Insights & Discussion
Oral administration of honey is associated with increased serum testosterone levels in males, supported by in vivo studies suggesting mechanisms involving luteinizing hormone production, Leydig cell viability, oxidative damage reduction, enhanced StAR gene expression, and aromatase activity inhibition.
This systematic review examined research articles retrieved from PubMed, Scopus, and Embase databases (May 1993 to April 2019) using keywords "honey" and "honeybee" versus "testosterone." The analysis, primarily based on in vivo studies, concludes that honey positively impacts serum testosterone levels in males. Mechanistically, honey is proposed to elevate testosterone by stimulating luteinizing hormone production, enhancing Leydig cell viability, reducing oxidative damage, promoting StAR gene expression, and inhibiting aromatase activity in the testes. While the evidence is promising, further human studies, particularly clinical trials, are necessary to validate honey's effect on testosterone.
The comprehensive review underscores the potential of honey in elevating serum testosterone levels in males, proposing detailed mechanistic pathways. In vivo studies provide valuable insights into how honey influences hormone production, cell viability, and genetic expression. However, the conclusive confirmation of honey's impact on testosterone awaits further research, specifically in the form of human clinical trials, to strengthen the evidence and bridge the gap between in vivo findings and clinical applicability.
The collective evidence, which is mainly based on in vivo system studies, reveals that oral administration of honey increases serum testosterone level in males.
Mechanistically, honey may increase serum level of testosterone by increasing the production of luteinizing hormone, enhancing the viability of Leydig cells, reducing oxidative damage in Leydig cells, enhancing StAR gene expression, and inhibiting aromatase activity in the testes.
However, further research studies on humans, mainly clinical trials, in this specific research approach are still needed to confirm the effect of honey on testosterone.
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Manuka honey has demonstrated the potential to inhibit the proliferation of human breast cancer cells and stimulate apoptosis in these cells.
2024 Nutrients Manuka Honey Inhibits Human Breast Cancer Progression in Preclinical Models Márquez-Garbán DC, Yanes CD, Llarena G, Elashoff D, Hamilton N, Hardy M, et al.
Animal Study Breast Cancer Honey
In the experiment, Manuka honey was applied to three different types of cells: MCF-7 human breast cancer cells, MDA-MB-231 breast cancer cells, and non-malignant human mammary epithelial cells. The concentrations applied ranged from 0.3 to 5.0% to observe different effects. In addition to inhibiting cancer cell proliferation, the honey was tested for its ability to cause apoptosis (cell death) among the MCF-7 cells. It was also compared to the effects of tamoxifen, an antiestrogen medication used in breast cancer treatment.
The results showed that Manuka honey was able to significantly inhibit the proliferation of MCF-7 cells, though its effects were less pronounced in the MDA-MB-231 breast cancer cells. The non-malignant cells were not affected. The honey's antitumor activity was comparable to that of tamoxifen. Moreover, Manuka honey stimulated apoptosis in the MCF-7 cells. It was also observed that the honey activated AMPK, which inhibits specific cellular growth signals, and reduced STAT3 levels, a protein often elevated in tumors.
The combination of dark chocolate with herbs could be one of the therapies for period pain.
2023 Journal of Tropical Pharmacy and Chemistry Effect of Combination of Dark Chocolate and Herbal Ingredients for Dysmenorrhea in Late Adolescents Azizah RNP, Anggreini P, Prasetya F
Randomised Controlled Trial Dark Chocolate Ginger Honey
This test was conducted on 30 respondents who were divided into three groups, namely the positive control group (K), dark chocolate (C), and a combination of dark chocolate with herbs (C+H). Dark chocolate was combined with herbal ingredients consisting of turmeric, red ginger, moringa, sambiloto extract, and honey as a beverage 250 mL.
The study is quantitative research with quasi-experimental method. Pain measurement using the Numeric Rating Scale (NRS) sheet was given before and 2 hours after treatment. The data was analyzed using paired t-test. State the results of the values obtained the combination of dark chocolate and herbs showed a significant reduction in pain before and after treatment (p<0.05).
Clinical studies related to breast cancer have revealed that honey is effective in increasing blood cell counts, interleukin-3 levels, and quality of life.
2023 Antioxidants Honey: A Promising Therapeutic Supplement for the Prevention and Management of Osteoporosis and Breast Cancer Martiniakova M, Kovacova V, Mondockova V, Zemanova N, Babikova M, Biro R, et al.
Clinical Study Breast Cancer Honey Osteoporosis
In relation to breast cancer, in vitro experiments revealed the anti-proliferative and pro-apoptotic impact of honey on breast cancer cells, as well as their increased apoptosis. Animal studies have shown that honey reduces the number, growth rate, volume, and tumor weight. Findings from clinical trials reported its immunomodulatory properties showing that honey is effective in increasing leukocyte and platelet counts, IL-3 levels, and quality of life. In this context, the potential role of honey and its oligosaccharides as prebiotics for specific beneficial bacteria might be examined in future clinical studies.
Preclinical studies related to osteoporosis have reported favorable effects of honey on cortical and trabecular bone microstructure, bone strength, and oxidative stress.
2023 Antioxidants Honey: A Promising Therapeutic Supplement for the Prevention and Management of Osteoporosis and Breast Cancer Martiniakova M, Kovacova V, Mondockova V, Zemanova N, Babikova M, Biro R, et al.
Clinical Study Breast Cancer Honey Osteoporosis
Honey is able to protect the bone mainly due to antioxidant and anti-inflammatory properties, primarily through its content of polyphenols, which act on several signaling pathways, resulting in anabolic and antiresorptive effects. From the group of polyphenols, the anti-osteoporotic impact of quercetin, kaempferol, and luteolin was recorded. In addition, vitamin D3 and its hydroxyderivatives with antioxidant properties were also detected in honey. Vitamin D3 supplementation was found to have protective effects on the inhibition of bone loss and BMD in both experimental animals and postmenopausal women.
Consuming a honey-based gel, such as 'Bear Strength honey gel,' led to a notable reduction in diastolic and mean arterial blood pressure, with gender-specific improvements in redox status among healthy adults.
2023 Biomedical Reports Evaluation of the effects of a honey‑based gel on blood redox biomarkers and the physiological profile of healthy adults: A pilot study Patouna A, Sevdalis P, Papanikolaou K, Kourti M, Skaperda Z, Jamurtas A, et al.
Clinical Study High Blood Pressure Honey
The study included 20 healthy participants (10 men, 10 women) who incorporated 70g of 'Bear Strength honey gel' into their daily diet for 14 days. Physiological parameters (weight, height, BMI, body fat, waist-to-hip ratio, resting heart rate, and blood pressure) and hematological data were evaluated before and after consumption. Redox biomarkers, including Glutathione (GSH), catalase (CAT), total antioxidant capacity (TAC), protein carbonyls (PCARBS), and thiobarbituric reactive substances (TBARS), were measured.
Post-consumption, the honey-based gel showed a significant decrease in diastolic and mean arterial blood pressure, particularly in women. However, no significant changes were observed in other physiological or hematological variables. Notably, GSH levels increased in both genders, TAC increased universally, and TBARS levels decreased in the total group and women. PCARBS levels decreased exclusively in the women's group. These findings highlight the honey-based gel's potential positive impact on blood pressure and redox status, emphasizing gender-specific effects in healthy adults.
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