• 한국조리학회지
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• 제23권6호
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• pp.173-183
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• 2017

Conditions related to body composition and aging, such as osteopenic obesity, sarcopenia/ sarcopenic obesity, and the newly termed osteosarcopenic obesity(triad of bone, muscle and adipose tissue impairment), are beginning to gain recognition. Currently, it has begun to attract the attention of scholars from all over the world, however, for this disease, it still needs a more clear understanding and perception. Therefore, this article considered the osteoporosis, muscle depression, and obesity, these diseases as a gate to study the relationship among muscle, bone, and fat. In addition, in the aging process, the formation of IGF-cortisol, testosterone, and estrogen is sensitive. These hormones can not only absorb muscle protein metabolism, but also affect alienation. The decrease in IGF-cortisol in the elderly resulted in increased visceral fat, decreased muscle mass and bone mineral density, and then affected decreased skeletal muscle atrophy and decreased quality. The reduction of skeletal muscle quality and strength and increase body fat affected the adipose tissue to produce inflammatory cytokines, thereby reduced skeletal muscle, promoted cardiovascular disease, metabolic syndrome and insulin resistance in chronic diseases. Almost all chronic inflammatory diseases were associated with bone, muscle and fat. These mechanisms were complex and interrelated. Inflammation reduces bone formation, increases fat and reduces muscle mass. And thus not only had a significant impact on the motor system, but also made the incidence increase of fracture, osteoporosis, fragile syndrome, fall, osteomalacia and other bone disease. This article aimed to start from the interaction between the muscles and bones of the elderly, extended to obesity, muscle deficiency, osteoporosis and other diseases, finally, from a nutritional point of view, to discuss how to treat osteoporosis obesity.

• 한국진공학회:학술대회논문집
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• 한국진공학회 2015년도 제49회 하계 정기학술대회 초록집
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• pp.158-158
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• 2015

Myoblast are myogenic precursors that proliferate, activate, and differentiate on muscle injury to sustain the regenerative capacity of skeletal muscle; The neuronal isoform of nitric oxide synthase (nNOS, termed also NOS-I) is expressed in normal adult skeletal muscle, suggesting important functions for Nitric oxide (NO) in muscle biology1,2,3. However, the expression and subcellular localization of NO in muscle development and myoblast differentiation are largely unknown. In this study, we examined effects of the nitric oxide generated by a microwave plasma torch, on proliferation/differentiation of rat myoblastic L6 cells. Experimental data pertaining to nitric oxide production are presented in terms of the oxygen input in units of cubic centimetres per minute. The various levels of nitric oxide are observed depending on the flow rate of nitrogen gas, the ratio of oxygen gas, and the microwave power4. In order to evaluate the potential of nitric oxide as an activator of cell differentiation, we applied nitric oxide generated from the microwave plasma torch to L6 skeletal muscles. Differentiation of L6 cells into myotubes was significantly enhanced the differentiation after nitric oxide treatment. Nitric oxide treatment also increase the expression of myogenesis marker proteins and mRNA level, such as myogenin and myosin heavy chain (MHC), as well as cyclic guanosine monophosphate (cGMP), However during the myotube differentiation we found that NO activate oxidative stress signaling erks expression. Therefore, these results establish a role of NO and cGMP in regulating myoblast differentiation and elucidate their mechanism of action, providing a direct link with oxidative stress signalling, which is a key player in myogenesis. Based on these findings, nitric oxide generated by plasma can be used as a possible activator of cell differentiation and tissue regeneration.

• The Korean Journal of Physiology and Pharmacology
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• 제13권6호
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• pp.491-496
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• 2009

Skeletal muscle atrophy is a common phenomenon during the prolonged muscle disuse caused by cast immobilization, extended aging states, bed rest, space flight, or other factors. However, the cellular mechanisms of the atrophic process are poorly understood. In this study, we investigated the involvement of mitogen-activated protein kinase (MAPK) in the expression of muscle-specific RING finger 1 (MuRF1) during atrophy of the rat gastrocnemius muscle. Histological analysis revealed that cast immobilization induced the atrophy of the gastrocnemius muscle, with diminution of muscle weight and cross-sectional area after 14 days. Cast immobilization significantly elevated the expression of MuRF1 and the phosphorylation of p38 MAPK. The starvation of L6 rat skeletal myoblasts under serum-free conditions induced the phosphorylation of p38 MAPK and the characteristics typical of cast-immobilized gastrocnemius muscle. The expression of MuRF1 was also elevated in serum-starved L6 myoblasts, but was significantly attenuated by SB203580, an inhibitor of p38 MAPK. Changes in the sizes of L6 myoblasts in response to starvation were also reversed by their transfection with MuRF1 small interfering RNA or treatment with SB203580. From these results, we suggest that the expression of MuRF1 in cast-immobilized atrophy is regulated by p38 MAPK in rat gastrocnemius muscles.

• 대한수의학회지
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• 제33권3호
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• pp.465-469
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• 1993

낭미충(Cysticercus cellutosae)에 자연감염된 돼지의 각 장기를 조직학적으로 검사하였던 바 다음과 같은 결과를 얻었다. 피막을 형성하는 낭미충은 골격근, 파하직, 심장 및 뇌조직에서 관찰되었다. 조직학적 소견으로는 골격근의 근막내와 심장 심외막하에서 낭충주위는 피막의 형성과 함께 급성 염증반응이 인정되었고 부위에 따라서는 교원섬유 및 선유아세포의 증식에 의한 두터운 피막이 관찰되었고 인접한 골격근 또는 심근과 견고하게 부착된 예도 있었다. 피막주위에서는 호산구, 임파구, 대식세포의 침윤이 부위에 따라 경미하거나 또는 심한 형태로 다양하였다. 대뇌의 연막하에 형성된 피막주위에는 혈관과 결합조직의 증식이 현저하였고, 혈관주위 원형세포의 침윤과 임파결절 모양의 구조가 인정되었다. GFAP 면역반응은 혈관주위를 따라 GFAP 양성의 섬유가 잘 발달되었고 피막낭 외측을 따라 전체를 둘러싸는 경항이었다. 결론적으로 유구낭미충 감염돼지의 조직소견은 감염 장기에 따라 염증반응이 다양하고 낭충의 피막은 감염 초기에 형성된 것으로 추정되었다.

• 대한의생명과학회지
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• 제2권1호
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• pp.91-108
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• 1996

본 실험은 골격의 위축이 일어난 노화 횐 쥐를 사용하여 단기간동안 트레드밀 훈련과 웨이트 트레이닝을 시켰을 때 골격근에 나타나는 변화들을 고찰하고자 고안되었다. 출생 후 24개월 된 수컷 횐 쥐를 사용하여 대조군과 트레드밀 훈련군, 웨이트 트레이닝군으로 구분하여 각 군별로 4주간 훈련시켜 각 군의 골격근은 조직 및 조직화학, 미세구조 및 세포 화학적 연구 및 입체해석학적 연구에 적용하였다. 각 훈련 기간동안 개체의 체중과 근육의 무게는 큰 변화가 없었고, 근섬유의 분포양상은 트레드밀 훈련군에서는 IIB형과 IIC형이 증가를 한 반면 IIA형은 감소를 하였고 I형의 근섬유 조성은 변화가 없었다 웨이트 트레이닝 후에는 IIA와 IIB형이 증가를 한 반면 IIC형은 감소하였다. 그러나 모든 근섬유 조성의 변화에는 유의성이 없었다. 노화 대조군의 조직구조 및 미세구조의 특징은 노화색소의 출현, 약한 수축대의 출현, 근섬유들의 분할현상 등이 관찰되었다 트레드밀 훈련 후에는 손가락형의 돌출부를 포함한 근초의 불규칙성이 나타났으며, 밝은 띠의 확장으로 인한 Z-선의 불규칙한 배열, 공포화, 장축과 평행한 근섬유의 분할현상이 나타났으며, 웨이트 트레이닝 후에는 많은 용해소체들과 함께 포식소자를 함유한 자가용해소체들이 나타났으며 심한 수축대가 나타났고 근원섬유들의 배열이 와해되는 현상도 나타났다. 조직화학 및 세포화학적인 측면에서 succinic dehydrogenase와 acid phosphatase는 활성도의 변화가 거의 없었으며, $Mg^{++}$-­ATPase의 활성은 훈련 후 약간 감소하는 경향이었다. 미세구조의 입체해석학적 분석에서는 측량한 구조물들의 체적밀도와 수밀도는 변화가 거의 없었고 사립체 내막의 표면밀도만 트레드밀 훈련군에서 증가되었다. 이상의 결과에서 볼 때 단기간의 지구력 훈련을 실시할 경우는 노화 골격근은 잘 적응하여 골격근의 위축 방지에 효율적이었으나 웨이트 트레이닝은 노화 골격근의 위축방지에 영향을 주지 못하였다.

• Tuberculosis and Respiratory Diseases
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• 제44권3호
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• pp.583-591
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• 1997

연구배경 : 만성폐질환 환자들의 운동 능력 감소의 한 기전으로 제시되고 있는 골격근의 기능 저하는 질환의 병태생리에 기인하는 만성적인 저산소증으로 야기되는 산소성 인산화과정의 장애로 인한 근육 대사과정의 변화가 주요 원인으로 알려져 있다. 그러나 저산소증은 없으나 운동시 호흡곤란을 호소하며 운동능력의 감소를 나타내는 만성폐질환 환자들에서도 이러한 근육 대사 과정의 변화가 나타나는지에 대해서는 연구된 바 없다. 이에 저자들은 $^{31}P$ MRS를 이용하여 이들에서 전박 골격근의 대사 변화를 비슷한 연령의 정상인의 대사와 비교 관찰하므로써, 이들에서도 운동 능력 감소의 한기전으로서 역시 골격근의 대사 변화가 관여할 가능성을 알아보고자 하였다. 연구방법 : 6 명의 만성폐쇄성폐질환 남자 환자 및 1명의 폐유육종증 남자 환자와 5명의 비슷한 연령의 건강한 성인 남자들의 전박근을 대상으로 $^{31}P$ MRS 검사를 실시하였다. 환자군의 평균 연령은 $56.7{\pm}12.1$세였으며 대조군의 평균 연령은 $51.6{\pm}13.6$세였다. 각 대상인의 전박 골격근을 대상으로 $^{31}P$ MRS검사를 안정시, 운동시 및 20분간의 회복시에 걸쳐 시행하였으며, 검사 중 계산된 세포내 산소성인산화 능력을 반영하는 Pi/PCr(inorganic phosphate/phosphocreatine)의 비와 세포내 pH(pHi)의 변화를 양군간에 비교하였다. 결 과 : 안정시 골격근 세포내 pHi는 양군간에 차이가 없었으나, 운동시작 2분후 pHi는 환자군이 $6.82{\pm}0.1$, 대조군이 $6.97{\pm}0.05$로 환자군에서 유의하게 낮았다. 그러나 극심한 피로상태에서 pHi는 환자군이 $6.70{\pm}0.10$, 대조군이 $6.78{\pm}0.09$로 환자군이 낮은 경향을 보였으나 통계적으로 유의한 차이는 없었다. 근육세포 내 산소성인산화 능력이 지표인 Pi/PCr은 안정시, 운동중 및 극심한 피로상태에서 모두 양군간에 통계적으로 유의한 차이는 없었다. 회복시 초기 4분간에 걸쳐 관찰한 Pi/PCr의 회복 및 pHi가 안정시 50%수준으로 회복되는데는 시간은 양군간에 차이가 없었으며, 운동지속 시간도 유의한 차이는 없었다.

• 대한한의학방제학회지
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• 제25권4호
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• pp.499-508
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• 2017

Objectives : Skeletal muscle atrophy occurs in response to a variety of conditions. The unloading to muscle occurs clinically in limb immobilization, bed rest, spinal cord injury and peripheral nerve damage, resulting in significant loss of muscle mass and force production. Muscle disuse is accompanied by an increase in apoptotic signaling, which mediates some of the responses to unloading in the muscle. In this study we tested the hypothesis that Daeyeoung-jeon extract would improve muscle recovery after reloading following disuse. Method : Twenty young male Sprague-Dawley rats were used for the studies. The hindlimb immobilization was performed with casting tape to keep the left ankle joint in a fully extended position. No intervention was performed on the right leg and used as intact region. The Rats in Daeyeoung-jeon treated group (DYJ) were orally administrated Daeyeoung-jeon water extract, and rats of Control group were given with saline only. After 2 weeks of immobilization, all animals were sacrificed, and the whole gastrocnemius muscles were dissected from both legs. The morphology of right and left gastrocnemius muscles in both DYJ and Control groups were assessed by hematoxylin and eosin staining. Moreover, to investigate the immobilization-induced muscular apoptosis, the immunohistochemical analysis of Bax and Bcl-2 was carried out. Results : Daeyeoung-jeon represented the significant protective effects against the reductions of the left gastrocnemius muscles weight and average cross section area to compared with Control group. The treatment with Daeyeoung-jeon extract significantly reduced the immunoreactivity of BAX and increased the immunoreactivity of Bcl-2 in gastrocnemius muscle compared with Control group. Conclusion : Daeyeoung-jeon has protective effects against immobilization-induced muscle atrophy by regulating the activities of apoptosis-associated BAX/Bcl-2 proteins in gastrocnemius muscle.

• 대한임상전기생리학회지
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• 제9권1호
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• pp.35-39
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• 2011

Purpose : The purpose of this study was to determine changes in muscle activity due to elastic taping at the rectus femoris, biceps femoris and tibialis anterior muscles using surface electromyography analysis. Methods : In this study 10 healthy university students in the Department of Taekwondo Studies were screened and individuals with a history of previous injury or surgery to their nerve, muscle, and skeletal systems, such as paresthesia and motor disorder, were excluded. Subjects were taped over the rectus femoris, biceps femoris, and tibialis anterior and their muscle activities were analyzed using the surface electromyography method during maximal voluntary isometric contraction. Results : The results of this study were as follows: muscle activities indicated a significant increase after elastic taping than before at the rectus femoris, biceps femoris, and tibialis anterior muscle. These results lead us to the conclusion that muscle activity were influenced by elastic taping at the rectus femoris, biceps femoris, and tibialis anterior muscles. Conclusion : The results of this study show that muscle activity can be improved by elastic taping at the lower limbs. These results suggest that elastic taping of muscles in the lower extremities has the capability to increase muscle activity in the body.

• 대한기계학회논문집A
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• 제35권7호
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• pp.785-790
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• 2011

본 연구에서는 인체의 하지부를 다물체 시스템으로 모델링하여 무릎관절에 걸리는 구속력의 불확실성을 추정하였다. 일반적으로 근육의 기계적인 특성은 Hill-type muscle model 이 사용되며 여기에 적용되는 인체의 특성과 해부학적인 데이터는 지난 십 수년 동안 크게 발전되었다. 그러나 정확하게 그것들을 안다는 것은 불가능하며 개인마다 다른점을 고려해야 할 필요가 있다. 본 논문에서는 Hill-type muscle model 과 함께 인체의 해부학적인 데이터를 통계 방법론을 이용하여 무릎 관절에 걸리는 구속력의 불확실성을 추정하였다. 초기 앉아있는 자세에서 일어서는 과정에서 작용하는 구속력을 추정하였으며 이때 인체 하지 근육의 특성을 musculoskeleton-actuator 를 이용하여 해석하였다.

• 한국전문물리치료학회지
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• 제29권3호
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• pp.187-193
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• 2022

Background: Neuromuscular electrical stimulation (NMES) is a physical modality used to activate skeletal muscles for strengthening. While voluntary muscle contraction (VMC) follows the progressive recruitment of motor units in order of size from small to large, NMES-induced muscle contraction occurs in a nonselective and synchronous pattern. Therefore, the outcome of muscle strengthening training using NMES-induced versus voluntary contraction might be different, which might affect balance performance. Objects: We examined how the NMES training affected balance and proprioception. Methods: Forty-four young adults were randomly assigned to NMES and VMC group. All participants performed one-leg standing on a force plate and sat on the Biodex (Biodex R Corp.) to measure balance and ankle proprioception, respectively. All measures were conducted before and after a training session. In NMES group, electric pads were placed on the tibialis anterior, gastrocnemius, and soleus muscles for 20 minutes. In VMC group, co-contraction of the three muscles was conducted. Outcome variables included mean distance, root mean square distance, total excursion, mean velocity, 95% confidence circle area acquired from the center of pressure data, and absolute error of dorsi/plantarflexion. Results: None of outcome variables were associated with group (p > 0.35). However, all but plantarflexion error was associated with time (p < 0.02), and the area and mean velocity were 37.0% and 18.6% lower in post than pre in NMES group, respectively, and 48.9% and 16.7% lower in post than pre in VMC group, respectively. Conclusion: Despite different physiology underlying the NMES-induced versus VMC, both training methods improved balance and ankle joint proprioception.