- ICH GCP
- US Clinical Trials Registry
- Klinisk utprøving NCT04344561
Incline Positioning in COVID-19 Patients for Improvement in Oxygen Saturation (UPSAT)
UPright Incline Positioning in COVID-19 Patients for Oxygen SATuration Improvement With Hypoxemic Respiratory Failure (UPSAT)
COVID-19 is a respiratory illness caused by SARS-CoV-2 with a range of symptoms from mild, self-limiting respiratory tract infections to severe progressive pneumonia, multiorgan dysfunction and death. A portion of individuals with COVID-19 experience life-threatening hypoxia requiring supplemental oxygen and mechanical ventilation. Management of hypoxia in this population is complicated by contraindication of non-invasive ventilation and limitations in access to mechanical ventilation and critical care staff given the clinical burden of disease. Positional therapy is readily deployable and may ultimately be used to treat COVID-19 related respiratory failure in resources limited settings; and, it has been demonstrated to improve oxygenation and is easy to implement in the clinical setting.
The overall goal of this randomized controlled trial is to establish the feasibility of performing a randomized trial using a simple, minimally invasive positional therapy approach to improve hypoxia and reduce progression to mechanical ventilation. The objectives are to examine the effectiveness and feasibility of maintaining an inclined position in patients with confirmed or suspected COVID-19 associated hypoxemic respiratory failure. The investigators hypothesize that (1) oxyhemoglobin saturation will improve with therapy, (2) participants will tolerate and adhere to the intervention, and that (3) participants who adhere to positional therapy will have reduced rates of mechanical ventilation at 72 hours. If successful, this feasibility trial will demonstrate that a simple, readily deployed nocturnal postural maneuver is well tolerated and reverses underlying defects in ventilation and oxygenation due to COVID-19. It will also inform the design of a pivotal Phase III trial with estimates of sample sizes for clinically relevant outcomes.
Studieoversikt
Status
Forhold
Intervensjon / Behandling
Detaljert beskrivelse
Study Design: The investigators will conduct a pilot study to examine the acute effects of inclined posture on oxyhemoglobin saturation and the feasibility of conducting randomized controlled clinical trial among patients with confirmed or suspected COVID-19-associated hypoxia.
In a subgroup of participants, the investigators will examine the acute effect of postural therapy (15-degree incline on hospital beds) on oxyhemoglobin saturation among hypoxic patients to establish a biologic response. The investigators will enroll a subset of participants (n=16) who will lie supine on hospital beds, which will be placed in the horizontal (flat) or 15-degree inclined (reverse Trendelenberg) orientation in random order. During this time, the investigators will continuous record pulse oximetry, pulse rate and variations in peripheral arterial tone with WatchPAT one devices. Subjects will be visually monitored for work of breathing during this time. If work of breathing becomes excessive, as defined as a sustain respiratory rate of >25 and an increase of >5 breaths per minute from baseline, or oxygenation decreases below 88% for > 30 seconds in the inclined position, then maneuvers will be stopped. If the patient meets these criteria in the flat position, then the investigators sit the patient upright, and allow breathing to return to baseline before examining responses in the inclined position.
The investigators will randomize participants to have beds placed in 15-degree incline or usual care (ad-lib positioning) for 72 hours. During the first night in a subgroup of participants, the investigators will record oxygenation, sleep wake state and markers of sympathetic activity with WatchPAT One devices, which can obtain cardiopulmonary parameters with high temporal resolution. The investigators will obtain vital signs from the data warehouse, which archives telemetry data with a maximum sampling frequency of 1 minute. The investigators will record adherence with continuous accelerometry sensors placed on the bed rails and on the anterolateral surface of participants' chests to measure bed and participants' positions, respectively. Aside from position, participants will receive usual treatment for COVID-19.
The investigators will enroll in 3 phases. At the end of each phase, the investigators will assess for completion of milestones for proceeding to the subsequent phase, as detailed below:
- Pilot Study: The investigators will pilot the study in 16 participants to obtain critical information on logistics of conducting the trial including performance of recording instruments in a biocontainment environment, to examine the feasibility of the intervention, perform preliminary safety evaluations to ascertain potential harm and to determine whether the intervention results in a meaningful difference in body position.
- Phase II RCT: If inclined therapy results in a difference in body position and no significant safety issues were detected, the investigators will conduct a phase II randomized-controlled trial (RCT) in 70 participants (see sample size calculation below) to estimate the effect size of inclined position on rates of intubation and determine sample size for a Phase III trial.
Randomization will be occur in both phases and will be stratified by study phase and study site.
Studietype
Registrering (Faktiske)
Fase
- Ikke aktuelt
Kontakter og plasseringer
Studiesteder
-
-
Maryland
-
Baltimore, Maryland, Forente stater, 21287
- Johns Hopkins Hospital
-
Baltimore, Maryland, Forente stater, 21224
- Johns Hopkins Bayview Hospital
-
-
Deltakelseskriterier
Kvalifikasjonskriterier
Alder som er kvalifisert for studier
Tar imot friske frivillige
Kjønn som er kvalifisert for studier
Beskrivelse
Inclusion Criteria:
- COVID-19 positive
- Pneumonia defined as hospitalization for acute (< 7 days) onset of symptoms (cough, sputum production, or dyspnea).
- Hypoxemia defined as ≥ 2 L/min oxygen
Exclusion Criteria:
- Intubation
- Inability to lie supine
Studieplan
Hvordan er studiet utformet?
Designdetaljer
- Primært formål: Behandling
- Tildeling: Randomisert
- Intervensjonsmodell: Parallell tildeling
- Masking: Ingen (Open Label)
Våpen og intervensjoner
Deltakergruppe / Arm |
Intervensjon / Behandling |
---|---|
Eksperimentell: Postural Positioning
Participants in the group will have hospital beds placed in 15 degree (reverse Trendelenburg).
|
Investigators will adjust the positioning of hospital beds to assess improvements in oxygenation and respiratory status.
|
Ingen inngripen: Standard Care
Participants in this group will have beds managed per standard nursing protocol.
|
Hva måler studien?
Primære resultatmål
Resultatmål |
Tiltaksbeskrivelse |
Tidsramme |
---|---|---|
Incidence of Mechanical Ventilation
Tidsramme: 72 hours
|
Number of participants needing mechanical ventilation over total number of participants per arm.
|
72 hours
|
Sekundære resultatmål
Resultatmål |
Tiltaksbeskrivelse |
Tidsramme |
---|---|---|
Number of participants with supplemental oxygen requirements
Tidsramme: 72 hours
|
Number of participants with supplemental oxygen requirements.
|
72 hours
|
Mean oxyhemoglobin saturation
Tidsramme: At 24, 48 and 72 hours
|
Mean oxyhemoglobin saturation (percentage) measured over a 24-hour period.
|
At 24, 48 and 72 hours
|
Mean Nocturnal Oxyhemoglobin Saturation
Tidsramme: Measured between 10pm and 6am daily, up to 72 hours
|
Mean oxyhemoglobin saturation (percentage) measured over an 8-hour period (between 10pm and 6am).
|
Measured between 10pm and 6am daily, up to 72 hours
|
Heart Rate
Tidsramme: At 10, 24, 48 and 72 hours
|
Heart Rate (beats per minute) on Routine Vital Sign Assessment.
|
At 10, 24, 48 and 72 hours
|
Respiratory Rate
Tidsramme: At 10, 24, 48 and 72 hours
|
Respiratory Rate (cycles per minute) on Routine Vital Sign Assessment.
|
At 10, 24, 48 and 72 hours
|
Percentage of time in the assigned position
Tidsramme: 72 hours
|
Percentage of time participants stay in the assigned position will be used to determine adherence.
|
72 hours
|
Andre resultatmål
Resultatmål |
Tiltaksbeskrivelse |
Tidsramme |
---|---|---|
Acute change in oxyhemoglobin saturation
Tidsramme: During the final 7 minutes at each position, up to 72 hours
|
Mean oxyhemoglobin saturation (percentage) during final 7 minutes in a position.
|
During the final 7 minutes at each position, up to 72 hours
|
Samarbeidspartnere og etterforskere
Sponsor
Etterforskere
- Hovedetterforsker: Luu Pham, MD, Johns Hopkins University
Publikasjoner og nyttige lenker
Generelle publikasjoner
- Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y, Zhang L, Fan G, Xu J, Gu X, Cheng Z, Yu T, Xia J, Wei Y, Wu W, Xie X, Yin W, Li H, Liu M, Xiao Y, Gao H, Guo L, Xie J, Wang G, Jiang R, Gao Z, Jin Q, Wang J, Cao B. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020 Feb 15;395(10223):497-506. doi: 10.1016/S0140-6736(20)30183-5. Epub 2020 Jan 24. Erratum In: Lancet. 2020 Jan 30;:
- Chen N, Zhou M, Dong X, Qu J, Gong F, Han Y, Qiu Y, Wang J, Liu Y, Wei Y, Xia J, Yu T, Zhang X, Zhang L. Epidemiological and clinical characteristics of 99 cases of 2019 novel coronavirus pneumonia in Wuhan, China: a descriptive study. Lancet. 2020 Feb 15;395(10223):507-513. doi: 10.1016/S0140-6736(20)30211-7. Epub 2020 Jan 30.
- Wang D, Hu B, Hu C, Zhu F, Liu X, Zhang J, Wang B, Xiang H, Cheng Z, Xiong Y, Zhao Y, Li Y, Wang X, Peng Z. Clinical Characteristics of 138 Hospitalized Patients With 2019 Novel Coronavirus-Infected Pneumonia in Wuhan, China. JAMA. 2020 Mar 17;323(11):1061-1069. doi: 10.1001/jama.2020.1585. Erratum In: JAMA. 2021 Mar 16;325(11):1113.
- Guan WJ, Ni ZY, Hu Y, Liang WH, Ou CQ, He JX, Liu L, Shan H, Lei CL, Hui DSC, Du B, Li LJ, Zeng G, Yuen KY, Chen RC, Tang CL, Wang T, Chen PY, Xiang J, Li SY, Wang JL, Liang ZJ, Peng YX, Wei L, Liu Y, Hu YH, Peng P, Wang JM, Liu JY, Chen Z, Li G, Zheng ZJ, Qiu SQ, Luo J, Ye CJ, Zhu SY, Zhong NS; China Medical Treatment Expert Group for Covid-19. Clinical Characteristics of Coronavirus Disease 2019 in China. N Engl J Med. 2020 Apr 30;382(18):1708-1720. doi: 10.1056/NEJMoa2002032. Epub 2020 Feb 28.
- Guerin C, Reignier J, Richard JC, Beuret P, Gacouin A, Boulain T, Mercier E, Badet M, Mercat A, Baudin O, Clavel M, Chatellier D, Jaber S, Rosselli S, Mancebo J, Sirodot M, Hilbert G, Bengler C, Richecoeur J, Gainnier M, Bayle F, Bourdin G, Leray V, Girard R, Baboi L, Ayzac L; PROSEVA Study Group. Prone positioning in severe acute respiratory distress syndrome. N Engl J Med. 2013 Jun 6;368(23):2159-68. doi: 10.1056/NEJMoa1214103. Epub 2013 May 20.
- Scholten EL, Beitler JR, Prisk GK, Malhotra A. Treatment of ARDS With Prone Positioning. Chest. 2017 Jan;151(1):215-224. doi: 10.1016/j.chest.2016.06.032. Epub 2016 Jul 8.
- Scaravilli V, Grasselli G, Castagna L, Zanella A, Isgro S, Lucchini A, Patroniti N, Bellani G, Pesenti A. Prone positioning improves oxygenation in spontaneously breathing nonintubated patients with hypoxemic acute respiratory failure: A retrospective study. J Crit Care. 2015 Dec;30(6):1390-4. doi: 10.1016/j.jcrc.2015.07.008. Epub 2015 Jul 16.
- Ikeda H, Ayuse T, Oi K. The effects of head and body positioning on upper airway collapsibility in normal subjects who received midazolam sedation. J Clin Anesth. 2006 May;18(3):185-93. doi: 10.1016/j.jclinane.2005.08.010.
- Penzel T, Moller M, Becker HF, Knaack L, Peter JH. Effect of sleep position and sleep stage on the collapsibility of the upper airways in patients with sleep apnea. Sleep. 2001 Feb 1;24(1):90-5. doi: 10.1093/sleep/24.1.90.
- Oksenberg A, Silverberg DS. The effect of body posture on sleep-related breathing disorders: facts and therapeutic implications. Sleep Med Rev. 1998 Aug;2(3):139-62. doi: 10.1016/s1087-0792(98)90018-1.
- Neill AM, Angus SM, Sajkov D, McEvoy RD. Effects of sleep posture on upper airway stability in patients with obstructive sleep apnea. Am J Respir Crit Care Med. 1997 Jan;155(1):199-204. doi: 10.1164/ajrccm.155.1.9001312.
- Oksenberg A, Khamaysi I, Silverberg DS, Tarasiuk A. Association of body position with severity of apneic events in patients with severe nonpositional obstructive sleep apnea. Chest. 2000 Oct;118(4):1018-24. doi: 10.1378/chest.118.4.1018.
- Hakala K, Maasilta P, Sovijarvi AR. Upright body position and weight loss improve respiratory mechanics and daytime oxygenation in obese patients with obstructive sleep apnoea. Clin Physiol. 2000 Jan;20(1):50-5. doi: 10.1046/j.1365-2281.2000.00223.x.
- Boudewyns A, Punjabi N, Van de Heyning PH, De Backer WA, O'Donnell CP, Schneider H, Smith PL, Schwartz AR. Abbreviated method for assessing upper airway function in obstructive sleep apnea. Chest. 2000 Oct;118(4):1031-41. doi: 10.1378/chest.118.4.1031.
- Meng L, Qiu H, Wan L, Ai Y, Xue Z, Guo Q, Deshpande R, Zhang L, Meng J, Tong C, Liu H, Xiong L. Intubation and Ventilation amid the COVID-19 Outbreak: Wuhan's Experience. Anesthesiology. 2020 Jun;132(6):1317-1332. doi: 10.1097/ALN.0000000000003296.
Studierekorddatoer
Studer hoveddatoer
Studiestart (Faktiske)
Primær fullføring (Faktiske)
Studiet fullført (Faktiske)
Datoer for studieregistrering
Først innsendt
Først innsendt som oppfylte QC-kriteriene
Først lagt ut (Faktiske)
Oppdateringer av studieposter
Sist oppdatering lagt ut (Faktiske)
Siste oppdatering sendt inn som oppfylte QC-kriteriene
Sist bekreftet
Mer informasjon
Begreper knyttet til denne studien
Ytterligere relevante MeSH-vilkår
Andre studie-ID-numre
- IRB00246834
Plan for individuelle deltakerdata (IPD)
Planlegger du å dele individuelle deltakerdata (IPD)?
IPD-planbeskrivelse
Legemiddel- og utstyrsinformasjon, studiedokumenter
Studerer et amerikansk FDA-regulert medikamentprodukt
Studerer et amerikansk FDA-regulert enhetsprodukt
Denne informasjonen ble hentet direkte fra nettstedet clinicaltrials.gov uten noen endringer. Hvis du har noen forespørsler om å endre, fjerne eller oppdatere studiedetaljene dine, vennligst kontakt register@clinicaltrials.gov. Så snart en endring er implementert på clinicaltrials.gov, vil denne også bli oppdatert automatisk på nettstedet vårt. .
Kliniske studier på COVID
-
European Institute of OncologyFondazione I.R.C.C.S. Istituto Neurologico Carlo Besta; Azienda Ospedaliera... og andre samarbeidspartnereFullført
-
Owlstone LtdCambridge University Hospitals NHS Foundation TrustFullført
-
Erasmus Medical CenterDa Vinci Clinic; HGC RijswijkHar ikke rekruttert ennåPost-COVID-19 syndrom | Lang COVID | Lang Covid19 | Tilstand etter covid-19 | Post-COVID syndrom | Tilstand etter COVID-19, uspesifisert | Tilstand etter COVIDNederland
-
University of Roma La SapienzaQueen Mary University of London; Università degli studi di Roma Foro Italico og andre samarbeidspartnereFullførtPostakutte følgetilstander av COVID-19 | Tilstand etter covid-19 | Langvarig COVID | Kronisk COVID-19 syndromItalia
-
Assiut UniversityRekruttering
-
Miami VA Healthcare SystemHar ikke rekruttert ennå
-
HCA International LimitedFullført
-
Indonesia UniversityRekrutteringPost-COVID-19 syndrom | Lang COVID | Tilstand etter covid-19 | Post-COVID syndrom | Lang COVID-19Indonesia
-
Sultan Qaboos UniversityFullførtCovid-19 | Ikke-CovidOman
-
Endourage, LLCRekrutteringLang COVID | Lang Covid19 | Post-akutt COVID-19 | Langdistanse COVID | Langdistanse COVID-19 | Postakutt covid-19 syndromForente stater
Kliniske studier på Postural Positioning
-
Hôpital de VerdunFullførtAlvorlig akutt luftveissyndrom | Koronavirusinfeksjon | Lungesykdommer | Respirasjonssvikt | Respiratorisk insuffisiens | COVID | Respiratorisk distress syndrom | ARDSCanada
-
Vanderbilt University Medical CenterNational Institute on Deafness and Other Communication Disorders (NIDCD)TilbaketrukketAkustisk nevromForente stater
-
Navotek Medical, Ltd.FullførtProstatakreftBelgia, Nederland
-
Kirsehir Ahi Evran UniversityFullført
-
Riphah International UniversityFullførtKronisk lungesykdomPakistan
-
Riphah International UniversityRekrutteringKronisk obstruktiv lungesykdomPakistan
-
University of Sao PauloFullført
-
Cairo UniversityFullført
-
Riphah International UniversityRekrutteringBekkenorganprolapsPakistan