The global burden of malaria can be estimated from the fact that nearly 107 countries and territories are at risk of malaria transmission and the annual worldwide cases of acute illness due to malaria are estimated to be around 300–500 million [
A novel trioxane 97/78, developed by Central Drug Research Institute (CDRI), India, has shown promising antimalarial activity and is currently in clinical trials phase I. 97/78 contains 1,2,4-trioxane nucleus similar to artemisinin responsible for their pharmacological activity [
Chemical structure of parent compound 97/78,
Potent antimalarial activity of these compounds may be due to its capacity (i) to mimic the choline structure which blocks phosphatidylcholine biosynthesis and (ii) to interact with hemozoin, the malarial hemoglobin-degradation product. Compounds potency is also due to its high accumulation inside the infected erythrocytes. This dual mechanism of action of 97/78 should limit the risk of emergence of resistance. The chemical name of the compound is Mono[2methyl2[3(1spiro[tricycle[3.3.1.13,7]decane2,3′-[
Firstly 97/63 was synthesized but, due to its poor bioavailability, it was resynthesized as a hemisuccinate derivative and coded as 97/78. Upon administration of 97/78 it gets converted into its active
The aim of this study was to calculate the maximum tolerated dose of the compound in healthy human volunteers along with evaluation of PK profiles of 97/78 and its
The study was approved by the Institute’s Ethics Committee. The single ascending dose study and the pharmacokinetic study are registered with Central Trial Registry of India (CTRI/2012/07/002812; CTRI/2012/07/002832). Normal healthy male volunteers in the age group of 18–45 years were invited to join the trial. A detailed informed consent process of the volunteers was undertaken and screening of the volunteers was done after obtaining informed consent. They were recruited through contacts and hospital employees were excluded. The health status of the volunteers was determined by taking medical history, physical examination, routine haematology (haemoglobin, total lymphocyte count, differential count, and platelet count), clinical biochemistry (serum glutamic oxaloacetic transaminase (SGOT), serum glutamic pyruvic transaminase (SGPT), serum bilirubin, serum creatinine, blood urea, serum electrolytes, random blood sugar, total protein, and serum lipid profile), and urine and stool analysis (routine examination and microscopy). The volunteers were asked to report to the study site after 12 hours of fasting for the blood tests. Chest X-ray and 12-lead ECG were also taken. The participants were also screened for human immunodeficiency virus (HIV) and hepatitis B.
The volunteers were excluded if there was a history of having donated blood in the past 3 months, HIV or HBsAg positivity, history of any drug intake in the past 15 days, history of receiving any enzyme-inducing agent in the preceding 15 days, history of participating in any investigational new drug (IND) study in the previous 6 months, history of participating in any non-IND study in the preceding 3 months, history of allergy or hypersensitivity to any medication, history of peptic disorder, chronic smoker >6 cigarettes/beedies per day, alcoholic (history of daily alcohol intake in the last 6 months), history of any drug abuse, tobacco user in any form, history of any chronic disease and taking medication, and history of taking nonallopathic drug in the past 6 months for any illness or history of any major illness in the past (namely, meningitis, hepatitis, tuberculosis, epilepsy, nephritis having received treatment and presently asymptomatic).
The procedure for recruiting participants for single dose PK study was similar to the above. The PK study was undertaken in 16 separate volunteers following the evaluation of safety data for phase I study and evaluation of pharmacodynamics study in animals
This was a single ascending dose, placebo-controlled, randomized, double blind trial. Randomization was carried out by computer generated random number sequence. Randomization was carried out for the drug and the placebo in a 3 : 1 ratio for each dose level. The drugs were dispensed in sealed bottles with the randomization code written on them. Randomization codes were provided in sealed opaque envelopes with the protocol specification that the codes may be opened by the investigator only in case of a serious or severe adverse event.
The starting dose was 80 mg; calculation of starting dose was based on the basis of maximum tolerated dose of 100 mg/kg obtained in rats. This was used to obtain a dose of 96 mg for a 60 kg man. The formulation which was available for a dose below this was of 80 mg and hence taking these factors into consideration a starting dose of 80 mg was chosen. The following dose levels were evaluated: 80, 160, 320, 400, 500, 600, and 700 mg. The starting dose was calculated by allometric scaling from animals. At each dose level, six volunteers received CDRI 97/78 and two received placebo except at 700 mg where only two volunteers were given this dose. At each dose level, volunteers were assessed before proceeding to the next dose. The decision to dose only 2 volunteers was taken, after analysis of data of 600 mg, wherein no remarkable adverse events were noted.
The decision to stop the dose escalation was based on the appearance of the dose limiting toxicity (DLT) which was defined as the dose at which any of the following appeared: severe nausea, vomiting, heartburn, headache, remarkable change in vital parameters such as blood pressure, heart rate, respiratory rate or oxygen saturation of blood, changes in QT interval, or any event that in the opinion of the investigators required stopping of the trial.
Maximum tolerated dose was defined as the dose before which any of the components of DLT appeared at a significantly higher rate as compared to placebo. In case this was not achieved, it was planned not to dose volunteers beyond 700 mg.
The volunteers after giving informed consent were screened. The screening process was done latest within 1 month of admission for dosing. The volunteers who fulfilled the inclusion/exclusion criteria were admitted in the CPU the night before drug administration. Standardized dinner was served at 9 pm the night prior to dosing. On day 0, baseline blood sample for biochemical and haematological examination and stool and urine samples for routine and microscopy were taken. They received the study drug, according to the randomization sequence, under supervision. The empty packaging was returned to the container. The volunteers received drug as per randomization. Breakfast was given half an hour after drug administration. Subsequently, standardized lunch and dinner were served to the volunteers.
For pharmacokinetic (PK) study, eligible participants were admitted and housed in the clinical pharmacology unit an evening prior to the PK study. A standard dinner was served and a fasting condition for at least 10 hrs prior to dosing and 4 hrs after dosing was ensured. A peripheral forearm vein was cannulated for sampling for the PK analysis. 200 mg of the study drug was administered with 300 mL of water. The time of actual dose administration to the nearest minute was recorded. 2.5 mL of blood was collected from the indwelling cannula at 0 (before dose), 0.25, 0.5, 0.75, 1, 1.5, 2, 4, 6, 8, 12, 18, 24, 48, 72, 96, 120, and 144 hrs (after dose). 10 mL of additional blood was collected at 0 (before dose) and 24 hr (after dose) for laboratory parameters for safety assessment and PK control sample. A time window of ±2 minutes was permitted for collecting the post dose samples from the scheduled time for PK analysis.
Plasma was separated from blood sample intended for PK analysis, within 1 hour of blood sampling, by centrifugation at 2000 rpm for 10 min at 4°C. Samples were stored at −80°C pending transportation. Heparinised blood samples were transported to the laboratory within 7 days of collection.
The subjects were attached to a cardiac monitor and vital HR, BP, ECG, oxygen saturation, and RR were recorded. Corrected QT interval using Fridericia’s formula was calculated. Adverse events were assessed at specific time points (0.5, 1, 2, 4, 6, 8, 12, and 24 hrs after medication). Unscheduled monitoring was undertaken whenever it felt necessary. The volunteers were discharged after 24 hrs and they had to return at 48 hrs and on the 7th day for follow-up. At the end of the 7th day, they were said to have completed the study. Routine haematological and biochemical investigations were performed at 0 hr, 24 hrs after drug administration, and on day 7. The study was monitored by a Data Safety Monitoring Board.
Quantitative analyses of clinical phase ascending dose and single dose PKs samples were done at GLP lab of Pharmacokinetics and Metabolism Division, CDRI, Lucknow, India.
Continuous data were presented as mean ± SD and categorical data were presented as
63 volunteers were screened out, of whom 50 volunteers matched the inclusion/exclusion criteria and were included in the safety study (Figure
Demographic characteristics of the volunteers included in the studies.
Characteristic | 80 mg | 160 mg | 320 mg | 400 mg | 500 mg | 600 mg | 700 mg | Placebo |
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Age in years; Mean (SD) | 28.5 (10.93) | 27.5 (4.32) | 25.0 (7.12) | 25.2 (2.13) | 21.3 (3.53) | 25.2 (7.67) | 23.0 (1.41) | 25.4 (5.75) |
Height in cm; Mean (SD) | 170.5 (5.33) | 167.5 (5.8) | 166.7 (6.44) | 167.3 (4.08) | 167.0 (3.57) | 170.2 (5.77) | 171.0 (1.41) | 171.3 (4.89) |
Weight in kg; Mean (SD) | 58.6 (9.72) | 69.0 (13.57) | 56.6 (8.84) | 61.6 (7.17) | 59.6 (6.47) | 61.3 (12.67) | 63.5 (2.12) | 60.7 (8.43) |
BMI (kg/m2); Mean (SD) | 20.1 (3.04) | 24.8 (5.89) | 20.3 (2.14) | 22.0 (2.35) | 21.4 (2.5) | 21.7 (0.36) | 20.7 (2.75) | 21.4 (3.4) |
Volunteer screening flowchart: for ascending dose study, 50 normal healthy human volunteers were screened from 63 volunteers, while for single dose pharmacokinetics study 16 healthy volunteers were from 20 volunteers.
Adverse events that occurred during the study were few (Table
Adverse events noted at various drug dosages of CDRI 97/78.
Treatment group | Type of adverse events | No. of events |
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80 mg CDRI 97/78 | Heaviness of head | 1 |
160 mg CDRI 97/78 | None | |
320 mg CDRI 97/78 | Visual disturbance | 1 |
400 mg CDRI 97/78 | Drowsiness | 1 |
Bradycardia | 1 | |
Itching | 1 | |
500 mg CDRI 97/78 | Sedation | 1 |
Nausea | 1 | |
600 and 700 mg CDRI 97/78 | Sedation | 1 |
Placebo | Sedation | 1 |
Drowsiness | 1 | |
Nausea | 1 | |
Retching | 1 | |
Dizziness | 1 | |
Heaviness of head | 1 |
Sedation was the most common adverse event reported across different groups (3/14; 21.4%). It was noted in 3 volunteers given 500 mg CDRI 97/78, 600 mg CDRI 97/78, and placebo about 2 hours after drug administration and lasted for 1-2 hours. It was grade 1-2 in severity, spontaneous and complete recovery was seen in all, and no action was required. The other adverse events noted were mild drowsiness, mild nausea, slight heaviness of head, bradycardia (56-57 bpm), visual disturbances, and itching (Table
Description of all adverse events observed in the study.
Name of AE | Treatment group | Treatment given | Time (hrs) of onset after drug administration | Duration of AE (min) | Spontaneous reversal (yes or no) | Reversal complete (yes or no) | Severity grade | Causality assessment |
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Sedation | 600 mg | None | 2 | 60 | Yes | Yes | 1-2 | Possible |
Sedation | 500 mg | None | 2 | 120 | Yes | Yes | 1-2 | Possible |
Sedation | Placebo | None | 2 | 120 | Yes | Yes | 1-2 | Not drug related |
Drowsiness | 400 mg | None | 2 | 60 | Yes | Yes | 1 | Possible |
Drowsiness | Placebo | None | 1.5 | 140 | Yes | Yes | 1 | Not drug related |
Nausea | 500 mg | None | 0.25 | 20 | Yes | Yes | 1 | Possible |
Nausea | Placebo | None | Immediate | 10 | Yes | Yes | 3 | Not drug related |
Heaviness of head | 80 mg | None | 0.25 | 15 | Yes | Yes | 1 | Possible |
Heaviness of head | Placebo | None | 1 | 10 | Yes | Yes | 1 | Not drug related |
Visual disturbances | 320 mg | None | 36 | 2-3 | Yes | Yes | 1 | Remote |
Bradycardia | 400 mg | None | 1 | 60 | Yes | Yes | 1 | Possible |
Retching | Placebo | None | Immediate | 10 | Yes | Yes | 3 | Not drug related |
Itching | 400 mg | None | 24 | 8 | Yes | Yes | 1 | Possible |
Dizziness | Placebo | None | 1 | 10 | Yes | Yes | 3 | Not drug related |
Severity grading done according to Common Terminology Criteria for Adverse Events v4.0, US Department of Health and Human Services. Grade 1: Mild; asymptomatic or mild symptoms; clinical or diagnostic observations only; intervention not indicated. Grade 2: Moderate; minimal, local or noninvasive intervention indicated; Grade 3: Severe or medically significant but not immediately life-threatening; hospitalization or prolongation of hospitalization indicated; disabling. Grade 4: Life-threatening consequences; urgent intervention indicated. Grade 5: Death related to AE.
Causality assessment: None; remote (<5% chance of being drug related); possible (>5% but ≤50% chance of being drug related; probable (>50% chance of being drug related) and definite.
Grade 3 severity—volunteer was on placebo.
Severe adverse event, nausea and retching immediately after drug administration, was observed in one patient which lasted for 10 minutes; the patient also complained of dizziness and slight heaviness of head 1 hour after drug administration. On decoding, he was found to have received placebo. The symptoms resolved spontaneously; hence, no further action needed to be taken.
At baseline, the different treatment groups were similar in terms of clinical parameters (pulse rate, blood pressure, and respiratory rate). None of the treatment groups demonstrated a significant alteration in pulse rate, respiratory rate, and systolic blood pressure at any time point compared to baseline. However, there was a significant change in diastolic blood pressure in 600 and 700 mg CDRI 97/78 group (
There was no statistically or clinically significant difference noted in the corrected QT interval within various treatment groups (
Hemoglobin values demonstrated a statistically significant alteration during posttreatment period in the group receiving 400 mg CDRI 97/78 (
There was no significant difference in serum bilirubin, SGOT, and SGPT at any time point of measurement for intergroup comparisons. The values of serum alkaline phosphatase, however, were significantly different between various groups at all pre- and postdrug measurements. Post hoc analysis for this revealed that the results were significant for comparisons between lowest (80 mg CDRI 97/78) and higher doses (500 and 600 mg CDRI 97/78), although none of the groups was significantly different from placebo. All the values remained within normal range (Table
Comparison of liver function tests between various treatment groups on repeated observations at baseline, 24 hours and day 7.
Treatment groups | Total serum bilirubin | Serum SGOT | Serum SGPT | Serum Alkaline phosphatase | ||||||||
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Baseline | 24 hour | Day 7 | Baseline | 24 hour | Day 7 | Baseline | 24 hour | Day 7 | Baseline | 24 hour | Day 7 | |
80 mg ( |
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160 mg ( |
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320 mg ( |
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400 mg ( |
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500 mg ( |
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600 mg ( |
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700 mg ( |
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Placebo ( |
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ANOVA | ||||||||||||
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1.114 | 1.308 | 1.105 | 1.701 | 1.631 | 1.14 | 1.62 | 1.097 | 1.435 | 4.545 | 5.103 | 3.802 |
df | 49 | 49 | 49 | 49 | 49 | 49 | 49 | 49 | 49 | 49 | 49 | 49 |
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0.37 | 0.27 | 0.38 | 0.13 | 0.15 | 0.36 | 0.16 | 0.38 | 0.22 | <0.001* | <0.001** | 0.002# |
The groups demonstrated significant variation in serum sodium and serum potassium values at all time points of measurements. None of the volunteers had values outside the normal physiological ranges nor presented with any signs or symptoms of dyselectrolytemia, so these findings were considered clinically irrelevant.
Following oral administration at 200 mg, compound 97/78 was rapidly absorbed, gets immediately converted into active metabolite 97/63, and is eliminated from the systemic circulation within 48 h except in two volunteers (72 h), as observed from plasma concentration-time profile (Figure
Pharmacokinetic parameters of converted active metabolite 97/63 after oral administration of 97/78 at 200 mg single dose to male healthy human volunteers (
PK parameter | Converted |
Mean ± SEM | |||||||||||||||
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Male healthy human volunteers ( |
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1 | 2 | 3 | 4 | 5 | 6 | 7 | 8 | 9 | 10 | 11 | 12 | 13 | 14 | 15 | 16 | ||
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172 | 20.1 | 373 | 187 | 149 | 355 | 42.6 | 202 | 60.9 | 295 | 47.4 | 50.4 | 65.4 | 105 | 55 | 123 |
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1.5 | 4 | 1 | 2 | 1.5 | 2 | 4 | 4 | 4 | 2 | 2 | 2 | 1.5 | 1.5 | 2 | 1.5 |
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13.89 | 2.17 | 4.78 | 2.20 | 3.88 | 21.27 | 3.00 | 8.94 | 7.80 | 11.63 | 24.26 | 14.50 | 10.10 | 17.73 | 24.51 | 18.90 |
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788.7 | 104.8 | 1644 | 602.6 | 785 | 1522.6 | 207.9 | 1604.9 | 511.7 | 1898.9 | 935 | 356.1 | 583.6 | 696.8 | 833.1 | 984.1 |
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MRT (h) | 12.57 | 5.72 | 13.7 | 3.53 | 5.38 | 14.25 | 6.42 | 14.13 | 9.28 | 9.76 | 30.72 | 14.53 | 11.26 | 18.37 | 32.20 | 18.52 |
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Mean plasma concentration-time profile of
This was a first-in-human study conducted on healthy male volunteers for a new antimalarial drug, CDRI 97/78. Overall, the drug was found to be safe.
Few adverse events were reported which were of mild nature and were probable in causality. But the adverse events were neither clinically nor statistically significant. The 14 adverse events reported in this trial occurred in various treatment groups over a large time frame. Hence, it cannot be said definitely whether they were due to the drug or not. Moreover, similar adverse events were also seen in the placebo group. Even the statistically significant alteration in blood pressure was not associated with signs and symptoms of altered blood pressure and the values fell within normal ranges.
For none of the adverse events, any intervention in the form of drug administration, fluid substitution, and resuscitation was required. All the reported events continued to be observed and resolved spontaneously.
The severity of the adverse events was at best graded at 2. No serious adverse events were reported. The NCE under evaluation is a derivative of artemisinin compound which is rarely associated with any SAE. However, structural similarity is just an indicator for predicting adverse effect profile of a novel compound. A future possibility of such reactions coming into light always remains.
Hence, the MTD could not be determined. Though determination of MTD was the main purpose of the study, this could not be achieved. This is a definite possibility in phase I studies as has been seen previously [
There were some haematological and biochemical parameters which showed statistically significant values when compared to placebo but the differences were not clinically significant as most of them stayed within the normal laboratory range. Further, the absence of dose response relationship highlighted the fact that they were innocuous. Nonclinical toxicity data serves as a guide to the monitoring of adverse drug events once the studies are conducted in healthy volunteers. Though there were no specific concerns raised in nonclinical toxicity, a thorough evaluation of haematological and biochemical parameters was undertaken. Statistically significant differences should be interpreted with caution keeping in mind the clinical relevance [
Since structurally the compound was similar to artemisinin, which has been reported to prolong QTc interval [
In conclusion, we can say that the new compound, CDRI 97/78, appears to be a safe and tolerable drug. Its safety can be further tested in multiple dose studies and, if found tolerable, can be a good therapeutic option for malaria, especially malaria resistant to available drugs.
The investigators did not receive any money for the conduct of the study. The study was sponsored by the Central Drug Research Institute, India. The Innovator Institute, a government organization, had tied up with IPCA Ltd. for the manufacture of the drug. The drugs were supplied by IPCA Ltd. They had no role in data collection, recording, and reporting. Two of the authors, Dr. Nitin Chandorkar and Dr. Anil Pareek, are employees of IPCA. Their role was in designing and conducting the study. All the analyses were done independently by the investigators’ team.
The authors would like to acknowledge the efforts of Mr. Onkar Rathod, for helping in the execution of the study, and Mr. Mitesh Sharma, for giving his inputs for statistical analysis. The research was funded by Central Drug Research Institute (CSIR), Lucknow, India. This is a government organization.