Manevac
SUMMARY OF PRODUCT CHARACTERISTICS
1 NAME OF THE MEDICINAL PRODUCT
Manevac
2 QUALITATIVE AND QUANTITATIVE COMPOSITION
Each 5 g dose contains:
2.6 g Ispaghula seed (Plantago ovata Forssk.);
0.11g Ispaghula husk (Plantago ovata Forssk);
0.34 - 0.66g Tinnevelly Senna fruit (Cassia angustifolia Vahl), corresponding to 15 mg hydroxyanthracene glycosides calculated as sennoside B.
Excipients:
Each 5g dose contains 1.04g of sucrose (See Section 4.4. ‘Special warnings and precautions for use’)
For the full list of excipients, see section 6.1.
3 PHARMACEUTICAL FORM
Brown, sugar-coated granules.
4 CLINICAL PARTICULARS
4.1 Therapeutic indications
(a) For short-term use in cases of occasional constipation.
(b) For bowel regulation in bed-ridden patients and pregnant women.
(c) For pain free evacuation in cases of haemorrhoids.
4.2 Posology and method of administration
For oral administration.
Method of administration:
Manevac should be placed dry on the tongue and, without chewing or crushing, swallowed with a glass of water, warm drink, milk, fruit juice or similar aqueous liquid; then maintain adequate fluid intake.
Posology:
Adults, the elderly and children over 12 years:
Using the measuring spoon provided, one or two level measuring spoons OR one or two sachets (equivalent to 5g or 10g of granules respectively) to be taken once daily at night at least U to 1 hour before or after intake of other medicines. Warning: not to be taken immediately prior to bed-time.
The maximum daily dose of hydroxyanthracene glycosides is 30 mg. This is equivalent to two level measuring spoons or two sachets (10g of granules) of Manevac. The correct individual dose is the smallest required to produce a comfortable soft-formed motion.
Normally it is sufficient to take this medicinal product up to two to three times a week.
Children under 12 years:
Not recommended for use in children under 12 years of age (see section 4.3 Contraindications).
Pregnant women:
One or two level measuring spoons OR one or two sachets (equivalent to 5g or 10g of granules respectively) once daily at night.
Duration of use:
Use for more than 1 - 2 weeks requires medical supervision.
If the symptoms persist during the use of Manevac, a doctor or a pharmacist should be consulted.
See also section 4.4 Special warnings and precautions for use.
4.3 Contraindications
Hypersensitivity to the active substances or to any of the excipients listed in section 6.1.
Cases of intestinal obstructions and stenosis, diseases of the oesophagus and cardia, paralysis of the intestine, or megacolon, appendicitis, inflammatory colon diseases (e.g. Crohn’s disease, ulcerative colitis), abdominal pain of unknown origin, severe dehydration state with water and electrolyte depletion. Manevac should not be used by patients with diabetes mellitus, which is difficult to regulate.
Manevac should not be taken by patients who have difficulty in swallowing or any throat problems.
Children under 12 years of age.
4.4 Special warnings and precautions for use
Do not exceed the stated dose.
Like all laxatives, Manevac should not be used by patients with faecal impaction and undiagnosed, acute or persistent gastro intestinal symptoms such as abdominal pain, nausea and vomiting unless advised by a doctor because these symptoms can be signs of potential or existing intestinal blockage (ileus).
If abdominal pain occurs or in cases of any irregularity of faeces, the use of Manevac should be discontinued and medical advice must be sought.
In the package leaflet, the patient is informed about the following warning:
Warning
Take each single dose of Manevac with at least 150 ml of water or similar aqueous fluid. Taking Manevac without adequate fluid may cause it to swell and block your throat or oesophagus and may cause choking. Intestinal obstruction may occur if adequate fluid intake is not maintained. If you experience chest pain, vomiting, or difficulty in swallowing or breathing after taking Manevac, seek immediate medical attention. The treatment of debilitated patients requires medical supervision. The treatment of elderly patients should be supervised.
Special note for diabetics: Each measuring spoon or sachet contains approximately 5g of Manevac, equivalent to approximately 1.04g of sucrose.
Patients taking cardiac glycosides, antiarrhythmic medicinal products, medicinal products inducing QT-prolongation, diuretics, adrenocorticosteroids or liquorice root, have to consult a doctor before taking Manevac concomitantly.
If laxatives are needed every day the cause of the constipation should be investigated. Like all laxatives, Manevac should only be used if a therapeutic effect cannot be achieved by a change of diet or the administration of pure bulk forming agents.
Long-term use of laxatives should be avoided. If stimulant laxatives are taken for longer than a brief period of treatment, this may lead to impaired function of the intestine and dependence on laxatives. Prolonged and excessive use may lead to fluid and electrolyte imbalance and hypokalaemia. Intestinal loss of fluids may promote dehydration. Symptoms may include thirst and oliguria.
Prolonged use may precipitate the onset of an atonic, non-functioning colon. When Manevac is administered to incontinent adults, pads should be changed more frequently to prevent extended skin contact with faeces.
Patients with kidney disorders should be aware of possible electrolyte imbalance. Laxatives do not help in long-term weight loss.
4.5 Interaction with other medicinal products and other forms of interaction
Enteral absorption of concomitantly administered medicines such as minerals, vitamins (B12), cardiac glycosides, coumarin derivatives, carbamazepine and lithium may be delayed. For this reason Manevac should not be taken U to 1 hour before or after intake of other medicinal products.
If Manevac is taken together with meals by insulin dependent diabetic patients it may be necessary to reduce the insulin dose.
Use of Manevac concomitantly with thyroid hormones requires medical supervision because the dose of the thyroid hormones may have to be adjusted. Hypokalaemia (resulting from long-term laxative abuse) potentiates the action of cardiac glycosides and interacts with antiarrhythmic medicinal products, with medicinal products, which induce reversion to sinus rhythm (e.g. quinidine) and with medicinal products inducing QT-prolongation.
Concomitant use with other medicinal products inducing hypokalaemia (e.g. diuretics, adrenocorticosteroids and liquorice root) may enhance electrolyte imbalance.
4.6 Fertility, Pregnancy and lactation Fertility
Studies on fertility have not been performed.
Pregnancy
There are no reports of undesirable or damaging effects during pregnancy and on the foetus when used at the recommended dosage schedule.
As a consequence of experimental data concerning a genotoxic risk of several anthranoids, e.g. emodin and aloe-emodin, the use is to be avoided during the first trimester. Manevac should only be used intermittently and if other actions like behavioural modification, dietary changes and use of bulk forming agents failed.
Lactation
Use during breast-feeding is not recommended as there are insufficient data on the excretion of metabolites in breast milk.
Small amounts of active metabolites (rhein) are excreted in breast milk. A laxative effect in breast fed babies has not been reported.
4.7 Effects on ability to drive and use machines
Not relevant.
4.8 Undesirable effects
Flatulence may occur with the use of Manevac, this generally disappears in the course of the treatment. Manevac may produce abdominal pain and spasm and passage of liquid stools, in particular in patients with irritable colon. However, these symptoms may also occur generally as a consequence of individual overdosage. In such cases dose reduction is necessary.
Abdominal distension and risk of intestinal or oesophageal obstruction and faecal impaction may occur, particularly if swallowed with insufficient fluid.
Hypersensitivity reactions (pruritus, urticaria, local or generalised exanthema) may occur.
Chronic use may lead to disorders in water equilibrium and electrolyte metabolism and may result in albuminuria and haematuria.
Furthermore, chronic use may cause pigmentation of the intestinal mucosa (pseudomelanosis coli), which usually recedes when the patient stops taking the preparation.
Yellow or red-brown (pH dependent) discolouration of urine by metabolites, which is not clinically significant, may occur during the treatment.
The frequency is not known.
Reporting of suspected adverse reactions
Reporting suspected adverse reactions after authorisation of the medicinal product is important. It allows continued monitoring of the benefit/risk balance of the medicinal
product. Healthcare professionals are asked to report any suspected adverse reactions via the Yellow Card Scheme (Website: www.yellowcard.mhra.gov.uk).
4.9 Overdose
Overdose may cause abdominal discomfort, flatulence and possibly intestinal obstruction due to the content of ispaghula. Adequate fluid intake should be maintained and management should be symptomatic.
The major symptoms of overdose/abuse are griping pain and severe diarrhoea with consequent losses of fluid and electrolytes, which should be replaced. Diarrhoea may especially cause potassium depletion, which may lead to cardiac disorders and muscular asthenia, particularly where cardiac glycosides, diuretics, adrenocorticosteroids or liquorice root are being taken at the same time.
Treatment should be supportive with generous amounts of fluid. Electrolytes, especially potassium, should be monitored. This is especially important in the elderly.
Chronic ingested overdoses of anthranoid containing medicinal products may lead to toxic hepatitis.
5 PHARMACOLOGICAL PROPERTIES
5.1 Pharmacodynamic properties
Pharmacotherapeutic group: Laxatives ATC-code: A 06 AB
The active substance ispaghula seed/husk is capable of absorbing up to 10 times its own weight in water and acts by hydration in the bowel. Gut motility and transit rate can be modified by ispaghula through mechanical stimulation of the gut wall as a result of the increase in intestinal bulk by water and the decrease in viscosity of the luminal contents or by contact with rough fibre particles. When taken with a sufficient amount of liquid (at least 30 ml per 1 g Manevac) ispaghula produces an increased volume of intestinal contents due to its highly bulking properties and hence a stretch stimulus, which triggers defaecation; at the same time the swollen mass of mucilage forms a lubricating layer, which makes the transit of intestinal contents easier.
The other active substance, senna pods contain 1,8-dihydroxyanthracene derivatives which possess a laxative effect. The P-O-linked glycosides (sennosides) are not absorbed in the upper gut; they are converted by bacteria of the large intestine into the active metabolite (rhein anthrone).
There are two different mechanisms of action:
1. stimulation of the motility of the large intestine resulting in accelerated colonic transit.
2. influence on secretion processes by two concomitant mechanisms viz. inhibition of absorption of water and electrolytes (Na+, Cl-) into the colonic epithelial cells (antiabsorptive effect) and increase of the leakiness of the tight junctions and stimulation of secretion of water and electrolytes into the lumen of the colon (secretagogue effect) resulting in enhanced concentrations of fluid and electrolytes in the lumen of the colon.
Defaecation takes place after a delay of 8 - 12 hours due to the time taken for transport to the colon and metabolisation into the active compound.
5.2 Pharmacokinetic properties
The active substance ispaghula seed / husk hydrates and swells to form a mucilage because it is only partially solubilised. Polysaccharides, such as those which dietary fibres are made of, must be hydrolysed to monosaccharides before intestinal uptake can occur. The sugar residues of the xylan backbone and the side chains of psyllium are joined by B-linkages, which cannot be broken by human digestive enzymes.
Less than 10 % of the mucilage gets hydrolysed in the stomach, with formation of free arabinose. Intestinal absorption of the free arabinose is approximately 85 % to 93 %.
To varying degrees, dietary fibre is fermented by bacteria in the colon, resulting in production of carbon dioxide, hydrogen, methane, water, and short-chain fatty acids, which are absorbed and brought into the hepatic circulation. In humans, psyllium reaches the large bowel in a highly polymerised form that is fermented to a limited extent, resulting in increased faecal concentration and excretion of short-chain fatty acids.
The P-O-linked glycosides (sennosides) of the active substance senna pods are neither absorbed in the upper gut nor split by human digestive enzymes. They are converted by the bacteria of the large intestine into the active metabolite (rhein anthrone). Aglyca are absorbed in the upper gut. Animal experiments with radio-labeled rhein anthrone administered directly into the caecum demonstrated absorption < 10%. In contact with oxygen, rhein anthrone is oxidised into rhein and sennidins, which can be found in the blood, mainly in the form of glucuronides and sulphates. After oral administration of sennosides, 3 - 6% of the metabolites are excreted in urine; some are excreted in bile. Most of the sennosides (ca. 90%) are excreted in faeces as polymers (polyquinones) together with 2 - 6% of unchanged sennosides, sennidins, rhein anthrone and rhein. In human pharmacokinetic studies with senna pods powder (20 mg sennosides), administered orally for 7 days, a maximum concentration of 100 ng rhein/ml was found in the blood. An accumulation of rhein was not observed. Active metabolites, e.g. rhein, pass in small amounts into breast milk. Animal experiments demonstrated that placental passage of rhein is low.
5.3 Preclinical safety data
There are only data for ispaghula husk and psyllium without defining the exact test preparation available.
Single dose toxicity
The LD50 in rats was greater than the highest dose tested corresponding to 3,360 mg/kg ispaghula husk administered by gavage of an aqueous suspension. The LD50 in mice was greater than the highest dose tested corresponding to 2,940 mg/kg ispaghula husk also administered by gavage of an aqueous suspension. These studies were conducted prior to the establishment of good laboratory practices.
Subchronic toxicity
Psyllium was fed to rats at levels high as 10 % of the diet for periods up to 13 weeks (three 28-day studies, one 13-week study). Psyllium consumption ranged from 3,876 to 11,809 mg/kg/day. Because the absorption of psyllium is very limited, histopathological evaluations were limited to the gastrointestinal tract, liver, kidneys and gross lesions without observing any treatment-related effect. Effects considered to be biologically significant and related to psyllium supplementation were lower serum total protein, albumin, globulin, total ironbinding capacity, calcium, potassium, and cholesterol; and higher aspartate transaminase (AST) and alanine transaminase (ALT) activities relative to control. Several of these effects are considered to be secondary effects to others. The reasons for the lower serum total protein, albumin and globulin are not clear, but the absence of any increases in urinary protein, any evidence of gastrointestinal pathology, which could account for protein loss, and any differences in growth or feed efficiency in psyllium fed rats may give evidence that there are no adverse effect of psyllium on protein metabolism. Reproductive toxicity
A rat multigeneration reproduction/teratology study showed no evidence of any adverse effects of psyllium on reproduction or development. Psyllium as 0, 1.25, or 5% (w/w) of the diet was administered in a standard (NIH-07) rat and mouse meal diet ad libitum through gestation of the third generation.
A segment II study in rabbits also showed no evidence of any adverse effect. Psyllium as 0, 2.5, 5 or 10% (w/w) of diet was administered in a purine certified rabbit chow diet for days 2 - 20 of gestation.
Genotoxicity and carcinogenicity
Tests on genotoxicity and carcinogenicity have not been performed.
Most data refer to senna pod extracts containing 1.4 to 3.5% of anthranoids, corresponding to 0.9 to 2.3% of potential rhein, 0.05 to 0.15% of potential aloe-emodin and 0.001 to 0.006% of potential emodin or isolated active constituents, e.g. rhein or sennosides A and B. The acute toxicity of senna pods, specified extracts thereof, as well as of sennosides in rats and mice was low after oral treatment. As a result of investigations with parenteral application in mice, extracts are supposed to possess a higher toxicity than purified glycosides, possibly due to the content of aglyca. In a 90-day rat study, senna pods were administered at dose levels from 100 mg/kg of up to 1,500 mg/kg. The tested drug contained 1.83 % sennosides A-D, 1.6 % potential rhein, 0.11 % potential aloe-emodin and 0.014 % potential emodin.
In all groups epithelial hyperplasia of the large intestine of minor degree was found and was reversible within the 8-week recovery period. The hyperplastic lesions of the forestomach epithelium were reversible as well. Dose-dependent tubular basophilia and epithelial hypertrophy of the kidneys were seen at a dose of, or greater than 300 mg/kg per day without functional affection. These changes were also reversible. Storage of a brown tubular pigment led to a dark discoloration of the renal surface and still remained to a lesser degree after the recovery period. No alterations were seen in the colonic nervous plexus. A noobservable-effect-level (NOEL) could not be obtained in this study.
A 104-week study on rats of both genders did not reveal any carcinogenic effects with the same senna pods preparation at oral dosages of up to 300 mg/kg.
In addition a specified senna extract given orally for 2 years was not carcinogenic in male or female rats. The extract investigated contained approximately 40.8% of anthranoids from which 35% were sennosides, corresponding to about 25.2% of potential rhein, 2.3% of potential aloe-emodin and 0.007% of potential emodin and 142 ppm free aloe-emodin and 9 ppm free emodin.
Further 2-year studies on male and female rats and mice with emodin gave no evidence of carcinogenic activity for male rats and female mice, and equivocal evidence for female rats and male mice.
Sennosides displayed no specific toxicity when tested at doses up to 500 mg/kg in dogs for 4 weeks and up to 100 mg/kg in rats for 6 months.
There was no evidence of any embryolethal, teratogenic or foetotoxic actions in rats or rabbits after oral treatment with sennosides. Furthermore, there was no effect on the postnatal development of young rats, on rearing behaviour of dams or on male and female fertility in rats. Data for herbal preparations are not available.
An extract and aloe-emodin were mutagenic in in vitro tests, sennoside A, B and rhein gave negative results. Comprehensive in vivo examinations of a defined extract of senna pods were negative.
Chronic laxative use as a risk factor in colorectal cancer (CRC) was investigated in some clinical trials. Some studies revealed a risk for CRC associated with the use of anthraquinone-containing laxatives, some studies did not. However, a risk was also revealed for constipation itself and underlying dietary habits. The short-term use of senna pods as recommended can be regarded as safe.
6 PHARMACEUTICAL PARTICULARS
6.1 List of excipients
Caraway oil Spanish Sage oil Peppermint oil Acacia Talc
Iron oxides E 172 Hard paraffin Liquid paraffin Sucrose
6.2 Incompatibilities
None known.
6.3 Shelf life
60 months
6.4 Special precautions for storage
Do not store above 30°C. (400g composite container and sachets)
Do not store above 25°C. (250g composite container)
6.5 Nature and contents of container
Sachet:
The sachet consists of 3 layers made of (from outside to inside): Paper, aluminium foil, polyethylene (PE).
Pack size: 6, 14 or 20 sachets with 5g of granules each.
Composite container with screw cap:
The composite container, cylindrical in shape with an inner lid and a screw cap both made of polypropylene (PP). The container consists of paper, aluminium foil and inner lacquer of PVDC/PVCA with a base consisting of a tin plate.
Pack size: 250g
Composite container with aluminium tear-off membrane:
Composite container (see above) with upper closure system: aluminium membrane with pull-tab and plastic lid (plugged in) of polypropylene (PP).
Pack size: 400g
A 7ml measuring spoon (5g of granules) of polypropylene (PP) is added to all multidose containers.
Not all pack sizes may be marketed.
6.6 Special precautions for disposal
None stated.
7 MARKETING AUTHORISATION HOLDER
Meda Pharmaceuticals Ltd Skyway House Parsonage Road
Takeley
Bishop’s Stortford CM22 6PU United Kingdom
8 MARKETING AUTHORISATION NUMBER(S)
PL 15142/0284
9 DATE OF FIRST AUTHORISATION/RENEWAL OF THE AUTHORISATION
26/03/2009
10 DATE OF REVISION OF THE TEXT
05/07/2016