Arthur F. T. Mak scite author profile

The objective of this study was to assess the effects of acupuncture applied at Hegu (LI 4) points and Neiguan (PC6) points on heart rate variability (HRV) in normal subjects under fatigue and non-fatigue states using power spectral analysis. Twenty-nine normal male subjects were randomly divided into three groups. Subjects in Group A and Group B performed a simulated driving task for 3 h and acupuncture needles were then inserted perpendicularly into the LI 4 points in the middle of the dorsal thenar muscle and PC 6 points situated between the tendons of the palmaris longus and carpi radialis muscles for 15 min for Group A but inserted subcutaneously to the acupuncture points for Group B as a control. Acupuncture needles were directly inserted perpendicularly into the LI 4 points and PC 6 points for 15 min for Group C. Stimulations of the acupuncture points induced a significant decrease in heart rate (HR), HRV total power (TP), low frequency (LF) power and ratio of low frequency to high frequency (LF/HF), and a significant increase in the HF power in normalized units (NU) during the post stimulation period in fatigue state (P<0.05). Stimulation of acupuncture points resulted in a significant increase both in the LF power and HF power in absolute units (AU) (P<0.05) but no significant change in NU was found during the post stimulation period in non-fatigue state. It was concluded that the modulating effect of acupuncture on heart rate variability not only depended on the points of stimulation such as acupuncture or non-acupuncture points but also on the functional state of the subject, namely whether the subjects are in a state of fatigue or not.

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Characterization of poly(L‐lactic acid) fibers produced by melt spinning

Yuan

Mak

Kwok

et al. 2001

J of Applied Polymer Sci

133

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Biodegradable poly(L-lactic acid) (PLLA) fibers were processed by a twostep melt-spinning method (melt extrusion and hot draw) from PLLA with three different viscosity-average molecular weights (494,600, 304,700, and 262,800). Before spinning, the polymer flakes were first milled into powders and dried under vacuum. Viscosity-average molecular weight of PLLA following the fabrication process was monitored. Tensile properties of as-spun and hot-drawn fibers were investigated. Morphology of the PLLA fibers was viewed under a scanning electron microscope. Crystallinity of these fibers was assessed by thermogram analysis of differential scanning calorimetry. Results showed that the extent of decrease in the viscosity-average molecular weight of PLLA dropped sharply by 13.1-19.5% during pulverization and by 39.0 -69.0% during melt-extrusion. The hot-draw process in this study had a little effect on the viscosity-average molecular weight of PLLA. Smoother fibers could be obtained for the die temperature at least 230°C for raw materials with higher crystallinity (more than 75%) and at least 220°C for raw materials with lower crystallinity (about 60%). The as-spun fibers showed crystallinity of 16.5-22.8% and the value increased to 50.3-63.7% after hot draw. Tensile moduli of the as-spun fibers were in the range of 1.2-2.4 GPa, which were raised to 3.6 -5.4 GPa after hot draw. The final PLLA fibers with 110 -160 m diameters showed tensile strengths of 300 -600 MPa.

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Formation of apatite on poly(α‐hydroxy acid) in an accelerated biomimetic process

Chen

Mak

et al. 2005

J Biomed Mater Res

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Bonelike apatite coating was formed on poly(L-lactic acid) films and poly(glycolic acid) scaffolds within 24 h through an accelerated biomimetic process. The ion concentrations in the simulated body fluid (SBF) were nearly 5 times of those in the human blood plasma. The apatite formed was characterized by using scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), X-ray diffraction (XRD), and Fourier transform infrared spectroscopy (FTIR). The apatite formed in 5SBFs was similar in morphology and composition to that formed in the classical biomimetic process using SBF or 1.5SBF and similar to that of natural bone. This indicated that the biomimetic apatite-coating process could be accelerated by using concentrated simulated body fluid at 37 degrees C. Besides saving time, the accelerated biomimetic process is particularly significant to biodegradable polymers. Some polymers that degrade too fast to be coated with apatite by a classical biomimetic process (e.g., PGA) could be coated with bonelike apatite in an accelerated biomimetic process.

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The dynamical response of a hydrogel fiber to electrochemical stimulation

Sun

Mak

2000

J. Polym. Sci. B Polym. Phys.

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Arthur F. T. Mak

Effects of acupuncture on heart rate variability in normal subjects under fatigue and non-fatigue state

Characterization of poly(L‐lactic acid) fibers produced by melt spinning

Formation of apatite on poly(α‐hydroxy acid) in an accelerated biomimetic process

The dynamical response of a hydrogel fiber to electrochemical stimulation

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