Stratifying risk outcomes among adult COVID-19 inpatients with high flow oxygen: The R4 score.

BACKGROUND: High flow oxygen therapy (HFO) is a widely used intervention for pulmonary complications. Amid the coronavirus infectious disease 2019 (COVID-19) pandemic, HFO became a popular alternative to conventional oxygen supplementation therapies. Risk stratification tools have been repurposed -and new ones developed- to estimate outcome risks among COVID-19 patients. This study aims to provide a simple risk stratification system to predict invasive mechanical ventilation (IMV) or death among COVID-19 inpatients on HFO. METHODS: Among 529 adult inpatients with COVID-19 pneumonia, we selected unadjusted clinical risk factors for developing the composite endpoint of IMV or death. The risk for the primary outcome by each category was estimated using a Cox proportional hazards model. Bootstrapping was used to validate the results. RESULTS: Age above 62, eGFR under 60 ml/min, room air SpO2 ≤89 % upon admission, history of hypertension, history of diabetes, and any comorbidity (cancer, cardiovascular disease, COPD/ asthma, hypothyroidism, or autoimmune disease) were considered for the score. Each of the six criteria scored 1 point. The score was further simplified into 4 categories: 1) 0 criteria, 2) 1 criterion, 3) 2-3 criteria, and 4) ≥4 criteria. Taking the first category as the reference, risk estimates for the primary endpoint were HR; 2.94 [1.67 - 5.26], 4.08 [2.63 - 7.05], and 6.63 [3.74 - 11.77], respectively. In ROC analysis, the AUC for the model was 0.72. CONCLUSIONS: Our score uses simple criteria to estimate the risk for IMV or death among COVID-19 inpatients with HFO. Higher category reflects consistent increases in risk for the endpoint.

Ensayo clínico aleatorizado en pacientes COVID- 19 sobre el efecto de la fisioterapia precoz en su acondicionamiento físico

Introduction: The WHO recommends early rehabilitation and mobilization interventions in patients hospitalized for COVID-19. The benefits of early physiotherapy, during the hospital stay, have not been proven in clinical trials. Objective: To evaluate the effects of early physiotherapy and health education in hospitalized COVID-19 patients, in relation to the symptoms described in previous studies, analyzing differences between groups regarding their physical conditioning, need for oxygen therapy and hospital stay. Methodology: Randomized clinical trial with two arms, developed in hospitalization and intermediate respiratory care units, with COVID-19 patients. Sixty-four patients included in the experimental group (implementation of an early physiotherapy program after 48–72 h of admission) and 62 patients in the control group (usual treatment of the center). Sociodemographic and clinical variables: mMRC, oxygen therapy, MRC-SS, 30 s-STST, FPM, Tinetti, FRAIL Scale and PCFS. They were evaluated on admission, discharge and two months after discharge. Results: The experimental patients had fewer days of admission and conventional oxygen therapy. At discharge, they present a lower risk of falling (72.9% vs. 95.8%) and less weakness in MRC-SS (2.1% vs. 14.6%). At two months they had less frailty (5.0% vs. 14.5%), greater hand grip strength, less dyspnea, better results in 30s-STST and fewer post-COVID limitations (86.5% vs. 96.4%). Conclusión: The intervention of early physiotherapy in COVID-19 patients and the health education received, prevents muscle weakness during admission, improves physical conditioning at discharge and two months later, and reduces the days of hospital stay. ClinicalTrials.gov (NCT05032885). © 2023 Asociación Española de Fisioterapeutas

Corticosteroid outcome may be dependent of duration of use in severe COVID-19.

BACKGROUND/AIMS: For patients hospitalized with coronavirus disease 2019 (COVID-19) who require supplemental oxygen, the evidence of the optimal duration of corticosteroid is limited. This study aims to identify whether long-term use of corticosteroids is associated with decreased mortality. METHODS: Between February 10, 2020 and October 31, 2021, we analyzed consecutive hospitalized patients with COVID-19 with severe hypoxemia. The patients were divided into short-term (≤ 14 days) and long-term (> 14 days) corticosteroid users. The primary outcome was 60-day mortality. We performed propensity score (PS) analysis to mitigate the effect of confounders and conducted Kaplan-Meier curve analysis. RESULTS: There were 141 (52%) short-term users and 130 (48%) long-term corticosteroid users. The median age was 68 years and the median PaO2/FiO2 at admission was 158. Of the patients, 40.6% required high-flow nasal cannula, 48.3% required mechanical ventilation, and 11.1% required extracorporeal membrane oxygenation. The overall 60-day mortality rate was 23.2%, and that of patients with hospital-acquired pneumonia (HAP) was 22.9%. The Kaplan-Meier curve for 60- day survival in the PS-matched cohort showed that corticosteroid for > 14 days was associated with decreased mortality (p = 0.0033). There were no significant differences in bacteremia and HAP between the groups. An adjusted odds ratio for the risk of 60-day mortality in short-term users was 5.53 (95% confidence interval, 1.90-18.26; p = 0.003). CONCLUSION: For patients with severe COVID-19, long-term use of corticosteroids was associated with decreased mortality, with no increase in nosocomial complications. Corticosteroid use for > 14 days can benefit patients with severe COVID-19.

A Volunteer Crossover Feasibility Study to Compare Standard Oxygen Cannula Used at High-Flow to Proprietary High-Flow Humidified Nasal Oxygen Systems.

BACKGROUND AND AIM: Supplemental oxygen is routinely administered to patients prior to and during induction of general anesthesia and sedation. This increases the fraction of oxygen in the lungs, increases oxygen delivery, and increases the time to oxygen desaturation. Proprietary Transnasal Humidified Rapid-Insufflation Ventilatory Exchange (THRIVE) systems, which deliver warmed and humidified oxygen, have been extensively researched in the perioperative and critical care setting and have been shown to significantly prolong time to desaturation and as a means of ventilatory support. The use of traditional nasal oxygen cannula used at maximum flow rates is currently used in short bursts as it is poorly tolerated. There is however a dearth of data examining the use of this technique. We hypothesized that traditional nasal oxygen cannulae used at maximum flow rates can deliver oxygen as effectively as THRIVE in this setting. METHODS: We designed a crossover volunteer feasibility study. The participants were 10 healthy anesthetists. We compared the two methods of oxygen delivery by measuring transcutaneous oxygen measurement and pharyngeal oxygen concentration. Comfort and noise levels were recorded. The aforementioned parameters were compared between the two groups. RESULTS: We observed that a standard oxygen cannula used at high flows delivers comparable oxygen delivery and tissue oxygenation performance to proprietary THRIVE systems. However, they are less comfortable and make more noise. DISCUSSION: To the authors' knowledge this study is the first to study the oxygen delivery of traditional nasal oxygen cannula used at maximum flow rates and make comparisons to the well-studied THRIVE technique. While similar transcutaneous partial pressure of oxygen and pharyngeal gas concentrations were observed with both techniques, the standard cannulae were deemed to be a lot less comfortable than THRIVE and made a lot more noise which likely limit the utility of this technique outside of short bursts. CONCLUSION: In this study, a standard nasal oxygen cannula used at high flows achieved similar oxygen delivery to THRIVE at the expense of poor comfort and increased noise.

Updated landscape of inhaled medications to combat COVID-19.

Plain language summary The COVID-19 pandemic has overwhelmed the healthcare systems worldwide. This calls for development of medicines that work effectively to decrease the death toll and severity of the infection. These medicines should be easy to administer to maintain patient compliance. Inhalation therapy is a needleless and painless route of administration that leads to fewer side effects. Various types of carriers are used for delivery of drugs via inhalation route. Vaccines can also be delivered via inhalation. Various researchers have studied vaccines via inhalation route, which have the potential to be translated into developing inhalable vaccines for COVID-19.

The COVID-19 pandemic has overwhelmed the healthcare systems worldwide. This calls for development of medicines that work effectively to decrease the death toll and severity of the infection. These medicines should be easy to administer to maintain patient compliance. Inhalation therapy is a needleless and painless route of administration that leads to fewer side effects. Various types of carriers are used for delivery of drugs via inhalation route. Vaccines can also be delivered via inhalation. Various researchers have studied vaccines via inhalation route, which have the potential to be translated into developing inhalable vaccines for COVID-19.

Factors Affecting Patient Adherence to Inhalation Therapy: An Application of SEIPS Model 2.0.

Purpose: This study aims to explore factors that affect patient adherence to inhalation therapy by applying a patient-centered approach. Patients and Methods: We conducted a qualitative study to identify the factors that influence adherent behaviors among asthma/COPD patients. 35 semi-structured interviews with patients, and 15 semi-structured interviews with healthcare providers (HCPs) who manage asthma/COPD patients were conducted. The SEIPS 2.0 model was applied as a conceptual framework for guiding the interview content and analysis of the interview data. Results: Based on the findings of this study, a conceptual framework of patient adherence in asthma/COPD during inhalation therapy was constructed including five themes: person, task, tool, physical environment, and culture and society. Person-related factors include patient ability and emotional experience. Task-related factors refer to task type and frequency and flexibility. Tool-related factors are the type of inhalers and usability of inhalers. Physical environment-related factors include home environment and COVID-19 situation. Culture and social related factors consist of two aspects: cultural beliefs and social stigma. Conclusion: The findings of the study identified 10 influential factors that impact on patient adherence to inhalation therapy. A SEIPS-based conceptual model was constructed based on the responses of patients and HCPs to explore the experiences of patients engaging in inhalation therapy and interacting with inhalation devices. In particular, new insight about factors of emotional experience, physical environment and traditional cultural beliefs were found crucial for patients with Asthma/COPD to conduct patients' adherent behaviors.

Pulmonary drug delivery: an effective and convenient delivery route to combat COVID-19.

The recent outbreak of coronavirus disease 2019 (COVID-19) in Wuhan, China has spread rapidly around the world, leading to a widespread and urgent effort to develop and use comprehensive approaches in the treatment of COVID-19. While oral therapy is accepted as an effective and simple method, since the primary site of infection and disease progression of COVID-19 is mainly through the lungs, inhaled drug delivery directly to the lungs may be the most appropriate route of administration. To prevent or treat primary SARS-CoV-2 infections, it is essential to target the virus port of entry in the respiratory tract and airway epithelium, which requires rapid and high-intensity inhibition or control of viral entry or replication. To achieve success in this field, inhalation therapy is the most attractive treatment approach due to efficacy/safety profiles. In this review article, pulmonary drug delivery as a unique treatment option in lung diseases will be briefly reviewed. Then, possible inhalation therapies for the treatment of symptoms of COVID-19 will be discussed and the results of clinical trials will be presented. By pulmonary delivery of the currently approved drugs for COVID-19, efficacy of the treatment would be improved along with reducing systemic side effects.

Assessment of the efficacy of a video-based hybrid teaching module of oxygen therapy and critical care area troubleshooting in nursing professionals managing COVID-19 patients.

BACKGROUND: Video-based teaching has become rapidly popular during the coronavirus disease 2019 (COVID-19) pandemic. The current study aimed to assess the efficacy of a hybrid video-based teaching module of oxygen therapy and critical care troubleshooting in nursing professionals managing COVID-19 patients in our institute. MATERIALS AND METHODS: A retrospective analytical study (pretest and posttest design) was conducted in our medical education department in March 2022 using the data from a workshop conducted on oxygen therapy and critical care area troubleshooting during COVID-19 patient management for 296 nursing professionals. A hybrid video-based teaching module was used. Pretest and posttest data were compared along with subgroup analysis. P value <0.05 was considered significant. RESULTS: Posttest scores were significantly higher than the baseline scores in the overall group as well as in all subgroups (P < 0.001). Subgroup comparisons revealed no significant difference in mean baseline pretest and posttest scores in male versus female participants. Baseline pretest scores (P = 0.02) and posttest scores (P = 0.08) were lower in the nurses of the noncritical areas compared to critical area nurses. Mean improvement in posttest score compared to baseline score was similar between all groups. CONCLUSION: Hybrid technique involving both video aspects and in-person teacher presence for demonstration or troubleshooting improves perceived knowledge in nursing professionals with some prior formal training and may be superior to the conventional only didactic/lecture-based demonstrations, especially in the context of imparting rapid training during pandemics or similar urgent situations.

Development and evaluation of an e-learning course in oxygen therapy.

BACKGROUND: Respiratory problems are among the most challenging situations in emergency care services. Different oxygen therapy methods are usually used to deal with these problems. In recent years, oxygen therapy has been recognized as one of the most widely used therapeutic processes in emergency departments (ED) mainly due to the Covid-19 pandemic. The aim of this study was to develop and evaluate an e-learning course in oxygen therapy for the ED clinicians. METHODS: This was a pre-post study conducted in three phases in 2021. Initially, the educational requirements of clinicians (n = 181) were investigated using a questionnaire, and in the second phase, an interactive e-learning course was developed. In the third phase, the course was assessed in terms of maintaining the principles of developing an e-learning course, affecting participants' knowledge, and supporting usability requirements. RESULTS: The findings revealed that training in oxygen therapy was essential for the ED clinicians. Therefore, an e-learning course was developed. The content production experts and the participants evaluated the content and usability of the online course at a good level. In addition, there was a statistically significant difference between the nurses' (p < 0.001) and general practitioners' (p < 0.002) pre- and post-test scores suggesting that the course improved their knowledge. CONCLUSION: It seems that the e-learning course developed in the current study can improve health care professionals' knowledge and quality of care. However, more evaluation studies are needed to investigate the effectiveness of the course for other clinicians, such as nurses who work in intensive care units.

Nitric oxide and its derivatives containing nasal spray and inhalation therapy for the treatment of COVID-19.

Severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) has become a major health concern worldwide and evolved into different variants. SARS-CoV-2 possesses a spike glycoprotein on its envelope that binds to the angiotensin-converting enzyme 2 (ACE-2) receptor of the host cell via the receptor-binding domain (RBD) in the upper respiratory tract. Since the SARS-CoV-2 virus variants changes the seveirity of dieseases and treatment scenarios, repurposing current medicines may provide a quick and appealing method with established safety features. The efficacy and safety of antiviral medicines against the coronavirus disease 2019 (COVID-19) have been investigated, and several of them are now undergoing clinical studies. Recently, it has been found that nitric oxide (NO) shows antiviral properties against SARS-CoV-2 and prevents the virus from binding to a host cell. In addition, NO is a well-known vasodilator and acts as an important coagulation mediator. With the fast-track development of COVID-19 treatments and vaccines, one avenue of research aimed at improving therapeutics is exploring different forms of drug delivery, including intranasal sprays and inhalation therapy. The nasal mucosa is more prone to be the site of infection as it is in more direct contact with the physical environment via air during inhalation and exhalation. Thus, the use of the exogenous nasal NO therapy via the intranasal route displays a distinct advantage. Therefore, the objective of this review is to summarize the relevant actions of NO via intranasal spray and inhalation delivery, its mechanism of action, and its use in the treatment of COVID-19.

Supercritical Antisolvent Technique for the Production of Breathable Naringin Powder.

Flavonoids are polyphenolic compounds largely present in fruits and vegetables possessing antioxidant properties, anti-inflammatory and antibacterial activities. Their use in clinical practice is very poor due to their low bioavailability, susceptibility to oxidation and degradation. Moreover, their slight solubility in biological fluids and a consequent low dissolution rate leads to an irregular absorption from solid dosage forms, even though, anti-inflammatory formulations could be used as support for several disease treatment, i.e. the COVID-19 syndrome. To improve flavonoid bioavailability particle size of the powder can be reduced to make it breathable and to promote the absorption in the lung tissues. Supercritical fluid based antisolvent technique has been used to produce naringin particles, with size, shape and density as well as free flowing properties able to fit inhalation needs. The dried particles are produced with the removal of the solvent at lower temperatures compared to the most used traditional micronization processes, such as spray drying. The best breathable fraction for naringin particles is obtained for particles with a d50~7 µm manufactured at 35 °C-150 bar and at 60 °C-130 bar, corresponding to 32.6% and 36.7% respectively. The powder is produced using a high CO2 molar fraction (0.99) that assure a better removal of the solvent. NuLi-1 cell line of immortalised bronchial epithelial cells adopted to evaluate powder cytotoxicity indicated after 24 h absence of toxicity at concentration of 25 µM.

Post-COVID Syndrome: The Research Progress in the Treatment of Pulmonary sequelae after COVID-19 Infection.

Post-COVID syndrome or long COVID is defined as the persistence of symptoms after confirmed SARS-CoV-2 infection, the pathogen responsible for coronavirus disease. The content herein presented reviews the reported long-term consequences and aftereffects of COVID-19 infection and the potential strategies to adopt for their management. Recent studies have shown that severe forms of COVID-19 can progress into acute respiratory distress syndrome (ARDS), a predisposing factor of pulmonary fibrosis that can irreversibly compromise respiratory function. Considering that the most serious complications are observed in the airways, the inhalation delivery of drugs directly to the lungs should be preferred, since it allows to lower the dose and systemic side effects. Although further studies are needed to optimize these techniques, recent studies have also shown the importance of in vitro models to recreate the SARS-CoV-2 infection and study its sequelae. The information reported suggests the necessity to develop new inhalation therapies in order to improve the quality of life of patients who suffer from this condition.

Effects of Different Inhalation Therapy on Ventilator-Associated Pneumonia in Ventilated COVID-19 Patients: A Randomized Controlled Trial.

The effect of routine inhalation therapy on ventilator-associated pneumonia (VAP) in mechanically ventilated patients with the coronavirus disease (COVID-19) has not been well-defined. This randomized controlled trial included 175 eligible adult patients with COVID-19 who were treated with mechanical ventilation at the University Hospital of Split between October 2020 and June 2021. Patients were randomized and allocated to a control group (no routine inhalation) or one of the treatment arms (inhalation of N-acetylcysteine; 5% saline solution; or 8.4% sodium bicarbonate). The primary outcome was the incidence of VAP, while secondary outcomes included all-cause mortality. Routine inhalation therapy had no effect on the incidence of bacterial or fungal VAP nor on all-cause mortality (p > 0.05). Secondary analyses revealed a significant reduction of Gram-positive and methicillin-resistant Staphylococcus aureus (MRSA) VAP in the treatment groups. Specifically, the bicarbonate group had a statistically significantly lower incidence of Gram-positive bacterial VAP (4.8%), followed by the N-acetylcysteine group (10.3%), 5% saline group (19.0%), and control group (34.6%; p = 0.001). This difference was driven by a lower incidence of MRSA VAP in the bicarbonate group (2.4%), followed by the N-acetylcysteine group (7.7%), 5% saline group (14.3%), and control group (34.6%; p < 0.001). Longer duration of ventilator therapy was the only significant, independent predictor of any bacterial or fungal VAP in the multivariate analysis (aOR 1.14, 95% CI 1.01-1.29, p = 0.038 and aOR 1.05, 95% CI 1.01-1.10, p = 0.028, respectively). In conclusion, inhalation therapy had no effect on the overall VAP incidence or all-cause mortality. Further studies should explore the secondary findings of this study such as the reduction of Gram-positive or MRSA-caused VAP in treated patients.

Molecular Hydrogen as Medicine: An Assessment of Administration Methods

Since the late 18th century, molecular hydrogen (H2) has been shown to be well tolerated, firstly in animals, and then in humans. However, although research into the beneficial effects of molecular hydrogen in both plant and mammalian physiology is gaining momentum, the idea of utilising this electrochemically neutral and non-polar diatomic compound for the benefit of health has yet to be widely accepted by regulatory bodies worldwide. Due to the precise mechanisms of H2 activity being as yet undefined, the lack of primary target identification, coupled with difficulties regarding administration methods (e.g., dosage and dosage frequencies, long-term effects of treatment, and the patient’s innate antioxidant profile), there is a requirement for H2 research to evidence how it can reasonably and most effectively be incorporated into medical practice. This review collates and assesses the current information regarding the many routes of molecular hydrogen administration in animals and humans, whilst evaluating how targeted delivery methods could be integrated into a modern healthcare system.

Oxygen therapy and its relevance in ongoing COVID 19 pandemic

It was in 1850s that scientists realised that Earth is a closed system where even Oxygen and Carbon dioxide are exchanged between animals and plants for their co-existence and survival. Humans need Oxygen to be used for cellular respiration. It is the process by which human cells break down sugar to produce energy. This energy is stored to fuel life. This can be easily compared to a burning wood which uses oxygen to produce heat and carbon dioxide as waste. The current Covid pandemic made us realise the importance of oxygen. Corona virus hampers the process of absorption of oxygen by lungs by damaging alveolar-capillary membranes. In absence of an effective therapy to counter the virus, the management of patient is essentially symptomatic, basics of which revolves around oxygen therapy. The mere size of the pandemic has exhausted all medical facilities and many patients were treated at home, the knowledge of oxygen therapy for healthcare personnels and common people has become pertinent. Here we have tried to explain the basics about oxygen therapy in relation to Covid 19 pandemic, which is not static and expected change with time.

NO in Viral Infections: Role and Development of Antiviral Therapies.

Nitric oxide is a ubiquitous signaling radical that influences critical body functions. Its importance in the cardiovascular system and the innate immune response to bacterial and viral infections has been extensively investigated. The overproduction of NO is an early component of viral infections, including those affecting the respiratory tract. The production of high levels of NO is due to the overexpression of NO biosynthesis by inducible NO synthase (iNOS), which is involved in viral clearance. The development of NO-based antiviral therapies, particularly gaseous NO inhalation and NO-donors, has proven to be an excellent antiviral therapeutic strategy. The aim of this review is to systematically examine the multiple research studies that have been carried out to elucidate the role of NO in viral infections and to comprehensively describe the NO-based antiviral strategies that have been developed thus far. Particular attention has been paid to the potential mechanisms of NO and its clinical use in the prevention and therapy of COVID-19.

Aprotinin treatment against SARS-CoV-2: A randomized phase III study to evaluate the safety and efficacy of a pan-protease inhibitor for moderate COVID-19.

BACKGROUND: SARS-CoV-2 virus requires host proteases to cleave its spike protein to bind to its ACE2 target through a two-step furin-mediated entry mechanism. Aprotinin is a broad-spectrum protease inhibitor that has been employed as antiviral drug for other human respiratory viruses. Also, it has important anti-inflammatory properties for inhibiting the innate immunity contact system. METHODS: This was a multicentre, double-blind, randomized trial performed in four Spanish hospitals comparing standard treatment versus standard treatment + aprotinin for patients with COVID-19 between 20 May 2020 and 20 October 2021. The primary efficacy outcomes were length of hospital stay and ICU admission. The secondary endpoints were each of the primary efficacy outcomes and a composite of oxygen therapy, analytical parameters and death. Safety outcomes included adverse reactions to treatment during a 30-day follow-up period. Treatment was given for 11 days or till discharge. RESULTS: With almost identical analytical profiles, significant differences were observed in treatment time, which was 2 days lower in the aprotinin group (p = .002), and length of hospital admission, which was 5 days shorter in the aprotinin group (p = .003). The incidence of discharge was 2.19 times higher (HR: 2.188 [1.182-4.047]) in the aprotinin group than in the placebo group (p = .013). In addition, the aprotinin-treated group required less oxygen therapy and had no adverse reactions or side effects. CONCLUSION: Inhaled aprotinin may improve standard treatment and clinical outcomes in hospitalized patients with COVID-19, resulting in a shorter treatment time and hospitalization compared with the placebo group. The administration of aprotinin was safe.

[Diagnosis and treatment of COVID-19 in intensive care units]. / Diagnostik und Therapie von COVID-19 auf der Intensivstation.

Treatment of coronavirus disease 2019 (COVID-19) is particularly challenging due to the rapid scientific advances and the often significant hypoxemia. Use of high-flow oxygen, noninvasive mask ventilation, and the technique of awake proning can sometimes avoid the need for intubation. Mechanical ventilation follows the principles of ventilation for acute respiratory distress syndrome (ARDS; lung protective ventilation) and is generally supplemented by consequent positioning therapy (with at least 16 h in prone position in multiple cycles). Antiviral therapy options such as remdesivir usually come too late for patients with COVID-19 in the ICU, the only exception being the administration of monoclonal antibodies for patients without seroconversion. The value of immunomodulatory therapy such as dexamethasone is undisputed. Interleukin­6 antagonists, on the other hand, are rather problematic for ICU patients, and for Janus kinase inhibitors, data and experience are still insufficient in this context.

Theoretical effectiveness of steam inhalation against SARS-CoV-2 infection: updates on clinical trials, mechanism of actions, and traditional approaches.

Steam inhalation therapy can be a contemporary approach for COVID-19 affected patients of all age groups to manage respiratory conditions, though it presently lacks the scientific backing to establish itself as a befitting practice. The age of COVID-19 has facilitated this traditional home remedy to resurface among the general mass as a helpful approach for the prevention and adjuvant treatment of the disease. In this review, the means of SARS-CoV-2 infection and impact of the parameters, namely steam inhalation and heat on such infection has been delineated via enumerating the effect of the parameters in the human body and against SARS-CoV-2. The literature search was conducted using PubMed, Web of Science, Scopus, ScienceDirect, Wiley Online Library, Google Scholar, and CNKI Scholar databases. The keywords used in the survey include 'Steam inhalation', 'SARS-CoV-2', 'COVID-19', 'Clinical study', 'Mechanism of action', 'Traditional uses', 'Phytochemistry' and 'Adverse effects'. Clinical studies concerning steam inhalation by COVID-19 patients have been comprehended to demarcate the scientific obscurity of the practice. The safety profile of the procedure has also been outlined emphasizing evading measures against COVID-19 and other related disease states. To recapitulate, application of the steam inhalation with herbal concoctions and phytochemicals having folkloric prevalence as an inhalable remedy against respiratory illnesses has been explored in this review work to focus on a new aspect in the COVID-19 treatment paradigm using steam and progress of further research hither.

RECOMENDACIONES PARA EL USO DE OXÍGENO Y SUS DISPOSITIVOS BÁSICOS Y AVANZADOS: RACIONALIDAD Y SEGURIDAD EN TIEMPOS DE PANDEMIA POR SARS CoV2 EN COLOMBIA

Resumen En medio de la pandemia de COVID-19, y ante la inminencia de desabastecimiento de oxígeno en Colombia, la red de Gestión y Transferencia de Conocimiento, integrada por 19 sociedades científicas, instituciones de salud y universidades, genera una actualización al documento liderado por la Asociación Colombiana de Medicina Critica e incluye nuevos lineamientos informados en evidencia para el manejo racional de la oxigenoterapia, así como los dispositivos básicos y avanzados para la oxigenoterapia. Las recomendaciones se refieren a: uso racional de oxígeno orientado por metas, estandarización del seguimiento y ajuste de dosis, uso adecuado de los dispositivos de oxigenoterapia, uso racional de ventilación mecánica invasiva, y uso racional de la terapia con membrana de oxigenación extracorpórea. Al ejercer su juicio, se espera que los profesionales y equipos de atención tengan en cuenta estos lineamientos con el fin de hacer un uso racional y seguro de la oxigenoterapia y sus dispositivos básicos y avanzados, junto con las necesidades individuales y preferencias de las personas que están bajo su cuidado. In the midst the COVID-19 pandemic, and given the imminence of oxygen shortages in Colombia, the Knowledge Management and Transfer Network, made up of 19 scientific societies, health institutions, and universities, generates an update to the document led by the Colombian Association of Critical Medicine and includes new evidence-informed guidelines for the rational management of oxygen therapy, as well as basic and advanced devices for oxygen therapy. The recommendations refer to five topics: goal-oriented rational use of oxygen, standardization of follow-up and dose adjustment, effective use of oxygen therapy devices, rational use of invasive mechanical ventilation, and rational use of extracorporeal oxygenation membrane therapy. When exercising their judgment, it is expected that professionals and care teams will take into account these guidelines to make rational and safe use of oxygen therapy and its basic and advanced devices, together with the individual needs and preferences of the people who are under their care.