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      스마트폰 사용 자세에 따른 심폐기능 분석 = Analysis of Cardiopulmonary Function According to Smartphone Use Posture

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      https://www.riss.kr/link?id=A109408154

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      다국어 초록 (Multilingual Abstract) kakao i 다국어 번역

      Purpose : This study aimed to analyze cardiopulmonary function according to different smartphone usage postures, such as upright sitting, slumped sitting, side-lying, and prone. Methods : A total of 82 college students participated (54 males and 24 females). The forced vital capacity (FVC), forced expiratory volume in 1 second (FEV1), central venous oxygen saturation (SVC), and peripheral oxygen saturation (SpO2) were measured using a portable spirometer (Pony FX) in four different postures commonly adopted while using a smartphone (upright sitting, slumped sitting, side-lying, and prone) randomly. One-way repeated-measures analysis of variance was performed to determine the difference among the four postures. If a significant difference by posture was found, the Bonferroni test was performed as a post-hoc. Results : Significant differences were found in the lung function variables of FVC, FEV1, and FEV1/FVC on body positions (p<.05).
      The post-hoc analysis revealed that the FVC was lower in the side-lying and prone positions than in the upright and slumped sitting positions (p<.0125). The FEV1 was lower in the side-lying and prone positions than in the upright sitting and slumped sitting positions and was lower in the side-lying position than in the prone position (p<.0125). The FEV1/FVC was lower in the side-lying position than in the upright sitting position (p<.125). Conclusion : When using a smartphone, a sitting position that helps improve lung capacity and breathing efficiency, induces less pressure on the chest, does not restrict movements of the diaphragm, and is freer than in a prone or side-lying position is suggested.
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      Purpose : This study aimed to analyze cardiopulmonary function according to different smartphone usage postures, such as upright sitting, slumped sitting, side-lying, and prone. Methods : A total of 82 college students participated (54 males and 24 f...

      Purpose : This study aimed to analyze cardiopulmonary function according to different smartphone usage postures, such as upright sitting, slumped sitting, side-lying, and prone. Methods : A total of 82 college students participated (54 males and 24 females). The forced vital capacity (FVC), forced expiratory volume in 1 second (FEV1), central venous oxygen saturation (SVC), and peripheral oxygen saturation (SpO2) were measured using a portable spirometer (Pony FX) in four different postures commonly adopted while using a smartphone (upright sitting, slumped sitting, side-lying, and prone) randomly. One-way repeated-measures analysis of variance was performed to determine the difference among the four postures. If a significant difference by posture was found, the Bonferroni test was performed as a post-hoc. Results : Significant differences were found in the lung function variables of FVC, FEV1, and FEV1/FVC on body positions (p<.05).
      The post-hoc analysis revealed that the FVC was lower in the side-lying and prone positions than in the upright and slumped sitting positions (p<.0125). The FEV1 was lower in the side-lying and prone positions than in the upright sitting and slumped sitting positions and was lower in the side-lying position than in the prone position (p<.0125). The FEV1/FVC was lower in the side-lying position than in the upright sitting position (p<.125). Conclusion : When using a smartphone, a sitting position that helps improve lung capacity and breathing efficiency, induces less pressure on the chest, does not restrict movements of the diaphragm, and is freer than in a prone or side-lying position is suggested.

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      참고문헌 (Reference)

      1 곽혜미 ; 노은선 ; 박진희 ; 이다영 ; 이재연 ; 정찬주 ; 양회송 ; 허재원 ; 유영대, "피드백 호흡운동과 스트레칭 운동이 머리전방자세와 둥근어깨환자의 폐기능에 미치는 영향" 5 (5): 7-13, 2017

      2 한근혜, "청소년의 스마트폰 사용시간과 수면시간, 수면 만족도 및 신체활동과의 관련성" 16 (16): 333-341, 2022

      3 정미영, "중등도의 폐기능 저하가 있는 환자에서 맥박 산소계측기를 이용한 산소 포화도 측정시 협부와 수지에서 정확도 비교" 15 (15): 2000

      4 김재현 ; 최진영 ; 조인기 ; 정화정 ; 허은지 ; 임승범 ; 신다혜 ; 윤의정 ; 이지선 ; 이재인 ; 권미란 ; 정재헌 ; 김정윤 ; 정상미, "젊은 성인의 폐 기능 분석과 예측식 연구" 16 (16): 61-66, 2012

      5 정대인 ; 이한결, "유산소운동과 호흡운동을 병행한 복합운동이 코로나 경험 유무에 따라 심폐기능에 미치는 영향" 11 (11): 5-11, 2023

      6 윤희강 ; 이홍균, "슬링과 안정한 면에서의 푸쉬업 플러스 운동이 머리 전방 자세성인의 근활성도와 폐기능에 미치는 영향" 18 (18): 624-631, 2017

      7 김수현, "스마트폰에 대한 지각특성이 스마트폰 채택의도에 미치는 영향" 10 (10): 318-326, 2010

      8 소윤지 ; 우영근, "목 주위 근육 통증 여부에 따른 스마트폰 사용이 근 피로도와 통증, 목뼈운동범위에 미치는 영향" 21 (21): 28-37, 2014

      9 McKenzie R, "Treat your own neck" Spinal publications 1983

      10 Mohamed RSE, "The role of diaphragmatic ultrasound as a predictor of successful extubation from mechanical ventilation in respiratory intensive care unit" 15 : 1-10, 2021

      1 곽혜미 ; 노은선 ; 박진희 ; 이다영 ; 이재연 ; 정찬주 ; 양회송 ; 허재원 ; 유영대, "피드백 호흡운동과 스트레칭 운동이 머리전방자세와 둥근어깨환자의 폐기능에 미치는 영향" 5 (5): 7-13, 2017

      2 한근혜, "청소년의 스마트폰 사용시간과 수면시간, 수면 만족도 및 신체활동과의 관련성" 16 (16): 333-341, 2022

      3 정미영, "중등도의 폐기능 저하가 있는 환자에서 맥박 산소계측기를 이용한 산소 포화도 측정시 협부와 수지에서 정확도 비교" 15 (15): 2000

      4 김재현 ; 최진영 ; 조인기 ; 정화정 ; 허은지 ; 임승범 ; 신다혜 ; 윤의정 ; 이지선 ; 이재인 ; 권미란 ; 정재헌 ; 김정윤 ; 정상미, "젊은 성인의 폐 기능 분석과 예측식 연구" 16 (16): 61-66, 2012

      5 정대인 ; 이한결, "유산소운동과 호흡운동을 병행한 복합운동이 코로나 경험 유무에 따라 심폐기능에 미치는 영향" 11 (11): 5-11, 2023

      6 윤희강 ; 이홍균, "슬링과 안정한 면에서의 푸쉬업 플러스 운동이 머리 전방 자세성인의 근활성도와 폐기능에 미치는 영향" 18 (18): 624-631, 2017

      7 김수현, "스마트폰에 대한 지각특성이 스마트폰 채택의도에 미치는 영향" 10 (10): 318-326, 2010

      8 소윤지 ; 우영근, "목 주위 근육 통증 여부에 따른 스마트폰 사용이 근 피로도와 통증, 목뼈운동범위에 미치는 영향" 21 (21): 28-37, 2014

      9 McKenzie R, "Treat your own neck" Spinal publications 1983

      10 Mohamed RSE, "The role of diaphragmatic ultrasound as a predictor of successful extubation from mechanical ventilation in respiratory intensive care unit" 15 : 1-10, 2021

      11 손성민, "The effects of prolonged sitting in a cross-legged posture on pulmonary function in young adults" 34 (34): 1-5, 2022

      12 Madardam U, "The effect of laying down posture while using smartphone among school children in nakhon si thammarat, thailand" 73 (73): 2022

      13 Katz S, "The effect of body position on pulmonary function : a systematic review" 18 : 1-16, 2018

      14 Cailliet R, "Soft tissue pain and disability" F.A. Davis Company 1996

      15 Janwantanakul P, "Risk factors for the onset of nonspecific low back pain in office workers : a systematic review of prospective cohort studies" 35 (35): 568-577, 2012

      16 Kapreli E, "Respiratory dysfunction in chronic neck pain patients. A pilot study" 29 (29): 701-710, 2009

      17 Hasiholan BP, "Posture and musculoskeletal implications for students using mobile phones because of learning at home policy" 8 : 2022

      18 Perri M A, "Pain and faulty breathing : a pilot study" 8 (8): 297-306, 2004

      19 Miccinilli S, "Optoelectronic plethysmography to evaluate the effect of posture on breathing kinematics in spinal cord injury : a cross sectional study" 52 (52): 36-47, 2015

      20 Palermo P, "Lateral decubitus position generates discomfort and worsens lung function in chronic heart failure" 128 (128): 1511-1516, 2005

      21 Tsubaki A, "Influence of posture on respiratory function and respiratory muscle strength in normal subjects" 21 (21): 71-74, 2009

      22 Tonga E, "FRI0756-HPR evaluation of musculoskeletal complaints associated with smartphone use among university students and related risk factors" 1504 : 2017

      23 Thongchote K, "Effects of Exercises to Reduce Rounded Shoulder on Chest Expansion, Respiratory Muscle Strength And Pulmonary Function In COPD Patients" Srinakharinwirot University 2019

      24 Yap JC, "Effect of supine posture on respiratory mechanics in chronic left ventricular failure" 162 (162): 1285-1291, 2000

      25 Vanwala JJ, "Effect of different sitting postures on pulmonary function in young helthy individuals" 4 (4): 1396-1409, 2015

      26 Hojat B, "Effect of different sitting posture on pulmonary function in students" 2 (2): 29-33, 2011

      27 Haq K, "Effect of different body positions on pulmonary function of young healthy adults" 47 (47): 319-319, 2022

      28 Jacquier-Bret J, "Effect of day time on smartphone use posture and related musculoskeletal disorders risk : a survey among university students" 24 (24): 725-, 2023

      29 Umbrello M, "Diaphragm ultrasound as indicator of respiratory effort in critically ill patients undergoing assisted mechanical ventilation : a pilot clinical study" 19 : 1-10, 2015

      30 Can S, "Determination of musculoskeletal system pain, physical activity intensity, and prolonged sitting of university students using smartphone" 11 (11): 8-35, 2019

      31 Seo K, "An analysis of pulmonary function in different lying positions in the 20’s normal adults" 28 (28): 3063-3065, 2016

      32 대한결핵 및 호흡기학회, "2016 폐기능검사 지침" 메드랑 1-34, 2016

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