Heme oxygenase-1 and heme oxygenase-2 expression in bruises

Immediate and Delayed Effects of Cupping Therapy on Reducing Neuromuscular Fatigue

Cupping therapy has been popular in elite athletes in recent years. However, the effect of cupping therapy on reducing muscle fatigue has not been investigated. The purpose of this study was to investigate the immediate and delayed effects of cupping therapy on reducing biceps brachii fatigue during biceps curls. Twelve healthy untrained participants were recruited for this repeated-measures study. Cupping therapy (–300 mmHg pressure for 5 min) and sham control (no negative pressure for 5 min) were applied after biceps fatigue induced by performing repeated biceps curls at 75% of the 10 repetitions of maximum of the non-dominant hand. Surface electromyography (EMG) with spectral analyses [mean frequency (MNF), median frequency (MDF), and spectral moments ratio (SMR)] were used to assess muscle fatigue during the fatigue task. EMG signals during the first 10 repetitions and the last 10 repetitions of biceps curls were used to assess neuromuscular fatigue. There were significant decreases in MNF and MDF and a significant increase in SMR immediately and 24 h after the sham control (no intervention). When comparing the MNF, MDF, and SMR after cupping therapy to the sham control, there was no significant immediate effect on reducing muscle fatigue. However, there was a significant delayed effect on improving recovery following fatigue for the cupping therapy compared to the sham control (MNF changes: sham 0.87 ± 0.02 vs. cupping 0.91 ± 0.02, p < 0.05; MDF changes sham: 0.85 ± 0.03 vs. cupping: 0.91 ± 0.02, p < 0.05; SMR changes: sham 1.89 ± 0.15 vs. cupping 1.58 ± 0.13, p < 0.05). The findings of this study demonstrate that there is a time effect of cupping therapy for reducing muscle fatigue. Cupping therapy is effective on reducing biceps brachii muscle fatigue after 24 h.

Bruise detection and visibility under alternate light during the first three days post-trauma

INTRODUCTION

Cutaneous bruises are often hard to detect particularly on individuals with a darker complexion. Researchers and federal agencies have recommended the use of alternate light to aide in the assessment of subtle injury. However, studies are limited in their evaluation of wavelength performance during the first few days of bruise healing. The purpose of this pilot study was to examine whether an alternate light source (ALS) improves detection of bruises when compared to normal light typical of clinical practice during the first three days following induction.

METHODS

A sample of eight healthy adults between 22 and 36 years of age with diverse skin color were recruited for this study. One bruise was induced on each participant by dropping a 4-oz (113g) steel ball through a 5-ft (1.5 m) vertical pipe onto the anterior surface of the forearm. Using the ALS, bruises were assessed under 14 different combinations of ultraviolet and short narrowband visible wavelengths and filters along with overhead fluorescent "examination" lighting. Participants were examined 3 to 4 times per day at approximately 4-h intervals for three consecutive days post induction.

RESULTS

Repeated bruise assessments on 8 subjects resulted in 59 bruise assessments and 885 total observations under the different wavelengths and filters combinations. A bruise was detectable in 46 (78%) of the assessments, with bruise ages ranging from 30 min to 57 h. Twenty (34%) bruises not detectable under normal light were visible with ASL. Multilevel modeling revealed a strong association between time and detection for shorter wavelengths, such as 365 nm (ultraviolet) and 450 nm.

CONCLUSION

The results of our study suggest alternate light is more likely to detect faint bruises than normal lighting during the first three days post injury. However, more research is needed to determine which wavelengths and filter combinations are most effective during that time frame.

A novel, comprehensive, and reproducible porcine model for determining the timing of bruises in forensic pathology

PURPOSE

Calculating the timing of bruises is crucial in forensic pathology but is a challenging discipline in both human and veterinary medicine. A mechanical device for inflicting bruises in pigs was developed and validated, and the pathological reactions in the bruises were studied over time in order to identify gross and histological parameters that may be useful in determining the age of a bruise.

METHODS

The mechanical device was able to apply a single reproducible stroke with a plastic tube that was equivalent to being struck by a man. In each of 10 anesthetized pigs, four strokes that resulted in bruises were inflicted on the back. In addition, 2 control pigs were included in the study. The pigs were euthanized consecutively from 1 to 10 h after the infliction of bruises. Following gross evaluation, skin, and muscle tissues were sampled for histology.

RESULTS

Grossly, the bruises appeared uniform and identical to the tramline bruises seen in humans and pigs subjected to blunt trauma. Histologically, the number of neutrophils in the subcutis, the number of macrophages in the muscle tissue, and the localization of neutrophils and macrophages in muscle tissue showed a time-dependent response. Combining these parameters, bruises could be grouped as being either less than 4 h old or between 4 and 10 h of age. Gross lesions and changes in the epidermis and dermis were inconclusive with respect to time determination.

CONCLUSIONS

The model was reproducible and resembled forensic cases of bruises in pigs and humans. Therefore, the histological parameters are suitable for age determination of bruises in pigs and likely also in humans.