Better Hemodynamic Profile of Laryngeal Mask Airway Insertion Compared to Laryngoscopy and Tracheal Intubation
Background:Laryngoscopy and tracheal intubation can cause serious cardiovascular responses in patients such as hypertension, tachycardia, and arrhythmias. Alternative airway maintenance techniques may attenuate these hemodynamic stress responses.Objectives:This study aimed to compare the immediate hemodynamic effects of the insertion of laryngeal mask airway supreme (LMA-S) and classic (LMA-C) with laryngoscopy and Endotracheal Intubation (ETT).Patients and Methods:This study was a prospective, double-blind, and randomized clinical trial conducted on 150 patients aged 18 to 50 years with ASA I (American Society of Anesthesiologists), in the general operating room of Shahid Mohammadi hospital, Hormozgan university of medical sciences, Bandar Abbas, Iran. In the ETT group, endotracheal intubation was performed using the Macintosh laryngoscope; while for the LMA-C and LMA-S groups, LMA Classic and LMA Supreme were inserted, respectively. The induction and maintenance of anesthesia were similar in all patients. The hemodynamic parameters such as heart rate (HR), systolic blood pressure (SBP), and diastolic blood pressure (DBP) were measured before (baseline) and after induction of anesthesia at 4 different time points. The statistical analysis was done and P value less than 0.05 was considered significant.Results:Participants in all groups were similar in terms of gender, age, weight, height, and Mallampati class. The mean ± SD of SBPs (105.62 ± 12.12, 112.90 ± 12.2, and 112.48 ± 15.14 mm Hg, respectively for ETT, LMA-C, and LMA-S) and DBPs (64.64 ± 10.23, 73.78 ± 9.70, and 71.20 ± 12.27 mm Hg, respectively for ETT, LMA-C, and LMA-S) were significantly lower in the ETT group compared to LMA groups 5 minutes after device insertion (P < 0.01 for SBPs and P < 0.001 for DBPs); however these values were lower than the baseline values in all groups. There were no differences in the mean SBP and DBPs between the three groups at the other time points. The mean ± SD heart rates in the ETT group, compared to the LMA-C and LMA-S groups, were considerably higher in the first minute (100.06 ± 18.27, 82.50 ± 10.52, and 82.00 ± 13.60 bpm, respectively for ETT, LMA-C, and LMA-S), third minute (91.04 ± 17.12, 78.84 ± 11.23, and 78.90 ± 13.41 bpm, respectively for ETT, LMA-C, and LMA-S) and fifth minute (85.82 ± 16.01, 75.78 ± 11.73, and 75.04 ± 13.90 bpm, respectively for ETT, LMA-C, and LMA-S) after intubation (P < 0.001). There were no significant differences between the LMA-C and LMA-S groups in terms of hemodynamic parameters.Conclusions:Maintaining the airway using laryngeal mask airway is associated with less cardiovascular responses compared to direct laryngoscopy and tracheal intubation.
Patients with COVID-19 have shown melatonin deficiency. We evaluated the efficacy and safety of administration oral melatonin in patients with COVID-19-induced pneumonia. Patients were randomly assigned in a 1:1 ratio to receive melatonin plus standard treatment or standard treatment alone. The primary outcomes were mortality rate and requirement of IMV. The clinical status of patients was recorded at baseline and every day over hospitalization based on seven-category ordinal scale from 1 (discharged) to 7 (death). A total of 226 patients (109 in the melatonin group and 117 in the control group) were enrolled (median age; in melatonin group: 54.60 ± 11.51, in control group: 54.69 ± 13.40). The mortality rate was 67% in the melatonin group and 94% in the control group (OR; 7.75, 95% CI, 3.27–18.35, P < 0.001). The rate of IMV requirement was 51.4% in the melatonin group and 70.9% in the control group, for an OR of 2.31 (95% CI, 1.34–4.00, P < 0.001). The median number of days to hospital discharge was 15 days (13–17) in the melatonin group and 21 days (14–24) in the control group (OR; 5.00, 95% CI, 0.15–9.84, P = 0.026). Time to clinical status improvement by ≥ 2 on the ordinal scale in was 12 days (9–13) in the melatonin group and 16 days (10–19) in the control group (OR; 3.92, 95% CI, 1.69–6.14, P = 0.038). Melatonin significantly improved clinical status with a safe profile in patients with severe COVID-19 pneumonia. Supplementary Information The online version contains supplementary material available at 10.1007/s10787-022-01096-7.
Seizure Duration and Hemodynamic State During Electroconvulsive Therapy: Sodium Thiopental Versus Propofol
Introduction:General anesthesia is required for Electroconvulsive Therapy (ECT) and it is usually provided by a hypnotic agent. The seizure duration is important for the treatment, and it is usually accompanied by severe hemodynamic changes. The aim of this study was to compare the effects of sodium thiopental versus Propofol on seizure duration and hemodynamic variables during ECT.Methods:A number of 100 patient-sessions of ECT were included in this randomized clinical trial. The initial hemodynamic state of each patient was recorded. Anesthesia was induced by Sodium thiopental in the 1st group and with Propofol in 2nd group. All the patients received the muscle relaxant succinylcholine. The hemodynamic variables after seizure and seizure duration were recorded. The data were analyzed through SPSS 20 and independent t-test. P<0.05 was considered significant.Results:The mean duration of seizure in the sodium thiopental group was significantly longer than the Propofol group (40.3±16.6 sec versus 32±11.3 sec) (P=0.001). There was no statistically significant difference between the mean energy level applied in the two groups (20.5±3.81 joules in the sodium thiopental versus 20.2±3.49 joules in the Propofol group). The mean systolic and diastolic blood pressure at all times after seizure and mean heart rate at 3 and 5 minutes after seizure were significantly lower in Propofol than sodium thiopental groups.Discussion and Conclusion:Propofol provides a more stable hemodynamic state for the ECT procedures, and its use is highly preferred over sodium thiopental in patients with cardiovascular disease.
The outbreak of the emerging SARS-CoV-2 virus has highlighted the challenges of detecting viral infections, especially in resource-limited settings. The SARS-CoV-2 virus transmission chain is interrupted when screening and diagnosis can be performed on a large scale by identifying asymptomatic or moderately symptomatic patients. Diagnosis of COVID-19 with reverse transcription polymerase chain reaction (RT-PCR) has been limited due to inadequate access to complex, expensive equipment and reagents, which has impeded efforts to reduce the spread of virus transmission. Recently, the development of several diagnostic platforms based on the CRISPR-Cas system has reduced the dependence on RT-PCR. The first CRISPR-based diagnostic test for SARS-CoV-2 was recently approved by the U.S. Food and Drug Administration. The biosensing systems have several important features that make them suitable for point-of-care tests, including the speed of design and synthesis of each platform in less than a few days, an assay time of 1-2 h, and the cost of materials and reagents less than one dollar per test. The HUDSON-SHERLOCK and STOPCovid biosensing systems, as field-deployable and rapid diagnostic tests, can detect low-copy viruses in body fluids without nucleic acid extraction and with minimal equipment. In addition, Cas13-based treatment strategies could potentially be an effective antiviral strategy for the prevention and treatment of emerging pandemic viruses such as SARS-CoV-2. In this review, we describe recent advances in CRISPR-based diagnostic platforms with an emphasis on their use in the rapid diagnosis and potential treatment of COVID-19.
Objectives We investigate the effects of melatonin, compared to the usual therapeutic regimen on clinical symptoms and laboratory signs in severely ill patients with confirmed COVID-19 who are admitted to the Intensive Care Unit (ICU). Trial design This is a single-center, open-label, randomized, clinical trial with a parallel-group design. This study is being conducted at Shahid Mohammadi Hospital, Bandar Abbas, Iran. Participants All patients admitted to the ICU of Shahid Mohammadi Hospital, Bandar Abbas, Iran, will be screened for the following criteria. Inclusion criteria 1. Age >20 years 2. Definitive diagnosis of COVID-19 based on RT-PCR or/and serological testing 3. Severe pneumonia and lung involvement in imaging 4. Signing informed consent Exclusion criteria 1. Underlying diseases, including convulsive disorders, chronic hepatic and renal diseases 2. Use of mechanical ventilation 3. History of known allergy to Melatonin 4. Pregnancy and breastfeeding Intervention and Comparator Intervention group: The standard treatment regimen for COVID-19, according to the Iranian Ministry of Health and Medical Education’s protocol, along with Melatonin soft gelatin capsule (Danna Pharmaceutical Company) at a dose of 5 mg twice a day for a period of seven days. Control group: The standard treatment for COVID-19 based on the Iranian Ministry of Health and Medical Education’s protocol for a period of seven days. Main outcomes The primary outcomes are the recovery rate of clinical symptoms and checking arterial blood gas (ABG), C-reactive protein (C-RP), Ferritin, Lactate dehydrogenase (LDH) within seven days of randomization. The secondary outcomes are time to improvement of clinical and paraclinical features and length of stay in the ICU, need for mechanical ventilation, and mortality rate within seven days of randomization. Randomization Included patients will be allocated to one of the study arms using block randomization in a 1:1 ratio (each block consists of 6 patients). This randomization method ensures a balanced allocation between the arms during the study. A web-based system will generate random numbers for the allocation sequence and concealment of participants. Each number relates to one of the study arms. Blinding (masking) This is an open-label trial without blinding and placebo control. Numbers to be randomized (sample size) A total of 60 participants randomizes (30 patients allocated to the intervention group and 30 patients allocated to the control group). Trial Status The protocol is Version 1.0, February 16, 2021. Recruitment began February 28, 2021, and is anticipated to be completed by July 31, 2021. Trial registration The trial protocol has been registered in the Iranian Registry of Clinical Trials (IRCT). The registration number is “IRCT20200506047323N7”. The registration date was February 16, 2021. Full protocol The full protocol is attached as an additional file, accessible from the Trials website (Additional file 1). In the interest of expediting the dissemination of this material, the familiar formatting has been eliminated; this Letter serves as a summary of the key elements of the full protocol.
A Comparative Double-Blind Randomized Clinical Trial Study on Effect of Various Analgesic Intravenous Injections on Propofol Post injection Pain in Patients Undergoing Elective Surgery
Propofol is an intravenous anesthetic widely used in outpatient and short-duration surgeries for rapid recovery. Pain during injection may cause discomfort in some patients. Several medications have been suggested that reduce the severity of pain during propofol injection. The present study aimed to compare the effect of intravenous injection of paracetamol, dexamethasone, pethidine, lidocaine, and ketamine on propofol post-injection pain in patients undergoing elective surgery, following a doubleblind randomized clinical trial on 306 patients aged from 18 to 65 who were candidates for elective surgery. Patients were divided into six groups each group consisted of 51 individuals. Mean age of participants in this study was 31.9 ± 9.5 out of which 209 (68.3%) were males and 97 (31.7%) were females. Lidocaine and paracetamol revealed the highest pain-free parameters among other groups. Pain severity was also less in lidocaine and dexamethasone groups than other groups. Finally, lidocaine was seen to be the most eff icacious analgesic in reducing pain from propofol injection and could be safely advised for propofol-induced pain relieve. AbstractIntroduction:
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