The use of nanomaterials in semi-facial respirators could decrease the permeability of particles and promote a biocidal effect compared to conventional respirators (N95) and, therefore, to enhance the filtering power, aiming to mitigate harmful effects of bacteria and viruses. Chitosan is a natural cationic polymer derived from chitin, with characteristics such as being biodegradable, biocompatible, non-toxic, and presenting antimicrobial activity. This polymer has virucidal activity in several types of viruses, including other coronaviruses, given the attractive factor of its cationic charge for negative charges. The effectiveness of a novel individual protection semi-facial respirator (called VESTA) will be investigated, compared to a conventional N95 respirator. The respirators will be tested in healthcare professionals working in hospital environments and the effectiveness will be attributed to the lower incidence rate of infection by the SARS-CoV-2, and to the ability to filter these viruses after use by healthcare professionals exposed to potentially contaminated environments. The study will be carried out in two stages: i) Randomized Controlled Trial with reduced sample to confirm the sample size calculation (pilot trial), and ii) Randomized Controlled Trial (RCT). The RCT will be conducted with healthcare professionals who have contact with environments/patients infected by SARS-CoV-2 in hospital sectors with greater vulnerability to infection (urgency, emergency and intensive care units). The RCT will be conducted initially with a group of sixty participants (n = 30 in each group) for initial investigation of the potential for efficacy with the use of the respirators (VESTA and conventional N95) in two sectors (emergency and ICU) in a reference Hospital for COVID-19. The RCT will consist of two parallel groups: (1) Experimental Group (GExp) that will use the novel respirator (VESTA) and (2) Control Group (CG) that will use the standard respirator (N95). Participants will be recruited from participating hospitals and will be accompanied by 21 days in approximately eight consecutive shifts (ranging from shifts lasting 6 to 12 hours each, followed by approximately 36 hours of rest). Participants will be assessed at baseline (T0), at the end of the 10th day (T1), and at the end of the 21st day (T2).
Context for the latest register update (May, 2022): Our randomized controlled pilot trial was
conducted from February until April 2021, following the same methodological procedures
described within the clinical trial register. After analyzing the data from the pilot trial
we included some updates within the clinical trial register. Summary of changes after the
pilot trial: 1) We performed a new sample size calculation, which resulted in a sample size
of 700 participants (n=350 in each group). This information was updated within the trial
register; 2) We removed the secondary outcome "Ability of the filtering element to inactivate
the SARS-Cov-2". The team decided that this outcome would be more appropriately assessed in a
controlled laboratory study, and not associated with the clinical trial. Thus, this outcome
will be investigated in a secondary study; 3) We decided to include the clinical assessments
(Job stress, Quality of life, Musculoskeletal discomfort, Burnout, and Work ability)
exclusively as baseline measurements.
Device: VESTA respirator
The protocol will be composed by the use of the VESTA respirator for 21 days (approximately 8 consecutive shifts lasting 6 to 12 hours, followed by approximately 36 hours of rest). Each participant will receive a total of approximately 8 respirators, with instructions for a maximum usage time of 6 hours. Therefore, participants will receive 1 respirator to be used in each shift of 6 hours, and 2 respirators in shifts of 12 hours. All participants will receive a booklet with guidelines and training in the use and proper handling of the respirator. All respirators will be sterilized and packaged in the laboratory, to ensure that they are not contaminated before use by the participants. The intervention will not change the participants' routine, considering that they already follow instructions for the use of protective personal equipment (PPE) and the proposed intervention will follow all local regulations and guidelines for the use and conservation of PPE and semi facial respirators.
Device: Conventional N95 respirator
The protocol will be composed by the use of the N95 respirator for 21 days (approximately 8 consecutive shifts lasting 6 to 12 hours, followed by approximately 36 hours of rest). Each participant will receive a total of approximately 8 respirators, with instructions for a maximum usage time of 6 hours. Therefore, participants will receive 1 respirator to be used in each shift of 6 hours, and 2 respirators in shifts of 12 hours. All participants will receive a booklet with guidelines and training in the use and proper handling of the respirator. All respirators will be sterilized and packaged in the laboratory, to ensure that they are not contaminated before use by the participants. The intervention will not change the participants' routine, considering that they already follow instructions for the use of protective personal equipment (PPE) and the proposed intervention will follow all local regulations and guidelines for the use and conservation of PPE and semi facial respirators.
Inclusion Criteria:
- Full-time employees (defined as direct patient care for more than 24 hours weekly) and
work primarily at the study site or co-participants (more than 75% of working hours).
- Professionals working in emergency departments, ICUs, and other hospital settings
exposed to SARS-Cov-2.
- Negative clinical and laboratory results for SARS-Cov-2 infection (negative RT-PCR).
- Have previous experience using N95 PFF2 respirators.
Exclusion Criteria:
- Pregnant or breastfeeding women.
- History of high-risk comorbidities, such as high-risk heart disease or respiratory
diseases.
- Presence of heterogeneous facial anatomical characteristics such as bulky beard,
facial deformities, or facial dimensions incompatible with the respirators.
HRAN (Hospital Regional da Asa Norte)
Brasília, Brazil