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A STUDY ON DRUG - DRUG INTERACTION BETWEEN SILDENAFIL CITRATE AND ORAL ANTI-DIABETIC DRUGS
M. PHARM DISSERTATION PROTOCOL SUBMITTED TO THE
RAJIV GANDHI UNIVERSITY OF HEALTHSCIENCES, KARNATAKA, BENGALURU
BYAJAY PRATAP SINGH
B. Pharm.
UNDER THE GUIDANCE OF
Dr. S.V. RAJENDRA M. Pharm., Ph.D.
P. G. DEPARTMENT OF PHARMACOLOGYS. C. S. COLLEGE OF PHARMACY,
HARAPANAHALLI-5831312010-11
Annexure – II
PROFORMA FOR REGISTRATION OF SUBJECTS FOR DISSERTATION
01 Name and Address of the Candidate
AJAY PRATAP SINGHS/o. YOGENDRA SINGHRAM GULAM TOLA W.N0.1, H.N0.486,DEORIA (U.P.). (INDIA)PIN: 274001.
02 Name of the Institution
S.C.S. COLLEGE OF PHARMACY
HARAPANAHALLI-583 131,
DAVANGERE DIST,
KARNATAKA (INDIA).
03 Course of the StudyBranch
M. Pharm., Pharmacology
04 Date of Admission to course 27-05-2010
05 Title of the TopicA STUDY ON DRUG - DRUG INTERACTION BETWEEN SILDENAFIL CITRATE AND ORAL ANTI-DIABETIC DRUGS
06
Brief resume of the intended work6.1. Need for the Study Enclosure – I
6.2. Review of the Literature Enclosure – II
6.3. Objective of the Study Enclosure – III
07
Materials and Methods7.1. Source of data Enclosure – IV
7.2. Methods of collection of data Enclosure – V7.3. Does the study require any Investigations on animals? If yes give details
Enclosure – VI
7.4. Has ethical clearance been obtained form your institution in case of 7.3.
Yes, Registration No: 157 / 1999/ CPCSEA(Copies enclosed)
08 List of References (About 4 – 6) Enclosure – VII
09 Signature of the Candidate
(AJAY PRATAP SINGH)
10 Remarks of the Guide Enclosure – VIII
11 Name and Designation of (in Block Letters)
11.1. Guide
11.2.Signature
11.3.Co-Guide (if any)
11.4.Signature
11.5. Head of the Department
11.6. Signature
Dr. S. V. RAJENDRAM. Pharm, Ph.D.
ProfessorP.G Department of PharmacologyS.C.S. COLLEGE of Pharmacy,Harapanahalli-583131, (Karnataka )
__
Prof. A. Veerana Gaud M.Pharm.Head of the dept. of pharmacologyS.C.S. COLLEGE OF PHARMACYHARAPANAHALLI-583 131DAVANGERE. (DIST.) KARNATAKA
12
Remarks of the Principal
12.1. Signature
The intended work is related to drug-drug interaction. This study will be useful for clinicians while prescribing the thiazoliedinediones. The work is feasible & can be carried out in the dept. of Pharmacology, S.C.S college of pharmacy, Harapanahalli.
Principal
ENCLOSURE-I
06. Brief resume of Intended Work
6.1 Need for the study. There are several incidences that a patient may be suffering from more than
one disease at a time and require simultaneous treatment for both the diseases. In such
situations, multiple drugs have been prescribed by physicians to treat more than one
disease. If more than one drug has been administered, there is every possibility of
occurrence of drug interactions1. It is known that the incidence of ADR to drugs rise
from 4.2% when five or fewer drugs are used to 45% when twenty or more drugs are
used2. This may either enhance or diminish the effect of simultaneously administered
drugs which results in useful or harmful effects on the patient. The useful drug
interaction is illustrated by synergistic combination of drugs such as antibiotics or
antihypertensives2. Harmful drug interactions are unfortunately more numerous2.
During drug interactions, one drug may influence the efficacy of other drugs either
pharmacokinetically or pharmacodynamically. Infact, pharmacokinetic drug
interactions are more common than pharmacodynamic interactions. Pharmacokinetic
interactions may be elicited at the time of absorption, distribution of drugs, metabolism
and elimination. During metabolic interactions, one drug may influence the effect of
another drug either by cytochrome P450 enzyme induction or inhibition. Inhibition of
CYP enzymes increases the pharmacological activity while induction reduces the
efficacy of co-administered drugs. Therefore it is essential to assess the statistical
possibility of occurrence of drug-drug interactions so as to enhance the efficacy, safety
and to reduce toxicity.
Erectile dysfunction (ED) is defined as the consistence or recurrent inability of
a man to attain and/or maintain penile erection sufficient for sexual activity3. Erectile
dysfunction is a highly prevalent health problem4. Erectile dysfunction (ED) is a
common complication of diabetes and an important cause of decreased quality of life in
men with diabetes. The prevalence of ED is observed in many people throughout the
world5. The prevalence of diabetes mellitus is also increasing with non-insulin-
dependent (type 2) accounting for 90–95% of the diagnosed diabetic patients6. Erectile
dysfunction frequently represents a neurovascular complication of diabetic mellitus,
and it has been calculated that almost 50% of diabetic men will have erectile
dysfunction within 6 years after diagnosis7. ED in diabetic men has been associated
with diabetic neuropathy, peripheral vascular disease, poor glycemic control, use of
specific types of medications and increased age8.
There are many instances that a patient may be suffering with diabetes mellitus
associated with erectile dysfunction. Then the patient has to be treated simultaneously
with antidiabetic drugs and sildenafil citrate. In the current study, it is planned to
observe the influence of sildenafil citrate [a selective inhibitor of cyclic guanosine
monophosphate (cGMP) - specific phosphodiesterase type 5 (PDE5)] 9, more
commonly prescribed drug in erectile dysfunction on the commonly used antidiabetic
drugs like pioglitazone and rosiglitazone (thiazoliedinedione class). Since, sildenafil
citrate is known to inhibit multiple cytochrome P-450 enzyme system; there is a
possibility of occurrence of pharmacokinetic type of drug interactions with
concomitantly used antidiabetic drugs like pioglitazone and rosiglitazone. The study
drugs (thiazoliedinedione like pioglitazone and rosiglitazone) are metabolized by
cytochrome P-450 enzyme system, while sildenafil citrate is an inhibitor of cytochrome
P-450 enzymes. When such combinations are being employed, there may be occurrence
of drug interactions between them. Further, maintenance of blood glucose levels is very
much required in diabetic patients. The interaction could result in severe hypoglycemia
or there may be reduction in the effectiveness of the one or either of the administered
drugs. Since there are no reports of drug interactions between the study drugs, it is
planned to undertake the influence of sildenafil citrate on the hypoglycemic activity of
some selected thiazoliedinedione like pioglitazone and rosiglitazone in various
experimental models. Further the outcome may be useful to the physician to adjust the
dose and frequency of administration of thiazoliedinediones when concurrently
administered with sildenafil citrate. Hence the study is needed and the work is
justifiable.
ENCLOSURE-II
6.2 Review of literature:
Sildenafil citrate is a popular drug in the treatment of erectile dysfunction and is
a selective inhibitor of cyclic guanosine monophosphate (cGMP) - specific
phosphodiesterase type 5 (PDE5)9. It is approved for the treatment of erectile
dysfunction10, pulmonary arterial hypertension (PAH)11, useful for the prevention and
treatment of high-altitude pulmonary edema associated with altitude sickness (such as
that suffered by mountain climbers)12, 13. Sildenafil is also a weak inhibitor of CYP
enzymes such as CYP 3A4, 2C9, 2C19, 1A2, 2D6 and 2E114. ED in diabetic patients is
principally related to organic causes such as vasculogenic and neurogenic
abnormalities15.
Antidiabetic drugs like rosiglitazone is a substrate for the CYP2C8 and to a
lesser extent CYP2C9 pathways, and pioglitazone is a substrate for CYP2C8 (39%) and
CYP3A4 (17%), as well as several other CYP450 pathways17, 18. Rosiglitazone and
pioglitazone metabolism in vivo may be affected by inhibitors or inducers of CYP2C9
and CYP3A4, but no significant drug-drug interactions have been reported with
sildenafil citrate which weakly inhibits the cytochrome P-450 isoenzyme CYP 3A4 and
CYP 2C9 which is involved in the metabolism of pioglitazone17,18,25 and
rosiglitazone17,18. There are reports that sildenafil citrate can interact with drugs such as
atazanavir, indinavir, saquinavir, and ritonavir etc16. Sildenafil also interacts with azole
antifungals, erythromycin, cimetidine (causes symptomatic hypotension) 22, grapefruit
juice, rifampicin23, adrenergic blockers like doxazocin24. But there are no reports of
drug interactions between sildenafil citrate and oral antidiabetic agents such as
pioglitazone and rosiglitazone. Further sildenafil citrate is a weak inhibitor of many
CYP enzymes which are involved in the metabolism of thiazoliedinediones under
study14, 17, 18, 25. Therefore the present study is planned to investigate the influence of
sildenafil citrate on the hypoglycemic effect of some selected thiazoliedinedione like
pioglitazone and rosiglitazone in normal as well as diabetic animals.
.
ENCLOSURE – III
6.3 Objectives of the study:
Since there are several reports that sildenafil citrate interfere with cytochrome
P-450 enzyme system and there by alter the pharmacokinetics of various drugs that are
metabolized by this enzyme system when they are used concomitantly. Even sildenafil
citrate is likely to alter the pharmacokinetic properties of orally administered anti-
diabetic agents like pioglitazone and rosiglitazone. Hence, the present study is planned
with the following objectives.
01. To study the influence of repeated administration of sildenafil citrate per se on
the blood glucose levels in experimental animals.(rats and rabbits)
02. To study the influence of single and multiple doses of sildenafil citrate on the
hypoglycemic activity of pioglitazone and rosiglitazone in experimental
animals. (rats and rabbits)
03. To study the influence of single and multiple doses of sildenafil citrate on the
anti-diabetic activity of pioglitazone and rosiglitazone in the experimentally
induced diabetes in rats (alloxan induced diabetic rats).
04. It is also planned to investigate the effects of sildenafil citrate on the insulin
levels in experimental animals
05. To suggest the alteration in the dose and frequency of administration of
hypoglycemic agents like pioglitazone and rosiglitazone when they are used
along with sildenafil citrate.
ENCLOSURE – IV
7. Material & methods
7.1 Source of data
This study is planned to generate data by conducting laboratory-based research
in animals. It is also planned to use rats, rabbits and diabetic rats in the experiments.
Estimation of blood glucose levels at a regular interval after the administration of
hypoglycemic agents to normal/diabetic animals with or without pre treatment of
sildenafil citrate is important criteria for generating required data. This study is also
intended to generate data by using certain pharmacological tools. In addition it is also
planned to take some data from the available literature.
ENCLOSURE – V
7.2 Method of collection of data:
The whole study is divided into three phases to generate data. Following are the
four phases.
Phase-I: It is planned to study the influence of sildenafil citrate per se on the blood
glucose levels in rats, rabbits and alloxan induced diabetic rats. It is also planned to
investigate the effect of single and multiple doses of sildenafil citrate on the
hypoglycemic activity of anti-diabetic drugs (pioglitazone and rosiglitazone) in normal
albino rats.
Phase II: In this phase, the experiments of previous phase will be repeated in the
normal albino rabbits (It is mandatory to establish drug interactions in two dissimilar
species). Further, there are reports that the carnivorous animals (rats) and herbivorous
animals (rabbits) responds differentially to insulin variations, i.e. rats are more sensitive
to insulin lack than rabbits19. In the present study, there is a possibility of occurrence of
insulin variations during interaction. Therefore in the II phase of study, rabbits have
been selected.
Phase III: In this phase, it is planned to estimate the insulin concentrations in
experimental animals before and after pretreatment with sildenafil citrate.
Phase IV: In this phase, diabetic rats (alloxan induced diabetic rats) will be used to
study the possible drug-drug interaction of sildenafil citrate and oral anti-diabetic drugs
(pioglitazone and rosiglitazone) when they are used concomitantly in the patho-
physiological conditions.
I) Study Subjects and groups: Normal rats, normal rabbits and alloxan induced
diabetic rats will be used. Six rats and rabbits will be used in each group. Groups are
made for single/ multiple dose/doses study in various experimental animals.
For single dose study: Sildenafil citrate is given one hour prior to thiazoliedinediones
and then the blood samples will be collected at frequent intervals on the same day.
Doses are converted to animals doses from human doses.
Human doses for sildenafil citrate are 25mg and 100 mg. Then the two lower and
higher subsequent doses in animals will be 2.5mg/kg and 10 mg/kg.
For multiple dose study: Sildenafil citrate is administered for 7 consecutive days and
on 8th day, one hour after sildenafil citrate, thiazoliedinediones are administered and the
blood samples will be collected. However, same doses of sildenafil citrate are
considered for the current investigation.
II) Inclusion criteria:
Normal rats: Albino Wistar rats of either sex, weight range 200-250 G.
Normal rabbits: Albino rabbits of either sex, weight range 1.5-2.0 kg.
Diabetic rats: Alloxan induced diabetic rats of either sex; weigh between 200-250G.
The diabetic rates with more than 200 mg/dl of blood glucose levels will be selected for
study.
Exclusion Criteria: Any animal which do not comply with the above criteria are
excluded from the study.
III) Study sampling & design:
A. Estimation of plasma glucose- GOD-POD method20.
It is one such evolved method by Trinder in 1969. This method is simple, single,
stepped, rapid & reliable and there is precision. Hence, this method is adopted in the
present investigation. Trinders method (1969) utilizes two enzymes glucose oxidase
(GOD) and peroxidase (POD) along with the chromogen L-amino antipyrine and
phenol. This method is for in vitro quantitative determination of glucose in serum /
plasma or cerebrospinal fluid. Hemoglobin or bilirubin upon 10 mg % does not affect
the test.
Principle
Glucose is determined after enzymatic oxidation in the presence of oxidase. The
hydrogen peroxide so formed reacts under catalysis of peroxidase with phenol and 4-
amino antipyrine (4 AAP) to form red colored quinoneimine compound that is
measured at 505nm and the intensity is directly proportional to glucose concentration.
Glucose + O2 + H2O GOD Gluconic acid + H2O2
H2O2 + 4AAP + Phenol POD Red quinoneimine complex + H2O
Blood is withdrawn from the experimental animals at predetermined time intervals i.e.
00, 0.5, 1. 2. 4. 8. 12 and 24 h (rat blood through retro-orbital sinus and rabbit blood
through marginal ear vein).
B. Estimation of plasma insulin
The serum insulin levels were estimated by Radio-immuno assay26, 27.
Assay principle
The radio-immuno assay method is based on the competition of unlabelled insulin in
the standard or samples and radio-iodinated (I-125) insulin for the limited binding sites
on a specific antibody.
At the end of incubation, the antibody bound and free insulin were separated by the
second antibody-polyethylene glycol (PEG) aided separation method. Insulin
concentrations of samples are quantitated by measuring the radioactivity associated
with the bound fraction of sample and standard.
Procedure
For the estimation of insulin in serum, a standard curve is to be prepared. For the
preparation of standard curve, the reagents given in the assay kit are added, when the
addition of insulin antiserum is completed, the tubes are mixed gently and incubate all
the tubes at +2 to +40 C overnight. Then radiolabeled iodine i.e. I125 Insulin is added to
all the tubes. Mixed gently and incubate all the tubes for 3 h at room temperature. The
second antibody and PEG are added to all these tubes. Then the tubes are vortexed and
they are kept at room temperature for 20 min. The tubes are centrifuged at 1500 rpm for
20 min. After centrifugation, supernatant fluid is decanted off and radioactivity is
counted in the precipitate using gamma scintillation counter.
Similarly, the sample/test tube is also run as per the flow chart and the calculations
were done using below mentioned formula:
Calculations
Count of standard/sample % Binding (B/Bo) = x 100 Count of zero standard tube
Where
Bo = Zero standard binding (counts)
B = standard/sample binding (counts)
A standard graph is plotted i.e. % B/Bo against µU/ml of insulin on logit log paper.
Then the results are analysed by Paired Student’s- t- test using Graph pad prism.
IV). Parameters of the study: Onset of action: The beginning of pharmacologic
response. It corresponds to the time for the plasma concentration to reach minimum
effective concentration after administration of drug.
Peak effect: It is the maximum pharmacologic response produced by the peak plasma
concentration of drug.
Duration of action: The time period for which the plasma concentration of drug remains
above the MEC level is called duration of drug action21.
Statistical test: Student’s t-test (paired t- test is used for statistical significance)
V) Duration of study: Total duration of experimentation will be around 08 months.
However, follow up is not required during our study.
Study structure and design
The general scheme of the study which is followed though out the investigation is
compiled in the following table;
StudyPretreatment medication and dose
Duration of pretreatment
Study drug and dose
Washing period(weeks)
1 2% w/v gum acacia (normal rats), dose volume matched with the average of volume of drug treatments in the subsequent studies
7 days at 08:00 am
2% w/v gum acacia on 8th day at 08:00 am
-
2 Sildenafil citrate 10mg/kg (normal rats)
7 days at 08:00am
Sildenafil citrate on 8th day at 8 am -
3 None On day 1 Pioglitazone 10mg/kg & rosiglitazone 720µg/kg (normal rats) p.o. on the day at 08:00 am
2
4 Sildenafil citrate 2.5mg/kg,& 10mg/kg (normal rats)(Total 8 groups containing 6 in each)
Same day and 7 days at 08:00 am
Pioglitazone 10mg/kg & rosiglitazone 720µg/kg (normal rats) on 8th day at 09:00 am *
2
5 Sildenafil citrate 10mg/kg (normal rats)
7 days at 08:00am
Sildenafil citrate on 8th day at 8 am (normal rabbits)
-
6 None On day 1 Pioglitazone 10mg/kg&rosiglitazone 720µg/kg (normal rabbits) p.o. on the day at 08:00 am
2
7 Sildenafil citrate2.5mg/kg, &10mg/kg (normal rabbits)(Total 08 groups containing 5 rabbits in each)
Same day and 7 days at 08:00 am
Pioglitazone 10mg/kg & rosiglitazone 720µg/kg (normal rabbits) on 8th day at 09:00 am
2
8 Sildenafil citrate 10mg/kg (diabetic rats)
7 days at 08:00am
Sildenafil citrate on 8th day at 8 am -
9 None On day 1 Pioglitazone 10mg/kg & rosiglitazone 720µg/kg (diabetic rats) p.o. on the day at 08:00 am
2
10 Sildenafil citrate 2.5mg/kg & 10mg/kg (diabetic rats)(Total 08 groups containing 6 diabetic rats each of animals)
Same day and 7 days at 08:00 am
Pioglitazone 10mg/kg & rosiglitazone 720µg/kg (diabetic rats) on 8th day at 09:00 am
2
* Many groups are considered as per the need of the study
*Insulin levels are also estimated by Radio immune assay
ENCLOSURE – VI
7.3 Does the study require any investigation or interventions to be
conducted on patients or other humans or animals? If so, please
describe briefly. Yes, the above study requires investigation on animals i.e., albino rats & rabbits
for drug-drug interaction study.
7.4 Has ethical clearance been obtained from your institution in case
of 7.3?Yes, the study is cleared from institutional animal ethics committee (IAEC
certificate enclosed).
ENCLOSURE –VII
8.1 List of references
1. Yadav AV, Yadav BV. Hand book of Clinical Pharmacy; Jun 2004.
2. Satoskar RS, Bhandarkar SD, Ainapure SS. Pharmacology and Pharmacotherapeutics; 2001.
3. Lewis RW, Fugl-Meyer KS, Bosch R et al.: Definitions, Classifications and epidemiology of Sexual Dysfunction. In: Sexual medicine. Sexual dysfunctions in men and women. Lue TF, Basson R, Rosen R, Giuliano F, Khoury S, Montorsi F (Eds), Plymbridge F, Distributors Ltd. Plymouth, UK 2004; 37-72.
4. Feldman HA, Goldstein I, Hatzichristou DG, Krane RJ, McKinlay JB. Impotence and its medical and psychosocial correlates: results of the Massachusetts Male Aging Study. J Urol 1994; 151:54–61.
5. Goldstein I, Lue TF, Padma-Nathan H, Rosen RC, Steers WD, Wicker PA. Oral sildenafil in the treatment of erectile dysfunction. New England Journal of Medicine. 1998;338: 1397– 1404.
6. Rendell MS, Rajfer J, Wicker PA, Smith MD, Sildenafil Diabetes Study Group. Sildenafil for treatment of erectile dysfunction in men with diabetes. JAMA 1999; 281421–6.
7. Expert Opinion, Drug Metabolism Toxicology 2007; 3(3); 451-464.
8. McCulloch DK, Young R.J, Prescott RJ, Campbell IW, Clarke BF. (1984). The natural history of impotence in diabetic men. Diabetologia; 26; 437– 440.
9. Wagner G, Montorsi F, Auerbach S, Collins M. Sildenafil citrate (VIAGRA) improves erectile function in elderly patients with erectile dysfunction: a subgroup analysis. J Gerontol A Biol Sci Med Sci. 2001; 56:M113—M119.
10. Vardi M, Nini A. Phosphodiesterase inhibitors for erectile dysfunction in patients with diabetes mellitus. Cochrane Database Syst Rev (1): CD002187 [Internet]. 2007. Available from: http://www.ncbi.nlm.nih.gov/pubmed/17253475/ DOI:10.1002/14651858.CD002187.PUB3
11. Pfizer. 2005 June 6. (FDA Approves Pfizer's Revatio as Treatment for Pulmonary Arterial Hypertension). [Internet]. 2005 [updated 2005 news releases. Pfizer; cited 2005 December 27]. Available from: http://www.pfizer.com/pfizer/are/news_releases/2005pr/mn_2005_0606.jsp
12. Richalet JP, Gratadour P, Robach P. Sildenafil inhibits altitude-induced hypoxemia and pulmonary hypertension. Am. J. Respir. Crit. Care Med. 171 (3): 275–81. [Internet]. 2005 Available from: http://dx.doi.org/10.1164%2Frccm.200406-804OC/ DOI: 10.1164/rccm.200406-804OC
13. Perimenis P. "Sildenafil for the treatment of altitude-induced hypoxaemia". Expert Opin Pharmacother 6 (5): 835–837. [Internet] 2005. Available from: http://dx.doi.org/10.1517%2F14656566.6.5.835/ DOI: 10.1517/14656566.6.5.835
14. Pfizer. 1999 March. (Viagra US Prescribing Information. Revised). [Internet]1999. Available from: http://www.pfizer.com/hml/pi‚s/ viagrapi.html
15. Saenz de Tejada I, Goldstein I. Diabetic penile neuropathy. Urol Clin North Am 1988; 15:17–22.
16. Karen Baxter. Stockley’s Drug Interactions Pocket Companion, Pharmaceutical Press, 2009; 371
17. Baldwin SJ, Clark SE, Chenery RJ. Characterization of the cytochrome P450 enzymes involvedin the in vitro metabolism of rosiglitazone. Br J Clin Pharmacol. 1999; 55: 53 –56.
18. Niemi M, Backman JT, Neuvonen PJ. Effects of trimethoprim and rifampin on the pharmacokinetics of the cytochrome P450 2C8 substrate rosiglitazone. Clin Pharmacol Ther. 2004; 76:239 –249.
19. Laddprosser C. Comparative animal physiology. 3rd edition, Santhosh book enterprises. Agra, 1985 ; 864.
20. Trinder P. Annals of Clin bio chem; 1969.
21. Brahmankar DM. Sunil BJ. Biopharmaceutics and Pharmacokinetics-A Treatise. Vallabh Prakashan; 1995.
22. Dresser GK, Spence JD, Bailey DG, Pharmacokinetic-Pharmacodynamic consequences and clinical relevance of cytochrome P450 3A4 inhibition. Clin Pharmacokinet. 2000; 38(1):41-57.
23. Carson CC, Lue TF, Phosphodiesterase type 5 inhibitors for erectile dysfunction. BJU Int. 2005; 96: 257-280.
24. Kloner RA, Brown M, Prisant LM, Colllins M. for the sildenafil study group:effect of sildenafil in patients with erectile dysfunction taking antihypertensive therapy. Am J. Hypertens. 2001; 14:70-73
25. Jaakkola T, Backman JT, Neuvonen M, Neuvonen PJ. Effects of gemfibrozil, itraconazole, and their combination on the pharmacokinetics of pioglitazone. Clin Pharmacol Ther. 2005; 77: 404 –414.
26. Yalow RS and Berson SA. Immunoassay of endogenous plasma insulin in man. J Clin Invest 1960; 39:1157.
27. 27. Jorgensen KR. Radioimmuno assay of insulin in plasma and urine in obese subjects and in diabetic patients. Acta endocr 1969; 60:719.
ENCLOSURE-VIII
Remarks of the guide: -
The intended work is related to drug-drug interaction. This study will be useful
for clinicians while prescribing the thiazoliedinediones along with sildenafil citrate in a
patient suffering with DM with ED. The work is feasible and can be carried out in the
dept. of Pharmacology, S.C.S College of pharmacy, Harapanahalli.