Clinical Assessment of the Use of Propinox Hydrochloride and Scopolamine Hydrochloride in the Treatment of Abdominal Colic : A Retrospective , Comparative Study

Objectives: The purpose of this study was to evaluate and compare the use of propinox hydrochloride and scopolamine hydrochloride in patients presenting abdominal colic (abdominal pain), in Corresponding author.


Introduction
The term abdominal colic is used to describe spasmodic abdominal pain, arising as a result of distension, inflammation, or obstruction.It is often characterized as a sharp, localized abdominal pain that increases, peaks, and subsides.While it is often a benign complaint, it may also be a sign of a more significant pathology, therefore a careful medical history and physical examination are crucial to the approach for a differential diagnosis.Treatment of abdominal colic includes pain relievers such as nonsteroidal anti-inflammatory drugs, as well as antispasmodic agents.
Propinox hydrochloride, also known as pargeverine hydrochloride, is an antispasmodic that presents a dual mechanism of pharmacologic action: musculotropic and anticholinergic.It functions as a musculotropic agent, acting directly on the visceral smooth muscle cells and conferring its antispasmodic activity [1]- [9].The anticholinergic activity of propinox is derived from a moderate and non-selective blockade of muscarinic cholinergic fibers [1].
The pharmacological activity of propinox is exerted on the visceral smooth muscle cells of the digestive and genitourinary tract [1]- [9].Its antispasmodic activity at the intestinal level presents an efficacy two to three times greater than papaverine.Its effects on digestive secretions are smaller than those produced by quaternary ammonium compounds, thus the antisylagogue action is relatively weak.In the cardiovascular system, propinox does not alter tensional values or heart rate.Additionally, there are no reported effects in the literature of effects on the respiratory tract, at therapeutic doses [2]- [5].Propinox is indicated in the treatment of spasmodic states of the digestive, hepatobiliary, urinary or female genital tracts [1] [3].
Scopolamine hydrochloride is an anticholinergic drug that presents a high affinity for muscarinic receptors located on the smooth muscle cells of the gastrointestinal tract.Its anticholinergic activity exerts a muscle relaxant and spasmolytic effect.Scopolamine is derived from hyoscine, an alkaloid present in the leaves of the Duboisia plant, native to Australia, with a pharmacological potency twice that of atropine [1].
The basis of the therapeutic action of scopolamine is blockade of the action of acetylcholine in parasympathetic sites in smooth muscle and secretory glands.With this blockade, there is a decrease in motility of the urogenital and gastrointestinal tract, which renders scopolamine particularly useful in the treatment of spasms in these regions, commonly observed in gastroenteritis, colitis, irritable bowel syndrome, diverticulitis, biliary and urethtral colic, as well as in primary dysmenorrhea.It is also used in the prevention of gastrointestinal tract spasms prior to invasive radiological and diagnostic procedures.Scopolamine also acts on the glands of the oral cavity, gastrointestinal and respiratory tract, causing a reduction of activities and consequently of secretions [1] [3].Scopolamine hydrochloride is indicated in the treatment of spasms of the gastrointestinal tract, biliary tract spasms and dyskinesias, and spasms of the genitourinary tract [1] [3] [15].

Objectives
The primary objective of this study was to evaluate the use of propinox hydrochloride in patients presenting abdominal colic (abdominal pain), in terms of treatment efficacy and tolerability.The secondary study objectives were to evaluate the use of scopolamine hydrochloride in patients presenting abdominal colic (abdominal pain), in terms of treatment efficacy and tolerability, and to compare the results of the use of propinox hydrochloride with those of scopolamine hydrochloride, in terms of treatment efficacy and tolerability.

Material & Methods
This was an analytical, retrospective, comparative study.The study population consisted of outpatients treated at Serviço de Clínica Médica do Hospital das Clínicas Costantino Otaviano (HCTCO) and at Santa Casa de Misericórdia do Rio de Janeiro, from the period of 1988-1998, from which study data were drawn.After ethical committee approval (approval no.523-10), data present in the hospital records of each patient were analyzed in order to fill in the clinical research form, including the results of physical exam (height, weight, heart rate, blood pressure), medical history, demographic data, the results of any laboratory exams, and the identification, pharmaceutical form, dosing and treatment duration with the study drug, in addition to the presence and severity of abdominal pain.Inclusion criteria called for subjects of both genders, above 18 years of age, who were attended at either hospital and prescribed treatment with either of the study drugs.Only data from subjects with at least two hospital visits were included.The subjects were divided into two groups, according to the drug received.Patients from Group 1 were treated with propinox hydrochloride, while patients from Group 2 were treated with scopolamine hydrochloride.
Statistical analysis was performed using GraphPad Prism version 5.0.For comparison of categorical variables, we used the chi-squared or Fisher's test, while continuous variables were analyzed using ANOVA or the Student's T test.The primary efficacy endpoint was the percentage of subjects presenting resolution (absence) of pain at the second hospital visit.Secondary endpoints included the percentage of subjects presenting mild, moderate, or severe pain at the second hospital visit in relation to the first visit, record of any adverse effects during the treatment period, and the results of any laboratory tests out of hospital reference range.

Results
A total of 1042 subjects were included, of which 525 were allocated to Group 1 and 517 to Group 2. Gender distribution was homogenous between treatment groups (p = 0.386); Group 1 included a total of 268 (51.05%) male subjects and 257 (48.95%) female subjects, while gender distribution in Group 2 was 278 (53.77%) male subjects and 239 (46.23%) female subjects.Ethnicity distribution was also homogenous between treatment groups (p = 0.732).Mean subject age in Group 1 was 51.65 (±7.56) while in Group 2 it was 54.4 (±7.56) (p < 0.001 for between-group difference).
Mean treatment duration was 9.166 days (±4.208) in Group 1 and 8.795 days (±5.052) in Group 2, with no statistically significant difference in treatment duration between the two groups (p = 0.198).All subjects in Group 1 were treated with propinox 10 mg (2 coated tablets, three times per day) while all subjects in Group 2 were treated with scopolamine hydrochloride 10 mg (2 coated tablets, three times per day).
The results of the physical exam performed pre-and post-treatment and the respective between-visit differences are summarized in Table 1.At pretreatment, there was no statistically significant between-group difference in weight (p = 0.15); this finding was maintained post-treatment (p = 0.181).BMI did not vary significantly between treatment groups at either study visit (p = 0.675 for pretreatment and p = 0.099 for post-treatment).Pretreatment blood pressure measures did not vary between treatment groups (p = 0.669 for systolic blood pressure and p = 0.1833 for diastolic blood pressure); at post-treatment, systolic blood pressure was higher (p = 0.0258) among subjects in Group 1 while diastolic blood pressure was homogenous between treatment groups (p = 0.8105).Mean heart rate was homogenous between treatment groups at both pretreatment (p = 0.2114) and post-treatment (p = 0.234).Respiratory rate was also homogenous between both groups (p = 0.725 for pretreatment and p = 0.632 at post-treatment).
There was no statistically significant between-group difference in the number of subjects using concomitant medications (p = 1.0).At pretreatment, 87 in each treatment group reported use of concomitant medications.At post-treatment, this number reduced to 27 subjects in each treatment group.
Adverse events were reported among both treatment groups, with 133 subjects in Group 1 reporting adverse events during the treatment period and 123 subjects in Group 2. The incidence of adverse events occurring during the treatment period did not vary between treatment groups (p = 0.566).Table 2 summarizes the adverse events by system and patient group.
Figure 1 summarizes the results of the assessments of pain severity pre and post-treatment.At pretreatment, pain intensity was more severe in Group 1 (p = 0.0257), while at post-treatment, there was no statistically significant difference between the two treatment groups (p = 0.895).There was a statistically significant improvement in pain intensity within both treatment groups (χ 2 = 631.4;df = 3; p < 0.0001 for Group 1 and χ 2 = 554.3;df = 3; p < 0.0001 for Group 2).

Discussion
Although this was a retrospective study with inherent limitations in data availability, the study drugs were well tolerated in both treatment groups.This finding is consistent with data reported in the literature on clinical administration of both agents.
Clinical safety and efficacy studies have demonstrated a good tolerability of propinox.De los Santos et al. (1999) evaluated the efficacy and tolerability of propinox administered intravenously at doses of 10, 20, and 30 mg versus placebo in 350 patients presenting severe acute biliary pain.Propinox significantly and progressively reduced pain at all doses employed, 20, 60, and 120 minutes after administration, with the highest results obtained after 120 minutes at the doses of 20 mg and 30 mg.The drug was well tolerated at all doses, with no dropouts due to adverse effects.Mouth dryness was the only adverse event that occurred more frequently among the treated subjects as compared to the placebo group, and was observed only among patients receiving the doses of 20 and 30 mg.No significant changes in heart rate or blood pressure were observed among treated subjects [10].
Another clinical study evaluating the safety and efficacy of propinox by intravenous route used the same doses of 10, 20, and 30 mg versus placebo in 400 patients presenting moderate to severe colic-type abdominal pain secondary to a functional pathology (irritable bowel syndrome and dyspepsia).Propinox was more effective in reducing pain compared to placebo at the three doses administered.In the assessment performed 120 minutes following drug administration, there was a significant difference in the percentage of subjects with pain reduction in Table 2. Pre-and post-treatment physical exam.

Urinary tract 21 23
Data are n.
favor of the 20 and 30 mg doses.The authors related dry mouth as the most frequent adverse event reported at doses of 20 mg and 30 mg.No change in blood pressure or heart rate was observed among these subjects [11].
The efficacy and safety of propinox was assessed by Mezzotero et al. (1995) in the treatment of patients with mild to moderate abdominal colic pain resulting from biliary, intestinal, renal-pelvic, urethral, or female genital pathology (dysmenorrhea).One hundred and six subjects were treated with a dose of 10 mg administered orally.Pain intensity decreased by 43% thirty minutes after administration of a single dose.The most frequently reported adverse effects were flushing and pruritis.One subject developed a clinical picture of cutaneous allergy with bipalpebral edema requiring parenteral administration of antihistamines [12].
The efficacy and tolerability of parenterally administered propinox was assessed by Olmos et al., (2003), at the doses of 20 or 30 mg, among patients presenting with colonic spasm induced by colon exam among subjects with irritable bowel.Both doses of propinox were effective in reversing the colonic spasm, increasing colonic diameter, and reducing abdominal pain.The adverse events reported during the treatment were mild and transitory, with a single case of blurred vision, one case of dry mouth and one of pruritis among the 30 subjects who underwent treatment [13].
An oral dose of 10 mg was used by Pulpeiro et al. (2000) to compare the analgesic efficacy and assess changes in defecation rhythm, abdominal distension, frequency of pain crises, and sensation of incomplete evacuation as compared to treatment with a placebo.The double-blind, randomized treatment period lasted 4 weeks and included 75 subjects with irritable bowel syndrome, with 4 daily doses of the study drug.The group treated with propinox presented a significant and progressive reduction over the 28 day treatment period in intensity of abdominal pain, weekly frequency of pain episodes, and abdominal distension, greater than that observed in the group treated with placebo.The most frequent adverse effects were headaches, nausea, and dry mouth, however no dropouts due to adverse effects were recorded [14].
Several clinical studies have been performed assessing the safety and efficacy of scopolamine.Ten placebocontrolled clinical trials assessed this drug in the treatment of abdominal pain and discomfort, with a total of 3699 subjects, of which 911 received the drug in oral form (n = 868) or rectal form (n = 43) and 2788 subjects received paracetamol, placebo, or a combination of scopolamine with other drugs.Treatment duration varied in the studies from a single 20 mg dose with a 4 hour observation period to a three-month treatment period with a dose of 10 mg four times per day.The maximum daily dose varied between 20 -200 mg over 10 days.Scopolamine was considered beneficial in all of these studies, with statistically superior efficacy over placebo in at least one variable in each study [17]- [26].Of these ten studies, seven included a small number of subjects (<50) treated with the drug, and were performed prior to the establishment of the Good Clinical Practice and International Conference on Harmonisation Guidelines.Therefore, although the results of these seven studies were favorable, they are of limited value in assessing the efficacy of the drug.
Three more recent comparative studies, including 712 [17], 818 [21], and 1637 [23] subjects, respectively, used doses between 30 and 60 mg and treatment duration varied between 4 days and 3 weeks, respectively.The results of the first study demonstrated that scopolamine administered orally or rectally resulted in a significant improvement of pain in comparison to treatment with placebo [21].In a double-blind, comparative, randomized study, parallel groups of patients with irritable bowel syndrome were treated with scopolamine + paracetamol, scopolamine alone, paracetamol alone, or placebo over the course of four weeks.At the end of the treatment period, 75% of the patients in the groups treated with scopolamine had significant improvement in symptoms, with a statistically significant improvement in abdominal pain intensity in the groups treated with scopolamine compared to subjects treated only with paracetamol or placebo [17].In a clinical trial assessing 1637 subjects, the efficacy and tolerability of three daily doses of scopolamine 10 mg, paracetamol 500 mg, a combination of the two drugs, or placebo, was assessed over a three week treatment period.The intensity and frequency of the pain decreased significantly in the scopolamine treatment groups as compared to placebo, and no difference was observed between the active treatments [23].

Conclusion
The results obtained in this study indicate a therapeutic equivalence between propinox hydrochloride and scopolamine hydrochloride.Both treatments demonstrated good efficacy and tolerability in the treatment of abdominal colic pain, in the population evaluated.

Figure 1 .
Figure 1.Abdominal pain intensity at pretreatment and post-treatment.

Table 1 .
Pre and Post-treatment physical exam.