The goal of this double-blind, interventional, randomized case-control, pilot trial is to evaluate the effects of active sulfurous (STW) versus placebo (SDW) inhalations on blood test parameters, serum inflammatory cytokines, spirometry data, as well as qualitative and quantitative changes in the nasal microbiome of subjects affected by long Covid. The main questions it aims to answer are: * if STW inhalations are effective on respiratory issues due to long covid compared to the placebo inhalation (SDW) * if STW inhalations are effective on long covid related fatigue issues compared to the placebo inhalation (SDW) * if H2S inhaled with STW is effective in modulating (decreasing) cytokines which are related to long covid cytokine storm compared to placebo inhalation with no H2S (SDW) * if STW inhalation modify nasal microbiome both from a qualitative and quantitative point of view respect to placebo inhalation (SDW) Participants will be randomly assigned to active inhalations (STW) or placebo inhalations (SDW) arm and subjected to 12 consecutive sessions of 20 minutes. Both arms will be tested for: * cytokines and inflammatory markers concentration (IL1b, IL6, ACE, GSS, S100B, Hs-CRP) * spirometry (resting, forced, DLCO) * exertion response (6 minutes walking test) * nasal microbiome sampling at visit 1 (enrolment), at visit 2(right after the inhalation treatment) and at visit 3 (3 months after treatment). Researchers will compare results reported by STW to those of SDW group to see if significative differences are detectable.
The study is a double-blind, interventional, randomized case-control, pilot trial assessing the efficacy of sulfureous thermal water (STW) inhalations in patients diagnosed with long-COVID. The study was performed from May to October 2023 at the Acque Albule spa facility, Terme di Roma, Tivoli Terme, Rome, Italy. The SPA-center rehab program included 12 consecutive sessions for 20 minutes each from day 1 for 12 days. Re-assessment of study analyses was performed on day 14 after (Visit 2). The follow-up (Visit 3) was 90 days after Visit 1. Eligible subjects were adult outpatients, presenting to the spa facility with an independent prescription of inhalation therapy with sulfurous water for post-COVID respiratory issues. The participants had previously tested positive in certified PCR screening for SARS-Cov-2 infection (data from the Regional Archive of Health Service for SARS-Cov-2 Infection) and, at the time of the study, had a positive diagnosis of long-COVID syndrome with pulmonary involvement. Neither the participants nor any of the medical researchers or laboratory staff involved in the screening, enrolment, clinical evaluation, monitoring, and laboratory as well as statistics of the participant's analyses were aware of the study intervention received (STW vs SDW). A randomization list (1:1 active vs placebo) was created prior to recruiting. The inhalation assistant randomized the participant according to the list and administered the intervention. Therefore, the inhalation assistant was unblinded to the treatment assigned but blinded to the medical condition of the participants. At each session of treatment delivered at Visit 1 and Visit 2, participants were tested for SARS-Cov-2 infection, underwent resting plus forced spirometry and alveolar-capillary diffusion of carbon monoxide (DLCO) spirometry, and performed the the six minutes walking test (6MWT). St George Respiratory Questionnaire (SGQ) used to determine the impact of pulmonary impairment on the quality of life was completed at Visit 1 and Visit 3, patient satisfaction survey was submitted to participants at Visit 3 only. Moreover, blood samples for routine analysis, urine sample collections, and nasal swabs for microbiome sampling were collected at each visit. At the end of Visit 1 (screening/enrolment day), the eligible subjects were randomized in a 1:1 ratio to either: active (STW) or placebo (SDW) group for the inhalation therapy. Both active and controls underwent inhalation therapy once a day for 12 days (from day 1).
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
30
Active Inhalation protocol based on 12 consecutive sessions, 20 minutes each, once a day from Visit 1 through a conventional thermal water aerosolization Faset™system (Faset Spa, Trezzano sul Naviglio, Milan, Italy) delivering particles of TW with a diameter between 0.6 µm \<MMAD \< 5 µm. Treatment consisted of 10 minutes of warm steam and 10 minutes of aerosol inhalation with nasal prongs.
Placebo Inhalation protocol based on 12 consecutive sessions, 20 minutes each, once a day from Visit 1 through a modified thermal water aerosolization Faset™system, previously disconnected from the hydraulic circuit that supplied TW and connected to non-pyrogenic sterile water reservoirs (Highly depurated water- Pharmaceutical grade FU-for external and internal use, Makeitlab, Canosa di Puglia, BT, Italy). Treatment consisted of 10 minutes of warm steam and 10 minutes of aerosol inhalation with nasal prongs delivering particles of SDW with a diameter between 0.6 µm \<MMAD \< 5 µm.
Acque Albule, Terme di Roma
Tivoli, Rome, Italy
To determine whether Sulfurous Thermal water (STW) inhalations may have effects on post covid-pulmonary sequelae assessing changes in pulmonar functionality through spirometric parameters.
To assess the prior treatment whole pulmonary functionality by spirometry and DLCO spirometry
Time frame: Day1
To determine whether Sulfurous Thermal water (STW) inhalations may have effects on post covid-pulmonary sequelae assessing changes in pulmonar functionality through spirometric parameters.
To assess the whole pulmonary functionality at 14 days since inhalations start by spirometry and DLCO spirometry
Time frame: Day 14
To determine whether Sulfurous Thermal water (STW) inhalations may have effects on post covid-pulmonary sequelae assessing changes in pulmonar functionality through spirometric parameters
To assess the whole pulmonary functionality at 90 days since inhalations start by spirometry and DLCO spirometry.
Time frame: Day 90
To determine whether Sulfurous Thermal water (STW) inhalations can improve the cardiopulmonary response to physical exertion measured as SpO2, Heart rate, Borg score and traversed meters in patients affected by long COVID
To assess the cardiopulmonary response to physical exertion prior inhalations therapy with the six minutes walking test (6MWT)
Time frame: Day 1
To determine whether Sulfurous Thermal water (STW) inhalations can improve the cardiopulmonary response to physical exertion measured as SpO2, Heart rate, Borg score and traversed meters in patients affected by long COVID
To assess the cardiopulmonary response involved during physical exertion at 14 days since inhalations start with the six minutes walking test (6MWT)
Time frame: Day 14
To determine whether Sulfurous Thermal water (STW) inhalations can improve the cardiopulmonary response to physical exertion measured as SpO2, Heart rate, Borg score and traversed meters in patients affected by long COVID
To assess the cardiopulmonary response to physical exertion at 90 days since inhalations start with the six minutes walking test (6MWT)
Time frame: Day 90
To assess if H2S present in STW can interfere with concentration of inflammatory markers ( as IL1B, IL-6, ACE, S100B, GSS, Hs-CRP) typically alterated in long covid patients.
To assess serum inflammatory responses prior inhalations treatment by determining IL-6, IL-1β, S100B, GSS, ACE serum concentration
Time frame: Day 1
To assess if H2S present in STW can interfere with concentration of inflammatory markers ( as IL1B, IL-6, ACE, S100B, GSS, Hs-CRP) typically alterated in long covid patients.
To assess serum inflammatory responses at 14 days since inhalations treatment start by determining IL-6, IL-1β, S100B, GSS, ACE serum concentration
Time frame: Day 14
To assess if H2S present in STW can interfere with concentration of inflammatory markers ( as IL1B, IL-6, ACE, S100B, GSS, Hs-CRP) typically alterated in long covid patients.
To assess serum inflammatory responses at 90 days since inhalations treatment start by determining IL-6, IL-1β, S100B, GSS, ACE serum concentration
Time frame: Day 90
to assess whether thermal water inhalation with sulfurous water may determine qualitative and quantitative changes of the nasal microbiome by assessing alpha and beta diversity after nasal sample collection
Collection with swabs and 16SrDNA analysis of the nasopharyngeal secretions prior inhalations treatment.
Time frame: Day 1
to assess whether thermal water inhalation with sulfurous water may determine qualitative and quantitative changes of the nasal microbiome by assessing alpha and beta diversity after nasal sample collection
Collection with swabs and 16S rDNA analysis of the nasopharyngeal secretions at 14 days since inhalations treatment start
Time frame: Day 14
to assess whether thermal water inhalation with sulfurous water may determine qualitative and quantitative changes of the nasal microbiome by assessing alpha and beta diversity after nasal sample collection
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Collection with swabs and 16S rDNA analysis of the nasopharyngeal secretions at 90 days since inhalations treatment start
Time frame: Day 90