 |
 |
 |
 |
 |
 |
Sains Malaysiana 49(7)(2020): 1719-1727
http://dx.doi.org/10.17576/jsm-2020-4907-22
Nigella sativa as a Galactagogue: A Systematic Review
(Nigella sativa sebagai Penggalak Susu: Suatu Ulasan Sistematik)
AINI FARZANA ZULKEFLI, RUSZYMAH BT HJ IDRUS &
ADILA A HAMID*
Department of Physiology,
Faculty of Medicine, Universiti Kebangsaan Malaysia, Jalan Yaacob Latif, 56000 Cheras, Kuala Lumpur, Malaysia
Diserahkan:
25 September 2019/Diterima: 23 Mac 2020
ABSTRACT
Nigella sativa is a herb with various pharmacological
properties and has been used widely for medicinal purposes and acts as a milk
booster. The aim of this systematic review was to provide information on the galactagogue property of N. sativa. Electronic searches
were conducted in two databases, namely, Medline via EBSCOhost and Scopus, for
relevant studies published between the 1865 and March 2020. Additional
records identified through Google Scholar showed one eligible article. Only articles
published in English and related to the galactagogue effect of N. sativa were included in this review. A total of 110
potential articles were identified, but only four fulfilled the inclusion
criteria. Four animal studies were included in this review. All of the selected
studies reported positive galactagogue effects of N. sativa as determined by
serum prolactin level, breast tissue changes, milk production and composition,
and weight of litter, thereby suggesting its effect as milk booster. However,
the review found no evidence supporting the effect of N. sativa as a galactagogue in humans.
Keywords: Breastfeeding; galactagogue; milk
production; Nigella sativa
ABSTRAK
Nigella sativa merupakan sejenis herba yang mempunyai pelbagai ciri farmakologi dan telah digunakan secara meluas bagi tujuan perubatan dan juga sebagai penggalak susu. Ulasan sistematik ini menyediakan maklumat mengenai aktivitiN. sativa sebagai penggalak susu dengan mengenal pasti penerbitan yang berkaitan dengannya. Pencarian artikel secara elektronik dilakukan dengan menggunakan dua pangkalan data iaitu Medline melalui EBSCOhost dan Scopus dan artikel yang relevan antara tahun 1865 dan Mac 2020 dikenal pasti. Rekod tambahan telah dikenal pasti melalui Google Scholar iaitu sebanyak satu artikel. Sejumlah 110 artikel yang berpotensi dikenal pasti dan hanya empat artikel menepati kriteria yang ditetapkan. Empat kajian haiwan dimasukkan di dalam ulasan ini. Kesemua kajian menunjukkan kesan positif penggalak susu olehN. sativa melalui penentuan aras prolaktin dalam serum, perubahan tisu payudara, penghasilan dan komposisi susu dan berat anak haiwan yang disusui. Hasil kajian seterusnya mencadangkanN. sativa sebagai agen penggalak susu. Namun begitu, ulasan sistematik ini mendapati tiada bukti yang menyokong kesanN. sativa sebagai penggalak susu pada manusia.
Kata kunci: Nigella sativa; penghasilan susu; penggalak susu; penyusuan
RUJUKAN
Abdulelah,
H.A.A. & Zainal-Abidin, B.A.H. 2007. In vivo anti-malarial tests of Nigella sativa (Black Seed) different extracts. American Journal of Pharmacology and
Toxicology 2(2): 46-50.
Abo El-Nor,
S.A.H., Khatab, H.M., Al-Alamy,
H.A., Salem, F.A. & Abdou, M.M. 2007. Effect of some medicinal plants seeds in the
rations on the productive performance of lactating buffaloes. International Journal of Dairy Science 2(4): 348-355.
Alemi,
M., Sabouni, F., Sanjarian,
F., Haghbeen, K. & Ansari, S. 2013.
Anti-inflammatory effect of seeds and callus of Nigella sativaL. extracts on mix glial
cells with regard to their thymoquinone content. Journal of the American Association of
Pharmaceutical Scientists 14(1): 160-167.
Ali, B.H.
& Blunden, G. 2003. Pharmacological and toxicological properties of Nigella sativa. Phytotherapy Research 17: 299-305.
Aljabre,
S.H.M., Alakloby, O.M. & Randhawa, M.A. 2015. Review.
Dermatological effect of Nigella sativa. Journal
of Dermatologic Surgery 19: 92-98.
Al-Jassir, M.S. 1992.
Chemical composition and microflora of black cumin (Nigella sativaL.) seeds growing in Saudi
Arabia. Food Chemistry Journal 45:
239-242.
Al-Snafi, A.E., Majid, J.W. & Talab,
T.A. 2014. Galactagogue action of Nigella sativa seeds. IOSR Journal of Pharmacy 4(6):
58-61.
Anderson,
P.O. 2013. The galactogogue banwagon. Journal of Human Lactation29(1): 7-10.
Anstey, E.H., Shoemaker, M.L., Barrera, C.M., O'Neil,
M.E., Verma, A.B. & Holman, D.M. 2017. Breastfeeding
and breast cancer risk reduction: Implications for black mothers. American Journal of Preventive Medicine 53(3S1):
S40-S46.
Azadi,
H.G. & Farzaneh, N. 2010. Comparison of two
regimens of Nigella sativa extract for treatment of subclinical mastitis caused by Staphylococcus aureus. American
Journal of Applied Sciences 7(9): 1210-1214.
Babazadeh,
B., Sadeghnia, H.R., Kapurchal,
E.S., Parsaee, H., Nasri,
S. & Tayarani-Najaran, Z. 2012. Protective effect
of Nigella sativa and thymoquinone on serum/glucose deprivation-induced
DNA damage in PC12 cells. Avicenna
Journal of Phytomedicine 2(3): 125-132.
Boskabady,
M.H. & Shirmohammadi, B. 2002. Effect of Nigella sativa on isolated guinea pig trachea. Archives
of Iranian Medicine 5: 103-107.
Doggrell,
S.A. & Hancox, J.C. 2014. Cardiac safety concerns
for domperidone, an antiemetic and prokinetic, and galactogogue medicine. Expert Opinion Drug Safety 13(1): 131-138.
El Rabey, H.A., Al-Seeni, M.N. & Bakhashwain, A.S. 2017. The antidiabetic activity of Nigella sativa and propolis on streptozotocin-induced diabetes and diabetic nephropathy in
male rats. Evidence-Based Complementary
Alternative Medicine 2017: 1-14.
El Shenawy, N.S., Soliman, M.F. & Reyad, S.I.
2008. The effect of antioxidant properties of aqueous garlic extract and Nigella sativa as anti-schistosomiasis agents in mice. Revista do Instituto de Medicina Tropical de
Sao Paulo 50(1): 29-36.
Erboga, M., Kanter, M., Aktas, C., Sener, U., Fidanol Erboga,
Z., Bozdemir Donmez,
Y. & Gurel, A. 2016. Thymoquinone ameliorates cadmium-induced nephrotoxicity, apoptosis, and oxidative stress in
rats is based on its anti-apoptotic and anti-oxidant properties. Biological Trace Elements Research 170(1): 165-172.
Hajhashemi,
V., Ghannadi, A. & Jafarabadi,
H. 2004. Black cumin seed essential oil as a potential analgesic and
anti-inflammatory. Phytotheraphy Research 18(3): 195-199.
Hale, T.W. & Hartmann, P.E. 2007. Hale and Hartmann’s Textbook of Human
Lactation. Plano, TX: Springer.
Hale, T.W., Kendall-Tackett, K. & Cong, Z. 2018. Domperidone versus metoclopramide: Self-reported side
effects in a large sample of breastfeeding mothers who used these medications
to increase milk production. Clinical
Lactation 9(1): 10-17.
Haron, H., Grace-Lynn, C. & Shahar,
S. 2014. Comparison of physicochemical analysis and antioxidant activities of Nigella sativa seeds and oils from Yemen, Iran and Malaysia. Sains Malaysiana 43(4):
535-542.
Hosseinzadeh,
H., Tafaghodi, M., Mosavi,
M.J. & Taghiabadi, E. 2013. Effect of aqueous and ethanolic extracts of Nigella sativa seeds on milk production
in rats. Journal of Acupunture and Meridien Studies 6(1): 18-23.
Huchchannanavar,
S., Yogesh, L.N. & Prashant, S.M. 2019. The black
seed Nigella sativa:
A wonder seed. International Journal of
Chemical Studies 7(3): 1320-1324.
Institute for Public Health
(IPH). The
National Health and Morbidity Survey (NHMS) 2016: Maternal and Child Health
Volume II. Kuala Lumpur: Institute for Public Health, National
Institutes of Health, Ministry of Health Malaysia.
Jaarin,
K., Foong, W.D., Yeoh,
M.H., Kamarul, Z.Y.N., Qodriyah,
H.M.S., Azman, A., Zuhair,
J.S.F., Juliana, A.H. & Kamisah, Y. 2015.
Mechanisms of the antihypertensive effects of Nigella sativa oil in L-NAME-induced
hypertensive rats. Clinics 70(11):
751-757.
Jordan, S.J., Cushing-Haugen, K.L., Wicklund, K.G., Doherty, J.A. & Rossing,
M.A. 2012. Breast-feeding and risk of epithelial ovarian cancer. Cancer Causes Control 23(6): 919-927.
Kul'ko,
A.B., Kisl, O.V., Sadykova,
V.S., Mikhailov, V.F., Vasilieva,
I.M., Shulenina, L.V., Zasukhina,
G.D. & Rogozhin, E.A. 2016. Investigation of thionins from black cumin (Nigella sativa L.) seeds showing
cytotoxic, regulatory and antifungal activity. Antibiotiki i Khimioterapiya 61(9-10): 8-16.
Liu, H.,
Hua, Y., Luo, H., Shen, Z., Tao, Z. & Zhu, X. 2015. An herbal galactagogue mixture increases milk production and
aquaporin protein expression in the mammary glands of lactating rats. Evidence-Based Complementary and Alternative
Medicine 2015: 1-6.
Nasuti,
C., Bordoni, L., Fedeli, D.
& Gabbianelli, R. 2019. Effect of Nigella sativa oil in a rat model of adjuvant-induced arthritis. Multidisciplinary Digital Publishing Institute Proceedings 342(8):
1-17.
Ng, W.K., Yazan, L.S. &
Ismail, M. 2011. Thymoquinone from Nigella sativa was more potent than cisplatin in
eliminating of SiHa cells via apoptosis with
down-regulation of Bcl-2 protein. Toxicology In Vitro 25(7): 1392-1398.
Nickavar,
B., Mojab, F., Javidnia, K.
& Amoli, M.A. 2003. Chemical composition of the fixed and volatile oils of Nigella sativa L. from Iran. Zeitschrift fur Naturforschung C. Juornal 58(9-10): 629-631.
Nurdin,
E., Amelia, T. & Makin, M. 2011. The effects of herbs on milk yield and
milk quality of mastitis dairy cow. Journal
of the Indonesian Tropical Animal Agriculture 36(2): 104-108.
Othman, N., Lamin, R.A.C. & Othman, C.N. 2014. Exploring behavior on the herbal galactagogue usage among Malay lactating mothers in Malaysia. Procedia-Social and Behavioral Sciences 153:
199-208.
Sharma, K.
& Bhatnagar, M. 2011. Asparagus racemosus (Shatavari):
A versatile female tonic. International
Journal of Pharmaceutical and Biological Archive 2(3): 855-863.
Shuid,
A.N., Mohamed, N., Mohamed, I.N., Othman, F., Suhaimi,
F., Mohd Ramli, E.S.,
Muhammad, N. & Soelaiman, I.N. 2012. Nigella sativa:
A potential antiosteoporotic agent. Evidence-Based Complementary and Alternative
Medicine 2012: Article ID. 696230.
Tengku Alina, T.I., Wan Abdul Manan, W.M. & Mohd Isa, B.
2013. Factors predicting early discontinuation of exclusive breastfeeding among
women in Kelantan, Malaysia. Health and
the Environment Journal 4(1): 42-54.
World
Health Organization. 2017. Global Targets 2025: To Improve Maternal, Infant and Young Child Nutrition. http://www.who.int/nutrition/global-target-2025/en/. Accessed on 1 June 2017.
Yesmin,
F., Rahman, Z., Dewan, J.F., Helali,
A.M., Rahman, N.I.A., Alattraqchi, A.G., Ahmed, A., Yousuf, R., Salam, A. & Haque,
M. 2013. Hepato-protective role of the aqueous and
n-hexane extracts of Nigella sativa Linn. in experimental liver damage in rats. Asian
Journal of Pharmaceutical and Clinical Research 6(3):
205-209.
Zaoui,
A., Cherrah, Y., Mahassini,
N., Alaoui, K., Amarouch,
H. & Hassar, M. 2002. Acute and chronic toxicity
of Nigella sativa fixed oil. Phytomedicine 9(1): 69-74.
Zuppa,
A.A., Sindico, P., Orchi,
C., Carducci, C., Cardiello, V. & Romagnoli, C. 2010. Safety and efficacy of galactogogues: Substances that induce, maintain and increase
breast milk production. Journal of
Pharmacy Pharmaceutical Sciences 13: 162-174.
*Pengarang untuk surat-menyurat; email:
adilahamid@gmail.com
|
|||
|
