Purpose: We aimed to investigate the effects of photobiomodulation therapy combined with static magnetic field (PBMT-sMF) on the length of intensive care unit (ICU) stay and mortality rate of severe COVID-19 patients requiring invasive mechanical ventilation and assess its role in preserving respiratory muscles and modulating inflammatory processes. Patients and Methods: We conducted a prospectively registered, triple-blinded, randomized, placebo-controlled trial of PBMT-sMF in severe COVID-19 ICU patients requiring invasive mechanical ventilation. Patients were randomly assigned to receive either PBMT-sMF or a placebo daily throughout their ICU stay. The primary outcome was length of ICU stay, defined by either discharge or death. The secondary outcomes were survival rate, diaphragm muscle function, and the changes in blood parameters, ventilatory parameters, and arterial blood gases. Results: Thirty patients were included and equally randomized into the two groups. There were no significant differences in the length of ICU stay (mean difference, MD = −6.80; 95% CI = −18.71 to 5.11) between the groups. Among the secondary outcomes, significant differences were observed in diaphragm thickness, fraction of inspired oxygen, partial pressure of oxygen/fraction of inspired oxygen ratio, C-reactive protein levels, lymphocyte count, and hemoglobin (p < 0.05). Conclusion: Among severe COVID-19 patients requiring invasive mechanical ventilation, the length of ICU stay was not significantly different between the PBMT-sMF and placebo groups. In contrast, PBMT-sMF was significantly associated with reduced diaphragm atrophy, improved ventilatory parameters and lymphocyte count, and decreased C-reactive protein levels and hemoglobin count. Trial Registration Number (Clinical Trials.gov): NCT04386694.
BackgroundPhotobiomodulation therapy (PBMT) when used isolated or combined with static magnetic field (PBMT-sMF) has been proven benefits on skeletal muscle increasing performance and reducing fatigue, increasing oxygen saturation, and modulating inflammatory process. However, it is unknown whether the effects observed with this therapy on respiratory muscles will be similar to the effects previously observed on skeletal muscles.ObjectiveWe aimed to investigate whether PBMT-sMF is able to decrease the length of stay in the intensive care unit (ICU) and to reduce the mortality rate of patients with severe COVID-19 requiring invasive mechanical ventilation, increasing the respiratory function and modulating the inflammatory process.MethodsWe conducted a prospectively registered, pragmatic, triple-blinded (patients, therapists and outcome assessors), randomized, placebo-controlled trial of PBMT-sMF in patients with severe COVID-19, requiring invasive mechanical ventilation, admitted to the ICU. Patients were randomly assigned to receive either PBMT-sMF (6 sites at the lower thorax – 189 J total, and 2 sites at the neck area – 63 J total) or placebo PBMT-sMF daily during all the ICU stay. The primary outcome was length of stay in the ICU defined by either discharge or death. The secondary outcomes were survival rate, muscle function of diaphragm, change in blood tests, change in mechanical ventilation parameters and change in arterial blood gas analysis.ResultsA total of 30 patients underwent randomization (with 15 assigned to PBMT-sMF and 15 to placebo) and were analyzed. The length of stay in the ICU for the placebo group was 23.06 days while for the PBMT-sMF group was 16.26. However, there was no statistically difference between groups for the length of stay in the ICU (mean difference - MD = - 6.80; 95% CI = - 18.71 to 5.11). Regarding the secondary outcomes were observed statistically differences in favor of PBMT-sMF for diaphragm thickness, fraction of inspired oxygen, partial pressure of oxygen/fraction of inspired oxygen ratio, C-reactive protein, lymphocytes count, and hemoglobin (p<0.05).ConclusionAmong patients with severe COVID-19 requiring invasive mechanical ventilation, PBMT-sMF was not statistically different than placebo to the length of stay in the ICU. However, it is important to highlight that our sample size was underpowered to detect statistical differences to the primary outcome. In contrast, PBMT-sMF increased muscle function of diaphragm, improved ventilatory parameters, decreased C-reactive protein levels and hemoglobin count, and increased lymphocytes count.
Utilização da ventilação mecânica não invasiva em pacientes internados na Unidade de Terapia Intensiva adulto: sucesso, insucesso, motivo da VNI, tempo de internação, alta ou óbito
Insuflação de gás traqueal como recurso terapêutico em ventilação mecânica invasiva: revisão sistemática Resultados: Após a leitura e análise criteriosa dos artigos, 10 estudos foram incluídos nesta revisão. Eles abordavam a eficácia dos métodos de TGI na redução dos níveis de CO 2 e as condições para a diminuição dos parâmetros da ventilação mecânica e melhora da mecânica ventilatória. Conclusão:Os estudos incluídos na presente revisão sugerem que a TGI pode ser uma técnica eficaz quando realizada em complicações pulmonares nos pacientes hipercápnicos com lesão pulmonar. Entretanto, são estudos distintos e controversos, o que compromete a análise dos resultados obtidos para total eficácia do recurso terapêutico. Palavras-chave: Lesão pulmonar; hipercapnia; fisioterapia ABSTRACTIntroduction: At intensive care units, patients presenting with severe pulmonary involvement, with changes in the physiological values of pulmonary compliance, develop a limitation related to pulmonary volumes, resulting in some cases in hypercapnia. In order to help decreasing these alterations, some techniques may be used such as tracheal gas insufflation (TGI), which acts minimizing pulmonary stress, improving gas exchanges and decreasing respiratory minute volume and pressure. Thus, this study aimed to analyze and to describe TGI use and efficacy in reducing hypercapnia and parameters of invasive mechanical ventilation of critically ill patients.
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