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Exploring the physiological and physical effects of acupuncture using ultrasound
  1. Mabel Qi He Leow1,
  2. Sally Hsueh Er Lee2,
  3. Mohammad Taufik Bin Mohamed Shah2,
  4. Taige Cao3,4,
  5. Shu Li Cui5,
  6. Shian Chao Tay1,6,7,
  7. Chin Chin Ooi2
  1. 1Biomechanics Laboratory, Singapore General Hospital, Singapore, Singapore
  2. 2Department of Diagnostic Radiology, Singapore General Hospital, Singapore, Singapore
  3. 3Medical Department, National Skin Centre, Singapore, Singapore
  4. 4Singapore College of Traditional Chinese Medicine, Singapore, Singapore
  5. 5Pain Management Centre, Acupuncture Services, Singapore General Hospital, Singapore, Singapore
  6. 6Department of Hand Surgery, Singapore General Hospital, Singapore, Singapore
  7. 7Duke-NUS Graduate Medical School, Singapore
  1. Correspondence to Dr Mabel Qi He Leow, Biomechanics Laboratory, Singapore General Hospital, Academia, Level 1, 20 College Rd, Singapore 169856, Singapore; mabelleowqihe{at}yahoo.com

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Background

The physiological changes in blood flow during acupuncture needle insertion have been explored using different forms of Doppler imaging including laser Doppler perfusion imaging,1 laser Doppler flowmetry,2 and ultrasound colour Doppler.3 However, a review of the literature found no study exploring the effects of acupuncture on blood vessel size and muscle strain. With advances in ultrasound technology, these variables can be easily studied. We aimed to analyse the real-time changes in blood vessel size, blood flow velocity and volume, and muscle strain, before and after acupuncture needle insertion, and following needle removal.

Acupuncture needle insertion

We performed acupuncture needle insertion on two healthy volunteers who were part of the study team. Both team members signed an institutional informed consent form acknowledging the potential adverse effects, risks and complications. The acupuncture was performed by a certified acupuncturist with >20 years’ experience. Volunteer 1 was a male who had been exposed to acupuncture regularly. Volunteer 2 was a female with no previous exposure to acupuncture.

Ultrasound scan

Scans were conducted using a Philips iu22 system (Philips Healthcare, Bothell, Washington, USA) with a 12-5 MHz linear probe. A board certified sonographer performed both scans to ensure consistency. Aquasonic 100 gel was used as the coupling agent.

Experimental steps

The brachial artery was identified under ultrasound guidance in the transverse plane. The ultrasound probe was placed transversely approximately 1 cm proximal to the cubital crease, over the biceps muscle. This was followed by needle insertion by the acupuncturist (figure 1A) at LU5 (Chize).4 Measurements of arterial cross-sectional area (CSA; figure 1B), velocity (cm/s; figure 1C) and muscle strain (at rest; figure 1D) were performed before and after needle insertion, and following needle removal.

Figure 1

(A) Position of the ultrasound probe and acupuncture needle. (B) Transverse ultrasound images of the right brachial artery. Calipers show the cross-sectional area of the right brachial artery. (C) Image of longitudinal Doppler ultrasound of the right brachial artery. (D) Dual mode display of transverse B-mode ultrasound of the right biceps muscle (left) and corresponding strain elastography image (right), revealing a predominantly green-blue colour-coded muscle (with minimal red colours in the centre of the muscle), representing medium consistency properties of the biceps muscle. The white arrow indicates the visual indicator for pressure during real-time scanning.

Findings

The CSA of the brachial artery remained constant in subject 2. In subject 1, the arterial CSA increased during needle insertion, and decreased after the needle was removed. The velocity of blood flow decreased immediately after needle insertion for both subjects. However, the decline observed in subject 1 was double that of subject 2. Following needle removal, the velocity of blood flow was maintained at a level below pre-needle insertion for subject 1, while subject 2 experienced an increased blood flow rate relative to baseline. In subject 1, the blood flow volume decreased after needle insertion, and further declined post-needle removal. In subject 2, the blood flow volume decreased after needle insertion, but increased after the needle was removed. In subject 1, the muscle strain index declined post-needle insertion, but increased after needle removal. By contrast, in subject 2, the muscle strain index increased during needle insertion, and declined post-needle removal. A summary of the changes in arterial CSA, rate of blood flow and muscle strain is given in table 1.

Table 1

Size of artery, blood flow and muscle strain

Comment

Our study showed that there are definite measurable physiological and physical changes during acupuncture needling. Upon needle insertion, blood flow velocity and volume decreased. This is consistent with the findings of a previous study3 that also found that blood volume returned to normal post-needle removal. By contrast, in the present experiment, the blood flow rate for the female subject spiked while that of the male remained lower than baseline following needle removal. Larger studies could be conducted to explore this phenomenon further.

For subject 1, the CSA of the brachial artery increased during acupuncture needling, while that of subject 2 remained constant. This finding corroborates a previous study, which found that the radial arterial diameter significantly increased in subjects who were regularly exposed to acupuncture, whereas no significant change was observed in acupuncture-naïve subjects.5

Observed changes in muscle strain pre-needle insertion and post-needle removal were contradictory between the two subjects. Our study shows that there may be changes in muscle strain during needle insertion and post-needle removal, but could not ascertain a definite trend. Moreover, changes in muscle strain index could also be associated with non-acupuncture related factors such as anxiety.

Conclusion

Acupuncture has physiological and physical effects on the human body. We observed changes in brachial artery CSA, blood flow velocity and volume, and muscle strain in healthy volunteers. Blood flow velocity decreased after needle insertion, although subsequent changes were subjective. Prior exposure to acupuncture may have an impact on the effects of needling.

References

View Abstract

Footnotes

  • Contributors MQHL, TC and SCT conceptualised the study. MQHL performed the data analysis. CCO and SHEL performed the ultrasound scans. SLC performed the acupuncture intervention. MTBMS interpreted the radiology results. All authors were involved in manuscript writing.

  • Competing interests None declared.

  • Participant consent obtained.

  • Provenance and peer review Not commissioned; internally peer reviewed.

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