| · Журналы
· Книги
· О проекте
·Электронные версии книг издательства “Атмосфера” поступили в продажу
Издательство “Атмосфера” идет в ногу со временем и открывает на своем сайте раздел электронных версий своих книг. Теперь вы можете приобрести не только традиционную бумажную книгу в картонном переплете, но и .pdf-файл, снабженный гиперссылками на каждую главу издания. В электронной версии проще отыскать рисунок и таблицу. Чтобы обратиться к ним, достаточно нажать на ссылку на каждый из них. Исчезла зависимость от тиража – вы можете приобрести даже те бестселлеры, тираж которых уже разошелся, такие как “Саркоидоз” или “Заболевания органов дыхания при беременности”. Упростилось получение вами книг – в течение двух рабочих дней после оплаты требуемые файлы придут на ваш e-mail. Ну и наконец, цена – электронные версии наших книг гораздо дешевле, чем бумажные издания.
Заказывайте электронные версии книг издательства “Атмосфера” на сайте, а также по телефону: (495) 730-63-51 и по e-mail: atm-press2012@yandex.ru
ИНТЕРНЕТ-МАГАЗИН
|
|
 | |
Практическая пульмонология (ранее – "Атмосфера. Пульмонология и аллергология"): ISSN 2409-756X (Online), ISSN 2409-6636 (Print)
2021 / N 2
Спорт, гормоны, иммунитет и COVID-19
Г.Л. Осипова, К.А. Зыков, В.В. Осипова, Е.А. Синицын, А.В. Рвачева, Е.А. Зарянова, А.В. Еременко
Список литературы
1. Vingren J, Kraemer WJ, Ratamess NA, Anderson JM, Volek JS, Maresh CM. Testosterone physiology in resistance exercise and training the up-stream regulatory elements. Sports Medicine (Auckland, N.Z.) 2010 Dec;40(12):1037-53.
2. Большая медицинская энциклопедия. Под ред. Петровского Б.В., 3-е изд. в 30-ти томах. Т. 25. М.: Советская энциклопедия; 1985: 46.
3. Keizer H, Janssen GM, Menheere P, Kranenburg G. Changes in basal plasma testosterone, cortisol, and dehydroepiandrosterone sulfate in previously untrained males and females preparing for a marathon. International Journal of Sports Medicine 1989 Oct;10(Suppl 3): S139-45.
4. Mazur A, Booth A. Testosterone and dominance in men. The Behavioral and Brain Sciences 1998 Jun;21(3):353-63; discussion 363-97.
5. Ефремов Е.А., Шеховцев С.Ю., Бутов А.О., Хизриев Х.З., Кастрикин Ю.В., Толстов И.С. Современный взгляд на физиологические эффекты тестостерона у мужчин. Экспериментальная и клиническая урология 2017;3:64-9.
6. Kaufman JM, Vermeulen A. The decline of androgen levels in elderly men and its clinical and therapeutic implications. Endocrine Reviews 2005 Oct;26(6):833-76.
7. Dabbs JM Jr. Salivary testosterone measurements: reliability across hours, days, and weeks. Physiology & Behavior 1990 Jul; 48(1):83-6.
8. Dabbs JM Jr, de La Rue D. Salivary testosterone measurements among women: relative magnitude of circadian and menstrual cycles. Hormone Research 1991;35(5):182-4.
9. Dabbs JM Jr. Age and seasonal variation in serum testosterone concentration among men. Chronobiology International 1990;7(3):245-9.
10. Stanton SJ. The essential implications of gender in human behavioral endocrinology studies. Frontiers in Behavioral Neuroscience 2011 Mar;5:9.
11. van Anders SM, Hampson E, Watson NV. Seasonality, waist-to-hip ratio, and salivary testosterone. Psychoneuroendocrinology 2006 Aug;31(7):895-9.
12. Carbajal-García A, Reyes-García J, Casas-Hernándeza MF, Flores-Soto E, Díaz-Hernández V, Solís-Chagoyán H, Sommer B, Montaño LM. Testosterone augments β2 adrenergic receptor genomic transcription increasing salbutamol relaxation in airway smooth muscle. Molecular and Cellular Endocrinology 2020 Jun;510:110801.
13. Hayashi T, Adachi Y, Hasegawa K, Morimoto M. Less sensitivity for late airway inflammation in males than females in BALB/c mice. Scandinavian Journal of Immunology 2003 Jun;57(6):562-7.
14. Takeda M, Tanabe M, Ito W, Ueki S, Konnno Y, Chihara M, Itoga M, Kobayashi Y, Moritoki Y, Kayaba H, Chihara J. Gender difference in allergic airway remodelling and immunoglobulin production in mouse model of asthma. Respirology 2013 Jun;18(5):797-806.
15. Fuseini H, Newcomb DC. Mechanisms driving gender differences in asthma. Current Allergy and Asthma Reports 2017;17:19.
16. Fuseini H, Yung JA, Cephus JY, Zhang J, Goleniewska K, Polosukhin VV, Peebles RS Jr, Newcomb DC. Testosterone decreases house dust mite-induced type 2 and IL-17A mediated airway inflammation. Journal of Immunology (Baltimore, Md.: 1950) 2018 Oct;201(7):1843-54.
17. Araujo AB, O’Donnell AB, Brambilla DJ, Simpson WB, Longcope С, Matsumoto AM, McKinlay JB. Prevalence and incidence of androgen deficiency in middle-aged and older men: estimates from the Massachusetts male aging study. The Journal of Clinical Endocrinology and Metabolism 2004 Dec;89(12):5920-6.
18. Schwenkhagen A. Hormonal changes in menopause and implications on sexual health. The Journal of Sexual Medicine 2007 Mar;4(Suppl 3):220-6.
19. Sellami M, Dhahbi W, Hayes LD, Kuvacic G, Milic M, Padulo J. The effect of acute and chronic exercise on steroid hormone fluctuations in young and middle-aged men. Steroids 2018 Apr;132:18-24.
20. Shores MM, Matsumoto AM, Sloan KL, Kivlahan DR. Low serum testosterone and mortality in male veterans. Archives of Internal Medicine 2006 Aug;166(15):1660-5.
21. Muller M, Grobbee DE, den Tonkelaar I, Lamberts SW, van der Schouw YT. Endogenous sex hormones and metabolic syndrome in aging men. The Journal of Clinical Endocrinology and Metabolism 2005 May;90(5):2618-23.
22. Laughlin GA, Barrett-Connor E, Bergstrom J. Low serum testosterone and mortality in older men. The Journal of Clinical Endocrinology and Metabolism 2008 Jan;93(7):68-75.
23. Laaksonen DE, Niskanen L, Punnonen K, Nyyssönen K, Tuomainen TP, Valkonen VP, Salonen R, Salonen JT. Testosterone and sex hormone-binding globulin predict the metabolic syndrome and diabetes in middle-aged men. Diabetes Care 2004 May;27(5):1036-41.
24. Khaw KT, Dowsett M, Folkerd E, Bingham S, Wareham N, Luben R, Welch A, Day N. Endogenous testosterone and mortality due to all causes, cardiovascular disease, and cancer in men: European prospective investigation into cancer in Norfolk (EPIC-Norfolk) Prospective Population Study. Circulation 2007 Dec;116(23):2694-701.
25. Semple PD, Beastall GH, Watson WS, Hume R. Serum testosterone depression associated with hypoxia in respiratory failure. Clinical Science (London, England: 1979) 1980 Jan;58(1):105-6.
26. Kamischke A, Kemper DE, Castel MA, Luthke M, Rolf C, Behre HM, Magnussen H, Nieschlag E. Testosterone levels in men with chronic obstructive pulmonary disease with or without glycocorticoid therapy. European Respiratory Journal 1998;11:41-5.
27. Creutzberg EC, Casaburi R. Endocrinological disturbances in chronic obstructive disease. The European Respiratory Journal. Supplement 2003 Nov;46:76s-80s.
28. Crews JK, Khalil RA. Gender-specific inhibition of Ca2+ entry mechanisms of arterial vasoconstriction by sex hormones. Clinical and Experimental Pharmacology & Physiology 1999 Sep;26(9):707-15.
29. Van Vliet M, Spruit MA, Verleden G, Kasran A, Herck E, Pitta F, Bouillon R, Decramer M. Hypogonadism, quadriceps weakness, and exercise intolerance in chronic obstructive pulmonary disease. American Journal of Respiratory and Critical Care Medicine 2005 Nov;172(9):1105-11.
30. Araujo AB, Kupelian V, Page ST, Handelsman DJ, Bremner WJ, McKinlay JB. Sex steroids and all-cause and cause-specific mortality in men. Archives of Internal Medicine 2007 Jun;167(12):1252-60.
31. Kronenberg F. Hot flashes: epidemiology and physiology. Annals of New York Academy of Sciences 1990;592: 52-86; discussion 123-33.
32. Adorni MP, Zimetti F, Cangiano B, Vezzoli V, Bernini F, Caruso D, Corsini A, Sirtori CR, Cariboni A, Bonomi M, Ruscica M. High-density lipoprotein function is reduced in patients affected by genetic or idiopathic hypogonadism. The Journal of Clinical Endocrinology & Metabolism 2019 Aug;104(8):3097-107.
33. Kumar P, Kumar N, Thakur DS, Patidar A. Male hypogonadism: symptoms and treatment. Journal of Advanced Pharmaceutical Technology and Research 2010;1:297-301.
34. Diver MJ; Clinical Science Reviews Committee of the Association for Clinical Biochemistry. Analytical and physiological factors affecting the interpretation of serum testosterone concentration in men. Annals of Clinical Biochemistry 2006 Jan;43(Pt 1):3-12.
35. Hisasue SI. Contemporary perspective and management of testosterone deficiency: modifiable factors and variable management. International Journal of Urology 2015 Dec;22(12):1084-95.
36. Schultheiss OC, Dargel A, Rohde W. Implicit motives and gonadal steroid hormones: effects of menstrual cycle phase, oral contraceptive use, and relationship status. Hormones and Behavior 2003 Feb;43(2):293-301.
37. Schultheiss OC, Wirth MM, Torges CM, Pang JS, Villacorta MA, Welsh KM. Effects of implicit power motivation on men’s and women’s implicit learning and testosterone changes after social victory or defeat. Journal of Personality and Social Psychology 2005 Jan;88(1):174-88.
38. Stanton SJ, Edelstein RS. The physiology of women’s power motive: implicit power motivation is positively associated with estradiol levels in women. Journal of Research in Personality 2009;43(6):1109-13.
39. Stanton SJ, Schultheiss OC. Basal and dynamic relationships between implicit power motivation and estradiol in women. Hormones and Behavior 2007 Dec;52(5):571-80.
40. Dabbs JM Jr, Alford EC, Fielden JA. Trial lawyers and testosterone: blue-collar talent in a white-collar world. Journal of Applied Social Psychology 1998;28(1):84-9.
41. Dabbs JM Jr, de La Rue D, Williams PM. Testosterone and occupational choice: actors, ministers, and other men. Journal Personality and Social Psychology 1990 Dec;59(6):1261-5.
42. Stanton SJ, Schultheiss OC. The hormonal correlates of implicit power motivation. Journal of Research in Personality 2009 Oct;43(5):942.
43. Nimmo MA, Leggate M, Viana JL, King JA. The effect of physical activity on mediators of inflammation. Diabetes, Obesity & Metabolism 2013 Sep;15(Suppl 3):51-60.
44. Urhausen A, Kindermann W. Diagnosis of overtraining what tools do we have? Sports Medicine (Auckland, N.Z.) 2002;32:95-102.
45. Elias M. Serum cortisol, testosterone, and testosterone-binding globulin responses to competitive fighting in human males. Aggressive Behavior 1981;7(3):215-24.
46. Cumming DC, Brunsting LA, Strich G, Ries AL, Rebar RW. Reproductive hormone increases in response to acute exercise in men. Medicine & Science in Sports & Exercise 1986 Aug;18(4):369-73.
47. Paccotti P, Minetto M, Terzolo M, Ventura M, Ganzit GP, Borrione P, Angeli A. Effects of high-intensity isokinetic exercise on salivary cortisol in athletes with different training schedules: relationships to serum cortisol and lactate. International Journal of Sports Medicine 2005 Nov;26(9):747
48. Popovic B, Popovic D, Macut D, Bozic Antic I, Isailovic T, Ognjanovic S, Bogavac T, Elezovic Kovacevic V, Ilic D, Petrovic M, Damjanovic S. Acute response to endurance exercise stress: focus on catabolic/anabolic interplay between cortisol, testosterone, and sex hormone binding globulin in professional athletes. Journal of Medical Biochemistry 2019 Mar;38(1):6-12.
49. Kvorning T, Andersen M, Brixen K, Madsen K. Suppression of endogenous testosterone production attenuates the response to strength training: a randomized, placebo-controlled, and blinded intervention study. American Journal of Physiology. Endocrinology & Metabolism 2006 Dec;291(6):E1325-332.
50. Willoughby DS, Taylor L. Effects of sequential bouts of resistance exercise on androgen receptor expression. Medicine & Science in Sports & Exercise 2004 Sep;36(9):1499-506.
51. Spiering BA, Kraemer WJ, Vingren JL, Ratamess NA, Anderson JM, Armstrong LE, Nindl BC, Volek JS, Häkkinen K, Maresh CM. Elevated endogenous testosterone concentrations potentiate muscle androgen receptor responses to resistance exercise. The Journal of Steroid Biochemistry and Molecular Biology 2009 Apr;114(3-5):195-9.
52. Ježová D, Vigas M, Tatár P, Kvetnansky R, Nazar K, Kaciuba-Uścilko H, Kozlowski S. Plasma testosterone and catecholamine responses to physical exercise of different intensities in men. European Journal of Applied Physiology and Occupational Physiology 1985;54:62-6.
53. Kraemer WJ, Marchitelli L, Gordon SE, Harman E, Dziados JE, Mello R, Frykman P, McCurry D, Fleck SJ. Hormonal and growth factor responses to heavy resistance exercise protocols. Journal of Applied Physiology (Bethesda, Md.: 1985) 1990 Oct;69(4):1442-50.
54. Elloumi M, Maso F, Michaux O, Robert A, Lac G. Behaviour of saliva cortisol [C], testosterone [T] and the T/C ratio during a rugby match and during the post-competition recovery days. European Journal of Applied Physiology 2003 Sep;90(1-2):23-8.
55. Minuzzi LG, Rama L, Chupel MU, Rosado F, Kuga GK, Gaspar RC, Muñoz VR, Pauli JR, Paiva A, Teixeira AM. Immune-endocrine responses and physical performance of master athletes during the sports season. Journal of Cellular Biochemistry 2019 Apr;120(4):5551-7.
56. Locke S, Osborne M, O’Rourke P. Persistent fatigue in young athletes: measuring the clinical course and identifying variables affecting clinical recovery. Scandinavian Journal of Medicine & Science in Sports 2011 Feb;21(1):90-7.
57. Ellison PT. Human salivary steroids: methodological considerations and applications in physical anthropology. Yearbook of Physical Anthropology 1988;31:115-42.
58. Smith RG, Besch PK, Dill B, Buttram VC Jr. Saliva as a matrix for measuring free androgens: comparison with serum androgens in polycystic ovarian disease. Fertility and Sterility 1979 May;31(5):513-7.
59. Maynar M, Caballero M, Mena P, Rodríguez C, Cortés R, Maynar J. Urine excretion of androgen hormones in professional racing cyclists. European Journal of Applied Physiology and Occupational Physiology 1994;68(3):200-4.
60. Mackinnon LT. Immunity in athletes. International Journal of Sports Medicine 1997 Mar;18(Suppl 1):S62-8.
61. Shephard RJ, Shek PN. Athletic competition and susceptibility to infection. Clinical Journal of Sports Medicine 1993;3:75-7.
62. Keaney LC, Kilding AE, Merien F, Dulson DK. The impact of sport related stressors on immunity and illness risk in team-sport athletes. Journal of Science and Medicine in Sport 2018 Dec;21(12):1192-9.
63. Mortatti AL, Moreira A, Aoki MS, Crewther BT, Castagna C, de Arruda AFS, Filho JM. Effect of competition on salivary cortisol, immunoglobulin A, and upper respiratory tract infections in elite young soccer players. The Journal of Strength & Conditioning Research 2012 May;26(5):1396-401.
64. Moreira A, Bradley P, Carling C, Arruda AFS, Spigolon LMP, Franciscon C, Aoki MS. Effect of a congested match schedule on immune-endocrine responses, technical performance and session-RPE in elite youth soccer players. Journal of Sports Sciences 2016 Dec;34(24):2255-61.
65. Morgans R, Orme P, Anderson L, Drust B, Morton JP. An intensive winter fixture schedule induces a transient fall in salivary IgA in English Premier League soccer players. Research in Sports Medicine 2014;22:346-54.
66. Freitas CG, Aoki MS, Arruda AFS, Franciscon C, Moreira A. Monitoring salivary immunoglobulin A responses to official and simulated matches in elite young soccer players. Journal of Human Kinetics 2016 Oct;53:107-15.
67. Gleeson M. Immune function and exercise. European Journal of Sport Science 2004;4(3):52-66.
68. Fahlman MM, Engels HJ. Mucosal IgA and URTI in American college football players: a year longitudinal study. Medicine & Science in Sports & Exercise 2005 Mar;37(3):374-80.
69. Moreira A, Mortatti AL, Arruda AFS, Freitas CG, de Arruda M, Aoki MS. Salivary IgA response and upper respiratory tract infection symptoms during a 21-week competitive season in young soccer players. The Journal of Strength & Conditioning Research 2014 Feb;28(2):467-73.
70. Milanez VF, Ramos SP, Okuno NM, Boullosa DA, Nakamura FY. Evidence of a non-linear dose-response relationship between training load and stress markers in elite female futsal players. Journal of Sports Science & Medicine 2014 Jan;13(1):22-9.
71. Padoin S, de Freitas VH, Maia Cleto DA, Zeffa AC, Nakamura FY, Andrello AC, de Paula Ramos S. Effects of futsal demands on serum and salivary levels of trace elements and minerals detected by total reflection X-ray fluorescence. Biological Trace Element Research 2020 Jan;193(1):73-80.
72. Vardiman JP, Riggs CE, Galloway DL, Waxman MB, Touchberry CD, Gallagher PM. Salivary IgA is not a reliable indicator of upper respiratory infection in collegiate female soccer athletes. The Journal of Strength & Conditioning Research 2011 Jul;25(7):1937-42.
73. Ostrowski K, Rohde T, Asp S, Schjerling P, Pedersen BK. Pro- and anti-inflammatory cytokine balance in strenuous exercise in humans. The Journal of Physiology 1999 Feb;515(Pt 1):287-91.
74. Schouten W, Verschuur R, Kemper HCG. Habitual physical activity, strenuous exercise, and salivary immunoglobulin a levels in young adults: the Amsterdam growth and health study. International Journal of Sports and Medicine1988 Aug;9(4):289-93.
75. Trochimiak T, Hübner-Woźniak E. Effect of exercise on the level of immunoglobulin a in saliva. Biology of Sport 2012 Dec;29(4):255-61.
76. Lopes RF, Minuzzi LG, Figueiredo AJ, Gonçalves C, Tessitore A, Capranica L, Teixeira AM, Rama L. Upper respiratory symptoms (URS) and salivary responses across a season in youth soccer players: a useful and non-invasive approach associated to URS susceptibility and occurrence in young athletes. PLoS One 2020 Aug;15(8):e0236669.
77. Putlur P, Foster C, Miskowski JA, Kane MK, Burton SE, Scheett TP, McGuigan MR. Alteration of immune function in women collegiate soccer players and college student. Journal of Sports Science & Medicine 2004 Dec;3(4):234-43.
78. Cunniffe B, Griffiths H, Proctor W, Davies B, Baker JS, Jones KP. Mucosal immunity and illness incidence in elite rugby union players across a season. Medicine & Science in Sports & Exercise 2011 Mar;43(3):388-97.
79. Figueiredo P, Nassis GP, Brito J. Within-subject correlation between salivary IgA and measures of training load in elite football players. International Journal of Sports Physiology and Performance 2019 Jul;14(6):847-9.
80. Gravina L, Ruiz F, Lekue JA, Irazusta J, Gil SM. Metabolic impact of a soccer match on female players. Journal of Sports Sciences 2011 Sep;29(12):1345-52.
81. Ibfelt T, Petersen EW, Bruunsgaard H, Sandmand M, Pedersen BK. Exercise induced change in type 1 cytokine-producing CD8+ T cells is related to a decrease in memory T cells. Journal of Applied Physiology (Bethesda, Md.: 1985) 2002 Aug;93(2):645-8.
82. Steensberg A, Toft AD, Bruunsgaard H, Sandmand M, Halkjaer-Kristensen J, Pedersen BK. Strenuous exercise decreases the percentage of type 1 T cells in the circulation. Journal of Applied Physiology (Bethesda, Md.: 1985) 2001 Oct;91(4):1708-12.
83. Kostrzewa-Nowak D, Nowak R. T-helper cell-related changes in peripheral blood induced by progressive effort among soccer players. PLoS One 2020 Jan;15(1):e0227993.
84. Kakanis MW, Peake J, Brenu EW, Simmonds M, Gray B, Hooper SL, Marshall-Gradisnik SM. The open window of susceptibility to infection after acute exercise in healthy young male elite athletes. Exercise Immunology Review 2010;16:119-37.
85. Padoan A, Sciacovelli L, Basso D, Negrini D, Zuin S, Cosma C, Faggian D, Matricardi P, Plebani M. IgA-Ab response to spike glycoprotein of SARS-CoV-2 in patients with COVID-19: a longitudinal study. Clinica Chimica Acta 2020 Aug;507:164-6.
86. Bisciotti GN, Eirale C, Corsini A, Baudot C, Saillant G, Chalabi H. Return to football training and competition after lockdown caused by the COVID-19 pandemic: medical recommendations. Biology of Sport 2020 Sep;37(3):313-9.
87. Primorac D, Matišić V, Molnar V, Bahtijarević Z, Polašek O. Pre-season football preparation in the era of COVID-19: Croatian football association model. Journal of Global Health 2020 Jun;10(1):010352.
88. Samuel RD, Tenenbaum G, Galily Y. The 2020 Coronavirus pandemic as a change-event in sport performers’ careers: conceptual and applied practice considerations. Frontiers in Psychology 2020 Sep;11:567966.
89. Brink MS, Visscher C, Arends S, Zwerver J, Post WJ, Lemmink KA. Monitoring stress and recovery: new insights for the prevention of injuries and illnesses in elite youth soccer players. British Journal of Sports Medicine 2021 Sep;44(11):809-15.
90. Ivarsson A, Johnson U, Andersen MB, Tranaeus U, Stenling A, Lindwall M. Psychosocial factors and sport injuries: meta-analyses for prediction and prevention. Sports and Medicine 2017 Feb;47(2):353-65.
91. Rastrelli G, Di Stasi V, Inglese F, Beccaria M, Garuti M, Di Costanzo D, Spreafico F, Greco GF, Cervi G, Pecoriello A, Magini A, Todisco T, Cipriani S, Maseroli E, Corona G, Salonia A, Lenzi A, Maggi M, De Donno G, Vignozzi L. Low testosterone levels predict clinical adverse outcomes in SARS-CoV-2 pneumonia patients. Andrology 2021 Jan;9(1):88-98.
92. Vom Steeg LG, Dhakal S, Woldetsadik YA, Park HS, Mulka KR, Reilly EC, Topham DJ, Klein SL. Androgen receptor signaling in the lungs mitigates inflammation and improves the outcome of influenza in mice. PLoS Pathogens 2020 Jul;16(7):e1008506.
93. Corsini E, Galbiati V, Papale A, Kummer E, Pinto A, Serafini MM, Guaita A, Spezzano R, Caruso D, Marinovich M, Racchi M. Role of androgens in DHEA-induced RACK1 expression and cytokine modulation in monocytes. Immunity & Ageing 2016 May;13:20.
94. Dhindsa S, Zhang N, McPhaul MJ, Wu Z, Ghoshal AK, Erlich EC, Mani K, Randolph GJ, Edwards JR, Mudd PA, Diwan A. Association of circulating sex hormones with inflammation and disease severity in patients with COVID-19. JAMA Network Open 2021 May;4(5):e2111398.
95. Camici M, Zuppi P, Lorenzini P, Scarnecchia L, Pinnetti C, Cicalini S, Nicastri E, Petrosillo N, Palmieri F, D’Offizi G, Marchioni L, Gagliardini R, Baldelli R, Schininà V, Pianura E, Di Stefano F, Curcio S, Ciavarella L, Ippolito G, Girardi E, Vaia F, Antinori A; ReCoVeRi Study Group. The role of testosterone in SARS-CoV-2 infection: a key pathogenic factor and a biomarker for severe pneumonia. International Journal of Infectious Diseases 2021 Jul;108:244-51.
96. Çayan S, Uğuz M, Saylam B, Akbay E. Effect of serum total testosterone and its relationship with other laboratory parameters on the prognosis of coronavirus disease 2019 (COVID-19) in SARS-CoV-2 infected male patients: a cohort study. The Aging Male 2020 Dec;23(5):1493-503.
97. Salonia A, Pontillo M, Capogrosso P, Gregori S, Tassara M, Boeri L, Carenzi C, Abbate C, Cignoli D, Ferrara AM, Cazzaniga W, Rowe I, Ramirez GA, Tresoldi C, Mushtaq J, Locatelli M, Santoleri L, Castagna A, Zangrillo A, De Cobelli F, Tresoldi M, Landoni G, Rovere-Querini P, Ciceri F, Montorsi F. Severely low testosterone in males with COVID-19: a case-control study. Andrology 2021 Jul;9(4):1043-52.
98. Cinislioglu AE, Cinislioglu N, Demirdogen SO, Sam E, Akkas F, Altay MS, Utlu M, Sen IA, Yildirim F, Kartal S, Aydin HR, Karabulut I, Ozbey I. The relationship of serum testosterone levels with the clinical course and prognosis of COVID-19 disease in male patients: a prospective study. Andrology 2022 Jan;10(1):24-33.
99. Buonanno G, Stabile L, Morawska L. Estimation of airborne viral emission: quanta emission rate of SARS-CoV-2 for infection risk assessment. Environment International 2020 Aug;141:105794.
100. Carraturo F, Del Giudice C, Morelli M, Cerullo V, Libralato G, Galdiero E, Guida M. Persistence of SARS-CoV-2 in the environment and COVID-19 transmission risk from environmental matrices and surfaces. Environmental Pollution 2020 Oct;265(Pt B):115010.
101. Atrubin D, Wiese M, Bohinc B. An outbreak of COVID-19 associated with a recreational hockey game. MMWR. Morbidity and Mortality Weekly Report 2020 Oct;69(41):1492-3.
References
1. Vingren J, Kraemer WJ, Ratamess NA, Anderson JM, Volek JS, Maresh CM. Testosterone physiology in resistance exercise and training the up-stream regulatory elements. Sports Medicine (Auckland, N.Z.) 2010 Dec;40(12):1037-53.
2. Large medical encyclopedia. Petrovskiy BV, editor, 3rd ed., 30-vol. set. Vol. 25. Moscow: Sovetskaya Entsiklopediya; 1985: 46 (In Russian).
3. Keizer H, Janssen GM, Menheere P, Kranenburg G. Changes in basal plasma testosterone, cortisol, and dehydroepiandrosterone sulfate in previously untrained males and females preparing for a marathon. International Journal of Sports Medicine 1989 Oct;10(Suppl 3): S139-45.
4. Mazur A, Booth A. Testosterone and dominance in men. The Behavioral and Brain Sciences 1998 Jun;21(3):353-63; discussion 363-97.
5. Yefremov EA, Shekhovtsev SYu, Butov AO, Khizriyev KhZ, Kastrikin YuV, Tolstov IS. Physiological effects of testosterone in men: a current view. Experimental and Clinical Urology 2017;3:64-9 (In Russian).
6. Kaufman JM, Vermeulen A. The decline of androgen levels in elderly men and its clinical and therapeutic implications. Endocrine Reviews 2005 Oct;26(6):833-76.
7. Dabbs JM Jr. Salivary testosterone measurements: reliability across hours, days, and weeks. Physiology & Behavior 1990 Jul; 48(1):83-6.
8. Dabbs JM Jr, de La Rue D. Salivary testosterone measurements among women: relative magnitude of circadian and menstrual cycles. Hormone Research 1991;35(5):182-4.
9. Dabbs JM Jr. Age and seasonal variation in serum testosterone concentration among men. Chronobiology International 1990;7(3):245-9.
10. Stanton SJ. The essential implications of gender in human behavioral endocrinology studies. Frontiers in Behavioral Neuroscience 2011 Mar;5:9.
11. van Anders SM, Hampson E, Watson NV. Seasonality, waist-to-hip ratio, and salivary testosterone. Psychoneuroendocrinology 2006 Aug;31(7):895-9.
12. Carbajal-García A, Reyes-García J, Casas-Hernándeza MF, Flores-Soto E, Díaz-Hernández V, Solís-Chagoyán H, Sommer B, Montaño LM. Testosterone augments β2 adrenergic receptor genomic transcription increasing salbutamol relaxation in airway smooth muscle. Molecular and Cellular Endocrinology 2020 Jun;510:110801.
13. Hayashi T, Adachi Y, Hasegawa K, Morimoto M. Less sensitivity for late airway inflammation in males than females in BALB/c mice. Scandinavian Journal of Immunology 2003 Jun;57(6):562-7.
14. Takeda M, Tanabe M, Ito W, Ueki S, Konnno Y, Chihara M, Itoga M, Kobayashi Y, Moritoki Y, Kayaba H, Chihara J. Gender difference in allergic airway remodelling and immunoglobulin production in mouse model of asthma. Respirology 2013 Jun;18(5):797-806.
15. Fuseini H, Newcomb DC. Mechanisms driving gender differences in asthma. Current Allergy and Asthma Reports 2017;17:19.
16. Fuseini H, Yung JA, Cephus JY, Zhang J, Goleniewska K, Polosukhin VV, Peebles RS Jr, Newcomb DC. Testosterone decreases house dust mite-induced type 2 and IL-17A mediated airway inflammation. Journal of Immunology (Baltimore, Md.: 1950) 2018 Oct;201(7):1843-54.
17. Araujo AB, O’Donnell AB, Brambilla DJ, Simpson WB, Longcope С, Matsumoto AM, McKinlay JB. Prevalence and incidence of androgen deficiency in middle-aged and older men: estimates from the Massachusetts male aging study. The Journal of Clinical Endocrinology and Metabolism 2004 Dec;89(12):5920-6.
18. Schwenkhagen A. Hormonal changes in menopause and implications on sexual health. The Journal of Sexual Medicine 2007 Mar;4(Suppl 3):220-6.
19. Sellami M, Dhahbi W, Hayes LD, Kuvacic G, Milic M, Padulo J. The effect of acute and chronic exercise on steroid hormone fluctuations in young and middle-aged men. Steroids 2018 Apr;132:18-24.
20. Shores MM, Matsumoto AM, Sloan KL, Kivlahan DR. Low serum testosterone and mortality in male veterans. Archives of Internal Medicine 2006 Aug;166(15):1660-5.
21. Muller M, Grobbee DE, den Tonkelaar I, Lamberts SW, van der Schouw YT. Endogenous sex hormones and metabolic syndrome in aging men. The Journal of Clinical Endocrinology and Metabolism 2005 May;90(5):2618-23.
22. Laughlin GA, Barrett-Connor E, Bergstrom J. Low serum testosterone and mortality in older men. The Journal of Clinical Endocrinology and Metabolism 2008 Jan;93(7):68-75.
23. Laaksonen DE, Niskanen L, Punnonen K, Nyyssönen K, Tuomainen TP, Valkonen VP, Salonen R, Salonen JT. Testosterone and sex hormone-binding globulin predict the metabolic syndrome and diabetes in middle-aged men. Diabetes Care 2004 May;27(5):1036-41.
24. Khaw KT, Dowsett M, Folkerd E, Bingham S, Wareham N, Luben R, Welch A, Day N. Endogenous testosterone and mortality due to all causes, cardiovascular disease, and cancer in men: European prospective investigation into cancer in Norfolk (EPIC-Norfolk) Prospective Population Study. Circulation 2007 Dec;116(23):2694-701.
25. Semple PD, Beastall GH, Watson WS, Hume R. Serum testosterone depression associated with hypoxia in respiratory failure. Clinical Science (London, England: 1979) 1980 Jan;58(1):105-6.
26. Kamischke A, Kemper DE, Castel MA, Luthke M, Rolf C, Behre HM, Magnussen H, Nieschlag E. Testosterone levels in men with chronic obstructive pulmonary disease with or without glycocorticoid therapy. European Respiratory Journal 1998;11:41-5.
27. Creutzberg EC, Casaburi R. Endocrinological disturbances in chronic obstructive disease. The European Respiratory Journal. Supplement 2003 Nov;46:76s-80s.
28. Crews JK, Khalil RA. Gender-specific inhibition of Ca2+ entry mechanisms of arterial vasoconstriction by sex hormones. Clinical and Experimental Pharmacology & Physiology 1999 Sep;26(9):707-15.
29. Van Vliet M, Spruit MA, Verleden G, Kasran A, Herck E, Pitta F, Bouillon R, Decramer M. Hypogonadism, quadriceps weakness, and exercise intolerance in chronic obstructive pulmonary disease. American Journal of Respiratory and Critical Care Medicine 2005 Nov;172(9):1105-11.
30. Araujo AB, Kupelian V, Page ST, Handelsman DJ, Bremner WJ, McKinlay JB. Sex steroids and all-cause and cause-specific mortality in men. Archives of Internal Medicine 2007 Jun;167(12):1252-60.
31. Kronenberg F. Hot flashes: epidemiology and physiology. Annals of New York Academy of Sciences 1990;592: 52-86; discussion 123-33.
32. Adorni MP, Zimetti F, Cangiano B, Vezzoli V, Bernini F, Caruso D, Corsini A, Sirtori CR, Cariboni A, Bonomi M, Ruscica M. High-density lipoprotein function is reduced in patients affected by genetic or idiopathic hypogonadism. The Journal of Clinical Endocrinology & Metabolism 2019 Aug;104(8):3097-107.
33. Kumar P, Kumar N, Thakur DS, Patidar A. Male hypogonadism: symptoms and treatment. Journal of Advanced Pharmaceutical Technology and Research 2010;1:297-301.
34. Diver MJ; Clinical Science Reviews Committee of the Association for Clinical Biochemistry. Analytical and physiological factors affecting the interpretation of serum testosterone concentration in men. Annals of Clinical Biochemistry 2006 Jan;43(Pt 1):3-12.
35. Hisasue SI. Contemporary perspective and management of testosterone deficiency: modifiable factors and variable management. International Journal of Urology 2015 Dec;22(12):1084-95.
36. Schultheiss OC, Dargel A, Rohde W. Implicit motives and gonadal steroid hormones: effects of menstrual cycle phase, oral contraceptive use, and relationship status. Hormones and Behavior 2003 Feb;43(2):293-301.
37. Schultheiss OC, Wirth MM, Torges CM, Pang JS, Villacorta MA, Welsh KM. Effects of implicit power motivation on men's and women's implicit learning and testosterone changes after social victory or defeat. Journal of Personality and Social Psychology 2005 Jan;88(1):174-88.
38. Stanton SJ, Edelstein RS. The physiology of women’s power motive: implicit power motivation is positively associated with estradiol levels in women. Journal of Research in Personality 2009;43(6):1109-13.
39. Stanton SJ, Schultheiss OC. Basal and dynamic relationships between implicit power motivation and estradiol in women. Hormones and Behavior 2007 Dec;52(5):571-80.
40. Dabbs JM Jr, Alford EC, Fielden JA. Trial lawyers and testosterone: blue-collar talent in a white-collar world. Journal of Applied Social Psychology 1998;28(1):84-9.
41. Dabbs JM Jr, de La Rue D, Williams PM. Testosterone and occupational choice: actors, ministers, and other men. Journal Personality and Social Psychology 1990 Dec;59(6):1261-5.
42. Stanton SJ, Schultheiss OC. The hormonal correlates of implicit power motivation. Journal of Research in Personality 2009 Oct;43(5):942.
43. Nimmo MA, Leggate M, Viana JL, King JA. The effect of physical activity on mediators of inflammation. Diabetes, Obesity & Metabolism 2013 Sep;15(Suppl 3):51-60.
44. Urhausen A, Kindermann W. Diagnosis of overtraining what tools do we have? Sports Medicine (Auckland, N.Z.) 2002;32:95-102.
45. Elias M. Serum cortisol, testosterone, and testosterone-binding globulin responses to competitive fighting in human males. Aggressive Behavior 1981;7(3):215-24.
46. Cumming DC, Brunsting LA, Strich G, Ries AL, Rebar RW. Reproductive hormone increases in response to acute exercise in men. Medicine & Science in Sports & Exercise 1986 Aug;18(4):369-73.
47. Paccotti P, Minetto M, Terzolo M, Ventura M, Ganzit GP, Borrione P, Angeli A. Effects of high-intensity isokinetic exercise on salivary cortisol in athletes with different training schedules: relationships to serum cortisol and lactate. International Journal of Sports Medicine 2005 Nov;26(9):747
48. Popovic B, Popovic D, Macut D, Bozic Antic I, Isailovic T, Ognjanovic S, Bogavac T, Elezovic Kovacevic V, Ilic D, Petrovic M, Damjanovic S. Acute response to endurance exercise stress: focus on catabolic/anabolic interplay between cortisol, testosterone, and sex hormone binding globulin in professional athletes. Journal of Medical Biochemistry 2019 Mar;38(1):6-12.
49. Kvorning T, Andersen M, Brixen K, Madsen K. Suppression of endogenous testosterone production attenuates the response to strength training: a randomized, placebo-controlled, and blinded intervention study. American Journal of Physiology. Endocrinology & Metabolism 2006 Dec;291(6):E1325-332.
50. Willoughby DS, Taylor L. Effects of sequential bouts of resistance exercise on androgen receptor expression. Medicine & Science in Sports & Exercise 2004 Sep;36(9):1499-506.
51. Spiering BA, Kraemer WJ, Vingren JL, Ratamess NA, Anderson JM, Armstrong LE, Nindl BC, Volek JS, Häkkinen K, Maresh CM. Elevated endogenous testosterone concentrations potentiate muscle androgen receptor responses to resistance exercise. The Journal of Steroid Biochemistry and Molecular Biology 2009 Apr;114(3-5):195-9.
52. Ježová D, Vigas M, Tatár P, Kvetnansky R, Nazar K, Kaciuba-Uścilko H, Kozlowski S. Plasma testosterone and catecholamine responses to physical exercise of different intensities in men. European Journal of Applied Physiology and Occupational Physiology 1985;54:62-6.
53. Kraemer WJ, Marchitelli L, Gordon SE, Harman E, Dziados JE, Mello R, Frykman P, McCurry D, Fleck SJ. Hormonal and growth factor responses to heavy resistance exercise protocols. Journal of Applied Physiology (Bethesda, Md.: 1985) 1990 Oct;69(4):1442-50.
54. Elloumi M, Maso F, Michaux O, Robert A, Lac G. Behaviour of saliva cortisol [C], testosterone [T] and the T/C ratio during a rugby match and during the post-competition recovery days. European Journal of Applied Physiology 2003 Sep;90(1-2):23-8.
55. Minuzzi LG, Rama L, Chupel MU, Rosado F, Kuga GK, Gaspar RC, Muñoz VR, Pauli JR, Paiva A, Teixeira AM. Immune-endocrine responses and physical performance of master athletes during the sports season. Journal of Cellular Biochemistry 2019 Apr;120(4):5551-7.
56. Locke S, Osborne M, O’Rourke P. Persistent fatigue in young athletes: measuring the clinical course and identifying variables affecting clinical recovery. Scandinavian Journal of Medicine & Science in Sports 2011 Feb;21(1):90-7.
57. Ellison PT. Human salivary steroids: methodological considerations and applications in physical anthropology. Yearbook of Physical Anthropology 1988;31:115-42.
58. Smith RG, Besch PK, Dill B, Buttram VC Jr. Saliva as a matrix for measuring free androgens: comparison with serum androgens in polycystic ovarian disease. Fertility and Sterility 1979 May;31(5):513-7.
59. Maynar M, Caballero M, Mena P, Rodríguez C, Cortés R, Maynar J. Urine excretion of androgen hormones in professional racing cyclists. European Journal of Applied Physiology and Occupational Physiology 1994;68(3):200-4.
60. Mackinnon LT. Immunity in athletes. International Journal of Sports Medicine 1997 Mar;18(Suppl 1):S62-8.
61. Shephard RJ, Shek PN. Athletic competition and susceptibility to infection. Clinical Journal of Sports Medicine 1993;3:75-7.
62. Keaney LC, Kilding AE, Merien F, Dulson DK. The impact of sport related stressors on immunity and illness risk in team-sport athletes. Journal of Science and Medicine in Sport 2018 Dec;21(12):1192-9.
63. Mortatti AL, Moreira A, Aoki MS, Crewther BT, Castagna C, de Arruda AFS, Filho JM. Effect of competition on salivary cortisol, immunoglobulin A, and upper respiratory tract infections in elite young soccer players. The Journal of Strength & Conditioning Research 2012 May;26(5):1396-401.
64. Moreira A, Bradley P, Carling C, Arruda AFS, Spigolon LMP, Franciscon C, Aoki MS. Effect of a congested match schedule on immune-endocrine responses, technical performance and session-RPE in elite youth soccer players. Journal of Sports Sciences 2016 Dec;34(24):2255-61.
65. Morgans R, Orme P, Anderson L, Drust B, Morton JP. An intensive winter fixture schedule induces a transient fall in salivary IgA in English Premier League soccer players. Research in Sports Medicine 2014;22:346-54.
66. Freitas CG, Aoki MS, Arruda AFS, Franciscon C, Moreira A. Monitoring salivary immunoglobulin A responses to official and simulated matches in elite young soccer players. Journal of Human Kinetics 2016 Oct;53:107-15.
67. Gleeson M. Immune function and exercise. European Journal of Sport Science 2004;4(3):52-66.
68. Fahlman MM, Engels HJ. Mucosal IgA and URTI in American college football players: a year longitudinal study. Medicine & Science in Sports & Exercise 2005 Mar;37(3):374-80.
69. Moreira A, Mortatti AL, Arruda AFS, Freitas CG, de Arruda M, Aoki MS. Salivary IgA response and upper respiratory tract infection symptoms during a 21-week competitive season in young soccer players. The Journal of Strength & Conditioning Research 2014 Feb;28(2):467-73.
70. Milanez VF, Ramos SP, Okuno NM, Boullosa DA, Nakamura FY. Evidence of a non-linear dose-response relationship between training load and stress markers in elite female futsal players. Journal of Sports Science & Medicine 2014 Jan;13(1):22-9.
71. Padoin S, de Freitas VH, Maia Cleto DA, Zeffa AC, Nakamura FY, Andrello AC, de Paula Ramos S. Effects of futsal demands on serum and salivary levels of trace elements and minerals detected by total reflection X-ray fluorescence. Biological Trace Element Research 2020 Jan;193(1):73-80.
72. Vardiman JP, Riggs CE, Galloway DL, Waxman MB, Touchberry CD, Gallagher PM. Salivary IgA is not a reliable indicator of upper respiratory infection in collegiate female soccer athletes. The Journal of Strength & Conditioning Research 2011 Jul;25(7):1937-42.
73. Ostrowski K, Rohde T, Asp S, Schjerling P, Pedersen BK. Pro- and anti-inflammatory cytokine balance in strenuous exercise in humans. The Journal of Physiology 1999 Feb;515(Pt 1):287-91.
74. Schouten W, Verschuur R, Kemper HCG. Habitual physical activity, strenuous exercise, and salivary immunoglobulin a levels in young adults: the Amsterdam growth and health study. International Journal of Sports and Medicine1988 Aug;9(4):289-93.
75. Trochimiak T, Hübner-Woźniak E. Effect of exercise on the level of immunoglobulin a in saliva. Biology of Sport 2012 Dec;29(4):255-61.
76. Lopes RF, Minuzzi LG, Figueiredo AJ, Gonçalves C, Tessitore A, Capranica L, Teixeira AM, Rama L. Upper respiratory symptoms (URS) and salivary responses across a season in youth soccer players: a useful and non-invasive approach associated to URS susceptibility and occurrence in young athletes. PLoS One 2020 Aug;15(8):e0236669.
77. Putlur P, Foster C, Miskowski JA, Kane MK, Burton SE, Scheett TP, McGuigan MR. Alteration of immune function in women collegiate soccer players and college student. Journal of Sports Science & Medicine 2004 Dec;3(4):234-43.
78. Cunniffe B, Griffiths H, Proctor W, Davies B, Baker JS, Jones KP. Mucosal immunity and illness incidence in elite rugby union players across a season. Medicine & Science in Sports & Exercise 2011 Mar;43(3):388-97.
79. Figueiredo P, Nassis GP, Brito J. Within-subject correlation between salivary IgA and measures of training load in elite football players. International Journal of Sports Physiology and Performance 2019 Jul;14(6):847-9.
80. Gravina L, Ruiz F, Lekue JA, Irazusta J, Gil SM. Metabolic impact of a soccer match on female players. Journal of Sports Sciences 2011 Sep;29(12):1345-52.
81. Ibfelt T, Petersen EW, Bruunsgaard H, Sandmand M, Pedersen BK. Exercise induced change in type 1 cytokine-producing CD8+ T cells is related to a decrease in memory T cells. Journal of Applied Physiology (Bethesda, Md.: 1985) 2002 Aug;93(2):645-8.
82. Steensberg A, Toft AD, Bruunsgaard H, Sandmand M, Halkjaer-Kristensen J, Pedersen BK. Strenuous exercise decreases the percentage of type 1 T cells in the circulation. Journal of Applied Physiology (Bethesda, Md.: 1985) 2001 Oct;91(4):1708-12.
83. Kostrzewa-Nowak D, Nowak R. T-helper cell-related changes in peripheral blood induced by progressive effort among soccer players. PLoS One 2020 Jan;15(1):e0227993.
84. Kakanis MW, Peake J, Brenu EW, Simmonds M, Gray B, Hooper SL, Marshall-Gradisnik SM. The open window of susceptibility to infection after acute exercise in healthy young male elite athletes. Exercise Immunology Review 2010;16:119-37.
85. Padoan A, Sciacovelli L, Basso D, Negrini D, Zuin S, Cosma C, Faggian D, Matricardi P, Plebani M. IgA-Ab response to spike glycoprotein of SARS-CoV-2 in patients with COVID-19: a longitudinal study. Clinica Chimica Acta 2020 Aug;507:164-6.
86. Bisciotti GN, Eirale C, Corsini A, Baudot C, Saillant G, Chalabi H. Return to football training and competition after lockdown caused by the COVID-19 pandemic: medical recommendations. Biology of Sport 2020 Sep;37(3):313-9.
87. Primorac D, Matišić V, Molnar V, Bahtijarević Z, Polašek O. Pre-season football preparation in the era of COVID-19: Croatian football association model. Journal of Global Health 2020 Jun;10(1):010352.
88. Samuel RD, Tenenbaum G, Galily Y. The 2020 Coronavirus pandemic as a change-event in sport performers’ careers: conceptual and applied practice considerations. Frontiers in Psychology 2020 Sep;11:567966.
89. Brink MS, Visscher C, Arends S, Zwerver J, Post WJ, Lemmink KA. Monitoring stress and recovery: new insights for the prevention of injuries and illnesses in elite youth soccer players. British Journal of Sports Medicine 2021 Sep;44(11):809-15.
90. Ivarsson A, Johnson U, Andersen MB, Tranaeus U, Stenling A, Lindwall M. Psychosocial factors and sport injuries: meta-analyses for prediction and prevention. Sports and Medicine 2017 Feb;47(2):353-65.
91. Rastrelli G, Di Stasi V, Inglese F, Beccaria M, Garuti M, Di Costanzo D, Spreafico F, Greco GF, Cervi G, Pecoriello A, Magini A, Todisco T, Cipriani S, Maseroli E, Corona G, Salonia A, Lenzi A, Maggi M, De Donno G, Vignozzi L. Low testosterone levels predict clinical adverse outcomes in SARS-CoV-2 pneumonia patients. Andrology 2021 Jan;9(1):88-98.
92. Vom Steeg LG, Dhakal S, Woldetsadik YA, Park HS, Mulka KR, Reilly EC, Topham DJ, Klein SL. Androgen receptor signaling in the lungs mitigates inflammation and improves the outcome of influenza in mice. PLoS Pathogens 2020 Jul;16(7):e1008506.
93. Corsini E, Galbiati V, Papale A, Kummer E, Pinto A, Serafini MM, Guaita A, Spezzano R, Caruso D, Marinovich M, Racchi M. Role of androgens in DHEA-induced RACK1 expression and cytokine modulation in monocytes. Immunity & Ageing 2016 May;13:20.
94. Dhindsa S, Zhang N, McPhaul MJ, Wu Z, Ghoshal AK, Erlich EC, Mani K, Randolph GJ, Edwards JR, Mudd PA, Diwan A. Association of circulating sex hormones with inflammation and disease severity in patients with COVID-19. JAMA Network Open 2021 May;4(5):e2111398.
95. Camici M, Zuppi P, Lorenzini P, Scarnecchia L, Pinnetti C, Cicalini S, Nicastri E, Petrosillo N, Palmieri F, D’Offizi G, Marchioni L, Gagliardini R, Baldelli R, Schininà V, Pianura E, Di Stefano F, Curcio S, Ciavarella L, Ippolito G, Girardi E, Vaia F, Antinori A; ReCoVeRi Study Group. The role of testosterone in SARS-CoV-2 infection: a key pathogenic factor and a biomarker for severe pneumonia. International Journal of Infectious Diseases 2021 Jul;108:244-51.
96. Çayan S, Uğuz M, Saylam B, Akbay E. Effect of serum total testosterone and its relationship with other laboratory parameters on the prognosis of coronavirus disease 2019 (COVID-19) in SARS-CoV-2 infected male patients: a cohort study. The Aging Male 2020 Dec;23(5):1493-503.
97. Salonia A, Pontillo M, Capogrosso P, Gregori S, Tassara M, Boeri L, Carenzi C, Abbate C, Cignoli D, Ferrara AM, Cazzaniga W, Rowe I, Ramirez GA, Tresoldi C, Mushtaq J, Locatelli M, Santoleri L, Castagna A, Zangrillo A, De Cobelli F, Tresoldi M, Landoni G, Rovere-Querini P, Ciceri F, Montorsi F. Severely low testosterone in males with COVID-19: a case-control study. Andrology 2021 Jul;9(4):1043-52.
98. Cinislioglu AE, Cinislioglu N, Demirdogen SO, Sam E, Akkas F, Altay MS, Utlu M, Sen IA, Yildirim F, Kartal S, Aydin HR, Karabulut I, Ozbey I. The relationship of serum testosterone levels with the clinical course and prognosis of COVID-19 disease in male patients: a prospective study. Andrology 2022 Jan;10(1):24-33.
99. Buonanno G, Stabile L, Morawska L. Estimation of airborne viral emission: quanta emission rate of SARS-CoV-2 for infection risk assessment. Environment International 2020 Aug;141:105794.
100. Carraturo F, Del Giudice C, Morelli M, Cerullo V, Libralato G, Galdiero E, Guida M. Persistence of SARS-CoV-2 in the environment and COVID-19 transmission risk from environmental matrices and surfaces. Environmental Pollution 2020 Oct;265(Pt B):115010.
101. Atrubin D, Wiese M, Bohinc B. An outbreak of COVID-19 associated with a recreational hockey game. MMWR. Morbidity and Mortality Weekly Report 2020 Oct;69(41):1492-3. |
[ Содержание выпуска N 2 | Выпуски журнала | Список журналов ] |
|
|
