NJ Physical Therapy 10-Hour Summary Book - Works Cited

Works cited for "New Jersey Physical Therapy 10-Hour Summary Book - Exam PTNJ1025"

New Jersey Physical Therapy 10-Hour Summary Book - Exam PTNJ1025 Works Cited Components of Ethics for Physical Therapy Professionals Š Afzal, S., & Arshad, A. (2021). Ethical issues among healthcare workers using electronic medical records: a systematic review. Computer Methods and Programs in Biomedicine Update,1, 10030. https://doi.org/10.1016/j. cmpbup.2021.100030 Š American Association for Respiratory Care (AARC). (2021). AARC statement of ethics and professional conduct . https:// www.aarc.org/wp-content/uploads/2017/03/statement-of-ethics.pdf Š American Counseling Association (ACA). (2014). 2014 ACA code of ethics . https://www.counseling.org/docs/default- source/default-document-library/ethics/2014-aca-code-of-ethics.pdf?sfvrsn=55ab73d0_1 Š American Medical Association (AMA). (n.d). HIPAA violations & enforcement . https://www.ama-assn.org/practice- management/hipaa/hipaa-violations-enforcement Š American Nurses Association (ANA). (2015). Code of ethics for nurses with interpretive statements . https://www. nursingworld.org/practice-policy/nursing-excellence/ethics/code-of-ethics-for-nurses/ Š American Occupational Therapy Association (AOTA). (2020) AOTA 2020 Occupational therapy code of ethics. American Journal of Occupational Therapy. 74 (Suppl. 3), 7413410005p1-7413410005p13. doi: https://doi.org/10.5014/ ajot.2020.74S3006 Š American Occupational Therapy Association (AOTA). (2021). Enforcement procedures for the AOTA Occupational Therapy Code of Ethics. American Journal of Occupational Therapy, 75 (Suppl. 3), 7513430010. https://doi.org/10.5014/ ajot.2021.75S3006 Š American Physical Therapy Association (APTA). (2023). State laws and regulations governing dry needling performed by physical therapists . https://www.apta.org/patient-care/interventions/dry-needling/laws-by-state Š American Psychological Association (APA). (n.d). Ethical dilemma. APA Dictionary of Psychology . https://dictionary.apa. org/ethical-dilemma Š American Psychological Association (APA). (2017). Ethical principles of psychologists and code of conduc t. https://www. apa.org/ethics/code Š Ashby, W. (1950). Teleolgy and deontology in ethics. The Journal of Philosophy, 47 (26), 765-773. https://doi. org/10.2307/2020659 Š Beauchamp, T. L., & Childress, J. F. (2019). Principles of biomedical ethics (8th ed.). Oxford University Press. Š Benlahcene, A., Bin Zainuddin, R., Syakiran, N. & Bt Ismail, A. (2018). A narrative review of ethical theories: Teological & deontological ethics. IOSR Journal of Huminites and Social Sciences, 23 (7), 31-38. Š Bono, M. J., Wermuth, H. R., & Hipskind, J. E. (2022, October 31). Medical malpractice. StatPearls. https://www.ncbi.nlm. nih.gov/books/NBK470573/ Š Collings-Hughes, D., Townsend, R., & Williams, B. (2022). Professional codes of conduct: A scoping review. Nursing Ethics, 29 (1), 19-34. doi: 10.1177/09697330211008634 Š Doherty, R. (2020). Ethical dimensions in the health professions (7th ed.). Elsevier. Š Frankel, M. S. (1989). Professional codes: Why, how, and with what impact? Journal of Business Ethics, 8 (2-3), 109-115. Š Graf, W. D., Epstein, L. G., & Pearl, P. L. (2020). Practical bioethics during the exceptional circumstances of a pandemic. Pediatric Neurology, 108 , 3-4. https://doi.org/10.1016/j.pediatrneurol.2020.04.011 Š Krom, C. L., (2019). Disciplinary actions by state professional licensing boards: Are they fair? Journal of Business Ethics, 158 , 567-583. https://doi.org/10.1007/s10551-017-3738-5 Š Litz, B. T., & Kerig, P. K. (2019). Introduction to the special issue on moral injury: Conceptual challenges, methodological issues, and clinical applications, Journal of Traumatic Stress—Special Issue on Moral Injury, 32 (3), 341-349. https://doi. org/10.1002/jts.2240 Blood Flow Restriction Training: Understanding the Safety, Mechanisms, and Efficacy, 2nd Edition Š Abe, T., Fujita, S., Nakajima, T., Sakamaki, M., Ozaki, H., Ogasawara, R., et al. (2010). Effects of low-intensity cycle training with restricted leg blood flow on thigh muscle volume and VO2max in young men. Journal of Sports Science and Medicine, 9 , 452-458. Š Anderson, F. A., Jr, & Spencer, F. A. (2003). Risk factors for venous thromboembolism. Circulation, 107 (23 Suppl 1), I9- I16. https://doi.org/10.1161/01.CIR.0000078469.07362.E6 Š Arriel, R. A., Rodrigues, J. F., Souza, H. L. R. D., Meireles, A., Leitão, L. F. M., Crisafulli, A., & Marocolo, M. (2020). Ischemia–reperfusion intervention: From enhancements in exercise performance to accelerated performance recovery—A systematic review and meta-analysis. International Journal of Environmental Research and Public Health, 17 (21), 8161. Š Beaven, C. M., Cook, C. J., Kilduff, L., Drawer, S., & Gill, N. (2012). Intermittent lower-limb occlusion enhances recovery after strenuous exercise. Applied Physiology, Nutrition, and Metabolism, 37 (6), 1132-1139. Š Bond, C. W., Hackney, K. J., Brown, S. L., & Noonan, B. C. (2019). Blood flow restriction resistance exercise as a rehabilitation modality following orthopaedic surgery: A review of venous thromboembolism risk. Journal of Orthopaedic & Sports Physical Therapy, 49 (1), 17-27. https://doi.org/10.2519/jospt.2019.8375

Š Bowman, E. N., Elshaar, R., Milligan, H., Jue, G., Mohr, K., Brown, P., Watanabe, D. M., & Limpisvasti, O. (2019). Proximal, distal, and contralateral effects of blood flow restriction training on the lower extremities: A randomized controlled trial. Sports Health: A Multidisciplinary Approach, 11 (2), 149-156. https://doi.org/10.1177/1941738118821929 Š Centner, C., Jerger, S., Lauber, B., Seynnes, O., Friedrich, T., Lolli, D., Gollhofer, A., & König, D. (2022). Low-load blood flow restriction and high-load resistance training induce comparable changes in patellar tendon properties. Medicine and Science in Sports and Exercise, 54 (4), 582-589. https://doi.org/10.1249/MSS.0000000000002824 Š Centner, C., Lauber, B., Seynnes, O. R., Jerger, S., Sohnius, T., Gollhofer, A., & König, D. (2019). Low-load blood flow restriction training induces similar morphological and mechanical Achilles tendon adaptations compared with high-load resistance training. Journal of Applied Physiology , 127 (6), 1660-1667. https://doi.org/10.1152/ japplphysiol.00602.2019 Š Centner, C., Wiegel, P., Gollhofer, A., & König, D. (2018). Effects of blood flow restriction training on muscular strength and hypertrophy in older individuals: A systematic review and meta-analysis. Sports Medicine, 49 (1), 95-108. https:// doi.org/10.1007/s40279-018-0994-1 Š Christiansen, D., Murphy, R. M., Bangsbo, J., Stathis, C. G., & Bishop, D. J. (2018). Increased FXYD1 and PGC-1α mRNA after blood flow-restricted running is related to fibre type-specific AMPK signalling and oxidative stress in human muscle. Acta Physiology, 223, e13045. https://doi.org/10.1111/apha.13045 Š Chua, M. T., Sim, A., & Burns, S. F. (2022). Acute and chronic effects of blood flow restricted high-intensity interval training: A systematic review. Sports Medicine Open, 8 (1), 122. https://doi.org/10.1186/s40798-022-00506-y Š Citherlet, T., Willis, S. J., Chaperon, A., & Millet, G. P. (2022). Differences in the limb blood flow between two types of blood flow restriction cuffs: A pilot study. Frontiers in Physiology, 13 , 931270. https://doi.org/10.3389/ fphys.2022.931270 Š Clark, B. C., Manini, T. M., Hoffman, R. L., Williams, P. S., Guiler, M. K., Knutson, M. J., McGlynn, M. L., & Kushnick, M. R. (2011). Relative safety of 4 weeks of blood flow-restricted resistance exercise in young, healthy adults. Scandinavian Journal of Medicine & Science in Sports, 21 (5), 653-662. https://doi.org/10.1111/j.1600-0838.2010.01100.x Š Crisafulli, A., De Farias, R. R., Farinatti, P., Lopes, K. G., Milia, R., Sainas, G., Pinna, V., Palazzolo, G., Doneddu, A., Magnani, S., Mulliri, G., Roberto, S., & Oliveira, R. B. (2018). Blood flow restriction training reduces blood pressure during exercise without affecting metaboreflex activity. Frontiers in Physiology, 9 . https://doi.org/10.3389/ fphys.2018.01736 Š Dirks, M. L., Wall, B. T., Van de Valk, B., Holloway, T. M., Holloway, G. P., Chabowski, A., Goossens, G. H., & Van Loon, L. J. (2016). One week of bed rest leads to substantial muscle atrophy and induces whole-body insulin resistance in the absence of skeletal muscle lipid accumulation. Diabetes, 65 (10), 2862-2875. https://doi.org/10.2337/db15-1661 Š Fekri-Kurabbaslou, V., Shams, S., & Amani-Shalamzari, S. (2022). Effect of different recovery modes during resistance training with blood flow restriction on hormonal levels and performance in young men: a randomized controlled trial. BMC Sports Science, Medicine and Rehabilitation, 14 (1), 1-10. Š Formiga, M. F., Fay, R., Hutchinson, S., Locandro, N., Ceballos, A., Lesh, A., Buscheck, J., Meanor, J., Owens, J. G., & Cahalin, L. P. (2020). Effect of aerobic exercise training with and without blood flow restriction on aerobic capacity in healthy young adults: A systematic review with meta-analysis. International Journal of Sports Physical Therapy, 15 (2), 175-187. Š Fry, C. S., Glynn, E. L., Drummond, M. J., Timmerman, K. L., Fujita, S., Abe, T., Dhanani, S., Volpi, E., & Rasmussen, B. B. (2010). Blood flow restriction exercise stimulates mTORC1 signaling and muscle protein synthesis in older men. Journal of Applied Physiology, 108 (5), 1199-1209. https://doi.org/10.1152/japplphysiol.01266.2009 Š Garber, C. E., Blissmer, B., Deschenes, M. R., Franklin, B. A., Lamonte, M. J., Lee, I. M., Nieman, D. C., Swain, D. P., & American College of Sports Medicine. (2011). American College of Sports Medicine position stand. Quantity and quality of exercise for developing and maintaining cardiorespiratory, musculoskeletal, and neuromotor fitness in apparently healthy adults: Guidance for prescribing exercise. Medicine and Science in Sports and Exercise, 43 (7), 1334- 1359. https://doi.org/10.1249/MSS.0b013e318213fefb Š Grønfeldt, B. M., Lindberg Nielsen, J., Mieritz, R. M., Lund, H., & Aagaard, P. (2020). Effect of blood-flow restricted vs heavy-load strength training on muscle strength: Systematic review and meta-analysis. Scandinavian Journal of Medicine & Science in Sports, 30 (5), 837-848. https://doi.org/10.1111/sms.13632 Š Hammert, W. B., Moreno, E. N., Martin, C. C., Jessee, M. B., & Buckner, S. L. (2023). Skeletal muscle adaptations to high-load resistance training with pre-exercise blood flow restriction. Journal of Strength and Conditioning Research, 37 (12), 2381-2388. https://doi.org/10.1519/JSC.0000000000004553 Š Hansen, O. B., Papson, A., Eble, S. K., & Drakos, M. C. (2022). Effect of blood flow restriction therapy following Achilles rupture and repair: A randomized controlled trial. Foot & Ankle Orthopaedics, 7 (1), 2473011421S00032. https://doi. org/10.1177/2473011421S00032 Š Heitkamp, H. C. (2015). Training with blood flow restriction. Mechanisms, gain in strength and safety. The Journal of Sports Medicine and PHYSICAL FITNESS, 55 (5), 446-456. Š Held, S., Behringer, M., & Donath, L. (2020). Low intensity rowing with blood flow restriction over 5 weeks increases V̇O2max in elite rowers: A randomized controlled trial. Journal of Science and Medicine in Sport, 23 (3), 304-308. https:// doi.org/10.1016/j.jsams.2019.10.002 Š Hughes, L., Paton, B., Rosenblatt, B., Gissane, C., & Patterson, S. D. (2017). Blood flow restriction training in clinical musculoskeletal rehabilitation: A systematic review and meta-analysis. British Journal of Sports Medicine, 51 (13), 1003- 1011. https://doi.org/10.1136/bjsports-2016-097071

Š Hughes, L., & Patterson, S. D. (2020). The effect of blood flow restriction exercise on exercise-induced hypoalgesia and endogenous opioid and endocannabinoid mechanisms of pain modulation . Journal of Applied Physiology, 128 (4), 914-924. https://doi.org/10.1152/japplphysiol.00768.2019 Š Hughes, L., Rosenblatt, B., Haddad, F., Gissane, C., McCarthy, D., Clarke, T., Ferris, G., Dawes, J., Paton, B., & Patterson, S. D. (2019). Comparing the effectiveness of blood flow restriction and traditional heavy load resistance training in the post-surgery rehabilitation of anterior cruciate ligament reconstruction patients: A UK National Health Service randomised controlled trial. Sports Medicine, 49 (11), 1787-1805. https://doi.org/10.1007/s40279-019-01137-2 Š Jack, R. A., 2nd, Lambert, B. S., Hedt, C. A., Delgado, D., Goble, H., & McCulloch, P. C. (2023). Blood flow restriction therapy preserves lower extremity bone and muscle mass after ACL reconstruction. Sports Health, 15 (3), 361-371. https://doi.org/10.1177/19417381221101006 Š Jessee, M. B., Dankel, S. J., Buckner, S. L., Mouser, J. G., Mattocks, K. T., & Loenneke, J. P. (2017). The cardiovascular and perceptual response to very low load blood flow restricted exercise . International Journal of Sports Medicine, 38 , 597-603. https://doi.org/10.1055/s-0043-109555 Š Jiricka, M.bK. (2008). Activity tolerance and fatigue pathophysiology: Concepts of altered health states. In C. M. Porth (ed.), Essentials of Pathophysiology: Concepts of Altered Health States . Lippincott Williams & Wilkins. Š Kahn, S. R., & Shivakumar, S. (2020). What's new in VTE risk and prevention in orthopedic surgery. Research and Practice in Thrombosis and Haemostasis, 4( 3), 366-376. https://doi.org/10.1002/rth2.12323 Š Laurentino, G. C., Ugrinowitsch, C., Roschel, H., Aoki, M. S., Soares, A. G., Neves, M., Jr, Aihara, A. Y., Fernandes, A. daR., & Tricoli, V. (2012). Strength training with blood flow restriction diminishes myostatin gene expression. Medicine and Science in Sports and Exercise, 44 (3), 406-412. https://doi.org/10.1249/MSS.0b013e318233b4bc Š Li, S., Guo, R., Yu, T., Li, S., Han, T., & Yu, W. (2022). Effect of high-intensity interval training combined with blood flow restriction at different phases on abdominal visceral fat among obese adults: A randomized controlled trial. International Journal of Environmental Research and Public Health, 19 (19), 11936. https://doi.org/10.3390/ijerph191911936 Š Lindboe, C. F., & Platou, C. S. (1984). Effect of immobilization of short duration on the muscle fibre size. Clinical Physiology, 4 (2), 183-188. https://doi.org/10.1111/j.1475-097x.1984.tb00234.x Š Lixandrão, M. E., Ugrinowitsch, C., Berton, R., Vechin, F. C., Conceição, M. S., Damas, F., Libardi, C. A., & Roschel, H. (2017). Magnitude of muscle strength and mass adaptations between high-load resistance training versus low-load resistance training associated with blood-flow restriction: A systematic review and meta-analysis. Sports Medicine, 48 (2), 361-378. https://doi.org/10.1007/s40279-017-0795-y Š Loenneke, J. P., Wilson, J. M., Wilson, G. J., Pujol, T. J., & Bemben, M. G. (2011). Potential safety issues with blood flow restriction training. Scandinavian Journal of Medicine & Science in Sports, 21 (4), 510-518. https://doi.org/10.1111/j.1600- 0838.2010.01290.x Š Mattocks, K. T., Jessee, M. B., Counts, B. R., Buckner, S. L., Grant Mouser, J., Dankel, S. J., et al. (2017). The effects of upper body exercise across different levels of blood flow restriction on arterial occlusion pressure and perceptual responses. Physiology and Behavior, 171 , 181-186. https://doi.org/10.1016/j.physbeh.2017.01.015 Š Minniti, M. C., Statkevich, A. P., Kelly, R. L., Rigsby, V. P., Exline, M. M., Rhon, D. I., & Clewley, D. (2019). The safety of blood flow restriction training as a therapeutic intervention for patients with musculoskeletal disorders: A systematic review. The American Journal of Sports Medicine, 48 (7), 1773-1785. https://doi.org/10.1177/0363546519882652 Š Nakajima, T., Kurano, M., Iida, H., Takano, H., Oonuma, H., Morita, T., Meguro, K., Sato, Y., Nagata, T., & KAATSU Training Group. (2006). Use and safety of KAATSU training: Results of a national survey. International Journal of KAATSU Training Research, 2 (1), 5-13. https://doi.org/10.3806/ijktr.2.5 Š Nascimento, D. D. C., Petriz, B., Oliveira, S. D. C., Vieira, D. C. L., Funghetto, S. S., Silva, A. O., & Prestes, J. (2019). Effects of blood flow restriction exercise on hemostasis: A systematic review of randomized and non-randomized trials. International Journal of General Medicine, 12 , 91-100. https://doi.org/10.2147/IJGM.S194883 Š Odinsson, A., & Finsen, V. (2006). Tourniquet use and its complications in Norway. The Journal of Bone and Joint Surgery, 88-B (8), 1090-1092. https://doi.org/10.1302/0301-620x.88b8.17668 Š Park, S., Kim, J. K., Choi, H. M., Kim, H. G., Beekley, M. D., & Nho, H. (2010). Increase in maximal oxygen uptake following 2-week walk training with blood flow occlusion in athletes. European Journal of Applied Physiology, 109 (4), 591-600. https://doi.org/10.1007/s00421-010-1377-y Š Patterson, S. D., Hughes, L., Warmington, S., Burr, J., Scott, B. R., Owens, J., Abe, T., Nielsen, J. L., Libardi, C. A., Laurentino, G., Neto, G. R., Brandner, C., Martin-Hernandez, J., & Loenneke, J. (2019). Blood flow restriction exercise: Considerations of methodology, application, and safety. Frontiers in Physiology, 10 . https://doi.org/10.3389/ fphys.2019.00533 Š Pierce, J. R., Clark, B. C., Ploutz-Snyder, L. L., & Kanaley, J. A. (2006). Growth hormone and muscle function responses to skeletal muscle ischemia. 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Š Staunton, C. A., May, A. K., Brandner, C. R., & Warmington, S. A. (2015). Haemodynamics of aerobic and resistance blood flow restriction exercise in young and older adults. European Journal of Applied Physiology, 115 (11), 2293-2302. https:// doi.org/10.1007/s00421-015-3213-x Š Sinclair, P., Kadhum, M., & Paton, B. (2022). Tolerance to intermittent vs. continuous blood flow restriction training: A meta-analysis. International Journal of Sports Medicine, 43 (1), 3-10. https://doi.org/10.1055/a-1537-9886 Š Slysz, J., Stultz, J., & Burr, J. F. (2016). The efficacy of blood flow restricted exercise: A systematic review & meta-analysis. Journal of Science and Medicine in Sport, 19 (8), 669-675. https://doi.org/10.1016/j.jsams.2015.09.005 Š Song, Y., Wang, H., Chen, L., Shangguan, Y., & Jia, H. (2023). Effects of blood flow restriction training on bone turnover markers, microstructure, and biomechanics in rats. Frontiers in Endocrinology, 14 . https://doi.org/10.3389/ fendo.2023.1194364 Š Spitz, R. W., Wong, V., Bell, Z. W., Viana, R. B., Chatakondi, R. N., Abe, T., & Loenneke, J. P. (2020). Blood flow restricted exercise and discomfort: A review. Journal of Strength and Conditioning Research, 36 (3), 871-879. https://doi. org/10.1519/jsc.0000000000003525 Š Stray-Gundersen, S., Wooten, S., & Tanaka, H. (2020). Walking with leg blood flow restriction: Wide-rigid cuffs vs. narrow- elastic bands. Frontiers in Physiology, 11 . https://doi.org/10.3389/fphys.2020.00568 Š Swain, D. P., Abernathy, K. S., Smith, C. S., Lee, S. J., & Bunn, S. A. (1994). Target heart rates for the development of cardiorespiratory fitness. Medicine & Science in Sports & Exercise, 26 (1), 112-116. https://doi.org/10.1249/00005768- 199401000-00019 Š Takarada, Y., Nakamura, Y., Aruga, S., Onda, T., Miyazaki, S., & Ishii, N. (2000). Rapid increase in plasma growth hormone after low-intensity resistance exercise with vascular occlusion . Journal of Applied Physiology, 88 (1), 61-65. https://doi. org/10.1152/jappl.2000.88.1.61 Š Takarada, Y., Sato, Y., & Ishii, N. (2002). Effects of resistance exercise combined with vascular occlusion on muscle function in athletes. European Journal of Applied Physiology, 86 (4), 308-314. https://doi.org/10.1007/s00421-001-0561-5 Š Tanaka, Y., & Takarada, Y. (2018). The impact of aerobic exercise training with vascular occlusion in patients with chronic heart failure. ESC Heart Failure, 5 (4), 586-591. https://doi.org/10.1002/ehf2.12285 Š Taylor, C. W., Ingham, S. A., & Ferguson, R. A. (2016). Acute and chronic effect of sprint interval training combined with postexercise blood-flow restriction in trained individuals. Experimental Physiology, 101 , 143-154. https://doi.org/10.1113/ EP085293 Š Wang, Y., Li, Z., Tongtong, C., Zhang, W., & Li, X. (2023a). Effect of continuous and intermittent blood flow restriction deep-squat training on thigh muscle activation and fatigue levels in male handball players. Scientific Reports, 13 (1), 19152. https://doi.org/10.1038/s41598-023-44523-7 Š Wang, X., Wang, Y., Yang, X., Mohd Nasiruddin, N. J. B., Dong, D., Samsudin, S. B., & Qin, X. M. (2023b). Effects of blood flow restriction training on bone metabolism: A systematic review and meta-analysis. Frontiers in Physiology, 14 , 1212927. https://doi.org/10.3389/fphys.2023.1212927 Š Weatherholt, A. M., Vanwye, W. R., Lohmann, J., & Owens, J. G. (2019). The effect of cuff width for determining limb occlusion pressure: A comparison of blood flow restriction devices. International Journal of Exercise Science, 12 (3), 136- 143. Š Wernbom, M., Paulsen, G., Bjørnsen, T., Cumming, K., & Raastad, T. (2021). Risk of muscle damage with blood flow- restricted exercise should not be overlooked. Clinical Journal of Sport Medicine: Official Journal of the Canadian Academy of Sport Medicine, 31 (3), 223-224. https://doi.org/10.1097/JSM.0000000000000755 Š Wernbom, M., Schoenfeld, B. J., Paulsen, G., Bjørnsen, T., Cumming, K. T., Aagaard, P., Clark, B. C., & Raastad, T. (2020). Commentary: Can blood flow restricted exercise cause muscle damage? Commentary on blood flow restriction exercise: Considerations of methodology, application, and safety. Frontiers in Physiology, 11 , 243. https://doi.org/10.3389/ fphys.2020.00243 Š West, D. W., Kujbida, G. W., Moore, D. R., Atherton, P., Burd, N. A., Padzik, J. P., De Lisio, M., Tang, J. E., Parise, G., Rennie, M. J., Baker, S. K., & Phillips, S. M. (2009). Resistance exercise-induced increases in putative anabolic hormones do not enhance muscle protein synthesis or intracellular signalling in young men. The Journal of Physiology, 587 (Pt 21), 5239-5247. https://doi.org/10.1113/jphysiol.2009.177220 Š Wong, M. L., Formiga, M. 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