• Journal of Pharmacopuncture
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• v.12 no.2
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• pp.85-90
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• 2009

Objectives : Sweet bee venom(SBV) is pure melittin, the main component of bee venom, made by removing another components through gel filtration chromatography and propionic acid/urea polyacrylamide gel electrophoresis. In the using SBV, 2 patients were experienced anaphylaxis by SBV. So, we reported the process of anaphylaxis and consider these situation. Methods : We observed 2 patients suffered from anaphylaxis after treated with SBV in the Korean Medical Hospital, Sangji University. Results : Though SBV was removed allergen from bee venom, it is not possible to complete prevention of anaphylactic shock in the clinics. So, Korean medical doctor using BV or SBV must be prepare the system consider a countermeasure by anaphylaxis.

• Journal of Pharmacopuncture
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• v.8 no.1
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• pp.21-30
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• 2005

Objectives : To observe physiological anti-body effects of anti-BV, acute toxic response, measurement of $LD_{50}$, and the effects of anti-body were evaluated. Methods : $LD_{50}$ of Anti-Bee Venom were measured, and to analyze acute toxic responses, weight, and the anti-body effects various concentrations of Anti-BV were diluted and the survival rate was measured. Cell blood count (CBC), liver, spleen, and kidney pathologies were observed from the histological aspects. Results : Experiment was conducted to observe Anti-BV as the anti-body to the bee venom and the following results were obtained : 1.anti-BV was injected intraperitoneally and no toxic responses were witnessed. All of the experiment subjects stayed alive during the experiment, making $LD_{50}$ analysis impossible. 2.Anti-BV was injected intraperitoneally in mice and no significant weight changes were measured between the control group and the experiment groups. 3. Measuring the concentration dependent survival rate, the highest survival rate was at the concentration of $1.25{\times}10^2mg/kg$(1/2.000) for Anti-BV. 4. No particular results were shown in the CBC test. 5. Observation of changes in the organ tissues, Anti-BV was found to suppress blood stasis in the liver and inhibit necrosis of the cells. Conclusion : Above results suggest that Anti-BV doesn't cause any toxic responses in the body and works as an anti-body to the bee venom. Further studies must be followed to secure the findings.

• Journal of Pharmacopuncture
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• v.8 no.3
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• pp.129-135
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• 2005

Objective : This study was designed to investigate the effect of bee venom and Scolopendrae Corpus herbal acupuncture on the feeling of cold on legs. Methods : The patient was managed by bee venom and Scolopendrae Corpus herbal acupuncture, body acupuncture and herbal medicine. The following points were selected : BL40, BL57, BL60; SP6. After bee venom and Scolopendrae Corpus herbal acupuncture treatment, body acupuncture was performed at the same points. We evaluated the patient through Visual Analogue Scale(VAS) and Digital Infrared Thermal Imaging(D.I.T.I). Results : After 12 times of treatment, the patient showed that clinical symptoms was decreased, VAS changed from 10 to 3 and there was also improvement change on D.I.T.I.. Conclusions : According to the results, bee venom and Scolopendrae Corpus herbal acupuncture may have the effects on the feeling of cold on legs. But further studies and required to prove the effects of this methods.

• Journal of Pharmacopuncture
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• v.13 no.3
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• pp.103-108
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• 2010

Objectives : This study is to report the percentage of localized itching which occurred, when we injected to patients with Sweet Bee Venom(Sweet BV). Methods : We investigated 374 patients who had injected with Sweet BV in our clinic from February 15. 2009 to April 30, 2010. We checked the number and percentage of patients who occured localized itching on injection area. Then we analyzed those according to times in treatment, the body parts of injection and treatment dosage. Results and Conclusion : Localized itching was lower by 1.60% in the first treatment with Sweet BV. However localized itching was 12.83% in the whole course of treatment, which showed a similar incidence of 13% in Bee Venom. Therefore it can be interpreted that Sweet BV may help suppress the immune responses such as itching in the initial treatment, but the occurrence of local immune responses of Sweet BV may be similar to that of Bee Venom in continued treatment. We suppose that we should be careful of the occurrence of local immune responses as Bee Venom at least until the fourth treatment in clinical application with Sweet BV, although localized itching did not occur in the first treatment. Also we should be careful of treatment with Sweet BV in body parts, such as wrist, hand, chest and abdominal, because the percentage of localized itching was relatively high in those parts.

• Journal of Pharmacopuncture
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• v.17 no.2
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• pp.73-79
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• 2014

Objectives: This study was performed to analyze a 13-week repeated dose toxicity test of Sweet Bee Venom (SBV) extracted from bee venom and administered in Sprague-Dawley (SD) rats. Methods: Male and female 5-week-old SD rats were treated once daily with SBV (high-dosage group: 0.28 mg/kg; medium-dosage group: 0.14 mg/kg; or low-dosage group: 0.07 mg/kg) for 13 weeks. Normal saline was administered to the control group in a similar manner (0.2 mL/kg). We conducted clinical observations, body weight measurements, ophthalmic examinations, urinalyses, hematology and biochemistry tests, and histological observations using hematoxylin and eosin (H&E) staining to identify any abnormalities caused by the SBV treatment. Results: During this study, no mortality was observed in any of the experimental groups. Hyperemia and a movement disorder were observed around the area of in all groups that received SBV treatment, with a higher occurrence in rats treated with a higher dosage. Male rats receiving in the high-dosage group showed a significant decrease in weight during the treatment period. Compared to the control group, no significant changes in the ophthalmic parameters, the urine analyses, the complete blood cell count (CBC), and the biochemistry in the groups treated with SBV. Compared to the control group, some changes in organ weights were observed in the medium-and the high-dosage groups, but the low-dosage group showed no significant changes. Histological examination of thigh muscle indicated cell infiltration, inflammation, degeneration, and necrosis of muscle fiber, as well as fibrosis, in both the medium- and the high-dosage groups. Fatty liver change was observed in the periportal area of rats receiving medium and high dosages of SBV. No other organ abnormalities were observed. Conclusion: Our findings suggest that the No Observed Adverse Effect Level (NOAEL) of SBV is approximately 0.07 mg/kg in male and female SD rats.

• Journal of Pharmacopuncture
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• v.18 no.3
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• pp.49-56
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• 2015

Objectives: Anaphylactic shock can be fatal to people who become hypersensitive when bee venom pharmacopuncture (BVP) is used. Thus, sweet bee venom (SBV) was developed to reduce these allergic responses. SBV is almost pure melittin, and SBV has been reported to have fewer allergic responses than BVP. BVP has been administered only into acupoints or intramuscularly, but we thought that intravenous injection might be possible if SBV were shown to be a safe medium. The aim of this study is to evaluate the intravenous injection toxicity of SBV through a single-dose test in Sprague-Dawley (SD) rats. Methods: Male and female 6-week-old SD rats were injected intravenously with SBV (high dosage: 1.0 mL/animal; medium dosage: 0.5 mL/animal; low dosage: 0.1 mL/animal). Normal saline was injected into the control group in a similar method. We conducted clinical observations, body weight measurements, and hematology, biochemistry, and histological observations. Results: No death was observed in any of the experimental groups. Hyperemia was observed in the high and the medium dosage groups on the injection day, but from next day, no general symptoms were observed in any of the experimental groups. No significant changes due to intravenous SBV injection were observed in the weights, in the hematology, biochemistry, and histological observations, and in the local tolerance tests. Conclusion: The results of this study confirm that the lethal dose of SBV is over 1.0 mL/animal in SD rats and that the intravenous injection of SBV is safe in SD rats.

• Journal of Pharmacopuncture
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• v.14 no.3
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• pp.19-45
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• 2011

Objectives: This study was performed to analyse the effects of Sweet Bee Venom(Sweet BV-pure melittin, the major component of honey bee venom) on the central nervous system in rats. Methods: All experiments were conducted at Biotoxtech Company, a non-clinical studies authorized institution, under the regulations of Good Laboratory Practice (GLP). Male rats of 5 weeks old were chosen for this study and after confirming condition of rats was stable, Sweet BV was administered in thigh muscle of rats. And checked the effects of Sweet BV on the central nervous system using the functional observational battery (FOB), which is a neuro-toxicity screening assay composed of 30 descriptive, scalar, binary, and continuous endpoints. And home cage observations, home cage removal and handling, open field activity, sensorimotor reflex test/physiological measurements were conducted. Results: 1. In the home cage observation, there was not observed any abnormal signs in rats. 2. In the observation of open field activity, the reduction of number of unit areas crossed and rearing count was observed caused by Sweet BV treatment. 3. In the observation of handling reactivity, there was not observed any abnormal signs in rats. 4. In the observation of sensorimotor reflex tests/physiological measurements, there was not observed any neurotoxic signs in rats. 5. In the measurement of rectal temperature, treatment of Sweet BV did not showed great influences in the body temperature of rats. Conclusions: Above findings suggest that Sweet BV is relatively safe treatment in the central nervous system. But in the using of over dose, Sweet BV may the cause of local pain and disturbance of movement. Further studies on the subject should be conducted to yield more concrete evidences.

• Journal of Korean Medicine Rehabilitation
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• v.23 no.3
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• pp.87-106
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• 2013

Objectives We will provide basic information on bee venom clinical tests and aid the practical use of bee venom in such tests, through examination of RCT research related to bee venom that was reported domestically. Methods We collected 365 articles on Bee venom study result from the OASIS system using the Keyword 'bee venom, apitoxin, apitherapy, bee sting'. The initially selected theses were primarily screened for clinical research. Out of these, case studies and non randomized controlled trial (non-RCT) were ruled out. As a result, 39 studies of randomized controlled trial (RCT) research were chosen as the subjects of study. Results RCT research related to bee venom was first presented in 2003, and 39 studies have been published until 2012. 18 studies were tests to confirm the effectiveness of bee venom, 7 studies were comparisons between SBV and BV, and 13 studies were comparisons with other types of treatment. Research conducted through appropriate randomization methods were 20 studies, and inappropriate randomization methods were used in 19 studies. In therms of Jadad score, 12 studies received 4~5 points, 15 studies received 1-3 points, and 12 studies received zero point. Conclusions In order to assure good quality RCT research, appropriate guidelines should be provided, and proper evaluation standards should be established. In-depth study is needed concerning the difference of responses to treatment according to the types of treatment received. A standardization of treatment should be reached as a result.

• Journal of Pharmacopuncture
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• v.23 no.2
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• pp.44-53
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• 2020

Objectives: Our review aimed to summarize and evaluate evidence on the effectiveness of bee venom acupuncture (BVA) in the treatment of shoulder pain. Methods: Randomized controlled trials (RCTs) evaluating the effectiveness of BVA on shoulder pain were searched up to October 2019 in 11 electronic databases (Medline, Embase, CENTRAL, CiNii, CNKI, VIP, Wanfang, Kmbase, NDSL, RISS, OASIS). The methodological quality of the included RCTs were evaluated using Cochrane Risk of Bias tool and a meta-analysis was performed. Results: Seven studies were included in the review, and four studies were included in the meta-analysis. Comparing BVA plus conventional therapy (CT) with saline injection plus CT, it showed an effect in favor of BVA plus CT in visual analog scale (VAS) and pain rating scale (PRS) (p = 0.02, p = 0.009, respectively). Comparing BVA plus physiotherapy (PT) with saline injection plus PT, it showed that there was no significant difference in VAS and verbal rating scale (VRS) between the two groups. Conclusion: This systematic review and meta-analysis suggest that BVA could be beneficial as an adjuvant treatment for shoulder pain.

• Journal of Physiology & Pathology in Korean Medicine
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• v.35 no.1
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• pp.1-7
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• 2021

Chemotherapy-induced peripheral neuropathy (CIPN) is one of the most common dose-limiting side effects of neurotoxic chemotherapeutic agents that lead to decreased quality of life and dose reduction, delay or even cessation of treatment. The purpose of this systematic review is to evaluate the effect and the underlying mechanisms of bee venom (BV) pharmacopuncture therapy for CIPN in animal models. We searched for the available experimental literature using BV for CIPN through the Pubmed databases. Ten experimental studies were finally included in this review. In the oxaliplatin or paclitaxel-induced CIPN animal model, BV significantly relieved pain caused both mechanical and cold stimulation. It was suggested that the effect of BV is mediated by the stimulation effect of spinal α1- and α2-adrenergic receptors as a potential mechanism. In the future, more experimental studies are needed.