Effects of Acupuncture on Leucopenia, Neutropenia, NK, and B Cells in Cancer Patients: A Randomized Pilot Study

Pais, Irene; Correia, Nuno; Pimentel, Isabel; Teles, Maria José; Neves, Esmeralda; Vasconcelos, Júlia; Guimarães, Judite; Azevedo, Nancy; Moreira Pinto, António; Machado, Jorge; Efferth, Thomas; Greten, Henry J.

doi:https://doi.org/10.1155/2014/217397

Evidence-Based Complementary and Alternative Medicine

On this page

Abstract Introduction Methods Results Discussion Conclusions Acknowledgments References Copyright Related Articles

Research Article | Open Access

Volume 2014 | Article ID 217397 | https://doi.org/10.1155/2014/217397

Effects of Acupuncture on Leucopenia, Neutropenia, NK, and B Cells in Cancer Patients: A Randomized Pilot Study

Irene Pais,¹Nuno Correia,^1,2Isabel Pimentel,³Maria José Teles,^4,5Esmeralda Neves,⁶Júlia Vasconcelos,⁶Judite Guimarães,⁶Nancy Azevedo,⁶António Moreira Pinto,⁷Jorge Machado,^1,8Thomas Efferth,⁹and Henry J. Greten^1,10

Academic Editor: Nobuo Yamaguchi

Received03 Mar 2014

Revised01 Jun 2014

Accepted03 Jun 2014

Published24 Jul 2014

Abstract

Chemotherapy is one of most significant therapeutic approaches to cancer. Immune system functional state is considered a major prognostic and predictive impact on the success of chemotherapy and it has an important role on patients’ psychoemotional state and quality of life. In Chinese medicine, chemotherapy is understood as “toxic cold” that may induce a progressive hypofunctional state of immune system, thus compromising the fast recovery of immunity during chemotherapy. In this study, we performed a standardized acupuncture and moxibustion protocol to enhance immunity in cancer patients undergoing chemotherapy and to assess if the improvement of immunity status correlates with a better psychoemotional state and quality of life.

1. Introduction

Colorectal cancer (CRC) is one of the most common cancers and a major cause of death due to cancer worldwide. The functional state of the host immune system has a major prognostic and predictive impact on the fate of cancer patients treated with conventional or targeted chemotherapies [1].

According to the immunoediting theory [2], cancer cells and immune cells reciprocally modulate each other and the two possible outcomes are either the elimination or escape of tumour cells. NK cells are considered to represent a first line of defence against the metastatic spread of tumour cells. This idea is supported by the report of an association between the decreased activity or low numbers of circulating NK cells with progression of cancers and correlation between an absolute decrease in the activity of the NK cells and an absolute decrease in the lytic potential of these cells [3]. As effector members of the innate immunity, NK cells play a major role in anti-infection activity and tumour surveillance. NK cells can directly kill target cells to which they are capable of adhering within 1 to 4 hours without prior activation, priming or assistance by cytokines. NK cells have been recognized as major producers of cytokines in many physiological and pathological conditions, such as interferon (IFN), tumour necrosis factor (TNF), and interleukin-10 (IL-10), as well as growth factors such as granulocyte macrophage colony-stimulating factor (GM-CSF), granulocyte colony-stimulating factor (G-CSF), and IL-3. NK cells also secrete several chemokines, which are vital for their colocalization with other hematopoietic cells such as dendritic cells (DC) in areas of inflammation.

Recent studies [4] provide the notion that tumour-induced alterations of activating NK cell receptor expression may hamper immune surveillance and promote tumour progression and reveal that NK cell activity is reduced in patients with metastatic CRC, pointing out to NK cells as a first line of defence against metastasis.

According to psychoneuroimmunology theory, psychological and emotional stress induces several alterations in diverse biological responses. The activation of the hypothalamic-pituitary-adrenal axis (HPA) and the sympathetic nervous system (SNS) may generate a change in the immune cell traffics and promotes inflammation via multiple neuroendocrine and immune pathways. Higher stress levels were associated with poorer immune responses (low NK cell activity) and the stress reduction with improvement of immune responses, in women with breast cancer [5].

Humoral and, especially, cellular immune functions have been reported as being boosted by acupuncture and moxibustion in cancer patients with significant increases in several T lymphocyte subsets. Immune system modulation has been noted also for various other conditions, such as asthma and autoimmune and inflammatory diseases [6, 7].

A review on the ascribed immunomodulation of acupuncture concludes that acupuncture treatment appears to be able to modulate immunosuppressed or immunoactivated conditions through different mechanisms, including macrophages, neutrophils, NK cells and lymphocytes stimulation, immunoglobulin production, and complement system activation [8]. In fact, two possible implicated mechanisms were previously reported: NK-related gene expression in the spleen [9] and the sympathetic nervous system [10]. Another study revealed that acupuncture enhances the NK cells activity and modulates the balance between Th1 and Th2 [11].

We aimed to evaluate the effect of acupuncture on the immune system (namely, on WBC, ANC, lymphocytes, and NK cells activity) on CRC patients and assess if the ascribed immunomodulatory effects of acupuncture have implications on patients’ psychoemotional state and quality of life.

2. Patients and Methods

2.1. Selection of Patients

This study was approved by the Ethics Committee of S. João and Vila Nova de Gaia/Espinho Hospital Centers, Oporto, Portugal. Written informed consent was obtained from all patients before study enrollment. Patients were eligible for inclusion as follows: recently diagnosed or recurrent colorectal cancer, regardless of stage, receiving chemotherapy, no regular use of acupuncture within 120 days prior to enrollment, ability to give informed consent, and >18 years of age. Exclusion criteria were the following: (a) absolute neutrophil count (ANC) less than 500/L, (b) platelet count less than 25,000/L, (c) altered mental state, (d) clinically significant cardiac arrhythmias, and (e) other unstable medical conditions.

2.2. Study Design

All patients enrolled were evaluated at baseline. Patients were randomized into one of two groups: active acupuncture (AcuMoxa) or nonacupuncture (control group). All of the study patients were blinded to randomization assignments (Figure 1).

Patients in the experimental group received 6 sessions of acupuncture, twice a week, beginning one week prior to cycle of chemotherapy and ending at the beginning of the following cycle of chemotherapy (Figure 2). At the end of the intervention, patients in the active arm continued their remaining chemotherapy cycles without any acupuncture treatment. Patients in the control arm were offered the active acupuncture protocol immediately after they completed the four weeks of blood sampling as a courtesy.

Based on previous trials [12, 13], blood samples were collected at baseline (preintervention) 7 days before chemotherapy and then every 7 days during four weeks. Blood samples of both groups, experimental and control, were taken under the same conditions.

2.3. Acupuncture Protocol

All acupuncture treatments were performed at S. João and Vila Nova de Gaia/Espinho Hospital Centres, Porto, Portugal. The acupuncture treatments were administered only by one acupuncturist (the main researcher; master degree on TCM by the University of Porto). A standardized acupuncture protocol was developed based on the Heidelberg model of Chinese medicine (CM), in which CM is explained as a comprehensive model of system biology based on a technical understanding of the regulatory core termini of CM, such as Yin, Yang, the phases, and the Shan Hang Lung theory [14–17].

The experimental group (AcuMoxa): acupuncture points and their anatomical locations were as follows: lower extremity (LV3, ST36, SP3, and GB39) and upper extremity (LI4, PC5, TB5, and LU7), and disposable acupuncture needles with a size of 36 G, 0.20 × 25 mm (Tewa). The depth of needling was at approximately 10 mm. The de qi sensation was required [18]. Smokeless moxibustion treatment was used in the following points: SI6, TB5, ST32, and CV6; 2 minutes per point. Each session had a duration of 45 minutes.

2.4. Clinical and Laboratory Evaluation

Complete blood counts were collected at baseline and then once every 7 days at 3 time points during the study period (Figure 2). The timing for collecting blood samples was based on previous trials [12, 13].

Lymphocyte populations T, B, and NK were analysed by flow cytometry (Coulter, EPICS XL-MCL flow cytometer) with a combination of monoclonal antibodies anti-CD3-FITC/(CD56 + CD16)-PE (Immunotech).

Anxiety and depression scores as well as patients quality of life were assessed through Hospital anxiety and depression scale (HADS) and EORTC-QoL CR-29 questionnaires, respectively, in the beginning and at the end of the study for both groups.

2.5. Statistical Analysis

This study was designed to provide preliminary data about its feasibility and analysis to support a subsequent large-scale, fully powered study to evaluate the effects of acupuncture on NK cells in patients with CRC.

Differences between groups were assessed through Mann-Whitney test. Intragroup analyses were assessed by Friedman test. In order to explore variables correlations, the Pearson correlation analyses was performed. Missing data were handled based on available data approach. SPSS for Windows was used for statistical computation. Results yielding a value < 0.05, with alpha = 0.05 and C.I. level = 95, were considered statistically significant.

3. Results

3.1. Baseline Sample Characterization

At baseline, patients in both groups shared similar demographic and clinical characteristics (Table 1). The majority of patients (88.9%) have a colon cancer, with Stage II (16.7%) and Stage III (55.6%); 66.7% of the patients were submitted to the FOLFOX and 16.7% to XELOX chemotherapy regimens.

Comparison of blood analyses at baseline showed no statistical differences among groups (Table 1).

A total of 18 (100%) patients completed the questionnaires of QOL-CR29 and HADS at the beginning and at the end of the study.

Comparison of QOL and anxiety and depression scores at baseline did not reveal any statistical differences among groups (Table 1); however the experimental group revealed high scores of depression.

3.2. Effect of Acupuncture on WBC and ANC

The effects of acupuncture treatment on WBC counts and ANC in study patients are shown in Figure 3. Comparison analyses between the two groups showed that AcuMoxa group had statistically significant higher values on WBC () as well as on ANC () at time point .

(a)

(b)

Within group analyses showed that the changes in each group across time were significant: in the control group diminishing levels of WBC were seen (, , ); on AcuMoxa group (), there was an increasing level of these parameters overtime (, ; , , resp.) as well as the ANC ().

3.3. Effect of Acupuncture on Lymphocyte Populations

Although differences on total lymphocyte populations among control and experimental group were identified only after 6 sessions of AcuMoxa treatment (), higher values of B cells at time point () and () were seen in the AcuMoxa group. With respect to T cells, no statistical differences among groups were found (Figure 4).

(a)

(b)

(c)

Total lymphocytes as well as B and T cells intragroup analyses did not reveal differences across time.

3.4. Effect of Acupuncture on NK Cells

Comparison between groups showed significant higher values of NK cells on the AcuMoxa group from time point until time point (, and , resp.) (Figure 5).

Within group analyses revealed significant increases on NK cells across time (, , ), while the control group showed a significant decrease of NK cells (, , ).

3.5. Effect of Acupuncture on Anxiety and Depression Levels

The comparison between the two groups did not reveal significant differences on anxiety (0.050) and depression levels (0.094) (Figure 6). However, when analyzing each group, it was shown that the experimental group had a significant decrease depression mean (), whereas in the control group the anxiety () and depression () levels increased significantly. In addition, exploratory analyses on a possible correlation between NK cells and depression and anxiety levels did not reveal any significant correlation, despite the observation of a decrease on anxiety and depression levels along with an increase of NK cells.

(a)

(b)

3.6. Effect of Acupuncture on Patients QOL

With respect to the analyses of the different items of QOL questionnaires, no significant differences were identified between the control and experimental groups (Figure 7). However, data collected from QOL questionnaires showed a tendency of reduction of several symptoms such as gastrointestinal symptoms, urological symptoms, stoma-related symptoms, male sexual dysfunction, and chemotherapy side effects (Figure 5).

Intragroup variability analyses showed a significant decrease of chemotherapy side effects (Figure 8) on the experimental group ().

4. Discussion

The host immune system functional state has a major prognostic and predictive impact on the outcome of cancer patients treated with conventional or targeted chemotherapies [1].

Several authors revealed that acupuncture modulates NK cell number and function in diverse clinical situations such as in women with severe anxiety [19], in pain syndromes [20], and in healthy volunteers [21].

Studies regarding the effect of acupuncture and moxibustion on CRC patients are scarce. In fact, only two eastern studies have addressed modulation of NK cells activity in CRC patients [22, 23].

To the best of our knowledge, this research protocol is the first study on acupuncture for cancer patients conducted in the Portuguese National Health System and is the first controlled clinical trial on the West that addressed acupuncture and moxibustion NK cells modulation, its implications on psychoemotional state, and on the QOL of CRC patients.

Although our data must be carefully interpreted due to methodological limitations, some conclusions may be pointed out.

Firstly, we observed (1) a reduction on anxiety and depression and (2) consistent positive trends on the levels of WBC, ANC, and B and NK cells in the AcuMoxa group versus the control group. The increase on WBC and ANC resulted in approximately a 1.5x reduction in leukopenia and neutropenia rates. The acupuncture group showed a twofold increase in NK cells rate compared to the control group. These preliminary results indicate an immunomodulatory effect of acupuncture in CRC patients undergoing chemotherapy. Acupuncture stimulation may yield a myeloprotective effect as suggested by Lu et al. on a study on electroacupuncture plus TDP infrared lamp effect in gynaecologic malignancies. Despite the differences in the selection of acupoints and type of acupuncture, WBC and ANC levels were similar to those obtained by Lu et al.

Secondly, our preliminary results show that acupuncture benefits the emotional status by decreasing anxiety and depression levels. This effect may contribute to improvement on NK cells activity. As reported recently on a study on women with breast cancer [24], the emotional state influences NK cells numbers and activity.

Thirdly, with respect to quality of life, our study did not reveal significant differences between the two groups. However, we observed a tendency for decreasing certain symptoms on the AcuMoxa group, such as gastrointestinal and urological symptoms and chemotherapy side effects as well as the improvement of sexual function in men. This is probably due to the short period of treatment. In addition, intragroup analyses reveal a significant decrease of chemotherapy side effects on the AcuMoxa group indicating an overtime protective role of acupuncture for CRC patients during chemotherapy.

Fourthly, no acupuncture and moxibustion-related adverse events were observed. Globally, these preliminary results indicate that our AcuMoxa protocol is feasible and safe for CRC patients undergoing chemotherapy.

What may be the physiological explanation for the observed results of AcuMoxa stimulation?

It is generally accepted that acupuncture induces an increase on the release of -endorphin [5, 23] via the stimulation of the HPA axis. -Endorphins consequently influence immune cells by binding to opioid receptors on the surface of the cells, namely, on NK cells [25] promoting the expression of cytotoxic molecules and the production of IFN. In turn, IFN would further increase the expression of NK cells receptors and cytokine secretion by other immune cells, thereby amplifying anticancer immune functions.

The HPA axis and SNS are generally activated in cancer, resulting in high levels of catecholamine and glucocorticoids, which augments the sympathetic outflow and decreases NK activity in the periphery [25].

Therefore, we may hypothesize that acupuncture, by acting on the SNS and the HPA axis, may reduce the levels of catecholamines and consequently attenuate their suppressive effects on NK cells.

There are limitations in our preliminary study to be considered.(1)Although the patients were randomly allocated in each group, there is the possibility that results may have occurred by chance due to the small sample size. A larger study based on this protocol is required to precisely evaluate the effects of acupuncture on CRC patients during chemotherapy and to explore the relation of the cancer severity and different types of chemotherapy on the possible acupuncture immunomodulatory effect. Nevertheless, the small sample of patients allowed assessing the trial feasibility and preliminary data on efficacy.(2)Another limitation of our study was the heterogeneity on chemotherapy protocols which may have influenced the hypothesized AcuMoxa effects and results.(3)Finally, the short duration of the study did not allow obtaining more precise data regarding the impact of acupuncture on patients QOL and prognosis.

5. Conclusions

Our pilot study suggests that acupuncture and moxibustion may (1) stimulate anticancer immunity, (2) promote a myeloprotective effect, (3) improve the psychoemotional status and quality of life, and (4) minimize chemotherapy side effects.

This study protocol proved to be feasible and safe for CRC patients.

A larger and long-term acupuncture trial is needed to clarify acupuncture’s immunomodulatory effects in CRC. If this effect is ultimately established, then this treatment may serve as a possible complementary therapy for CRC treatment and possibly contribute to improving patients’ prognosis and quality of life.

Conflict of Interests

The authors declare that there is no conflict of interests regarding the publication of this paper.

Acknowledgments

The authors are grateful to all the nurse staff from the Departaments of Oncology of V.N.Gaia/Espinho and S. João Hospital Centers, Oporto, Portugal, for their contribution on collecting blood samples as well as to the administrative personnel involved in this project.

References

L. Zitvogel, O. Kepp, and G. Kroemer, “Immune parameters affecting the efficacy of chemotherapeutic regimens,” Nature Reviews Clinical Oncology, vol. 8, no. 3, pp. 151–160, 2011.
View at: Publisher Site | Google Scholar
G. P. Dunn, L. J. Old, and R. D. Schreiber, “The immunobiology of cancer immunosurveillance and immunoediting,” Immunity and Immunoediting, vol. 21, no. 2, pp. 137–148, 2004.
View at: Publisher Site | Google Scholar
J. Mordoh, E. M. Levy, and M. P. Roberti, “Natural killer cells in human cancer: from biological functions to clinical applications,” Journal of Biomedicine and Biotechnology, vol. 2011, Article ID 676198, 11 pages, 2011.
View at: Publisher Site | Google Scholar
N. C. Nüssler, B. J. Strange, M. Petzold, A. K. Nussler, and O. G. M. Glanemann, “Reduced NK-cell activity in patients with metastatic colon cancer,” Experimental and Clinical Sciences, vol. 6, pp. 1–9, 2007.
View at: Google Scholar
D.-H. Kang, N.-J. Park, and T. McArdle, “Cancer-specific stress and mood disturbance: implications for symptom perception, quality of life, and immune response in women shortly after diagnosis of breast cancer,” ISRN Nursing, vol. 2012, Article ID 608039, 7 pages, 2012.
View at: Publisher Site | Google Scholar
S. Joos, B. Brinkhaus, C. Maluche et al., “Acupuncture and moxibustion in the treatment of active Crohn's disease: a randomized controlled study,” Digestion, vol. 69, no. 3, pp. 131–139, 2004.
View at: Publisher Site | Google Scholar
B. Kavoussi and B. E. Ross, “The neuroimmune basis of anti-inflammatory acupuncture,” Integrative Cancer Therapies, vol. 6, no. 3, pp. 251–257, 2007.
View at: Publisher Site | Google Scholar
T. Takahashi, H. Sumino, T. Kanda, and N. Yamaguchi, “Acupuncture modifies immune cells,” Journal of Experimental and Clinical Medicine, vol. 1, no. 1, pp. 17–22, 2009.
View at: Publisher Site | Google Scholar
C. Keun Kim, S. C. Gi, D. O. Sang et al., “Electroacupuncture up-regulates natural killer cell activity: identification of genes altering their expressions in electroacupuncture induced up-regulation of natural killer cell activity,” Journal of Neuroimmunology, vol. 168, no. 1-2, pp. 144–153, 2005.
View at: Publisher Site | Google Scholar
G. S. Choi, J. B. Han, J. H. Park et al., “Effects of moxibustion to zusanli (ST36) on alteration of natural killer cell activity in rats,” The American Journal of Chinese Medicine, vol. 32, no. 2, pp. 303–312, 2004.
View at: Publisher Site | Google Scholar
S. K. Kim and H. Bae, “Acupuncture and immune modulation,” Autonomic Neuroscience: Basic and Clinical, vol. 157, no. 1-2, pp. 38–41, 2010.
View at: Publisher Site | Google Scholar
R. Yamamoto, M. Kaneuchi, M. Nishiya et al., “Clinical trial and pharmacokinetic study of combination paclitaxel and carboplatin in patients with epithelial ovarian cancer,” Cancer Chemotherapy and Pharmacology, vol. 50, no. 2, pp. 137–142, 2002.
View at: Publisher Site | Google Scholar
W. Lu, U. A. Matulonis, A. Doherty-Gilman et al., “Acupuncture for chemotherapy-induced neutropenia in patients with gynecologic malignancies: a pilot randomized, sham-controlled clinical trial,” Journal of Alternative and Complementary Medicine, vol. 15, no. 7, pp. 745–753, 2009.
View at: Publisher Site | Google Scholar
H. J. Greten, Kursbuch Traditionelle Chinesische Medizin, Textbook of TCM, Thieme, New York, NY, USA, 2nd edition, 2007.
H. J. Greten, “Chinesische medizin als vegetative systembiologie,” HNO, vol. 59, no. 12, pp. 1160–1164, 2011.
View at: Publisher Site | Google Scholar
H. J. Greten, “[Chinese medicine as vegetative systems biology: part II: the structure of TCM diagnosis],” HNO, vol. 59, pp. 1165–1175, 2011, (IF 2011: 0,400).
View at: Publisher Site | Google Scholar
H. J. Greten, “Chinese medicine as a model of system biology—diagnosis as the foundation of acupoint selection,” in Current Research in Acupuncture (Research Monograph), Y. Xia, G. H. Ding, and G. C. Wu, Eds., Springer, New York, NY, USA, 2012.
View at: Google Scholar
H. M. Langevin, D. L. Churchill, J. R. Fox, G. J. Badger, B. S. Garra, and M. H. Krag, “Biomechanical response to acupuncture needling in humans,” Journal of Applied Physiology, vol. 91, no. 6, pp. 2471–2478, 2001.
View at: Google Scholar
L. Arranz, N. Guayerbas, L. Siboni, and M. De la Fuente, “Effect of acupuncture treatment on the immune function impairment found in anxious women,” The American Journal of Chinese Medicine, vol. 35, no. 1, pp. 35–51, 2007.
View at: Publisher Site | Google Scholar
F. Petti, A. Bangrazi, A. Liguori, G. Reale, and F. Ippoliti, “Effects of acupuncture on immune response related to opioid-like peptides,” Journal of Traditional Chinese Medicine, vol. 18, no. 1, pp. 55–63, 1998.
View at: Google Scholar
N. Yamaguchi, T. Takahashi, M. Sakuma et al., “Acupuncture regulates leukocyte subpopulations in human peripheral blood,” Evidence-Based Complementary and Alternative Medicine, vol. 4, no. 4, pp. 447–453, 2007.
View at: Publisher Site | Google Scholar
C. Zhao, L. Peng, Z. Zhang, T. Zhang, and H. Li, “Effect of acupuncture on the activity of the peripheral blood T lymphocyte subsets and NK cells in patients with colorectal cancer liver metastasis,” Chinese acupuncture & moxibustion, vol. 30, no. 1, pp. 10–12, 2010.
View at: Google Scholar
S. Zhang and Y. Du, “[Effects of warming needle moxibustion on improvement of gastrointestinal and immune function in patients with postoperation of colorectal cancer,” Zhongguo Zhen Jiu, vol. 31, no. 6, pp. 513–517, 2011.
View at: Google Scholar
M. F. Johnston, E. Ortiz SÃnchez, N. L. Vujanovic, and W. Li, “Acupuncture may stimulate anticancer immunity via activation of natural killer cells,” Evidence-Based Complementary and Alternative Medicine, vol. 2011, Article ID 481625, 14 pages, 2011.
View at: Publisher Site | Google Scholar
B. Levy, “The acupuncture approach to the hypothalamus-pituitary-adrenal axis and its interaction with the sympathetic and parasympathetic systems,” Journal of Biomedical Therapy, vol. 3, no. 1, pp. 22–25, 2009.
View at: Google Scholar

Copyright

Copyright © 2014 Irene Pais et al. 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.

PDF Download Citation

Download other formats

Order printed copies

Views

8088

Downloads

2144

Citations