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Journal articles on the topic 'Exercise medicine'

Author: Grafiati
Published: 10 September 2021
Last updated: 26 January 2023

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1

Zhou, Lan. "CELL METABOLISM UNDER DIFFERENT INTENSITY EXERCISES IN SPORTS MEDICINE." Revista Brasileira de Medicina do Esporte 27, no. 7 (July 2021): 682–85. http://dx.doi.org/10.1590/1517-8692202127072021_0334.

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ABSTRACT Introduction: Articular cartilage is an essential structure for joint weight-bearing and movement. If it is always under a specific mechanical stimulation, it will cause osteoarthritis (OA) and even involve the articular cartilage. Sports can affect articular cartilage thickness, cartilage surface morphology, and cartilage cell metabolism. Objective: This thesis studies the cell metabolism of knee cartilage tissue with exercises of different intensities. Methods: We divided 40 rats into four groups according to exercise intensity. The control group exercised freely, while the experimental group exercised with different intensities. After eight weeks of exercise, we extracted the knee joint cartilage to observe its cell metabolism. Results: We found that the cartilage surface of the rats was complete after exercise, and the thickness of the cartilage layer was significantly greater than that of rats without exercise. Conclusion: Exercises of different intensities have different effects on the metabolism of cartilage cells in the knee joint of rats. Level of evidence II; Therapeutic studies - investigation of treatment results.
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2

Smith, J., and I. McCurdie. "Self Assessment Exercises In Sports And Exercise Medicine." Journal of the Royal Army Medical Corps 148, no. 3 (September 1, 2002): 288–93. http://dx.doi.org/10.1136/jramc-148-03-14.

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3

Katz, Patricia P., and Russell Pate. "Exercise as Medicine." Annals of Internal Medicine 165, no. 12 (September 27, 2016): 880. http://dx.doi.org/10.7326/m16-2086.

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4

Elrick, Harold. "Exercise Is Medicine." Physician and Sportsmedicine 24, no. 2 (February 1996): 72–78. http://dx.doi.org/10.3810/psm.1996.02.1234.

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5

Strauss, Richard H. "Exercise Is Medicine." Physician and Sportsmedicine 25, no. 7 (July 1997): 5. http://dx.doi.org/10.3810/psm.1997.07.1495.

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6

Coombes, Jeff S., Jen Law, Bill Lancashire, and Robert G. Fassett. "“Exercise Is Medicine”." Asia Pacific Journal of Public Health 27, no. 2 (April 9, 2013): NP600—NP605. http://dx.doi.org/10.1177/1010539513481492.

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7

Russell, E. "Exercise is medicine." Canadian Medical Association Journal 185, no. 11 (June 17, 2013): E526. http://dx.doi.org/10.1503/cmaj.109-4501.

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Elrick, Harold. "Exercise Is Medicine." Physician and Sportsmedicine 24, no. 2 (February 1996): 72–78. http://dx.doi.org/10.1080/00913847.1996.11947914.

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9

Thompson, Walter R., Robert Sallis, Elizabeth Joy, Carrie A. Jaworski, Robyn M. Stuhr, and Jennifer L. Trilk. "Exercise Is Medicine." American Journal of Lifestyle Medicine 14, no. 5 (April 22, 2020): 511–23. http://dx.doi.org/10.1177/1559827620912192.

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There is overwhelming evidence in the scientific and medical literature that physical inactivity is a major public health problem with a wide array of harmful effects. Over 50% of health status can be attributed to unhealthy behaviors with smoking, diet, and physical inactivity as the main contributors. Exercise has been used in both the treatment and prevention of a variety of chronic conditions such as heart disease, pulmonary disease, diabetes, and obesity. While the negative effects of physical inactivity are widely known, there is a gap between what physicians tell their patients and exercise compliance. Exercise is Medicine was established in 2007 by the American College of Sports Medicine to inform and educate physicians and other health care providers about exercise as well as bridge the widening gap between health care and health fitness. Physicians have many competing demands at the point of care, which often translates into limited time spent counseling patients. The consistent message from all health care providers to their patients should be to start or to continue a regular exercise program. Exercise is Medicine is a solution that enables physicians to support their patients in implementing exercise as part of their disease prevention and treatment strategies.
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10

BOULLOSA, DANIEL A., LAURINDA ABREU, LAIS TONELLO, PETER HOFMANN, and ANTHONY S. LEICHT. "Exercise Is Medicine." Medicine & Science in Sports & Exercise 45, no. 7 (July 2013): 1223–28. http://dx.doi.org/10.1249/mss.0b013e3182880359.

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11

Rognmo, Øivind, and Ulrik Wisløff. "Exercise in medicine." Progress in Cardiovascular Diseases 62, no. 2 (March 2019): 85. http://dx.doi.org/10.1016/j.pcad.2019.03.001.

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12

Chen, Yin-Ting, Michael Fredericson, Gordon Matheson, and Edward Phillips. "Exercise is Medicine." Current Physical Medicine and Rehabilitation Reports 1, no. 1 (February 8, 2013): 48–56. http://dx.doi.org/10.1007/s40141-013-0006-1.

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13

Berryman, Jack W. "Exercise is Medicine." Current Sports Medicine Reports 9, no. 4 (July 2010): 195–201. http://dx.doi.org/10.1249/jsr.0b013e3181e7d86d.

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14

Khoury, Shireen R., Natalie S. Evans, and Elizabeth V. Ratchford. "Exercise as medicine." Vascular Medicine 24, no. 4 (May 30, 2019): 371–74. http://dx.doi.org/10.1177/1358863x19850316.

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15

Sperling, Laurence S., Pratik B. Sandesara, and Jonathan H. Kim. "Exercise Is Medicine." JACC: Cardiovascular Imaging 10, no. 12 (December 2017): 1469–71. http://dx.doi.org/10.1016/j.jcmg.2016.12.031.

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16

Eijsvogels, Thijs M. H., and Paul D. Thompson. "Exercise Is Medicine." JAMA 314, no. 18 (November 10, 2015): 1915. http://dx.doi.org/10.1001/jama.2015.10858.

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17

Wan, Tian, Kun-Da Hong, and Si-Yu Lu. "Exercise Prescription Intervention Rehabilitation Suggestions for Fatty Liver Patients." Evidence-Based Complementary and Alternative Medicine 2022 (April 16, 2022): 1–5. http://dx.doi.org/10.1155/2022/2506327.

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In this study, the exercise prescription intervention rehabilitation suggestions for fatty liver patients were summarized as follows: first, basic exercises (brisk walking and jogging.), sports (swimming, badminton, and cycling), traditional Chinese medicine exercises (Taichi boxing and eight-section brocade), the aim of which is to improve overall physical strength and endurance of the body; second, exercise intensity, duration, and frequency; third, exercise precautions; and fourth, exercise prescription selection and suggestion.
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18

Ross, Robert, Bret H. Goodpaster, Lauren G. Koch, Mark A. Sarzynski, Wendy M. Kohrt, Neil M. Johannsen, James S. Skinner, et al. "Precision exercise medicine: understanding exercise response variability." British Journal of Sports Medicine 53, no. 18 (March 12, 2019): 1141–53. http://dx.doi.org/10.1136/bjsports-2018-100328.

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There is evidence from human twin and family studies as well as mouse and rat selection experiments that there are considerable interindividual differences in the response of cardiorespiratory fitness (CRF) and other cardiometabolic traits to a given exercise programme dose. We developed this consensus statement on exercise response variability following a symposium dedicated to this topic. There is strong evidence from both animal and human studies that exercise training doses lead to variable responses. A genetic component contributes to exercise training response variability.In this consensus statement, we (1) briefly review the literature on exercise response variability and the various sources of variations in CRF response to an exercise programme, (2) introduce the key research designs and corresponding statistical models with an emphasis on randomised controlled designs with or without multiple pretests and post-tests, crossover designs and repeated measures designs, (3) discuss advantages and disadvantages of multiple methods of categorising exercise response levels—a topic that is of particular interest for personalised exercise medicine and (4) outline approaches that may identify determinants and modifiers of CRF exercise response. We also summarise gaps in knowledge and recommend future research to better understand exercise response variability.
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19

Parezanovic-Ilic, Katarina, Branislav Jeremic, Ljiljana Mladenovic-Segedi, Slobodan Arsenijevic, and Milorad Jevtic. "Physical therapy in the treatment of stress urinary incontinence." Srpski arhiv za celokupno lekarstvo 139, no. 9-10 (2011): 638–44. http://dx.doi.org/10.2298/sarh1110638p.

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Introduction. Stress urinary incontinence (SUI) is an involuntary release of urine through the urethra during the increase of abdominal pressure in the absence of m. detrusor contraction. The exercise of pelvic floor muscles is recommended as the first line of cure. It is the least invasive and the only method without any undesirable side effects, which leads to either improvement or complete cure of SUI in 80-85% of cases. Objective. The aim of this study was to establish whether the strengthening of pelvic floor muscles using proprioceptive neural facilitation (PNF) spiral dynamic technique was more efficient in comparison to classical Kegel exercise. Methods. The research was carried out at the Centre for Physical Medicine and Rehabilitation, Clinical Centre Kragujevac. Sixty-six female patients with the symptoms of SUI were monitored in the period of two years. Thirty-four patients did pelvic floor muscle exercises twice a day, in the morning and in the evening, with 15-20 contractions. Thirty-two patients used PNF spiral dynamic technique for strengthening pelvic floor muscles. The patients who used the spiral dynamic technique also did some exercises from the program; they exercised twice a day, in the morning and in the evening, following the prescribed schedule. Treatment outcome was assessed by measuring the pelvic floor muscles by a vaginal dynamometer. Results. The values of the pelvic floor muscle force that were measured using the vaginal dynamometer in both examined groups (PNF spiral dynamic technique or Kegel exercise) were statistically significantly higher after the implemented exercise program (t-test; p=0.000). No statistically significant difference in pelvic floor muscle values was found between the patients who applied PNF spiral dynamic technique and those who did Kegel exercise either before or after the exercise (two-factor analysis of variance with repeated measurements, factor of exercise type; p=0.899). Conclusion. Strengthening of pelvic floor muscles by exercises results in a significant increase of pelvic floor muscle strength and reduction of SUI symptoms, regardless of the used exercise program, PNF spiral dynamic technique or Kegel exercise program.
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20

Murray, A., A. Nicol, I. Murray, and J. Robson. "Sports & Exercise Medicine." Journal of The Royal Naval Medical Service 100, no. 1 (March 2014): 64–66. http://dx.doi.org/10.1136/jrnms-100-64.

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21

Wilson, P., and J. F. Welch. "Sports & Exercise Medicine." Journal of The Royal Naval Medical Service 100, no. 1 (March 2014): 58–63. http://dx.doi.org/10.1136/jrnms-100-58.

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AbstractSport-related eye injuries are a common cause of acute ocular injury. This article provides a basic clinical overview of the diagnosis and immediate medical management of sport-related eye injuries, and is relevant to all Armed Forces primary care and emergency medicine practitioners.
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22

Heil, K. M., and A. C. M. Keenan. "Sports & Exercise Medicine." Journal of The Royal Naval Medical Service 100, no. 1 (March 2014): 67–71. http://dx.doi.org/10.1136/jrnms-100-67.

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AbstractIn recent years, small scale counter-insurgency and expeditionary operations have frequently taken place in mountainous, high-altitude areas. Preparation of soldiers for these environments has typically focussed on extended stays at altitude to ensure physiological acclimatisation. However, with the likelihood that future UK deployments may be unpredictable and thus with little time for preparation, is there a means by which the same acclimatisation may be achieved? The field of athletics has been researching such adaptations since the rise of the elite North African long-distance runners in the 1960s. These athletes all lived high above sea level and had become accustomed to performing in the relatively hypoxic environment found at high altitudes. The research has focussed on eliciting physiological acclimatisation in as short a time as possible, while maintaining the ability to train at the correct intensity. In the following review of altitude training we highlight areas for future investigation and assess whether protocols developed for athletes can be applied to military personnel.
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23

Murray, A., and A. Wood. "Sports & Exercise Medicine." Journal of The Royal Naval Medical Service 100, no. 1 (March 2014): 72–74. http://dx.doi.org/10.1136/jrnms-100-72.

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24

McCartan, Bevin, and Courtney Kipps. "Sport and exercise medicine." Medicine 50, no. 2 (February 2022): 125–28. http://dx.doi.org/10.1016/j.mpmed.2021.11.010.

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25

Macleod, D. A. "Sport and exercise medicine." British Journal of Sports Medicine 30, no. 1 (March 1, 1996): 3–4. http://dx.doi.org/10.1136/bjsm.30.1.3.

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26

Hackney, R. "Sport, Exercise and Medicine." British Journal of Sports Medicine 30, no. 1 (March 1, 1996): 76. http://dx.doi.org/10.1136/bjsm.30.1.76.

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27

Pearce, Patrick Z. "Exercise is Medicine™." Current Sports Medicine Reports 7, no. 3 (May 2008): 171–75. http://dx.doi.org/10.1097/01.csmr.0000319712.63793.5f.

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28

Garrahy, Edward, Kade Davison, Sibella Hardcastle, Jane O'Brien, Scott Pederson, Andrew Williams, and Jan Radford. "Exercise as cardiovascular medicine." Australian Journal of General Practice 49, no. 8 (August 1, 2020): 483–87. http://dx.doi.org/10.31128/ajgp-03-20-5294.

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29

Franklin, Barry A., Seymour Gordon, and Gerald C. Timmis. "Exercise in Modern Medicine." Journal of Cardiopulmonary Rehabilitation 10, no. 2 (February 1990): 66. http://dx.doi.org/10.1097/00008483-199002000-00007.

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30

Becker, Bruce E. "Exercise in Modern Medicine." American Journal of Physical Medicine & Rehabilitation 68, no. 5 (October 1989): 260–61. http://dx.doi.org/10.1097/00002060-198910000-00022.

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31

English, B. "Sports and exercise medicine." BMJ 321, no. 7261 (September 9, 2000): 2. http://dx.doi.org/10.1136/bmj.321.7261.s2-7261.

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32

Chew, Stephen, and Roger Wolman. "Sport and exercise medicine." Medicine 42, no. 4 (April 2014): 220–24. http://dx.doi.org/10.1016/j.mpmed.2014.01.011.

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33

Kumar, Bhavesh, Catherine Hornby, and Kush Joshi. "Sport and exercise medicine." Medicine 46, no. 3 (March 2018): 196–201. http://dx.doi.org/10.1016/j.mpmed.2017.12.007.

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34

Kerr, Kate. "Exercise in Rehabilitation Medicine." Physiotherapy 86, no. 5 (May 2000): 273. http://dx.doi.org/10.1016/s0031-9406(05)60916-9.

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35

English, Bryan. "Sports and exercise medicine." BMJ 329, Suppl S1 (July 1, 2004): 0407282. http://dx.doi.org/10.1136/sbmj.0407282.

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36

Dubbert, Patricia M. "Exercise in behavioral medicine." Journal of Consulting and Clinical Psychology 60, no. 4 (1992): 613–18. http://dx.doi.org/10.1037/0022-006x.60.4.613.

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37

Paternostro-Bayles, Madeline. "Exercise is Medicine™." ACSM's Health & Fitness Journal 13, no. 6 (November 2009): 36–37. http://dx.doi.org/10.1249/fit.0b013e3181bcd785.

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38

Morley, John E. "Exercise: The Ultimate Medicine." Journal of the American Medical Directors Association 16, no. 5 (May 2015): 351–53. http://dx.doi.org/10.1016/j.jamda.2015.02.011.

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39

Millar, Philip J., and Jack M. Goodman. "Exercise as medicine: Role in the management of primary hypertension." Applied Physiology, Nutrition, and Metabolism 39, no. 7 (July 2014): 856–58. http://dx.doi.org/10.1139/apnm-2014-0006.

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Primary hypertension affects ∼1 in 5 Canadians and significantly increases the risk of myocardial infarction, stroke, heart failure, and early mortality. Guidelines for the management of hypertension recommend lifestyle modifications (e.g., increased physical activity, smoking cessation, moderate alcohol consumption, improved dietary choices) as the frontline strategy to prevent and manage high blood pressure (BP). In particular, acute and chronic aerobic exercise has consistently been shown to reduce resting and ambulatory BP, with the largest effects in hypertensive patients. Current guidelines recommend 30–60 min of moderate- to vigorous-intensity aerobic exercise 4–7 days per week, in addition to activities of daily living. The role of resistance training in the management of hypertension is less clear, although available data suggests resistance exercise can be performed safely without risk of increasing BP or adverse events. Presently, resistance exercise (8–10 exercises, 1–2 set(s) of 10–15 repetitions, 2–3 days/week) is advocated only as an adjunct exercise modality. Patients desiring to begin an exercise program should complete the Physical Activity Readiness Questionnaire (PAR-Q or PAR-Q+) or as required, the Electronic Physical Activity Readiness Medical Examination (ePARmed-X) or Physician Clearance Form in consultation with their clinician and (or) trained exercise professional. A greater emphasis on utilizing exercise as medicine will produce positive nonpharmacologic benefits for hypertensive patients and improve overall cardiovascular risk profiles.
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40

Saragih, Demson Hamonangan, and Imran Akhmad. "DIFFERENT EFFECT OF DECLINE PUSH UP EXERCISE WITH MEDICINE BALL THROW TRAINING TOWARDS INCREASING ARM MUSCLE POWER IN MUAYTHAI ATHLETES SIMALUNGUN REGENCY." Journal Physical Health Recreation 1, no. 2 (June 30, 2021): 71–82. http://dx.doi.org/10.55081/jphr.v1i2.274.

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The research that has been conducted intends to determine the differences and effects of decline push up training with medicine ball throw exercises on the increase in arm muscle power in Muaythai athletes in Simalungun Regency in 2020. The research method used is the experimental method. The population is all Muaythai athletes in Simalungun Regency in 2020, totaling 20 people. The number of samples of 12 people was obtained by using purposive random sampling technique (purposive random sampling). Before being given the exercise, all samples were given a pretest of arm muscle power and then the data was used as a basis for dividing the group of exercises, namely decline push-ups with medicine ball throw exercises. The training was given for 16 meetings and after the training was completed, a post test for arm muscle power was carried out. The research instrument for data collection using tests and measurements, namely a medicine ball chest throw test to measure arm muscle power. The research was conducted for 6 (six) weeks with training 3 (three) times a week, namely on Monday, Wednesday and Friday. Statistical calculations using paired t-test as well as unpaired t-test. The analysis of the first hypothesis which was carried out using pre-test data and post-test data on arm muscle power in the decline push-up exercise group obtained the results of the analysis of tcount of 10.64 and t table of 2.015 with  = 0.05 (t count> t table) means Ho was rejected and Ha accepted. So it can be concluded that there is a significant effect of decline push up exercise on the increase in arm muscle power in Muaythai athletes, Simalungun Regency. The second hypothesis analysis was performed using pre-test data and post-test data on arm muscle power in the medicine ball throw exercise group. The results of the analysis of tcount was 20.71 and t table was 2.015 with  = 0.05 (t count> t table) means Ho was rejected and Ha accepted. So it can be concluded that there is a significant effect of the medicine ball throw exercise on the increase in arm muscle power in athletes Muatyhai, Simalungun Regency. Analysis of the third hypothesis which was carried out using post-test data on arm muscle power in the decline push up exercise group and the medicine ball throw exercise group obtained the results of the analysis of tcount of 1.51 and t table of 1.812 with  = 0.05 (t count <t table) means Ho is accepted and Ha is rejected. So it can be concluded that there is no significant difference from decline push up exercises and medicine ball throw exercises on the increase in arm muscle power in Muaythai athletes, Simalungun Regency.
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41

Jia, Mian, Zhengzhen Wang, and Bowen Li. "Exercise Is Medicine In Traditional Chinese Medicine." Medicine & Science in Sports & Exercise 49, no. 5S (May 2017): 298–99. http://dx.doi.org/10.1249/01.mss.0000517680.68840.5f.

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42

Wagner, Barbara, Axel Seuser, Steffen Krüger, Marie Luca Herzig, Thomas Hilberg, Cihan Ay, Timothy Hasenöhrl, and Richard Crevenna. "Establishing an online physical exercise program for people with hemophilia." Wiener klinische Wochenschrift 131, no. 21-22 (September 18, 2019): 558–66. http://dx.doi.org/10.1007/s00508-019-01548-1.

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Summary Background Hemophilia is a congenital bleeding disorder with an estimated frequency of 1:10,000 births. Repeated joint bleeding is a hallmark of the disorder and leads to painful hemophilic arthropathy. Regular exercise can help improve joint stability and function, reduce the risk of injury and bleeding and improve physical fitness and quality of life. This method paper describes an online training concept aiming to offer access to appropriate exercise instructions for people with hemophilia who are not able to attend regular training at a hemophilia center. Methods The online exercise program is accessible through the homepage of the Department of Physical Medicine, Rehabilitation and Occupational Medicine of the Medical University Vienna as well as through scanning a QR code printed on information material using a smart phone or tablet. Results The program contains exercises to improve mobility, coordination, muscular strength and flexibility. A brief introduction is given by a hematologist, a pediatrician and a physiatrist. An introductory video informs about contraindications and essential precautions, such as medical attendance and sufficient factor therapy to consider before starting the training. Another video gives advice on the exercise composition. The demonstrated exercises are explained by a physician and are available for adults and children. To individualize training recommendations and offer further diagnostic tools and physical treatment options as necessary, the Department of Physical Medicine, Rehabilitation and Occupational Medicine of the Medical University of Vienna will establish consultation hours for people with hemophilia. Conclusion As hemophilia is an orphan disease, patients are mainly treated in specialized centers. For patients who live far from these centers or have limited access to a training there for other reasons, the physical medicine consultation hour and the implementation of online exercise instructions offer individually adapted exercise information for a regular home-based training to benefit from increased physical fitness and joint stability.
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43

Kyei-Frimpong, Jamie, Jane Blood-Siegfried, Ruvini Wijetilaka, and Abigail Gendler. "Exercise as medicine: Providing practitioner guidance on exercise prescription." Preventive Medicine Reports 22 (June 2021): 101323. http://dx.doi.org/10.1016/j.pmedr.2021.101323.

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44

Smith, R., K. Vernon, J. Gibbons, D. Kelley, J. Anton, and C. Mortensen. "183 EXERCISE INFLUENCES EMBRYO QUALITY IN MARES." Reproduction, Fertility and Development 22, no. 1 (2010): 250. http://dx.doi.org/10.1071/rdv22n1ab183.

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Athletic mares are commonly utilized in an embryo transfer regimen during the breeding season, which allows owners to continue to train and compete with these animals. Exercising mares in a hot and humid environment has proven detrimental to embryo recovery rates. However, the effects of exercise under milder temperatures have not been examined. Our goal was to compare embryo recovery rates and embryo quality scores of mares under mild environmental conditions of 2 differing exercise regimens v. a single control group (n = 5). One treatment group (full exercise) consisted of mares (n = 5) exercised 6 days a week throughout the duration of the project. The partial-exercise group (n = 5) was exercised throughout the duration of the project 7 days a week, with full rest from day of detected ovulation to the proceeding embryo collection attempt. This was to limit any deleterious effects exercise may potentially have on the mare and subsequent early developing equine embryo. Exercise resumed the day after an embryo collection attempt for the partial-exercise group. Exercised mares were given a 1-month training period prior to the beginning of this project and were moderately exercised for 30 min in a mechanical exercise pen (free exerciser). Control mares were managed similarly as the other groups, however were not exercised. Mares were bred via artificial insemination and embryos were nonsurgically collected 7 d post-ovulation. Mean environmental temperature during the duration of this study was 27.1°C with average 60% humidity. Immediately following completion of exercise, mares in the full exercise group had a mean temperature increase of 1.0°C and partial-exercised mares increased 0.9°C. Exercise had a significant effect on embryo quality (P < 0.05, Table 1) but did not influence embryo recovery rate. The mean embryo quality score for the control group was 1.1, whereas the full-exercised group was 1.85 and partial-exercised group was 2.5. It appears from these data that exercise has a negative effect on embryo quality, thus lowering the availability of transferable embryos. Embryos of lower quality (≥3) have been shown to result in poor pregnancy rates in horses. Additionally, rest from ovulation to an embryo collection attempt did not improve embryo quality. Table 1.Embryo recovery rate and quality score of embryos from control and exercised mares
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45

Oliveira, Ashley N., Brandon J. Richards, Mikhaela Slavin, and David A. Hood. "Exercise Is Muscle Mitochondrial Medicine." Exercise and Sport Sciences Reviews 49, no. 2 (April 2021): 67–76. http://dx.doi.org/10.1249/jes.0000000000000250.

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46

Watarai, Koji. "Sports Medicine and Exercise Therapy." TRENDS IN THE SCIENCES 4, no. 11 (1999): 75–77. http://dx.doi.org/10.5363/tits.4.11_75.

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47

Carnevale, Michael D., Gregory Hannum, Bryan Rudd, and Melissa W. Roti. "Exercise Is Medicine On Campus." Medicine & Science in Sports & Exercise 49, no. 5S (May 2017): 11. http://dx.doi.org/10.1249/01.mss.0000516838.99912.2f.

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48

Solmundson, Kara, Michael Koehle, and Don McKenzie. "Exercise Medicine In Residency Training." Medicine & Science in Sports & Exercise 48 (May 2016): 131. http://dx.doi.org/10.1249/01.mss.0000485391.12467.20.

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49

Cormie, Prue, Mark Trevaskis, Elysia Thornton-Benko, and Eva M. Zopf. "Exercise medicine in cancer care." Australian Journal of General Practice 49, no. 4 (April 1, 2020): 169–74. http://dx.doi.org/10.31128/ajgp-08-19-5027.

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50

Green, Daniel J. "Exercise Training as Vascular Medicine." Exercise and Sport Sciences Reviews 37, no. 4 (October 2009): 196–202. http://dx.doi.org/10.1097/jes.0b013e3181b7b6e3.

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