Luis Carlos Matos 1 and Claudia Maria Sousa 1 and Mario Gonçalves 1, 2, 3 and Joaquim Gabriel 4 and Jorge Machado 1, 5 and Henry Johannes Greten 1, 2, 3
Academic Editor:Shirley Telles
1, Instituto de Ciências Biomedicas Abel Salazar (ICBAS), Universidade do Porto, Largo Professor Abel Salazar 2, 4099-030 Porto, Portugal
2, German Society of Traditional Chinese Medicine, Karlsruher Straße 12, 69126 Heidelberg, Germany
3, Heidelberg School of Chinese Medicine, Karlsruher Straße 12, 69126 Heidelberg, Germany
4, Departamento de Engenharia Mecânica, Faculdade de Engenharia da Universidade do Porto, Rua Dr. Roberto Frias, s/n, 4200-465 Porto, Portugal
5, Porto Biomechanics Laboratory (LABIOMEP), University of Porto, Rua Dr. Placido Costa 91, 4200 450 Porto, Portugal
Received 29 August 2014; Revised 19 December 2014; Accepted 17 January 2015; 7 June 2015
This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
1. Introduction
The contemporary understanding of the diagnosis in Traditional Chinese Medicine (TCM) considers TCM as a traditional model of vegetative system biology with the purpose of a systemic therapeutic approach [1-8]. Within this concept, Qigong is understood as a traditional vegetative biofeedback therapy consisting of concentrative motion and postures combined with breathing exercises. Actually the "qi activation" is achieved by breath control and a special mental state of "awareness" [9, 10], thereby improving and strengthening the overall state of vegetative regulation (homeostasis) [1, 11-15].
Several studies on Qigong -related effects concerning physiological processes and variables have been published elsewhere. Actually some of these studies point to significant changes on parameters such as the blood pressure, heart rate and variability, decrease of plasma triglycerides, total cholesterol and low density lipoprotein (LDL) cholesterol, increase of HDL cholesterol, skin temperature, and improvement in lung functions such as the increment in forced expiratory volume and the reduction in the number of exacerbations, between others [16-22].
One of the prime benefits of Qigong seems to be stress reduction, and one of the main concepts of this practice is to use the mind to guide activation and deactivation patterns by imagination. Excessive stress may have a negative impact on the health state of a person and may be associated with an increase of anxiety, psychological disorders, and functional impairments of organs within the body [11]. It was shown that Qigong training may reduce emotional exhaustion and depersonalisation and even improves anxiety and reinforce attention and effectiveness in high school students [23-34].
Although in some European countries Qigong is considered and supported by the health systems as a preventive measure, training programs for children are not widely spread. As this is possibly due to a lack of data, we were interested in a further understanding of the modes of action of Qigong . We chose the so-called "White Ball" exercise system, as it takes 5 min to do it and can be integrated at work or at school [9, 10].
In its traditional understanding, TCM holds that "qi ," a functional power in the body, may be seen in functional physical signs. These are related to measurable physiological processes and aspects such as the increase of the peripheral microcirculation, thus the increase of the skin temperature and the changes on acupoints electrical potential and resistance and even on the surrounding biomagnetic field [24, 35-37]. Objective detection methods to evaluate the physical effects of Qigong therefore are an important prerequisite for the development of clinical study designs. Some authors have reported significant changes in the intensity and frequency of the infrared radiation emitted from the hands of Qigong practitioners, as well as detection of dynamic changes of temperature by thermography [24, 38, 39]. Qin et al. (1997) suggested that infrared thermography could be used to measure the dynamic changes of temperature in the hands and arms during Qigong practice [39].
We had previously refined this method and shown that young flutists, suffering from cold hands and elevated heart rate before auditions, would show elevation of hands temperature and reduction of anxiety-induced heart rate after the Qigong exercises and along the training program. We were now interested whether this effect was only to be seen while training was going on or whether Qigong exercises can result in stable changes of the functional vegetative repertoire, which we could even call a remodelling of vegetative functions and pathways. In this sense, stable changes of vegetative functional reactions would explain long-term effects of Qigong by the remodelling of vegetative functional patterns. It would also explain some of the positive long-term emotional changes, as emotionality and body experience are understood as interrelated [5, 40].
2. Materials and Methods
2.1. Sampling and Study Design
A group of seven healthy Caucasian volunteer children, aged between 10 and 12 years, six females and one male, students of flute from a local music academy, and without any previous experience in Qigong, were examined for Qigong -related effects against performance-related anxiety in well-controlled conditions [25]. In addition to the physiological measurements of that study, we could examine the effects of the exercises by thermography of the hands prior to and after a seven-week Qigong training program. Control experiments were conducted with the same individuals, so each one performed two consecutive measurements, the baseline or control and the Qigong exercise. In these two assays, the adopted physical posture was the same; however, the intention, mind focus, or the achievement of a "special mental state of awareness" was completely different.
2.2. Infrared Thermography
Experiments were performed at a mean room temperature of 20°C measured with a type K thermocouple connected to a Labfacility digital thermometer, model 2000L. An Infrared camera from FLIR, model A325 (sensibility < 0.07°C; precision ±2%), was used and supported by a tripod, placed 2 metres away from the target. Capture and image analysis were carried out with the program ThermaCAM Researcher Pro 2.9 from FLIR Systems, and the recording frequency was one photo every ten seconds.
2.3. Qigong Posture and Training
The Qigong exercise selected for this study was the "White Ball" standing exercise according to the Heidelberg Model of TCM as described in detail elsewhere [10]. In brief, the exercise chosen from this system includes a nondynamic basic Qigong posture, similar to the Wu Chi posture in the Zhan Zhuang system [41-43], minimizing the effects of physical movement. In the exercise, the imagination of holding the ball in front of the abdomen (so-called lower Dantian ) is used to induce a sensation traditionally referred to as "qi " sensation, similar to "deqi" sensation observed in acupuncture. Children were instructed to do the exercise daily for seven weeks. They had accompanied training for 30 minutes with an experienced Qigong practitioner twice a week.
2.4. Statistical Analysis
The following variables were considered in the thermography analysis: final temperature on the tip of the middle finger (FT TMF); activation time (AT: time to increase 1°C on the tip of the middle finger); final temperature on Laogong , Pc8 (FT Pc8); heating rate (HeatR-°Cs-1 ).
Pearson correlation analysis and principal components analysis (PCA) were performed to detect structure in the relationships between variables. Eigenvalues were observed and two factors were enough to explain almost all the variabilities. Results are shown as figures and tables. Pearson correlation analysis and PCA were performed with Statistica for Windows release 6.0.
3. Results and Discussion
In brief, thermography indicated changes of local microcirculation during the exercises as shown in Figure 1.
Figure 1: Thermograms of the Qigong exercise ((a) before; (b) after).
(a) [figure omitted; refer to PDF]
(b) [figure omitted; refer to PDF]
Statistically significant changes in temperature measured by thermography occurred during the exercises and at the beginning and at the endpoint of the observation interval. Highly significant differences ( [figure omitted; refer to PDF] ) were obtained when comparing the first and second assays with the respective baselines. Moreover, when comparing the first with the second assays no statistically significant differences were obtained ( [figure omitted; refer to PDF] ). This could be an indicator that this group of children quickly developed the capacity of vegetative activation through Qigong practice being able to minimize anxiety-induced cold hands in a short period of time and on demand as a part of the child reactive repertoire. Furthermore, there was an improvement on the performance of almost every child along the Qigong program, with a tendency to a homogeneous response on the measured vegetative effects, as can be seen when comparing the PCA results shown in Figures 2 and 3. On the mentioned figures, dots are plotted according to the PCA scores related to the variables (Figure 4) and represent each child, before (b) and after (a) the Qigong program. Moreover, dots plotted on Figure 3 are close to each other, thus indicating a group tendency that reflects the vegetative conditioning of positive physiological effects within the program.
Figure 2: Principal components analysis (PCA) concerning the variables FT TMF, AT, FT Pc8, and HeatR at the beginning of the Qigong program.
[figure omitted; refer to PDF]
Figure 3: Principal components analysis (PCA) concerning the variables FT TMF, AT, FT Pc8, and HeatR at end of the Qigong program.
[figure omitted; refer to PDF]
Figure 4: PCA variables projection on the graphical plane: (a) before and (b) after the Qigong program.
(a) [figure omitted; refer to PDF]
(b) [figure omitted; refer to PDF]
As can be seen in Figure 5, with exception of child B, there was a general noticeable increase of the heating rate at the end of the Qigong training program. This means that children developed the ability to quickly activate and increase the hands microcirculation, thus increasing the hands temperature in a shorter period of time.
Figure 5: Heating rate for each child (A to G) in the baseline assay and at the beginning and end of the Qigong training program.
[figure omitted; refer to PDF]
The time until physiological activation was less than 2 minutes in all examined cases. The results indicate that, like in other Qigong exercises, the system of the "White Ball" can change the temperature of the skin as shown by thermography. Unlike other "qi " exercise cycles in TCM, the "White Ball" system is only a short exercise of approximately 5 minutes. The short duration nature of this Qigong exercise can be confirmed by the activation time of less than 2 minutes in all tested individuals.
Heart rate results point to a significant decrease of this variable along the Qigong program, thus indicating a higher level of relaxation and a lower level of anxiety. Actually the mean heart rate at the beginning of the program was 102.9 beats per minute, with a standard deviation of 20.5 beats per minute and at the end these values were 92.0 and 17.2, respectively.
As can be seen in Table 1, the heating rate correlates negatively with the heart rate, meaning that the heart rate tends to decrease as the faster hands temperature gets higher. Oppositely, the final temperature on the tip of the middle finger (FT TMF) correlates positively with the heating rate, thus indicating that the faster the heating rate, the higher the FT TMF. In both cases, the correlation coefficient [figure omitted; refer to PDF] is higher for the results of the second assay, pointing to an improvement of the Qigong group.
Table 1: Correlation between the heating rate (HeatR) and the heart rate (HR) and final temperature on the tip of the middle finger (FT TMF) at the beginning and ending of the Qigong training program.
Variable | HR | FT TMF |
HeatR beginning | [figure omitted; refer to PDF] = -0.423 | [figure omitted; refer to PDF] = 0.764 |
[figure omitted; refer to PDF] = 0.345 | [figure omitted; refer to PDF] = 0.045 | |
| ||
HeatR ending | [figure omitted; refer to PDF] = -0.625 | [figure omitted; refer to PDF] = 0.878 |
[figure omitted; refer to PDF] = 0.133 | [figure omitted; refer to PDF] = 0.009 |
4. Conclusions
Our findings show that children quickly learned this Qigong system with obvious development of individual vegetative skills and the reduction of anxiety-induced effects. These effects were stable after weeks of training, allowing for playing the flute with warm fingers and reduction of the anxiety-reduced elevation of the heart rate even without prior application of Qigong exercises. It seems that these positive vegetative changes in the behavioural pattern appear to be naturally available on demand in critical stressful situations as a part of the child reactive behavioural repertoire. We consider this to be an effect by conditioning a vegetative new pattern. Therefore, our data suggest that, by the exercise, a change in the functional vegetative pattern is first elicited. This may be then engrammed and conditioned to be elicited by another stimulus, in this case the context of flute and audition. Having to audit then elicits a functional pattern that is free from anxiety-induced manifestations of the vegetative system.
Overcoming the dysfunctional and disturbing effects of individual challenges in life may be considered to be a necessity for the prevention of a number of constellations like blackouts in examinations, failure in professional presentations, panic attacks, and states of anxiety and burn-out. Our data suggest that Qigong , if correctly understood and practised, may be a useful tool in this context.
Our data may also be helpful in the demystification of Chinese Medicine. Thermography allows visualizing the effects of the microcirculation on the hands temperature during Qigong practice. Actually, TCM holds that the "mind" guides the "qi " which guides the "xue " (blood).
The Heidelberg model of TCM sees strong analogies of the effects of "xue " as described by the classical scriptures with the clinical effects of microcirculation in Western medicine. Therefore, "qi ," translated by this model as a vegetative functional capacity, guides and steers the microcirculation. In other words, this old phrase from classical scriptures can be demystified as "the mind" (imagination and awareness) can guide and therefore activate vegetative capacities, which in return lead to changes in microcirculation.
We believe that such demystifying approaches to the corpus medicus of Chinese Medicine may be helpful to objectify its vegetative mechanisms underlying Qigong therapy and acupuncture. These exercises should be further explored and demystified as an ancient form of vegetative biofeedback therapy with long clinical experience.
The "White Ball" system is a simple, short duration Qigong exercise, easy to learn, that does not require much space, with positive effects on anxiety and stress management. It could be a powerful tool in the management of these disorders even when used in a classroom, at work, or elsewhere. As the conditioning effect may be more pronounced in the developing nervous system, these helpful patterns may be especially worthwhile and effective in children. Therefore, the supposed mechanisms of conditioning positive vegetative behavioural patterns suggest the application of these exercises especially at a young age.
Acknowledgment
The authors would like to thank Petra Fröschen, Heidelberg School of Chinese Medicine, for writing and editing assistance and for reviewing the paper.
Conflict of Interests
The authors declare that there is no conflict of interests regarding the publication of this paper.
[1] H. J. Greten, Y. Xia, G. H. Ding, G. C. Wu, "Chinese medicine as a model of system biology-diagnosis as the foundation of acupoint selection," Current Research in Acupuncture , of Research Monograph, Springer, Berlin, Germany, 2012.
[2] H. J. Greten 2009 (German) Checkliste Chinesische Phytotherapie , Hippokrates, Stuttgart, Germany
[3] H. J. Greten Understanding TCM. The Fundamentals of Chinese Medicine, Part I , Heidelberg School, Heidelberg, Germany, 2013.
[4] H. J. Greten Understanding TCM. The Fundamentals of Chinese Medicine. Part II , Heidelberg School Editions, 2014.
[5] H. J. Greten Kursbuch Traditionelle Chinesische Medizin: TCM Verstehen und Richtig Anwenden , Thieme, Stuttgart, Germany, 2007.
[6] H. J. Greten, "Chinese medicine as vegetative systems biology: part I: therapeutic methods," HNO , vol. 59, no. 12, pp. 1160-1164, 2011.
[7] H. J. Greten, "Chinese medicine as vegetative systems biology. Part II: the structure of TCM diagnosis," HNO , vol. 59, no. 12, pp. 1165-1175, 2011.
[8] S. Sertel, H. J. Greten, H.-J. Kraemer, T. Efferth, P. K. Plinkert, I. Baumann, "Evaluation of quality of life in patients treated with traditional Chinese medicine," The Open Otorhinolaryngology Journal , vol. 4, no. 1, pp. 62-67, 2010.
[9] H. J. Greten Understanding TCM: Scientific Chinese Medicine-The Heidelberg Model. Course Version , 2008.
[10] H. J. Greten Handbook of Functional Therapeutic Qigong I-Exercises According to Diagnosis , 2009.
[11] K. M. Sancier, D. Holman, "Commentary: multifaceted health benefits of medical qigong," The Journal of Alternative and Complementary Medicine , vol. 10, no. 1, pp. 163-165, 2004.
[12] M. S. Lee, J.-W. Jang, H.-S. Jang, S.-R. Moon, "Effects of Qi-therapy on blood pressure, pain and psychological symptoms in the elderly: a randomized controlled pilot trial," Complementary Therapies in Medicine , vol. 11, no. 3, pp. 159-164, 2003.
[13] B. M. Y. Cheung, J. L. F. Lo, D. Y. T. Fong, M. Y. Chan, S. H. T. Wong, V. C. W. Wong, K. S. L. Lam, C. P. Lau, J. P. E. Karlberg, "Randomised controlled trial of qigong in the treatment of mild essential hypertension," Journal of Human Hypertension , vol. 19, no. 9, pp. 697-704, 2005.
[14] L. Xin, Y. D. Miller, W. J. Brown, "A qualitative review of the role of Qigong in the management of diabetes," The Journal of Alternative and Complementary Medicine , vol. 13, no. 4, pp. 427-433, 2007.
[15] M. S. Lee, K. W. Chen, K. M. Sancier, E. Ernst, "Qigong for cancer treatment: a systematic review of controlled clinical trials," Acta Oncologica , vol. 46, no. 6, pp. 717-722, 2007.
[16] C. Chang, G. Tsai, C.-J. Hsieh, "Psychological, immunological and physiological effects of a Laughing Qigong Program (LQP) on adolescents," Complementary Therapies in Medicine , vol. 21, no. 6, pp. 660-668, 2013.
[17] D.-H. Yu, J.-M. Wu, A.-J. Niu, "Health-promoting effect of LBP and healthy Qigong exercise on physiological functions in old subjects," Carbohydrate Polymers , vol. 75, no. 2, pp. 312-316, 2009.
[18] A. W. K. Chan, A. Lee, D. T. F. Lee, L. K. P. Suen, W. W. S. Tam, S. Y. Chair, P. Griffiths, "The sustaining effects of Tai chi Qigong on physiological health for COPD patients: a randomized controlled trial," Complementary Therapies in Medicine , vol. 21, no. 6, pp. 585-594, 2013.
[19] T.-C. Kuo, F.-M. Ho, C.-W. Lin, "Physiological changes associated with Neiyang Qigong," Journal of Health Science , vol. 49, no. 4, pp. 278-284, 2003.
[20] N. J. M. Craske, W. Turner, J. Zammit-Maempe, M. S. Lee, "Qigong ameliorates symptoms of chronic fatigue: a pilot uncontrolled study," Evidence-Based Complementary and Alternative Medicine , vol. 6, no. 2, pp. 265-270, 2009.
[21] S. S. M. Fong, S. S. M. Ng, W. S. Luk, L. M. Y. Chung, J. Y. H. Wong, J. W. Y. Chung, "Effects of Qigong training on health-related quality of life, functioning, and cancer-related symptoms in survivors of nasopharyngeal cancer: a pilot study," Evidence-Based Complementary and Alternative Medicine , vol. 2014, 2014.
[22] J. Sawynok, M. Lynch, "Qigong and fibromyalgia: randomized controlled trials and beyond," Evidence-Based Complementary and Alternative Medicine , vol. 2014, 2014.
[23] R. B. Wall, "Tai Chi and mindfulness-based stress reduction in a Boston Public Middle School," Journal of Pediatric Health Care , vol. 19, no. 4, pp. 230-237, 2005.
[24] L. C. Matos, M. J. Goncalves, A. R. Silva, J. G. Mendes, J. P. Machado, H. J. Greten, "Assessment of Qigong-related effects by infrared thermography: a case study," Journal of Chinese Integrative Medicine , vol. 10, no. 6, pp. 663-666, 2012.
[25] C. M. Sousa, M. Goncalves, J. Machado, T. Efferth, T. Greten, P. Froeschen, H. J. Greten, "Effects of qigong on performance-related anxiety and physiological stress functions in transverse flute music schoolchildren: a feasibility study," Journal of Chinese Integrative Medicine , vol. 10, no. 8, pp. 858-865, 2012.
[26] C. Lan, S.-W. Chou, S.-Y. Chen, J.-S. Lai, M.-K. Wong, "The aerobic capacity and ventilatory efficiency during exercise in Qigong and Tai Chi Chuan practitioners," The American Journal of Chinese Medicine , vol. 32, no. 1, pp. 141-150, 2004.
[27] H. W. H. Tsang, K. M. T. Fung, A. S. M. Chan, G. Lee, F. Chan, "Effect of a qigong exercise programme on elderly with depression," International Journal of Geriatric Psychiatry , vol. 21, no. 9, pp. 890-897, 2006.
[28] J. M. Griffith, P. Joseph, J. P. Hasley, H. Liu, D. G. Severn, L. H. Conner, L. E. Adler, "Qigong stress reduction in hospital staff," The Journal of Alternative and Complementary Medicine , vol. 14, no. 8, pp. 939-945, 2008.
[29] L. M. T. Silva, A. Cignolini, "A medical Qigong methodology for early intervention in autism spectrum disorder: a case series," The American Journal of Chinese Medicine , vol. 33, no. 2, pp. 315-327, 2005.
[30] J. Saganha Qigong therapy in physiotherapists in burnout (preliminary study) [M.S. thesis] , University of Porto, 2011.
[31] L. Sousa Effects of qigong on the balance of elderly people-a feasibility study [M.S. thesis] , University of Porto, 2011.
[32] L. Brandão Is microcirculation in raynaud phenomenon affectd by qigong? Preliminary study [M.S. thesis] , University of Porto, 2011.
[33] A. Seiça The influence of qigong in nurses of CHUC in Burnout-preliminary study [M.S. thesis] , University of Porto, 2013.
[34] L. Duarte The influence of Qigong on adolescents attention [M.S. thesis] , University of Porto, 2013.
[35] E. F. Prokhorov, T. E. Prokhorova, J. Gonzalez-Hernandez, Y. A. Kovalenko, F. Llamas, S. Moctezuma, H. Romero, "In vivo DC and AC measurements at acupuncture points in healthy and unhealthy people," Complementary Therapies in Medicine , vol. 14, no. 1, pp. 31-38, 2006.
[36] A. P. Colbert, A. Larsen, S. Chamberlin, C. Decker, H. C. Schiffke, W. L. Gregory, T. Thong, "A multichannel system for continuous measurements of skin resistance and capacitance at acupuncture points," Journal of Acupuncture and Meridian Studies , vol. 2, no. 4, pp. 259-268, 2009.
[37] D. Cohen, Y. Palti, B. N. Cuffin, S. J. Schmid, "Magnetic fields produced by steady currents in the body," Proceedings of the National Academy of Sciences of the United States of America , vol. 77, no. 3, pp. 1447-1451, 1980.
[38] K. W. Chen, "An analytic review of studies on measuring effects of external Qi in China," Alternative Therapies in Health and Medicine , vol. 10, no. 4, pp. 38-50, 2004.
[39] Y. W. Qin, H. W. Ji, J. L. Chen, H. Q. Li, "Thermography applied acupuncture and qi-gong," in 19th Thermosense: An International Conference on Thermal Sensing and Imaging Diagnostic Applications, vol. 3056, of Proceedings of SPIE, pp. 270-274, Orlando, Fla, USA, April 1997.
[40] H. J. Greten, "Burnout. Psycho-vegetative Behandlung mit Chinesischer Medizin," in Lecture at XIII Heidelberger Symposium zur interdisziplinaren Arbeit in der Sozialpsychiatrie, Heidelberg, Germany, Oktober 2013.
[41] M. Tse Qigong for Health and Vitality , St. Martin's Griffin, New York, NY, USA, 1996.
[42] J. Ce, H. Zhanggui, J. Zhenghua Practical Chinese Qigong for Home Health Care , Foreign Languages Press, Beijing, China, 1996.
[43] J. A. Johnson Chinese Medical Qigong Therapy: A Comprehensive Clinical Text , The International Institute of Medical Qigong, Pacific Grove, Calif, USA, 2000.
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Abstract
A contemporary understanding of Chinese Medicine (CM) regards CM diagnosis as a functional vegetative state that may be treated by vegetative reflex therapies such as acupuncture. Within this context, traditional mind-body exercises such as Qigong can be understood as an attempt to enhance physiological proprioception, by combining a special state of "awareness" with posture, movement, and breath control. We have formerly trained young auditing flutists in "White Ball" Qigong to minimize anxiety-induced cold hands and lower anxiety-induced heart rate. Functional changes occurred 2-5 min after training and were observed over the whole training program, allowing the children to control their symptoms. In our current work, we report that warm fingers and calm hearts could be induced by the children even without Qigong exercises. Thus, these positive changes once induced and "conditioned" vegetatively were stable after weeks of training. This may show the mechanism by which Qigong acts as a therapeutic measure in disease: positive vegetative pathways may be activated instead of dysfunctional functional patterns. The positive vegetative patterns then may be available in critical stressful situations. Qigong exercise programs may therefore be understood as an ancient vegetative biofeedback exercise inducing positive vegetative functions which are added to the individual reactive repertoire.
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