Friday, 8 November 2013

NUTRITIONISTS CHARGE FG TO ADDRESS MALNUTRITION

Senior Advisor, Global Alliance on Improved Nutrition, Dr. Tina Van den Briel, has called on the Federal Government to implement policies and programmes that will address malnutrition among children and mothers in the country.
Van den Briel made this call at the 43rd conference of the Nutrition Society of Nigeria, in Calabar, where stakeholders gathered to discuss the evidence, implications and priority actions for improved nutrition in Nigeria, based on the recently released Lancet Series report on nutrition.
A global report by The Lancet, in May, estimated that about 10 million children in Nigeria were stunted. In the study, Nigeria was also the second country with the highest population of malnourished children in the world after India.
Van den Breil noted that these figures reiterate the need for Nigerian government to have high level political champions who would fight for better nutrition for women and children.
She said it was high time that FG translated its commitment on policy papers to substantial budgetary allocation to tackle malnutrition.
She said, “If you look at Nigeria, it is one of the 34 countries with 90 per cent global burden of malnutrition.  In this country you have 10 million children who are still stunted. To improve child nutrition, maternal nutrition is the entry point. We need better integration of nutrition specific and sensitive interventions.”
To improve the nutritional status of Nigerians, Unilever Nutrition and Health Manager for West Africa, Dr. Victor Ajieroh stated that food manufacturing companies in the country have a crucial role to play by making nutrients fortified food available to the public.
Ajieroh said private food companies must continue to support the efforts of the Federal Ministry of Agriculture in the promotion of dietary diversification, consumption of bio-fortified foods and other nutrition-sensitive interventions.
Meanwhile, the West and Central Africa regional coordinator and Senior Advisor, International Council for Control of Iodine Deficiency Disorders, Dr. John Egbuta, called for the quick establishment of the Nutrition Council of Nigeria.

Egbuta said apart from strengthening nutritional activities by government agencies, development partners and the private sector, the council, when established, would be charged with the enforcement of the national legislation on mandatory food fortification with iron, folic acid, zinc, vitamin A and iodine.

Thursday, 7 November 2013

AMAZING FACTS AND FIGURES ON WORLD HUNGER.

1.      842 million people in the world do not have enough to eat. This number has fallen by 156 million since 1990. 
2.  The vast majority of hungry people (827 million) live in developing countries, where 14.3 percent of the population is undernourished. 
3.      Asia has the largest share of the world's hungry people (some 552 million) but the trend is downward. 
4.   If women farmers had the same access to resources as men, the number of hungry in the world could be reduced by up to 150 million.
  
 
5.  Poor nutrition causes nearly half (45%) of deaths in children under five - 3.1 million children each year.
  
 
6.  One out of six children -- roughly 100 million -- in developing countries is underweight.
  
 
7.      One in four of the world's children are stunted. In developing countries the proportion can rise to one in three.
  
 
8.      80 percent of the world's stunted children live in just 20 countries.
  
 
9.  66 million primary school-age children attend classes hungry across the developing world, with 23 million in Africa alone.
  
 

10.    WFP calculates that US$3.2 billion is needed per year to reach all 66 million hungry school-age children.

Source: World Food Programme (WFP).
  

Wednesday, 6 November 2013

NAFDAC Uncovers New Strategy Used By Fake Products Manufacturers







The National Agency for Food and Drug Administration and Control (NAFDAC) on Wednesday in Abuja said it had uncovered the new strategy of producers of fake products in Nigeria.

The Director of Special Duties with the agency, Mr Abubakar Jimoh, told the News Agency of Nigeria (NAN), that the agency would intensify efforts to track down the counterfeiters and curb their illicit activities.

“The new strategy now is people are importing not even big containers, but packs that are already printed abroad and they are stuffing in anything they want to stuff in the packs.

“The containers are already manufactured abroad, empty containers and packs, done beautifully, printed well there.

“They just stuff anything they want to, that is the new dimension now.

“So you do not see people now like in the past bringing it whole, over there everything is tough there and they have to start bringing in big consignments.

“You don’t see the containers well loaded, as they now know that the prying eyes of NAFDAC and the Customs and other security agents at the port are watching and it is becoming apparently difficult because we tighten up the noose round them.

“So, now they bring in small packs, they make it flat.

“Somebody can bring millions of packs already flattened and they arrange it well and come here and come and stuff it and we are cracking down on them.’’

The director gave the assurance that the agency was doing everything possible to ensure that it safe guards the health of Nigerians.

Jimoh called on the citizens to collaborate with the agency by reporting activities of counterfeiters and their hide outs.

Sunday, 3 November 2013

RISK OF ALCOHOL ON WOMEN



In recent years the use of alcoholic beverages has increased. And this has reduced the margin between male and female drinkers.

We now have more women from different culture consuming alcohol for various reasons. While most of them still manage to drink responsibly, alcohol pose a higher risk to women, who are more vulnerable to alcohol's harmful effects. Women are generally adviced to drink less because their bodies can’t process alcohol as well as men’s.

There are a few reasons for this:
  • The average woman weighs less than the average man. This means she has less tissue to absorb alcohol.
  • Women have a higher ratio of fat to water than men and so they’re less able to dilute alcohol within the body. It’s why women will tend to have a higher concentration of alcohol in their blood than men after drinking the same amount.
  •  Alcohol stays in a women’s system longer before being metabolised (processed) than it does in a man’s. This is because women generally have lower levels of alcohol dehydrogenase (AHD) the chemical that metabolises alcohol in the liver.
 So after a man and woman of the same weight drink the same amount of alcohol, the woman’s blood alcohol concentration will tend to be higher, putting her at greater risk for harm. Other biological differences, including hormones, may contribute as well.
 Women are also more likely to abuse alcohol and other substances in order to self-medicate problems such as depression, anxiety, and stress, or to cope with emotional difficulties.


Some of the major risks women are exposed to are:

Sexual Abuse

Most women who are drunk are reported to have been raped or sexually assaulted.

Affects Fertility

Women trying to have babies are advised to stay off alcohol. Alcohol can disrupt a woman's menstrual cycle and reduce her chances of conceiving.

Physical Looks

Alcohol intake interfares with the normal sleep process, dehydrates your body, deprives the skin of certain vitamins and nutrients. After drinking, you have tired eyes, bad skin, weight etc. all these make you look unattractive.
Try taking a break from alcohol and see how you look and feel.
 
Liver Damage

Women who drink are more likely to develop alcoholic hepatitis (liver inflammation) than men who drink the same amount of alcohol. Alcoholic hepatitis can lead to cirrhosis.

Heart Disease

Chronic heavy drinking is a leading cause of heart disease. Among heavy drinkers, women are more susceptible to alcoholrelated heart disease than men, even though women drink less alcohol over a lifetime than men.

Breast Cancer

Women who consume about one drink per day have a 10 percent higher chance of developing breast cancer than women who do not drink at all. That risk rises another 10 percent for every extra drink they have per day.
Drinking alcohol can increase your risk of several types of cancer, including liver, bowel, breast, mouth, oesophageal cancer (food pipe) and laryngeal cancer (voice box).

Pregnancy

Any drinking during pregnancy is risky. A pregnant woman who drinks heavily puts her fetus at risk for learning and behavioral problems and abnormal facial features. Even moderate drinking during pregnancy can cause problems. Drinking during pregnancy also may increase the risk for preterm labor.


Women should start reducing their alcohol intake by
Give alcohol free days
Stop using alcohol as a means of relaxation
Know what you are drinking

Meanwhile these category of women are advised not to drink alcohol at all
  Anyone under age 21
  Anyone who takes medications that can interact negatively with alcohol
  Anyone who is pregnant or trying to conceive

Friday, 1 November 2013

HEALTH HAZARD OF MICROWAVE OVEN

                               
 
                                            HAZARD OF MICROWAVE ON WAVE

1. Microwaved foods lose 60 ~ 90% of their nutritional value and it also accelerates the structural disintegration of food.

2. Microwaving creates cancer-causing agents within milk and cereals.

3. Microwaving alters elemental food-substances, causing digestive disorders.

4. Microwaving alters food chemistry which can lead to malfunctions in the lymphatic system and degeneration of the body’s ability to protect itself against cancerous growths.

5. Microwaved foods lead to a higher percentage of cancerous cells in the bloodstream.

6. Microwaving altered the breakdown of elemental substances when raw, cooked, or frozen vegetables were exposed for even a very short time and free radicals were formed.

7. Microwaved foods caused stomach and intestinal cancerous growths, a general degeneration of peripheral cellular tissues, and a gradual breakdown of the digestive and excretive systems in a statistically high percentage of people.

8. Microwaved foods lowered the body’s ability of the body to utilize B-complex vitamins, Vitamin C, Vitamin E, essential minerals and lipotropics.

9. The microwave field next to a microwave oven caused a slew of health problems as well.

10. Heating prepared meats in a microwave sufficiently for human consumption created:

* d-Nitrosodiethanolamine (a well-known cancer-causing agent)

* Destabilization of active protein biomolecular compounds

* Creation of a binding effect to radioactivity in the atmosphere.

* Creation of cancer-causing agents within protein-hydrosylate compounds in milk and cereal grains.

11. Microwave emissions also caused alteration in the catabolic (breakdown) behaviour of glucoside – and galactoside – elements within frozen fruits when thawed in this way.

12. Microwaves altered catabolic behavior of plant-alkaloids when raw, cooked or frozen vegetables were exposed for even very short periods.

13. Cancer-causing free radicals were formed within certain trace-mineral molecular formations in plant substances, especially in raw root vegetables.

14. Due to chemical alterations within food substances, malfunctions occurred in the lymphatic system, causing degeneration of the immune systems’ capacity to protect itself against cancerous growth.

15. The unstable catabolism of micro-waved foods altered their elemental food substances, leading to disorders in the digestive system.

16. Those ingesting micro-waved foods showed a statistically higher incidence of stomach and intestinal cancers, plus a general degeneration of peripheral cellular tissues with a gradual breakdown of digestive and excretory system function.

17. Microwave exposure caused significant decreases in the nutritional value of all foods studied, particularly:

* A decrease in the bioavailability of B-complex vitamins, vitamin C, vitamin E, essential minerals and lipotrophics

* Destruction of the nutritional value of nucleoproteins in meats

* Lowering of the metabolic activity of alkaloids, glucosides, galactosides and nitrilosides (all basic plant substances in fruits and vegetables)

* Marked acceleration of structural disintegration in all foods.


 Safety tips for the operation of microwave ovens

Follow the manufacturer's instructions for operating procedures and safety precautions. Any misuse of the oven may result in personal injury.
As mentioned above, persons with modern pacemakers should not experience difficulty when near a microwave that is in good working condition. However, if you have concerns or notice symptoms (e.g., dizziness or discomfort), move away from the microwave immediately and consult with your doctor.
Check to see that door seal and inside surfaces of door and oven cavity are clean after each use.
Repair or replace any microwave that is not in good working condition.
Repairs should only be done by a qualified service person.
Do not use the microwave if the door does not close (e.g., is bent, warped or damaged in any way).
Do not disable or by-pass any safety locks.
Do not insert an object through an opening or around the door seal.
Safety tips for the maintenance of microwave ovens include:

Take special care to ensure that no damage occurs to the part of the oven making contact with the door or door seals.
Repairs should only be done by a qualified service person.
Do not by-pass the door interlocks.
Safety tips for the repair and testing of microwave ovens and their components include:

Only qualified service personnel should attempt repairs and/or testing of microwave ovens and their components.
Service personnel should be aware of any risk associated with exposure to microwave energy when performing tests or repairs.
Ensure that the adjustment of applied voltages, replacement of the microwave power generating component, dismantling of oven components, and refitting of waveguides are done only by persons who have been specifically trained for such tasks. Do not test a microwave power generating component without an appropriate load connected to its output. The power generated must never be allowed to radiate freely into occupied areas.



ABACHA (AFRICAN SALAD) RESPONSIBLE FOR CHOLERA OUTBREAK IN LAGOS




A food vendor of the popular african salad also known as Abacha has been fingered as the primary source of comtamination of the cholera case in lagos. The reports of cholera outbreak are from the Oshodi/Isolo Local Government Area of Lagos.

The suspect has been arrested and samples of her food preparation has been taken to the lab for analysis. 80% of the victims with cholera symptoms are believed to have consumed Abacha from the suspect.

Cholera is an acute contagious bacterial disease that is characterized by severe form of sudden onset of profuse painless watery stools, nausea and profuse vomiting.

Cholera should be suspected in any person who develops diarrhoea with or without vomiting, weakness, restlessness, irritability, dry mucous membrane, low blood pressure, leg cramps, excessive loss of body fluids (dehydration) or dies from frequent stooling, hence, adequate measures should be taken in order to reduce the risk of contracting the disease.

Meanwhile Laboratory analyses gave isolated evidence that water in the area contained pathogens such as salmonella, streptococci and other bacteria capable of causing severe diarrhoea such as that witnessed. The Government are looking at treating the water in the area.

The  Commissioner for Health, Dr. Jide Idris confirmed there have been 13 cases of the disease while people are dead. And provided numbers to call in his ministry for assistance in suspected cases of outbreak (08023169485).

Thursday, 31 October 2013

Medicinal Benefits of Moringa oleifera: The Miracle Tree

                              Medicinal properties of Moringa oleifera: An overview of promising healer

 Moringa oleifera Lam. is a small size tree with approximately 5 to 10 m height. It is cultivated all over the world due to its multiple utilities. Every part of Moringa is used for certain nutritional and/or medicinal propose. Besides being a good source of protein, vitamins, oils, fatty acids, micro-macro minerals elements and various phenolics, it is also reported as anti-inflammatory, antimicrobial, antioxidant, anticancer, cardiovascular, hepatoprotective, anti-ulcer, diuretic, antiurolithiatic, and antihelmintic. Its multiple pharmaceutical effects are capitalized as therapeutic remedy for various diseases in traditional medicinal system. Further research on this charismatic healer may lead to the development of novel agents for various diseases. This study provides a brief overview about medicinal potential of Moringa and its future as a component of modern medicinal system. This study concludes that  Moringa  needs legitimate appraisal to establish its pharmaceutical knack in modern medicine.
INTRODUCTION
Moringa oleifera is an aboriginal of Indian subcontinent and has become naturalized in the tropical and subtropical areas around the world. Nearly thirteen species of Moringaare included in the family Moringaceae (Nadkarni, 1976). Indians have been using it as a regular component of conventional eatables for nearly 5000 years (Anwar et al., 2005; Anwar and Bhanger, 2003; D'Souza and Kulkarni, 1993). Moringa tree can grow well in the humid tropic or hot dry land with average height that ranges from 5 to 10 m. It can survive in harsh climatic condition including destitute soil without being much affected by drought (Morton, 1991). It can tolerate wide range of rainfall requirements estimated at 250 mm and maximum at over 3000 mm and a pH of 5.0 to 9.0 (Palada and Chang, 2003). Its trunk is soft, whitecorky and branches bearing a gummy bark. Each tripinnately compound leaves bear several small leaf legs. The flowers are white and the three wings seeds are scattered by the winds. The flowers, tenders leaves and pods are eaten as vegetables. The leaves are rich in iron and therefore highly recommended for expected mothers. In some part of the world, Moringa is referred to as the ‘drum stick tree’ or the ‘horse radish tree’, whereas in others, it is known as the kelor, marango, mlonge, moonga, mulangay, nebeday, saijhan, sajna or Ben oil tree (Anwar and Bhanger, 2003; Prabhu et al., 2011). In India and Pakistan, MO is locally known as Sohanjna and is grown and cultivated all over the country (Anwar et al., 2005; Qaisar, 1973). It has been reported by Bureau of plant industry that Moringa is an outstanding source nutritional components. Its leaves (weight per weight) have the calcium equivalent of four times that of milk, the vitamin C content is seven times that of oranges, while its potassium is three times that of bananas, three times the iron of spinach, four times the amount of vitamin A in carrots, and two times the protein in milk (Kamal, 2008). Besides, Moringa is also suggested as a viable supplement of dietary minerals. The pods and leaves of Moringa contains high amount of Ca, Mg, K, Mn, P, Zn, Na, Cu, and Fe (Aslam et al., 2005). Although, minerals content of Moringa shows variation in composition with changes in location (Anjorin et al., 2010).

medicinal system relies on several plant products used by traditionally human communities in many parts of the world for different diseases. Among these plants, Moringa has its great contribution from ancient time. It is a plant with exceptional medicinal properties which can resolves the health care needs in several situations. Easy cultivation of Moringa within adverse environmental condition and wide availability attract attention for economic and health related potential in resource limited developing countries. This study discusses medicinal potential of this exceptional plant and its potential as a commercial medicinal and nutritional supplement.

MEDICINAL PROPERTIES OF MORINGA


Moringa has enormous medicinal potential, which has long been recognized in the Ayurvedic and Unani system (Mughal et al., 1999). Nearly every part of this plant, including root, bark, gum, leaf, fruit (pods), flowers, seed, and seed oil have been used for various ailments in the indigenous medicine (Odebiyi and Sofowora, 1999), but recent research is also indicating about several active constituents for accepting its applicability in modern medicine (Table 1). Few representatives of these are discussed in this article.

Antimicrobial and antihelmintic effects


Antimicrobial components of Moringa have been validated after the discovery of inhibitory activity against several microorganisms. In a recent study, aqueous extracts of Moringa was found to be inhibitory against many pathogenic bacteria, including Staphylococcus aureus, Bacillus subtilis, Escherichia coli, and Pseudomonas aeruginosa in dose dependent manner (Saadabi and Abu Zaid, 2011). Moringa extracts was also found to be inhibitory against Mycobacterium phlei and B. subtilis (Eilert et al., 1981). Leaf extract of Moringa was found to be effective in checking growth of fungi Basidiobolus haptosporus and Basidiobolus ranarums (Nwosu and Okafor, 1995). Another study involving aqueous methanolic extract and fixed oil against microorganisms was performed using Scenedesmus obliquus (green algae), E. coli ATCC 13706, P. aeruginosa ATCC10145, S. aureus NAMRU 3 25923, Bacillus stearothermophilus (bacterial strains) and Herpes Simplex virus type 1 (HSV 1) and Polio virus type 1 (sabin vaccine). Varying degree of antimicrobial activity was observed ranging from sensitive for B. stearothermophilus to resistant for P. aeruginosa (Ali et
al., 2004). Beside antibacterial activity of Moringa oils, it also posses anti-fungal activity (Chuang et al., 2007). Study comparing relative antimicrobial activity of seed extracts against bacteria (Pasturella multocida, E. coli, B. subtilis and S. aureus) and fungi (Fusarium solani and Rhizopus solani) revealed that P. multocida and B. subtilis were the most sensitive strains, and their activity was influenced by cations (Na+, K+, Mg2+ and Ca2+) (Jabeen et al., 2008).


Another relative comparison of antibacterial and antifungal efficacy of Moringa steam distillate observed more inhibition for E. coli followed by S. aureus, Klebsiella pneumoniae, P. aeruginosa and B. subtilis. In case of fungi, Aspergillus niger was strongly inhibited followed by Aspergillus oryzaeAspergillus terreus and Aspergillus nidulans (Prashith Kekuda et al., 2010). Contrary to resistance against P. aeruginosa and Candida albicans for Moringa in other studies, one study using ethanolic extract of leaves, seeds and flowers showed the antimicrobial activity against E. coli, K. pneumoniaeEnterobacter species, Proteus mirabilisP. aeruginosaSalmonella typhi A, S. aureusStreptococcus and Candida albicans(Nepolean et al., 2009). Moringa contains pterygospermin (originally found in Moringa pterygosperma) which has powerful antibacterial and fungicidal effects (Rao et al., 1946). Several other specific components of Moringa have been reported with antibacterial activity, including 4- (4'-O-acetyl-a-L-rhamnopyranosyloxy) benzyl isothiocyanate, 4-(a-L-rhamnopyranosyloxy) benzyl isothiocyanate, niazimicin, benzyl isothiocyanate, and 4- (a-L-rhamnopyranosyloxy) benzyl glucosinolate (Fahey, 2005). Other bioactive compounds, such as Spirochin and Anthonine are found in root and are active against several bacteria. Anthonine has potent inhibitory activity against Vibrio cholerae (Nwosu and Okafor, 1995).Moringa flower and leaves are also capable of controlling parasitic worms, their antihelmintic activity has been demonstrated during several studies (Bhattacharya et al., 1982). Moreover, it has also been reported to inhibit Indian earthworm Pheritima posthuma with MO leaves ethanolic extracts (Rastogi et al., 2009).

 

Anti-inflammatory activity


Moringa plant parts have substantial anti-inflammatory activity. For instance, the root extract exhibits significant anti-inflammatory activity in carrageenan induced rat paw oedema (Ezeamuzie et al., 1996; Khare et al., 1997). The crude methanol extract of the root inhibits carrageenan- induced rat paw oedema in a dose dependent manner after oral administration (Anonymous, 2005). Moreover, n-butanol extract of the seeds of Moringa shows anti- inflammatory activity against ovalbumin-induced airway inflammation in guinea pigs (Mahajan et al., 2009). Amelioration of inflammation associated chronic diseases can be possible with the potent anti-inflammatory activity of Moringa bioactive compounds (Muangnoi et al., 2011).

Considering potent anti-inflammatory activity of Moringa plant, it can be surmised that this plant shows profound influence on inflammation associated diseases and resultant symptoms. As a consequence, this plant shows beneficial effects on asthma, pain, and other resultant symptoms.

Anti-asthmatic activity


It has been reported a long time ago that Moringa plant alkaloid closely resembles ephedrine in action and can be used for the treatment of asthma. Alkaloid moringine relaxes bronchioles (Kirtikar and Basu, 1975). The seed kernels of Moringa also showed promising effect in the treatment of bronchial asthma, during a study to analyze efficacy and safety of seed kernels for the management of asthmatic patients. The study showed significant decrease in the severity of asthma symptoms and also concurrent respiratory functions improvement (Agrawal and Mehta, 2008).

Analgesic activity


The analgesic activity of Moringa has been reported in several Moringa species. In a study using ethanolic extracts of Moringa concanensis tender pod-like fruits in experimental animals, a significant analgesic activity was observed (Rao et al., 2008). Furthermore, alcoholic extract of the leaves and seeds of Moringa also possess marked analgesic activity as evidenced through hot plate and tail immersion method (Sutar et al., 2008).

 

Antipyretic activity


As a result of anti-inflammatory action of Moringa bioactive constituents, the antipyretic activity can be hypothesized. A study was designed to assess antipyretic effect of ethanol, petroleum ether, solvent ether and ethyl acetate extracts of Moringa seeds using yeast induced hyperpyrexia method. Paracetamol was used as control during the study. Not surprisingly, ethanol and ethyl acetate extracts of seeds showed significant antipyretic activity in rats (Hukkeri et al., 2006).
Antihypertensive, diuretic and cholesterol lowering activities
Moringa leaves contain several bio active compounds, they exert direct effect on blood pressure, and thus these can be used for stabilizing blood pressure. Moringa compounds leading to blood pressure lowering effect includes nitrile, mustard oil glycosides and thiocarbamate glycosides present in Moringa leaves (Anwar et al.,
2007). In addition, diuretic activity of Moringa exists in its roots, leaves, flowers, gum and the aqueous infusion of seeds (Morton, 1991). Moreover, Moringa leaves also contain bioactive phytoconstituent, (that is, b-sitosterol) with cholesterol lowering effect. This compound is capable to reduce cholesterol level from the serum of high fat diet fed rats (Ghasi et al., 2000).

 

Antidiabetic activity


Several medicinal plants have been evaluated for their potential as therapeutic agent for diabetes. Moringa is also an important component in this category. Moringa leaves significantly decrease blood glucose concentration in Wistar rats and Goto-Kakizaki (GK) rats, modeled type 2 diabetes (Ndong et al., 2007). Another study indicated that the extract from Moringa leaf is effective in lowering blood sugar levels within 3 h after ingestion (Mittal et al., 2007). As a mechanistic model for antidiabetic activity of Moringa, it has been indicated that dark chocolate polyphenols (Grassi et al., 2005) and other polyphenols (Al-Awwadi et al., 2004; Moharram et al., 2003) are responsible for hypoglycemic activity. Moringa leaves are potent source of polyphenols, including quercetin-3- glycoside, rutin, kaempferol glycosides, and other polyphenols (Ndong et al., 2007). Thus, potential anti- diabetic activity of Moringa can be commercialized through the development of suitable technology with achieving anti-diabetic activity up to conventional drugs.

Antioxidant activity


Moringa is a rich source of antioxidant (Chumark et al., 2008). It has been reported that aqueous extracts of leaf, fruit and seed of Moringa act as an antioxidant (Singh et al., 2009). During a study reporting antioxidant property of freeze dried Moringa leaves from different extraction procedures, it was found that methanol and ethanol extracts of Indian origin Moringa have the highest antioxidant activity with 65.1 and 66.8%, respectively (Lalas and Tsaknis, 2002; Siddhuraju and Becker, 2003). It was also reported that the major bioactive compounds of phenolics, such as quercetin and kaempferol are responsible for antioxidant activity (Bajpai et al., 2005; Siddhuraju and Becker, 2003). During another study, quercetin and kaempferol have shown good antioxidant activity on hepatocyte growth factor (HGF) induced Met phosphorylation with IC5value for 12 and ~6 µM/L, respectively (Labbe et al., 2009). Another recent study comparing palm oil with Moringa seeds for their antioxidant potential found out that Moringa seed are superiors for radical scavenging (Ogbunugafor et al., 2011).

Hepatoprotective activity


Moringa has shown significant hepatoprotective activity in several studies. Moringa leaves ethanolic extracts showed significant protection against liver damage induced by antitubercular drugs [isoniazid (INH), rifampicin (RMP), and pyrazinamide (PZA)] in rats. It was found that hepatoprotective activity of Moringa is medicated by its effect on the levels of glutamic oxaloacetic transaminase (aspartate aminotransferase), glutamic pyruvic transaminase (alanine aminotransferase), alkaline phosphatase, and bilirubin in the serum; lipids, and lipid peroxidation levels in liver (Pari and Kumar, 2002). Moreover, methanolic and chloroform extracts of Moringa leaves also showed significant protection against CClinduced liver damage in albino rats. Besides hepatoprotective activity of Moringa leaves, its root and flowers also possess strong hepatoprotective activity. Moringa flowers contain a well recognized flavonoid (Quercetin), which may be responsible for its potent hepatoprotective activity (Ruckmani et al., 1998; Selvakumar and Natarajan, 2008). In a recent study evaluating the effect of Moringa seed extract on liver fibrosis, it was found that Moringa seed extract has the ability to subside liver fibrosis. This study involved CClinduced liver fibrosis and concurrent administration of Moringa seed extract. Moringa seed extract control the elevation of serum aminotransferase activities and globulin level induced by CCl4. Moreover, immunohistochemical studies also showed that Moringa reduces liver fibrosis (Hamza, 2010).

Antitumor activity


Moringa has been found as a potent anticancer plant and several bioactive compounds with significant antitumor activity have been discovered from Moringa. Among bioactive compounds from Moringa, niazimicin, a Moringa leaves thiocarbamate was found to have potent anticancer activity (Guevaraa et al., 1999). Furthermore, niazimicin also shows the inhibition of tumor promoter teleocidin B- 4-induced Epstein-Barr virus (EBV) activation (Murakami et al., 1998). Another study involving 11 plants used in Bangladeshi folk medicine, Moringa was considered as potential source of anticancer compounds. During this study, the plant extract were analyzed for cytotoxicity through brine shrimp lethality assay, sea urchin eggs assay, hemolysis assay and MTT assay using tumor cell lines. The study also indicated the potential cytotoxic effects of Moringa leaf extract on human multiple myeloma cell lines (Costa-Lotufo et al., 2005; Parvathy and Umamaheshwari, 2007). Beside leaves, Moringa seed extracts also have anticancer activity through its effects on hepatic carcinogen metabolizing enzymes, and antioxidant property (Bharali et al., 2003).

Antifertility activity


Moringa plant also has pertinent antifertility activity. The aqueous extract obtained from root and bark of Moringa showed post-coital antifertility effect in rat and also induced foetal resorption at late pregnancy (Prakash et al., 1987). Moreover, aqueous extract of Moringa roots was also evaluated for estrogenic, anti-estrogenic, pro- gestational and antiprogestational activities. This extract induces several consequences for affecting its antifertility property (Shukla et al., 1988). During another study analyzing anti reproductive potential of folk medicine plants, Moringa leaf extracts were found to be 100% abortive with doses equivalent to 175 mg/kg of starting dry material (Nath et al., 1992).

Antispasmodic and antiulcer effects


Moringa root and leaves contain several compounds with spasmolytic activity. These compounds include 4- (alpha- L-rhamnosyloxybenzyl)-o-methyl thiocarbamate which is possibly affected through calcium channel blockade, niazinin A, niazinin B, niazimicin, etc., with hypotensive and bradycardiac effect. The spasmolytic activity of different constituents support for traditional uses of this plant in gastrointestinal motility disorder (Gilani et al., 1994). Moringa methanolic extract is also capable in protecting experimental rats from gastric lesions induced by acetylsalicylic acid, serotonin and indomethacin. In addition, it also enhances healing process of chronic gastric lesions induced by acetic acid in experimental animals (Pal et al., 1995). Another study have reported the antiulcer effect of Moringa leaves aqueous extract on adult Holtzman albino rats (Debnath and Guha, 2007).

Cardiac and circulatory stimulant


In addition to earlier mentioned bradycardiac effect of Moringa leaves, all parts of Moringa are reported with somewhat cardiac and circulatory stimulant activity. Root bark of Moringa contains alkaloid moringinine which acts as cardiac stimulant through its effect on sympathetic nervous system (Duke, 2001). The aforementioned effects can also result due to the prevention of hyperlipidemia. It has been demonstrated that Moringa prevent hyperlipidemia in male Wister rat due to iron deficiency (Ndong et al., 2007). During a study performing comparison of Moringa leaf extract with antenolol (a selective β1 receptor antagonist drug, used for cardiovascular diseases) on serum cholesterol level, serum triglyceride level, blood glucose level, heart weight and body weight of adrenaline induced rats, it was found that Moringa leaf extract cause significant changes in cardiovascular parameters. This study reported Moringa leaf extract as hypolipidimic, lowering body weight, heart weight, serum triglyceride level and serum cholesterol level in experimental animals (Ara et al., 2008). In addition to the aforementioned studies, antiatheroscle- rotic and hypolipidaemic effect of Moringa leaves were also analyzed in another study using simvastatin as control (Chumark et al., 2008). Moringa also causes cardio protective effects in isoproterenol (ISP)-induced myocardial infarction in male Wistar albino rats. It was reported that Moringa treatment plays favorable modulation on biochemical
enzymatic parameters including, superoxide dismutase, catalase, glutathione peroxidase, lactate dehydrogenase, and creatine kinase-MB. Moreover, it also prevents histopathological damage and ultra-structure perturbation caused due to ISP induced myocardial infarction

In ocular diseases


Vitamin A deficiency is a major cause of blindness, which ranges from impaired dark adaptation to night blindness. Consumption of Moringa leaves, and pods and leaf powder which contain high proportion of vitamin A can help to prevent night blindness and eye problems in children. Ingesting drumstick leaves with oils can improve vitamin A nutrition and can delay the development of cataract (Pullakhandam and Failla, 2007). In fact the use of Moringa as a supplementary food was highly accepted for integrated child development scheme supplementary food (ICDS-SFP) for its potential as vitamin A source (Nambiar et al., 2003).

Conclusion


Medicinal potential of Moringa is enormous and difficult to cover in a single article, despite this current article provided glimpses of Moringa applications for performing appraisal of this promising nutrition and medicinal plant. Although, many bioactive compounds have been discovered from Moringa, still the knowledge is in infancy, in term of its total reserve. Perhaps, future rigorous studies directed towards the detection, and commercialization of Moringa bioactive compounds can lead to the development of remedies for several ailments. Thus, it can also prove the validity of traditional utility of Moringa in various folklores.

Fozia Farooq1*, Meenu Rai2, Avinash Tiwari1, Abdul Arif Khan3 and Shaila Farooq4

1School of Studies in Botany, Jiwaji University, Gwalior-474001 (MP), India.
2Life Science Department, Vijayaraje Institute of Science and Management, Turari, NH 75, Gwalior (MP), India.
3Department of Pharmaceutics, College of Pharmacy, P. O. Box 2457, King Saud University, Riyadh 11451, Saudi Arabia.
4School of Studies in Biotechnology, Jiwaji University, Gwalior-474001 (MP), India.