Assessment of impaired cerebral autoregulation and its correlation with neurological outcome in aneurysmal subarachnoid hemorrhage: A prospective and observational study.

Background: Cerebral autoregulation (CA) is crucial for the maintenance of cerebral homeostasis. It can be assessed by measuring transient hyperemic response ratio (THRR) using transcranial Doppler (TCD). We aimed at assessing the incidence of impaired CA (ICA) and its correlation with the neurological outcome in patients with aneurysmal subarachnoid hemorrhage (aSAH). Methods: One hundred consecutive patients with aSAH scheduled for aneurysmal clipping were enrolled in this prospective and observational study. Preoperative and consecutive 5-day postoperative THRR measurements were taken. Primary objective of the study was to detect the incidence of ICA and its correlation with vasospasm (VS) postclipping, and neurological outcome at discharge and 1, 3, and 12 months was secondary objectives. Results: ICA (THRR < 1.09) was observed in 69 patients preoperatively, 74 patients on the 1st and 2nd postoperative day, 76 patients on 3rd postoperative day, and 78 patients on 4th and 5th postoperative day. Significant VS was seen in 13.4% and 61.5% of patients with intact THRR and deranged THRR, respectively (P < 0.000). Out of 78 patients who had ICA, 42 patients (53.8%) at discharge, 60 patients (76.9%) at 1 month, 54 patients (69.2%) at 3 month, and 55 patients (70.5%) at 12 months had unfavorable neurological outcome significantly more than those with preserved CA. Conclusion: Incidence of ICA assessed in aSAH patients varies from 69% to 78% in the perioperative period. The deranged CA was associated with significantly poor neurological outcome. Therefore, CA assessment using TCD-based THRR provides a simple, noninvasive bedside approach for predicting neurological outcome in aSAH.

Functional analysis of a negative pressure airborne infection isolation canopy unit for the prevention of transmission of droplets and aerosols- An experimental study.

Background and Aims: This study describes the functional analysis of a negative pressure canopy unit developed to reduce infective aerosol and droplet spread in ad-hoc wards created to handle patients suffering from infective respiratory illnesses such as those recently encountered in the COVID-19 pandemic. Methods: An experimental study was conducted to verify the functional analysis of a canopy unit for the following variables: a) Quantitative and qualitative analysis of aerosol generation, b) Efficacy of canopy as containment device and c) Aerosol clearance from canopy over a period. We describe the process in the form of a problem statement, a discussion of design considerations (including Computer Aided Design modelling and a functional analysis of the system using a variety of simulated conditions which included various experiments for the purpose of testing the safety and efficiency of the system. We also incorporated Computational Fluid Dynamics analyses to assist us in design modifications of the unit using Euler-Lagrange approach for aerosol tracking. Results: As demonstrated by the series of experiments, it was seen that the aerosol load under the testing conditions reduced significantly. The canopy unit restricted the aerosol particles which either got adhered to the canopy walls or went into recirculation inside the canopy. In experimental conditions, the fan-filter unit was able to operate at >95% efficiency. Conclusion: This device exhibited 95-99% efficiency in eliminating aerosols which would reduce the exposure of health care workers to infective aerosols, which is not only specific to severe acute respiratory syndrome coronavirus (SARS-CoV)-2, but also to other airborne transmitted diseases.

Non-COVID surgical load of operation theatre during COVID-19 pandemic in Armed Forces tertiary care centres: "Snapshot of two timelines".

Background: The global COVID-19 pandemic has led to major changes in the surgical caseloads in the operation theatres across the world. Elective surgeries have been curtailed to a great extent and the number of emergency surgeries has risen. We conducted a study to assess the changes in the surgical caseloads in two tertiary care hospitals in India during the pandemic and to assess the changes in anaesthesia techniques used. Methods: A multicentre retrospective observational study conducted at two tertiary care centres located 1500 kms apart. Hospital A in a city with high incidence of COVID-19 and Hospital B with a lighter load of COVID-19 cases. Record of all major surgeries carried out between 01Jul 2020 and 31 Dec 2020 were compared with the surgeries carried out between 01 Jul 2019 and 31 Dec 2019. Results: There was a decrease of almost 53% in elective surgical workload in hospital A and 71% in hospital B. The decrease in the cases was not similar across all specialities. There was a significant increase in the percentage of emergency surgeries from 11.1% to 24% in hospital A and from 22.1% to 29.8% in hospital B in the year 2020. A statistically significant increase in regional anaesthesia and neuraxial blockade was noted in the year 2020 in both the hospitals. Conclusion: During the COVID-19 pandemic, the number of elective surgical cases has significantly decreased in specialities like ophthalmology whereas there was no change in the surgical workload in specialities like obstetrics, oncology, orthopaedics, and neurosurgery. There was significant increase in the use of regional and neuraxial techniques of anaesthesia.

Goal-directed Fluid Therapy Versus Conventional Fluid Therapy During Craniotomy and Clipping of Cerebral Aneurysm: A Prospective Randomized Controlled Trial.

BACKGROUND: Fluid imbalance is common after aneurysmal subarachnoid hemorrhage and negatively impacts clinical outcomes. We compared intraoperative goal-directed fluid therapy (GDFT) using left ventricular outflow tract velocity time integral (LVOT-VTI) measured by transesophageal echocardiography with central venous pressure (CVP)-guided fluid therapy during aneurysm clipping in aneurysmal subarachnoid hemorrhage patients. METHODS: Fifty adults scheduled for urgent craniotomy for aneurysm clipping were randomly allocated to 2 groups: group G (n=25) received GDFT guided by LVOT-VTI and group C (n=25) received CVP-guided fluid management. The primary outcome was intraoperative mean arterial pressure (MAP). Secondary outcomes included volume of fluid administered and several other intraoperative and postoperative variables, including neurological outcome at hospital discharge and at 30 and 90 days. RESULTS: There was no difference in MAP between the 2 groups despite patients in group G receiving lower volumes of fluid compared with patients in group C (2503.6±534.3 vs. 3732.8±676.5 mL, respectively; P <0.0001). Heart rate and diastolic blood pressure were also comparable between groups, whereas systolic blood pressure was higher in group G than in group C at several intraoperative time points. Other intraoperative variables, including blood loss, urine output, and lactate levels were not different between the 2 groups. Postoperative variables, including creatinine, duration of postoperative mechanical ventilation, length of intensive care unit and hospital stay, and incidence of acute kidney injury, pneumonitis, and vasospasm were also comparable between groups. There was no difference in neurological outcome at hospital discharge (modified Rankin scale) and at 30 and 90 days (Extended Glasgow Outcome Scale) between the 2 groups. CONCLUSION: Compared with CVP-guided fluid therapy, transesophageal echocardiography-guided GDFT maintains MAP with lower volumes of intravenous fluid in patients undergoing clipping of intracranial aneurysms with no adverse impact on postoperative complications.

Challenges faced in establishing a dedicated 250 bed COVID-19 intensive care unit in a temporary structure.

An Intensive Care Unit (ICU) is an organized system for the provision of care to critically ill patients that provides intensive and specialized medical and nursing care, an enhanced capacity for monitoring, and multiple modalities of physiologic organ support to sustain life during a period of life-threatening organ system insufficiency. While this availability of trained manpower and specialized equipment makes it possible to care for critically ill patients, it also presents singular challenges in the form of man and material management, design concerns, budgetary concerns, and protocolization of treatment. Consequently, the establishment of an ICU requires rigorous design and planning, a process that can take months to years. However, the Coronavirus disease-19 (COVID-19) epidemic has required the significant capacity building to accommodate the increased number of critically ill patients. At the peak of the pandemic, many countries were forced to resort to the building of temporary structures to house critically ill patients, to help tide over the crisis. This narrative review describes the challenges and lessons learned while establishing a 250 bedded ICU in a temporary structure and achieving functionality within a period of a fortnight.