Int J Pharm Pharm Sci, Vol 9, Issue 10, 62-66Original Article


EVALUATION OF BENEFICIAL EFFECTS OF LINUM USITATISSIMUM IN CONGESTIVE HEART FAILURE

PRAVIN TIRGAR, LIMBASIYA KALPESH

School of Pharmacy, RK University, Rajkot, Gujarat, India
Email: pravin.tirgar@rku.ac.in

Received: 06 Jun 2017 Revised and Accepted: 31 Aug 2017


ABSTRACT

Objective: Evaluation of beneficial effects of theseed of Linum usitatissimumin congestive heart failure.

Methods: Methanolic extract of seeds of Linumusitatissimum (MELU) was prepared using soxhlet apparatus and oil of seed of Linumusitatissimum (OLU) was isolated using Clevenger apparatus. The positive inotropic action of methanolic extract of seeds of Linum usitatissimum was evaluated using Langendorff’s assembly (in vitrostudy). Beneficial effects of methanolic extract and oil of seeds of Linum usitatissimum were carried out by doxorubicin (1 mg/kg, i. p. within 3 w) to induce congestive heart failure (invivostudy). Parameters like electrocardiogram (ECG) recording and cytosolic Ca2+level and histopathology of theheart were carried out. In same study diuretic action was evaluated using Lipschitz model.

Results: Methanolic extract of seeds of Linum usitatissimum showed significantly increased in positive inotropic effect (force of contraction 48.8±1.53 mm) as compared to control group (force of contraction 17.5±0.76 mm) on Langendorff”s study (in vitro study). In doxorubicin-induced congestive heart failure both MELU and OLU showed significant decreased QT (Note: In cardiology, the QT interval is a measure of the time between the start of the Q wave and the end of the T wave in the heart's electrical cycle. There is no full form for this medical word)interval. The histopathologic study indicated theleast damage to thearchitecture of myocardial membrane. MELU and OLU increased urine output (5.66±0.16 ml and 6.58±0.15 ml respectively) significantly in Lipschitz model as compared to disease control group (4.58±0.15 ml).

Conclusion:Present research work emphasizes that the seeds of Linum usitatissimumis beneficial in themanagement of congestive heart failure because of having positive inotropic effect, diuretic activity and control of rhythmicity of heart.

Keywords: Seeds of Linum usitatissimum, Langendorff’s assembly, Positive inotropic, Diuretic action, Congestive heart failure


INTRODUCTION

Heart failure is a common chronic disease that leads to disability and death. It is the only major cardiovascular disease that has increasing incidence and prevalence [1 2].

Treatment strategies have been focused mainly on the use of diuretics and cardiac glycosides. Although, such therapies relieve symptoms of the disease and stabilize patients but rarely improve survival[3].

Plants have been utilized as medical treatments since the beginning of civilization, however, in 20th century the herbal medicine has been losing ground to new synthetic medicines [4].This fact occurs, at least in part, by failure in scientific data about the biological effects of the plants. It is important that the physicians may have more information about beneficial and adverse effects of the plants[5]. The herbal medicine is utilized routinely to thetreatment of cardiovascular disease as congestive heart failure, hypertension and angina pectoris[4]. Ayurveda is a traditional and most commonly practised form of medicine in India[6].Ayurveda has given different plants and formulations, which are useful in managing heart diseases[7].Flax (Linum usitatissimum) is an ancient crop that is widely cultivated as a source of fiber, oil and medicinally relevant compounds[8, 9].The seed of flax (i.e. linseed) produces oil that is rich in unsaturated fatty acids, especially α-linolenic acid (C18:3), polymers of which are used in linoleum, paints and other finishes. Consumption of the oil or seed has been reported to have beneficial effects on cardiovascular health and in the treatment of certain cancers and inflammatory diseases[10]. Health benefits are derived from both the α-linolenic acid and other components of the seed, including lignans such as secoisolariciresinoldiglucoside (SDG), which is an antioxidant and the precursor of several phytoestrogens[11].Flaxseed is also used in animal feed to increase levels of α-linolenic acid in meat or eggs[12].

The objective of thepresent study was focused on theevaluation of new herbal drug having potent cardiotonic activity and having beneficial in CHF and other cardiovascular complications with least adverse effects. So, looking for thedire need of a new safe and economical cardiotonic molecule, we resolved to investigate beneficial effect of Linum usitatissimum responsible for its cardiotonic activity.

MATERIALS AND METHODS

Collection and authentication

The seed of Linum usitatissimum used in the present study was acquired from “Anand Agriculture University” at Anand, Gujarat which was collected from thelocal region of Anand. Herbarium of the research drug was prepared and authenticated by Prof. Vishal Muliya, at Head of Botany Department, Christ College, Rajkot, Gujarat, India (voucher specimen number RKCP/Col/R01/2015).

Methanolic extract of fine powder of seeds of Linum usitatissimum was prepared using soxhlet apparatus. Oil of seed was separated using soxhlet apparatus using petroleum ether (Oxford laboratory reagent, Mumbai) as asolvent. All the experimental procedures and protocols used in study was reviewed and approved by the Institution Animals Ethical Committee (IAEC) of School of Pharmacy, RK University, and care of laboratory animals were taken as per the guidelines of Committee for the Purpose of Control and Supervision of Experiments on Animals (CPCSEA), Government of India.(Approval no. RKCP/COl/RP/16/69).Healthy adult Wistar Albino rats (250-300 gm) were selected for thestudy. The animals were acclimatized to standard laboratoryconditions (temperature: 25±5 °C), humidity (55±5%) and maintained on a12-h light: 12-h dark cycle. They were provided with regular rat chow and drinking water adlibitum.

Evaluation of cardiotonic activity of seed of Linum usitatissimum using langendorff’s apparatus: (in vitrostudy)

Isolated wistar rat heart was mounted on Langendorff’s Apparatus and force of contraction, heart rat were recorded for methanol (Oxford laboratory reagent, Mumbai)and oil extracts of Linum usitatissimum[13, 14]

Evaluation of beneficial effects of seed of Linum usitatissimum on doxorubicin Induced congestive heart failure model. (in vivostudy)

Doxorubicin-induced cardiomyopathy may result in progressive heart failure after antineoplastic therapy, thus limiting the application of this potent chemotherapeutic agents. The mechanisms of cardiac toxicity are thought to include heightened oxidative stress status and apoptosis of endothelial cells and cardiomyocytes[15].

Wistar rats of either sex initially weighing 220-280 gm were used for thepresent study. For induction of congestive heart failure, doxorubicin (Cipla Limited)was administered 1 mg/kg, i. p. for 10 times in 3 w on every alternativedays. The other groups were receiving their respective treatment along with doxorubicin[15, 16].

The experimental animals were divided into five groups each having 6 animals.

Group 1-Normal control: receive water only ad libitum

Group 2-Disease control: doxorubicin (1 mg/kg, i. p.)

Group 3-Standard control: doxorubicin+digoxin (100 μg/kg/day, p. o., per day)

Group 4-Test control A: doxorubicin+Methanolic extract of seeds of Linum usitatissimum (500 mg/kg/day, p. o., per day)

Group 5-Test control B: doxorubicin+oil of seeds of Linum usitatissimum (0.6 ml/kg/day, p. o., per day)

The study was carried out for a period of 3 w. At the end of 3 w, diuretic activity was evaluated using Lipschitz model and then ECG patterns were recorded[17].Isolated hearts were preserved in 10% formalin (Oxford laboratory reagent, Mumbai)for histopathological study[18-21].

ECG recording

ECG was recorded after 24 h of thelast dose of doxorubicin. All animals fasted overnight with free access to water. NIBP-200 was used for recording and monitoring of ECG tracing. Rats from each group were anaesthetized by diazepam(Ranbaxy Diagnostics)(0.5 mg/kg, i. m.) followed by ketamine (Sun Pharma Ltd.)(0.1 ml/100 gm, i. p.). Needle electrodes were inserted under the skin of chest area. II (Lead II: Insert one needle in theleft side and insert another in theright side and also one grounder needle inserted under the skin of left thigh area. Mainly P wave, QRS complex, QT interval were observed and compared for all four groups[22].

Histopathology

Histopathological study of heart was carried out to study the protective effects of aMethanolic extract of Linum usitatissimum and oil of Linum usitatissimum in doxorubicin-induced congestive heart failure on animals.

Diuretic activity

After regular treatment to respective animals of adifferent group, animals were placed in the five different metabolic cages for a period of 24 h. A beaker cover with aluminium foil to prevent from evaporation. Urine samples were collected in a measuring cylinder and volume of urine collected from each metabolic cage was recorded to evaluate thediuretic action of seeds of Linum usitatissimum[23].

Statistical analysis

To check the significance of data, following statistical tests were performed:

ANOVA: to see the variability within all the groups.

Tuckey’s test: for the same purpose mentioned in above test.

INSTAT software: to derive all statistical terms like Standard Error of Mean (SEM),

ANOVA, P–value, Degree of freedom, Standard deviation, etc.

Data were considered statistically significant at p<0.05 and highly significant at p<0.001. Statistical analysis was performed using INSTAT statistical software.

RESULTS AND DISCUSSION

Beneficial effects of digoxin and MELU on force of contraction of isolated rat heart–langendorff’s assembly–in vitrostudy

In isolated rat heart preparation on Langendorff’s assembly, methanolic extract of seeds of Linum usitatissimum (MELU) showed significantincrease in force of contraction when compared to normal response. This indicates that MELU possesses positive inotropic effect which can reduce the preload in theheart.

Fig.1: Positive inotropic action of methanolic extract of seeds of linum usitatissimum (MELU)

Table 1: Effect of methanolic extract of seeds of Linum usitatissimum (MELU)on force of contraction

Groups Force of contraction(mm) % Force of contraction
Control 17.5±0.76 100±0.5
Digoxin 48.8±1.53* 281.44±13.34*
MELU 26.5±0.61* 152. 5±5.49*
F 234.65 125.54
df 17 (2, 15) 17 (2, 15)
P <0.001 <0.001

n=6, Results were shown as mean±SEM, Normal–height in mm on physiography paper, Digoxin-received digoxin (50 μg/ml–0.2 ml), MELU-received methanolic extract of seeds of Linum usitatissimum, (MELU: 500 mg/ml–0.2 ml), * indicate significant difference in the data compared to control group and the level of significance was p<0.001 ≈ highly significant.

Beneficial effects of digoxin and methanolic extract of seeds of Linum usitatissimum on ECG pattern of rats in doxorubicin-induced congestive heart failure model–in vivostudy

Doxorubicin can cause cardiotoxicity which results in changes in ECG pattern and thus ECG was monitored in all five groups. Doxorubicin causes prolongation of P wave, QRS complex, QT interval, ST elevation and reduces cardiac cycles. In disease control group, QT interval was prolonged which is amarker of hypertrophy of ventricles i.e. increased ventricular diameter[24]. The ST elevation may be observed due to cellular membrane damage occurred by oxidative stress[25]. Test groups, treated with MELU and OLU, reflected theleast prolongation of QT interval significantly compared to disease control group. These findings suggest that MELU is effective to avoid cardiac damage occurred by doxorubicin.

Fig.2 (I): Effects of vehicle on QT interval in ECG of normal control group

Fig.2 (II): Effects of doxorubicin on QT interval in ECG of disease control group

Fig.2 (III):Effects of digoxin on QT interval in ECG of standard controlgroup

Fig.2 (IV): Effects of MELU on QT interval in ECG of MELU group

Fig.2 (V): Effects of OLU on QT interval in ECG of OLU group

Fig. 3: Beneficial effects of digoxin, MELU and OLU on QT interval in doxorubicin-induced congestive heart failure, n=6, Results were shown as mean±SEM, NC-Normal control, DC-Diseases control, SC-Standard control received digoxin (50 μg/ml–0.2 ml), MELU-received methanolic extract of seeds of Linum usitatissimum, (MELU: 500 mg/ml–0.2 ml), *-indicate significant difference in the data compared to control group and#-indicate significant difference with disease control group at the level of significance was p<0.001 ≈ highly significant

Histopathology of cardiac tissues in doxorubicin-induced congestive heart failure model–an in vivostudy

Cardiac damage and effect of doxorubicin on thearchitecture of heart were estimated by histopathological examination of heart tissue. The normal control group showed clear integrity of myocardial membrane, without loss of myofibrils and vacuolization of the cytoplasm. Doxorubicin-treated disease control group’s myocardial tissue exhibited clear loss of myofibrils, vacuolization of cytoplasm and dilation of sarcoplasmic reticulum.

Treatment with MELU and OLU showed theleast loss of myofibrils and damage to myocardial tissue, which further confirm the effectiveness of seed of Linum usitatissimum in congestive heart failure.

(a) Normal control (b) Diseases control

(c) Standard control (d) MELU

(e) OLU

Fig.4:Beneficial effects of digoxin, MELU and OLU on histopathology indoxorubicin-induced congestive heart failure model, NC-Normal control, DC-Diseases control, SC-Standard control received digoxin (50 μg/ml–0.2 ml), MELU-received methanolic extract of seeds of Linum usitatissimum, (MELU: 500 mg/ml–0.2 ml)

Beneficial effects of digoxin, methanolic extract and oil of seeds of Linum Usitatissimum on diuretic action of rats in doxorubicin-inducedcongestiveheart failure model–in vivostudy

Literature review suggests that diuretic action of thedrug have anadvantageous effect in themanagement of CHF. Both MELU and OLU show significantly increased in urine output. Thus it indicates that along with thecardiotonic activity of Linum usitatissimum, it also possesses diuretic activity thus it could be good alternate of digoxin.

MELU showed significantly increased in urine output as compared to normal control,disease control and standard control group while OLU showed asignificant difference in normal control and disease group suggested that seeds of Linum usitatissimum can serve one more adventitious tool in themanagement of congestive heart failure.

Table 2: Diuretic action of methanolic extract and oil of seeds of Linum Usitatissimum

Groups Urine (ml)
Control 4.0±0.12
Diseases 4.58±0.15
Standard Control 5.66±0.16#
MELU 6.58±0.15# *
OLU 5.33±0.16#
F 41.48
df 29 (4, 25)
P <0.001

n=6 and results were shown as mean±SEM, Control group-Normal control received water, Disease control group-treated with doxorubicin (1 mg/kg, i. p. for 15 times in 3 w, Standard control group-Disease control treated with digoxin (100 μg/kg, p. o. per day) along with doxorubicin, MELU group-Disease control treated with MELU (500 mg/kg, p. o., per day) along with doxorubicin, OLU group-Disease control treated with OLU (0.6 ml/kg, p. o., per day) along with Doxorubicin, *indicate significant difference in the data compared to normal control group and the level of significance was p<0.001 ≈ highly significant, #indicate significant difference in the data compared to disease control group and the level of significance was p<0.001 ≈ highly significant.

CONCLUSION

Above study indicate that methanolic extract of Linum usitatissimum increased positive inotropic effect on Langendorff’s assembly indicate cardiotonic activity of Linum usitatissimum. Both MELU and OLU showed decreased in doxorubicin-induced congestive heart failure model. Thus, The Linum usitatissimum is beneficial in management of congestive heart failure because of having positive inotropic, diuretic action and control of rhythmicity of heart.

ACKNOWLEDGEMENT

I would like to acknowledge with much appreciation the crucial role of the ‘Gujarat Council on Science and Technology (GUJCOST)’, Government of Gujarat, for providing financial assistance of 1.05 Lac Indian Rupees under research grant of ‘Minor Research Project’. I sincerely thank you to themanagement of School of Pharmacy, RK University to provide research facility and their constant support during the research project. I also thankful to Mr. Kalpesh Limbasiya for his valuable work in the project.

CONFLICT OF INTERESTS

Declared none

REFERENCES

  1. YedyPurwandiSukmawan. Cilostazol did not induce any adverse reactions in coronary arterial disease (non-st elevation myocardial infarction) with congestive heart failure comorbidity: a case report. Asian J 
    Pharm Clin Res2013;6 Suppl 5:5-11.

  2. Sanjay K Gupta, Surendra H Bodakhe. An elevated pulse pressure: a major risk factor for cardiovascular diseases. Asian J Pharm Clin Res2013;6 Suppl 5:5-11.

  3. Rocco TP, Fang JC.Pharmacology of congestive heart failure. Goodman and gilman's the pharmacological basis of therapeutics. Edited by: Brunton LL, Lazo JS, Parker KL. New York: McGraw-Hill; 2006. p. 869-75.

  4. NH Mashour, GI Lim, WH Frishman. Herbal medicine for the treatment of cardiovascular disease. Arch IntMed 1998;158:2225-34.

  5. JA Astin.Why patients use alternative medicine? Results of a national study. JAMA1998;279:1548-53.

  6. Agnivesa. CarakaSamhita:English translation and critical exposition based on (CakrapaniDatta’s Ayurveda Dipika)/Ram Karan Sharma, Vaidya Bhagwan Dash. Vol. 7. (Chowkhamba Sanskrit Studies); 2002. p. 3304.

  7. Srikantha Murthy KR. Bhavaprakasa of bhavamisra. 2. Vol.(Krishna das Academy, Varanasi); 2001. p. 1622.

  8. Van Zeist W, Bakker-Heeres JAH. Evidence for linseed cultivation before 6000 BC. J Archaeol Sci 1975;2:215–9.

  9. Zohary D,  Hopf M. Domestication of plants in the old world: the origin and spread of cultivated plants in West Asia, Europe and the Nile Valley. Oxford, UK: Oxford University Press; 2000.

  10. Singh KK, Mridula D, Rehal J, Barnwal P. Flaxseed: a potential source of food, feed and fiber. CRC Crit Rev Food Sci Nutr2011;51:210–22.

  11. Toure A, Xu XM. Flaxseed lignans: source, biosynthesis, metabolism, antioxidant activity, bio-active components, and health benefits. Compr Rev Food Sci Food Saf 2010;9:261–9.

  12. Simmons CA, Turk P, Beamer S, Jaczynski J, Semmens K, Matak KE. The effect of a flaxseed oil-enhanced diet on the product quality of farmed brook trout (Salvelinusfontinalis) fillets. J Food Sci2011;76:S192–S197.

  13. Murlidharan A. Cardiac stimulant activity of ocimumbasilicumLinn. extracts. Indian J Pharm 2004;36:163-6.

  14. Kulkarni SK. Handbook of experimental pharmacology. Vallabh Prakashan. 2nd.Edition; 1993;9:74-6.

  15. Chachques JC. Dynamic aortomyoplasty to assist left ventricular failure.Ann Thoracic Surgery 1990;49:225–30.

  16. Vogel HG. Drug discovery and evaluation-pharmacological assays, springer–verlag berlin heidelberg New York: Edition2nd;2008. p. 118.

  17. Singal PK. Subcellular effects of adriamycin in the heart: a concise review. J Mol Cellular Cardiol 1987;19:817-28.

  18. Simunek T.Rabbit model for in vivo study of anthracycline-induced heart failure and for the evaluation of protective agents. EurJ Heart Fail 2004;6:377–87.

  19. Koti BC.Cardioprotective effect of lipistat against doxorubicin induced myocardial toxicity in albino rats. Indian J Exp Biol 2009;47:41–6.

  20. Gerald F, DiBona, Sawin LL. Effect of metoprolol administration on renal sodium handling in experimental congestive heart failure. Circulation J Am Heart Assc 1999;100:82-6.

  21. Naiyra A.Cardioprotective effect of simvastatin on doxorubicin inducedoxidative cardiotoxicity in rats. J Basic Appl Sci 2010;6:29-38.

  22. Momin FN.Cardioprotective effect of Ixoracoccinealinn. flower extract on doxorubicin induced cardiomyopathy in rats. Pharmacologyonline 2011;3:1145-58.

  23. Parial SD.Diuretic activity of the extracts of limoniaacidissima in rats. Rasayan J Chem2009;2:53-6.

  24. Fedman T. Changes in ventricular cavity size: differential effects on QRS and T wave amplitude. Circulation 1985;72:495-501.

  25. Holland RP, Brooks H. TQ-ST segment mapping: critical review and analysis of current concepts. Am J Cardiol 1977;40:110-29.

How to cite this article

  • Pravin Tirgar, Limbasiya Kalpesh. Evaluation of beneficial effects of linum usitatissimum in congestive heart failure.Int J Pharm Pharm Sci 2017;9(10):62-66.



About this article

Title

EVALUATION OF BENEFICIAL EFFECTS OF LINUM USITATISSIMUM IN CONGESTIVE HEART FAILURE

Keywords

Seeds of Linum usitatissimum, Langendorff’s assembly, Positive inotropic, Diuretic action, Congestive heart failure

DOI

10.22159/ijpps.2017v9i10.20534

Date

02-10-2017

Additional Links

Manuscript Submission

Journal

International Journal of Pharmacy and Pharmaceutical Sciences
Vol. 9, Issue 10, 2017 Page: 62-66

Online ISSN

0975-1491

Statistics

48 Views | Downloads

Authors & Affiliations

Pravin Tirgar
School of Pharmacy, RK University, Rajkot, Gujarat, India
India

Limbasiya Kalpesh
School of Pharmacy, RK University, Rajkot, Gujarat, India


Article Tools



Refbacks

  • There are currently no refbacks.