[ad_1]
O’Mahoney LL, Routen A, Gillies C, Ekezie W, Welford A, Zhang A, et al. The prevalence and long-term well being results of lengthy covid amongst hospitalised and non-hospitalised populations: a scientific assessment and meta-analysis. EClinicalMedicine. 2023;55:101762.
Wahlgren C, Forsberg G, Divanoglou A, Ostholm Balkhed A, Niward Ok, Berg S, et al. Two-year follow-up of sufferers with post-COVID-19 situation in Sweden: a potential cohort examine. Lancet Reg Well being Eur. 2023;28:100595.
Puta C, Haunhorst S, Bloch W. Put up-akutes COVID-19 (long-COVID): Andauernde Symptome, mögliche ursachen und symptomgeleitetes post-akut COVID-19 administration zur Wiedererlangung Der körperlichen Leistungsfähigkeit (Scoping Assessment). Sports activities Orthop Traumatol. 2021;37(3):214–25.
Bahmer T, Borzikowsky C, Lieb W, Horn A, Krist L, Fricke J, et al. Severity, predictors and scientific correlates of Put up-COVID syndrome (PCS) in Germany: a potential, multi-centre, population-based cohort examine. EClinicalMedicine. 2022;51:101549.
Koczulla AR, Ankermann T, Behrends U, Berlit P, Böing S, Brinkmann F et al. S1-Leitlinie „Put up-COVID/Lengthy-COVID 2022 [https://register.awmf.org/assets/guidelines/020-027l_S1_Post_COVID_Long_COVID_2022-08.pdf].
Sivan M, Taylor S. NICE guideline on lengthy covid. BMJ. 2020;371.
RKI, Lengthy. COVID 2023 [https://www.rki.de/SharedDocs/FAQ/NCOV2019/FAQ_Liste_Gesundheitliche_Langzeitfolgen.html].
Thompson EJ, Williams DM, Walker AJ, Mitchell RE, Niedzwiedz CL, Yang TC, et al. Lengthy COVID burden and danger elements in 10 UK longitudinal research and digital well being data. Nat Commun. 2022;13(1):3528.
Peter RS, Nieters A, Kräusslich HG, Brockmann SO, Göpel S, Kindle G, et al. Put up-acute sequelae of covid-19 six to 12 months after an infection: inhabitants primarily based examine. BMJ. 2022;379:e071050.
Wulf Hanson S, Abbafati C, Aerts JG, A-A Z, Ashbaugh C, Ballouz T, et al. Estimated world proportions of people with persistent fatigue, cognitive, and respiratory symptom clusters following symptomatic COVID-19 in 2020 and 2021. JAMA. 2022;328(16):1604–15.
Fernandez-de-Las-Penas C, Martin-Guerrero JD, Florencio LL, Navarro-Pardo E, Rodriguez-Jimenez J, Torres-Macho J, et al. Clustering evaluation reveals completely different profiles associating long-term post-COVID signs, COVID-19 signs at hospital admission and former medical co-morbidities in beforehand hospitalized COVID-19 survivors. An infection. 2023;51(1):61–9.
Morioka S, Tsuzuki S, Maruki T, Terada M, Miyazato Y, Kutsuna S, et al. Epidemiology of post-COVID situations past 1 yr: a cross-sectional examine. Public Well being. 2023;216:39–44.
Caputo EL, Reichert FF. Research of bodily exercise and COVID-19 in the course of the pandemic: a scoping assessment. J Phys Act Helath. 2020;17(12):1275–84.
Park AH, Zhong S, Yang H, Jeong J, Lee C. Impression of COVID-19 on bodily exercise: a fast assessment. J Glob Well being. 2022;12.
Taheri M, Irandoust Ok, Reynoso-Sanchez LF, Munoz-Helu H, Cruz-Morales KN, Torres-Ramirez R, et al. Results of dwelling confinement on bodily exercise, diet, and sleep high quality in the course of the COVID-19 outbreak in newbie and elite athletes. Entrance Nutr. 2023;10:1143340.
Younger P. Sleep issues and fatigue syndrome in lengthy COVID syndrome: case-based experiences from neurological/sleep drugs rehabilitation. Somnologie (Berl). 2022;26(2):73–9.
Gil S, Gualano B, de Araujo AL, de Oliveira Junior GN, Damiano RF, Pinna F, et al. Put up-acute sequelae of SARS-CoV-2 associates with bodily inactivity in a cohort of COVID-19 survivors. Sci Rep. 2023;13(1):215.
Galluzzo V, Zazzara MB, Ciciarello F, Tosato M, Martone AM, Pais C et al. Insufficient bodily exercise is Related to worse bodily operate in a pattern of COVID-19 survivors with post-acute signs. J Clin Med. 2023;12(7).
Güneş M, Yana M, Güçlü MB. Bodily exercise ranges respiratory and peripheral muscle energy and pulmonary operate in younger post-COVID-19 sufferers. Wien Klin Wochenschr. 2023;135(9–10):251–9.
Rowlands AV, Kloecker DE, Chudasama Y, Davies MJ, Dawkins NP, Edwardson CL et al. Affiliation of Timing and Steadiness of Bodily Exercise and Relaxation/Sleep With Danger of COVID-19: A UK Biobank Research. Mayo Clin Proc. 2021;96(1):156 – 64.
Sallis R, Younger DR, Tartof SY, Sallis JF, Sall J, Li Q, et al. Bodily inactivity is related to the next danger for extreme COVID-19 outcomes: a examine in 48 440 grownup sufferers. Br J Sports activities Med. 2021;55(19):1099–105.
Delbressine JM, Machado FVC, Goërtz YMJ, Van Herck M, Meys R, Houben-Wilke S, et al. The affect of Put up-COVID-19 syndrome on self-reported bodily exercise. Int J Environ Res Public Well being. 2021;18(11):6017.
Hagstromer M, Ainsworth BE, Oja P, Sjostrom M. Comparability of a subjective and an goal measure of bodily exercise in a Inhabitants Pattern. J Phys Act Helath. 2010;7(4):541–50.
Dyrstad SM, Hansen BH, Holme IM, Anderssen SA. Comparability of self-reported versus accelerometer-measured bodily exercise. Med Sci Sports activities Exerc. 2014;46(1):99–106.
Fernandez-de-Las-Penas C, Cancela-Cilleruelo I, Rodriguez-Jimenez J, Arias-Navalon JA, Martin-Guerrero JD, Pellicer-Valero OJ, et al. Trajectory of post-COVID mind fog, reminiscence loss, and focus loss in beforehand hospitalized COVID-19 survivors: the LONG-COVID-EXP multicenter examine. Entrance Hum Neurosci. 2023;17:1259660.
Strath SJ, Kaminsky LA, Ainsworth BE, Ekelund U, Freedson PS, Gary RA, et al. Information to the evaluation of bodily exercise: scientific and analysis purposes: a scientific assertion from the American Coronary heart Affiliation. Circulation. 2013;128(20):2259–79.
Müller C, Winter C, Rosenbaum D. Aktuelle objektive Messverfahren Zur Erfassung körperlicher aktivität Im Vergleich zu Subjektiven Erhebungsmethoden. Dtsch Z Sportmed. 2010;61(1).
Benitez ID, Moncusi-Moix A, Vaca R, Gort-Paniello C, Minguez O, Santisteve S, et al. Sleep and Circadian Well being of vital COVID-19 survivors 3 months after Hospital Discharge. Crit Care Med. 2022;50(6):945–54.
Rütten A, Pfeifer Ok. Nationale Empfehlungen für Bewegung Und Bewegungsförderung. Köln: Bundeszentrale für gesundheitliche Aufklärung; 2016.
Plekhanova T, Rowlands AV, Evans RA, Edwardson CL, Bishop NC, Bolton CE et al. Gadget-assessed sleep and bodily exercise in people recovering from a hospital admission for COVID-19: a multicentre examine. Int J Behav Nutr Phys Act. 2022;19(1).
van Bakel BMA, van den Heuvel FMA, Vos JL, Rotbi H, Bakker EA, Nijveldt R et al. Excessive ranges of sedentary time in sufferers with COVID-19 after hospitalisation. J Clin Med. 2022;11(4).
Miko HC, Zillmann N, Ring-Dimitriou S, Dorner TE, Titze S, Bauer R. Auswirkungen Von Bewegung auf die Gesundheit. Gesundheitswesen. 2020;82(S 03):S184–95.
Oronsky B, Larson C, Hammond TC, Oronsky A, Kesari S, Lybeck M, et al. A assessment of persistent Put up-COVID syndrome (PPCS). Clin Rev Allergy Immunol. 2023;64(1):66–74.
Schellnegger M, Lin AC, Hammer N, Kamolz LP. Bodily exercise on telomere size as a biomarker for ageing: a scientific assessment. Sports activities Med Open. 2022;8(1):111.
Suzuki Ok. Continual irritation as an immunological abnormality and effectiveness of Train. Biomolecules. 2019;9(6).
Fernandez-Lazaro D, Gonzalez-Bernal JJ, Sanchez-Serrano N, Navascues LJ, Ascaso-Del-Rio A, Mielgo-Ayuso J. Bodily Train as a Multimodal Instrument for COVID-19: may it’s used as a preventive technique? Int J Environ Res Public Well being. 2020;17(22).
Coscia F, Mancinelli R, Gigliotti PV, Checcaglini F, Fano-Illic G. Bodily Exercise results on muscle fatigue in Sport in lively adults with lengthy COVID-19: an observational examine. Diagnostics (Basel). 2023;13(7).
Müller Ok, Poppele I, Ottiger M, Zwingmann Ok, Berger I, Thomas A et al. Impression of Rehabilitation on Bodily and Neuropsychological Well being of sufferers who Acquired COVID-19 within the Office. Int J Environ Res Public Well being. 2023;20(2).
Nopp S, Moik F, Klok FA, Gattinger D, Petrovic M, Vonbank Ok, et al. Outpatient Pulmonary Rehabilitation in sufferers with lengthy COVID improves Train Capability, Practical Standing, Dyspnea, fatigue, and High quality of Life. Respiration. 2022;101(6):593–601.
Bailly M, Pelissier L, Coudeyre E, Evrard B, Bingula R, Rochette C et al. Systematic assessment of COVID-19-Associated bodily activity-based rehabilitations: advantages to be confirmed by extra strong methodological approaches. Int J Environ Res Public Well being. 2022;19(15).
Ahmed I, Mustafaoglu R, Yeldan I, Yasaci Z, Erhan B. Impact of Pulmonary Rehabilitation approaches on Dyspnea, Train Capability, fatigue, lung capabilities, and high quality of life in sufferers with COVID-19: a scientific assessment and Meta-analysis. Arch Phys Med Rehabil. 2022;103(10):2051–62.
Spruit MA, Pitta F, McAuley E, ZuWallack RL, Nici L. Pulmonary Rehabilitation and bodily exercise in sufferers with continual obstructive Pulmonary Illness. Am J Respir Crit Care Med. 2015;192(8):924–33.
Blondeel A, Demeyer H, Janssens W, Troosters T. The position of bodily exercise within the context of pulmonary rehabilitation. COPD. 2018;15(6):632–9.
Carl JA, Geidl W, Schuler M, Mino E, Lehbert N, Wittmann M, et al. In the direction of a greater understanding of bodily exercise in folks with COPD: predicting bodily exercise after pulmonary rehabilitation utilizing an integrative competence mannequin. Chron Respir Dis. 2021;18:147997312199478.
Ciriminna S, Veronese N, Cannizzo C, D’Aleo A, Ganci A, Montana Lampo SE et al. Effectiveness of bodily exercise interventions in sedentary folks throughout COVID-19 lockdown: a scientific assessment of Randomized managed trials. Sustainability. 2024;16(3).
Jahrami HA, Alhaj OA, Humood AM, Alenezi AF, Fekih-Romdhane F, AlRasheed MM, et al. Sleep disturbances in the course of the COVID-19 pandemic: a scientific assessment, meta-analysis, and meta-regression. Sleep Med Rev. 2022;62:101591.
Fernandez-de-Las-Penas C, Torres-Macho J, Elvira-Martinez CM, Molina-Trigueros LJ, Sebastian-Viana T, Hernandez-Barrera V. Weight problems is related to a better variety of long-term post-COVID signs and poor sleep high quality: a multicentre case-control examine. Int J Clin Pract. 2021;75(12):e14917.
Shaik L, Boike S, Ramar Ok, Subramanian S, Surani S. COVID-19 and Sleep disturbances: a literature assessment of scientific proof. Med (Kaunas). 2023;59(5).
Huang C, Huang L, Wang Y, Li X, Ren L, Gu X, et al. 6-month penalties of COVID-19 in sufferers discharged from hospital: a cohort examine. Lancet. 2021;397(10270):220–32.
Buysse DJ, Reynolds CF, Monk TH, Berman SR, Kupfer DJ. The Pittsburgh sleep high quality index: a brand new instrument for psychiatric apply and analysis. Psychiatry Res. 1989;28(2):193–213.
Bastien CH, Vallières A, Morin CM. Validation of the Insomnia Severity Index as an consequence measure for insomnia analysis. Sleep Med. 2001;2(4):297–307.
Van der Sluijs Ok, Bakker EA, Schuijt TJ, Joseph J, Kavousi M, Geersing G, et al. Lengthy-term cardiovascular well being standing and bodily functioning of non‐hospitalized COVID‐19 sufferers in comparison with non‐COVID‐19 controls. Am J Physiol. 2022;324(1):H47–56.
Jarosch I, Schneeberger T, Stegemann A, Leitl D, Gloeckl R, Swan V, et al. Is sleep impaired in post-COVID syndrome vs. wholesome controls? Preliminary knowledge. ERS J. 2022;60(suppl 66):768.
Besedovsky L, Lange T, Haack M. The Sleep-Immune Crosstalk in Well being and Illness. Physiol Rev. 2019;99(3):1325–80.
Richter Ok, Kellner S, Hillemacher T, Golubnitschaja O. Sleep high quality and COVID-19 outcomes: the evidence-based classes within the framework of predictive, preventive and personalised (3P) drugs. EPMA J. 2021;12(2):221–41.
Irwin M, McClintick J, Costlow C, Fortner M, White J, Gillin JC. Partial night time sleep deprivation reduces pure killer and mobile immune responses in people. FASEB J. 1996;10(5):643–53.
Zhang J, Xu D, Xie B, Zhang Y, Huang H, Liu H, et al. Poor-sleep is related to gradual restoration from Lymphopenia and an elevated want for ICU care in hospitalized sufferers with COVID-19: a retrospective cohort examine. Mind Behav Immun. 2020;88:50–8.
Aldabayan YS, Alqahtani JS, Al Rajeh AM, Abdelhafez AI, Siraj RA, Thirunavukkarasu V et al. Prevalence and predictors of Sleep disturbance, anxiousness and melancholy amongst sufferers with continual respiratory illnesses. Int J Environ Res Public Well being. 2022;19(19).
Baglioni C, Nanovska S, Regen W, Spiegelhalder Ok, Feige B, Nissen C, et al. Sleep and psychological issues: a meta-analysis of polysomnographic analysis. Psychol Bull. 2016;142(9):969–90.
UKL Erlangen. Schlafprobleme – ein Ratgeber für Betroffene und Angehörige. 2020.
Hombali A, Seow E, Yuan Q, Chang SHS, Satghare P, Kumar S, et al. Prevalence and correlates of sleep problem signs in psychiatric issues. Psychiatry Res. 2019;279:116–22.
Renz-Polster H, Scheibenbogen C. Wenn COVID Nicht aufhört: Put up-COVID-Verläufe mit fatigue und Belastungsintoleranz. Dtsch Med Wochenschr. 2022.
Doni Ok, Dreck Ok, Grümer S, Fechtelpeter D, Fleer D, Kamphuis A. Aktueller Kenntnisstand. Myalgische Enzephalomyelitis / Continual Fatigue Syndrome (ME/CFS); 2023.
Dokkedal-Silva V, Morelhao PK, Moreira GA, Tufik S, Andersen ML. The following step: how sleep and bodily exercise can act collectively within the post-COVID-19 state of affairs. Sleep Breath. 2023;27(2):689–90.
Liu Y, Yang YQ, Liu Y, Pei SL, Yang HH, Wu JJ, et al. Results of group psychological intervention mixed with pulmonary rehabilitation workout routines on anxiousness and sleep issues in sufferers with delicate coronavirus illness 2019 (COVID-19) infections in a Fangcang hospital. Psychol Well being Med. 2022;27(2):333–42.
Müller Ok, Zwingmann Ok, Auerswald T, Berger I, Thomas A, Schultz AL, et al. Rehabilitation and Return-to-work of sufferers buying COVID-19 within the office: a examine protocol for an Observational Cohort Research. Entrance Rehabil Sci. 2022;2:754468.
Migueles JH, Rowlands AV, Huber F, Sabia S, van Hees VT. GGIR: A Analysis Neighborhood–Pushed Open Supply R Bundle for Producing Bodily Exercise and Sleep outcomes from Multi-day Uncooked Accelerometer Information. J Meas Phys Behav. 2019;2(3):188–96.
Feldt T, Jensen B, Guggemos W, Kellner N, Kobbe R, Koch T et al. Hinweise zu Erkennung, Diagnostik und Therapie von Patienten mit COVID-19 RKI: STAKOB; 2023 [ https://www.rki.de/DE/Content/Kommissionen/Stakob/Stellungnahmen/Stellungnahme-Covid-19_Therapie_Diagnose.pdf?__blob=publicationFile].
Lampert T, Kroll L, Müters S, Stolzenberg H. Messung Des sozioökonomischen Standing in Der Studie Zur Gesundheit Erwachsener in Deutschland (DEGS1). Bundesgesundheitsblatt-Gesundheitsforschung-Gesundheitsschutz. 2013;56(5–6):631–6.
Scheidt-Nave C, Kamtsiuris P, Gößwald A, Hölling H, Lange M, Busch MA, et al. German well being interview and examination survey for adults (DEGS)-design, aims and implementation of the primary knowledge assortment wave. BMC Public Well being. 2012;12(1):1–16.
Ilmarinen J. The work means index (WAI). Occ Med. 2006;57(2):160.
Mora-Gonzalez J, Gould ZR, Moore CC, Aguiar EJ, Ducharme SW, Schuna JM Jr., et al. A catalog of validity indices for step counting wearable applied sciences throughout treadmill strolling: the CADENCE-adults examine. Int J Behav Nutr Phys Act. 2022;19(1):117.
van Hees VT, Gorzelniak L, Dean León EC, Eder M, Pias M, Taherian S, et al. Separating Motion and gravity elements in an acceleration Sign and implications for the Evaluation of Human Every day Bodily Exercise. PLoS ONE. 2013;8(4):e61691.
van Hees VT, Sabia S, Anderson KN, Denton SJ, Oliver J, Catt M, et al. A Novel, Open Entry Technique to Assess Sleep Length utilizing a wrist-worn accelerometer. PLoS ONE. 2015;10(11):e0142533.
Burchartz A, Anedda B, Auerswald T, Giurgiu M, Hill H, Ketelhut S et al. Assessing bodily habits via accelerometry – state of the science, finest practices and future instructions. Psychol Sport Exerc. 2020;49.
van Hees VT, Fang Z, Langford J, Assah F, Mohammad A, Silva ICMd, et al. Autocalibration of accelerometer knowledge for free-living bodily exercise evaluation utilizing native gravity and temperature: an analysis on 4 continents. J Appl Physiol. 2014;117(7):738–44.
Hildebrand M, Van Hees VT, Hansen BH, Ekelund U. Age Group comparability of uncooked accelerometer output from wrist- and hip-worn screens. Med Sci Sports activities Exerc. 2014;46(9):1816–24.
Cole RJ, Kripke DF, Gruen W, Mullaney DJ, Gillin JC. Computerized Sleep/Wake identification from wrist exercise. Sleep. 1992;15(5):461–9.
Phillips AJK, Clerx WM, O’Brien CS, Sano A, Barger LK, Picard RW et al. Irregular sleep/wake patterns are related to poorer educational efficiency and delayed circadian and sleep/wake timing. Sci Rep. 2017;7(1).
Techniker Krankenkasse. Schlaf intestine, Deutschland. 2017.
Riemann D, Baum E, Cohrs S, Crönlein T, Sitter H, Weeß H-G et al. S3-Leitlinie Nicht erholsamer Schlaf/Schlafstörungen. AWMF on-line. 2018.
DGSM. Der Schlaf von Frauen. 2021.
Ohayon M, Wickwire EM, Hirshkowitz M, Albert SM, Avidan A, Daly FJ, et al. Nationwide Sleep Basis’s sleep high quality suggestions: first report. Sleep Well being. 2017;3(1):6–19.
Fritz CO, Morris PE, Richler JJ. Impact dimension estimates: present use, calculations, and interpretation. J Exp Psychol. 2012;141(1):2.
Dohrn IM, Sjostrom M, Kwak L, Oja P, Hagstromer M. Accelerometer-measured sedentary time and bodily activity-A 15 yr follow-up of mortality in a Swedish population-based cohort. J Sci Med Sport. 2018;21(7):702–7.
Loyen A, Clarke-Cornwell AM, Anderssen SA, Hagstromer M, Sardinha LB, Sundquist Ok, et al. Sedentary time and bodily exercise Surveillance via Accelerometer Pooling in 4 European nations. Sports activities Med. 2017;47(7):1421–35.
Schneider LP, Furlanetto KC, Rodrigues A, Lopes JR, Hernandes NA, Pitta F. Sedentary Behaviour and Bodily Inactivity in sufferers with Continual Obstructive Pulmonary Illness: two sides of the identical Coin? COPD. 2018;15(5):432–8.
Barker J, Smith Byrne Ok, Doherty A, Foster C, Rahimi Ok, Ramakrishnan R, et al. Bodily exercise of UK adults with continual illness: cross-sectional evaluation of accelerometer-measured bodily exercise in 96 706 UK Biobank individuals. Int J Epidemiol. 2019;48(4):1167–74.
Damiot A, Pinto AJ, Turner JE, Gualano B. Immunological implications of bodily inactivity amongst older adults in the course of the COVID-19 pandemic. Gerontology. 2020;66(5):431–8.
Ekelund U, Steene-Johannessen J, Brown WJ, Fagerland MW, Owen N, Powell KE, et al. Does bodily exercise attenuate, and even remove, the detrimental affiliation of sitting time with mortality? A harmonised meta-analysis of information from greater than 1 million women and men. Lancet. 2016;388(10051):1302–10.
Akins JD, Crawford CK, Burton HM, Wolfe AS, Vardarli E, Coyle EF. Inactivity induces resistance to the metabolic advantages following acute train. J Appl Physiol. 2019;126(4):1088–94.
Buffey AJ, Herring MP, Langley CK, Donnelly AE, Carson BP. The Acute results of interrupting extended sitting time in adults with Standing and Gentle-Depth Strolling on Biomarkers of Cardiometabolic Well being in adults: a scientific assessment and Meta-analysis. Sports activities Med. 2022;52(8):1765–87.
Chastin SF, Egerton T, Leask C, Stamatakis E. Meta-analysis of the connection between breaks in sedentary habits and cardiometabolic well being. Obes (Silver Spring). 2015;23(9):1800–10.
Schwarzer R. Modeling Well being Habits Change: predict and modify the Adoption and Upkeep of Well being Behaviors. Appl Psychol. 2008;57(1):1–29.
Prochaska JO, Redding CA, Evers KE. The transtheoretical mannequin and phases of change. In: Glanz Ok, Rimer BK, Viswanath Ok, editors. Well being habits concept, analysis and apply. San Francisco: Jossey-Bass.; 2015. pp. 125–48.
Sudeck G, Rosenstiel S, Carl J, Pfeifer Ok. Bewegungsbezogene Gesundheitskompetenz – Konzeption und Anwendung in Gesundheitsförderung, Prävention Und Rehabilitation. Gesundheitskompetenz: Springer Berlin Heidelberg; 2022. pp. 1–12.
Geidl W. Bewegungsförderung bei Menschen mit nichtübertragbaren Erkrankungen [Dissertation]. Erlangen: Friedrich-Alexander-Universität Erlangen-Nürnberg; 2022.
Watson KB, Carlson SA, Gunn JP, Galuska DA, O’Connor A, Greenlund KJ, et al. Bodily inactivity amongst adults aged 50 years and older—United States, 2014. Morb Mortal Wkly Rep. 2016;65(36):954–8.
Sievi NA, Senn O, Brack T, Brutsche MH, Frey M, Irani S, et al. Impression of comorbidities on bodily exercise in COPD. Respirology. 2015;20(3):413–8.
Mantoani LC, Dell’Period S, MacNee W, Rabinovich RA. Bodily exercise in sufferers with COPD: the affect of comorbidities. Professional Rev Respir Med. 2017;11(9):685–98.
Henriquez-Beltran M, Labarca G, Cigarroa I, Enos D, Lastra J, Nova-Lamperti E, et al. Sleep well being and the circadian rest-activity sample 4 months after COVID-19. J Bras Pneumol. 2022;48(3):e20210398.
Targa ADS, Benitez ID, Gonzalez J, Torres G, Santisteve S, Vaca R, et al. Sleep and circadian well being 6 months after vital COVID-19 illness. Respirology. 2022;27(12):1083–8.
Mekhael M, Lim CH, El Hajjar AH, Noujaim C, Pottle C, Makan N, et al. Finding out the Impact of Lengthy COVID-19 an infection on Sleep High quality utilizing Wearable Well being gadgets: Observational Research. J Med Web Res. 2022;24(7):e38000.
Caught BA, Maurer JT, Schredl M, Weeß. H-G. Praxis Der Schlafmedizin. Heidelberg: Springer Medizin; 2009.
Shallcross AJ, Visvanathan PD, Sperber SH, Duberstein ZT. Waking as much as the issue of sleep: can mindfulness assist? A assessment of concept and proof for the consequences of mindfulness for sleep. Curr Opin Psychol. 2019;28:37–41.
Mairs L, Mullan B. Self-monitoring vs. implementation intentions: a comparability of Behaviour Change strategies to enhance Sleep Hygiene and Sleep outcomes in college students. Int J Behav Med. 2015;22(5):635–44.
Ahmadi Hekmatikar AH, Ferreira Junior JB, Shahrbanian S, Suzuki Ok. Practical and psychological modifications after Train Coaching in Put up-COVID-19 sufferers discharged from the hospital: a PRISMA-Compliant systematic assessment. Int J Environ Res Public Well being. 2022;19(4).
Mong JA, Cusmano DM. Intercourse variations in sleep: affect of organic intercourse and intercourse steroids. Philos Trans R Soc Lond B Biol Sci. 2016;371(1688):20150110.
DGSM. Schlaf im Alter. 2021.
Hayden MC, Limbach M, Schuler M, Merkl S, Schwarzl G, Jakab Ok, et al. Effectiveness of a three-week Inpatient Pulmonary Rehabilitation Program for sufferers after COVID-19: a potential observational examine. Int J Environ Res Public Well being. 2021;18(17):9001.
[ad_2]
Supply hyperlink