU Nancy and have been used there for the past 6 months. Recording quantitative measurements during this fieldtesting is not possible. However subjective feedback from users is collected through questionnaires and interviews, and will be analyzed in a future study.