Effects of phentermine / topiramate extended-release, phentermine, and placebo on ambulatory blood pressure monitoring in adults with overweight or obesity: A randomized, multicenter, double-blind study

Background A fixed-dose combination of phentermine and extended-release topiramate (PHEN/TPM - approved for weight management) has demonstrated in-clinic reduction of blood pressure (BP). Ambulatory BP monitoring (ABPM) may be a better predictor of cardiovascular disease risk than in-clinic BP. Methods This randomized, multicenter, double-blind study enrolled 565 adults with overweight/obesity. Inclusion criteria included participants willing to wear ABPM device for 24 h. Exclusion criteria included screening blood pressure >140/90 mmHg and antihypertensive medications not stable for 3 months prior to randomization. Participants received placebo (n = 184), phentermine 30 mg; (n = 191), or PHEN 15 mg/TPM 92 mg; (n = 190). 24-hour ABPM was performed at baseline and at week 8. The primary endpoint was mean 24-h systolic BP (SBP) as measured by ABPM, in the per protocol population. Results Participants were mostly female (73.5 %) and White (81.6 %), with a mean age of 53.4 years; 32.4 % had no hypertension diagnosis or treatment, 62.5 % had hypertension using 0 to 2 antihypertensive medications, and 5.1 % had hypertension using ≥ 3 antihypertensive medications. Baseline mean SBP/diastolic BP (DBP) was 123.9/77.6 mmHg. At week 8, mean SBP change was −0.1 mmHg (placebo), +1.4 mmHg (phentermine 30 mg), and −3.3 mmHg (PHEN/TPM). Between-group difference for PHEN/TPM versus placebo was −3.2 mmHg (95 % CI: -5.48, -0.93 mmHg; p = 0.0059). The between-group difference for PHEN/TPM versus phentermine 30 mg was −4.7 mmHg (95 % CI: −6.96, −2.45 mmHg; p < 0.0001). Common (>2 % in any treatment group) adverse events (i.e., dry mouth, constipation, nausea, dizziness, paresthesia, dysgeusia, headache, COVID-19, urinary tract infection, insomnia, and anxiety) were mostly mild or moderate. Conclusions In this randomized, multicenter, double-blind ABPM study, PHEN/ TPM reduced SBP compared to either placebo or phentermine 30 mg (Funding: Vivus LLC; ClinicalTrials.gov: NCT05215418).


Introduction
One of the more common adiposopathic complications of obesity is an increase in blood pressure [1].Patients with obesity and hypertension are at increased risk for adverse clinical consequences such as cardiovascular and renal disease [2], prompting the recommendation that in addition to antihypertensive medications, patients with obesity may benefit from healthful nutrition, increased physical activity, anti-obesity medications, and possibly bariatric surgery [3].Use of anti-obesity medications among patients with obesity and hypertension can sometimes present challenges.While anti-obesity medications such as orlistat and glucagon-like peptide (GLP) receptor agonists may reduce blood pressure, the prescribing information for sympathomimetic agents warn of potential adverse reactions in raising blood pressure [1].
The fixed dose combination of immediate release phentermine and extended-release topiramate (PHEN/TPM) was approved in the US in 2012 as an adjunct to a reduced calorie diet and increased physical activity for chronic weight management regarding (a) adults with an initial body mass index (BMI) of ≥ 30 kg/m 2 (obese) or ≥ 27 kg/m 2 (overweight) in the presence of at least 1 weight-related comorbidity such as hypertension, type 2 diabetes mellitus (T2DM), or dyslipidemia or (b) pediatric patients aged 12 years and older with BMI in the ≥ 95th percentile standardized for age and sex (Qsymia prescribing information.Campbell, CA: VIVUS LLC; 2023 https://qsymia.com/patient/include/media/pdf/prescribing-information.pdf?v=0422).
One of the components of PHEN/TPM is topiramate.Topiramate is a sulfamate-substituted monosaccharide derivative of D-fructose approved for the treatment of epilepsy and migraine prevention, which was also evaluated for treatment of type 2 diabetes mellitus and obesity.However, the degree of glucose improvement of topiramate alone was not sufficient to achieve an indicated use as an anti-diabetes agent and the degree of weight reduction with topiramate alone was not sufficient to achieve an indicated use as an anti-obesity medication [4].In a randomized, placebo-controlled trial in participants with obesity, topiramate reduced body weight and blood pressure.Adverse events included paresthesia, fatigue, taste perversion, loss of appetite, and difficulty with concentration and attention [5].Mechanistically, topiramate inhibits sodium and calcium voltage-gated channels, inhibits glutamate receptors, inhibits carbonic anhydrase, and enhances gamma-aminobutyric acid (GABA) receptors [6] Inhibition of renal carbonic anhydrase is associated with diuresis, potentially helping to account for a reduction in blood pressure with topiramate [7].
The other component of PHEN/TPM is phentermine, which is a sympathomimetic agent.Phentermine as monotherapy is typically used at a higher dose (30 mg) than is found in PHEN/TPM, and is contraindicated in patients with cardiovascular disease or uncontrolled hypertension [8].Moreover, the effects of higher dose phentermine monotherapy on blood pressure have not been reported in controlled trials, potentially raising concerns about a potential increase in blood pressure with higher dose phentermine monotherapy.That said, PHEN/TPM is unique in that the doses of the phentermine component are less than when phentermine is used as monotherapy, and the combination also contains topiramate, which inhibits carbonic anhydrase enzymes and may lower blood pressure [9].Clinical trial experience suggests that treatment with PHEN/TPM may not only reduce body weight, but also reduce in-clinic blood pressure compared to placebo.PHEN/TPM may also mildly increase heart rate (1-2 bpm) [10], which is a finding also reported with other anti-obesity medications such as GLP -1 receptor agonists [1].
Prior to this study, the BP data collected to date for PHEN/TPM was obtained only via in-clinic visits, typically in the morning.However, ambulatory BP monitoring (ABPM) (i.e., performed out of the office setting via BP readings every 15-30 min intervals for 24-48 h) is considered superior to a single office BP measurement for an overall assessment of BP [9].Because ABPM may better predict target organ damage and cardiovascular disease risk, some believe ABPM is the gold standard BP measurement techniqueespecially for patients with variable BP readings or patients with suspected "white coat" or "masked" hypertension [9].This randomized, multicenter, double-blind study evaluated the effects of PHEN/TPM on blood pressure as measured by ABPM over 24 h.

Design
This was a randomized, multi-center, double-blind, placebo-and active-controlled study that evaluated the effect of PHEN/TPM (PHEN (phentermine) 15 mg/TPM (topiramate) 92 mg), phentermine 30 mg, and placebo (1:1:1 randomization ratio) on blood pressure readings via 24-h ABPM.Phentermine was administered as a hydrochloride (HCl) formulation.The PHEN/TPM was administered as a combination of immediate release phentermine HCl and topiramate extended release.Study treatments were administered orally once daily (morning) for 8 weeks.For participants in the PHEN/TPM group, dosages were titrated up to the assigned levels at weekly intervals during weeks 1-3.
Participants assigned to the PHEN/TPM group were provided blinded blister cards that contained the protocol-directed escalation of study drug doses.At each study site, participants also received protocoldirected lifestyle counseling, which included advice on a reduced calorie diet and increase in physical activity.
Twenty-four-hour ABPM recordings were performed at baseline/ randomization and again at week 8 or early termination (ET).Blood pressure and heart rate were measured every 20 min from 06:00 to 22:00 h, and every 30 min from 22:01 to 05:59 h for 24 consecutive hours, while participants continued normal routine activities.The 24-h ABPM data was read and analyzed in a blinded manner by a central reader, using validated software.Concomitant medications for management of blood pressure or other weight-related comorbidities were fixed in number, dose, and frequency for the duration of the study unless specific "rescue" criteria were met for BP (≥160/100 mmHg, or ≤ 100/ 60 mmHg and symptoms of hypotension).Safety was evaluated by analysis of adverse events, changes in laboratory parameters, changes in electrocardiogram (ECG), physical exam findings, vital signs, and requirement for rescue therapy for blood pressure and T2DM.

Participants
Inclusion criteria included adults with a BMI ≥ 27 kg/m 2 and a medical diagnosis of at least 1 weight-related comorbidity (i.e., hypertension, dyslipidemia, T2DM, prediabetes, or obstructive sleep apnea), who were ambulatory and willing and able to wear an ABPM device for 24 h.Participants were excluded if they had screening blood pressure > 140/90 mmHg, use of antihypertensive medication not stable for at least 3 months prior to randomization, a need to perform strenuous manual labor during ABPM recording, night shift work hours, or any clinically significant renal, pulmonary, hepatic, psychiatric or other condition that in the opinion of the investigator would contraindicate the administration of study drug, affect compliance, interfere with study evaluations, or confound the interpretation of study results.The full list of inclusion and exclusion criteria is provided in the supplementary appendix.Study subjects were recruited according to local practices of the participating research sites (e.g., database, advertisements).

Study oversight
This study was conducted from 25 January 2022 to 17 April 2023, at 29 sites in the United States.The study was initiated after approval of the Institutional Review Board, after proper consent from the participants, and conducted in compliance with the principles of the Declaration of Helsinki, International Conference on Harmonisation (ICH), Good Clinical Practices (GCP) guidelines, and applicable US Code of Federal Regulations.The sponsor designed and wrote the protocol, provided medical monitoring and overall study oversight.Various contract research organizations supported other aspects of the study.

Endpoints and statistical methods
The primary study endpoint of change from baseline to week 8 in mean SBP from 24 h ABPM was evaluated in the per protocol (PP) population which included randomized participants who received at least 1 dose of study drug; were compliant to study treatment; had last dose of study drug administered on the same date that final ABPM was initiated; had baseline and final ABPM with at least 23.5 h of data; had at least 75 % of 24-h ABPM readings (or, equivalently, 48 readings during the 24-h period) that were not missing; and did not have major protocol deviations that had impact on ABPM readings.The reason the per protocol analysis was utilized instead of an intent-to-treat analysis was due to regulatory requirement from the Food and Drug Administration, given this study primarily evaluated blood pressure as a safety endpoint, and not a weight reduction efficacy endpoint.
Analyses were conducted utilizing Statistical Analysis Software (SAS) Version 9.4.An analysis of covariance (ANCOVA) model was used to evaluate between-group differences (PHEN/TPM vs. placebo and PHEN/TPM vs. phentermine 30 mg) in changes from baseline in mean 24-h SBP.Factors included in the model were study treatment, sex, age, and hypertensive status.Baseline values of 24-h mean SBP were adjusted in the model as a covariate.For comparisons between PHEN/TPM and comparator groups, an upper 95 % confidence bound of +3 mmHg was the study-specified non-inferiority margin, and an upper 95 % confidence bound of 0 mmHg was the study-specified superiority margin.Secondary endpoints evaluated changes from baseline to week 8 in SBP measured in-clinic, mean 24-h ABPM DBP, and DBP measured in-clinic in the PP population using a similar ANCOVA model structure to that of the primary analysis.Exploratory endpoints evaluated changes from baseline to week 8 in hourly BP, daytime and nighttime BP, nighttime BP dipping, and heart rate.These were performed on the PP population using the observed case data and ANCOVA models in a similar manner to the primary and secondary endpoints.
This study was designed to maintain an overall study-wise type I error rate of α = 0.05.A hierarchical gatekeeping approach was to be used to control the family-wise type I error of the primary and secondary endpoints.Safety analyses were performed on the safety population (all randomized participants who received at least 1 dose of study drug).The safety variables included adverse events (AEs), changes in laboratory results, vital signs, physical examinations, and ECGs, and requirement for rescue therapy for BP and T2DM.
Participants had a mean (SD) age of 53.4 (12.29) years, 73.5 % were female, 81.6 % were White, 14.3 % were Black, and 26.4 % were Hispanic/Latino.At baseline 32 % of participants had no prior history of hypertension, 62.5 % had hypertension treated with 0-2 antihypertensive medications, and 5.1 % had hypertension treated with ≥ 3 antihypertensive medications.Baseline mean SBP/DBP was 123.9/77.6 mmHg; mean weight and BMI were 99.6 kg and 35.8 kg/m 2 , respectively.Type 2 diabetes was present in 11.3 % of participants and prediabetes was present in 13.5 % of participants.Table 1.

Primary efficacy, secondary, and exploratory outcomes
ANCOVA analysis of the primary study endpoint of mean 24-h change from baseline in SBP at week 8 demonstrated least squares (LS) mean changes of − 0.1 mmHg for placebo, +1.4 mmHg for phentermine, and − 3.3 mmHg for PHEN/TPM.The between-group difference for PHEN/TPM versus placebo was − 3.2 mmHg (95 % CI: -5.48, -0.93 mmHg; p = 0.0059), which met the margins for both noninferiority (upper 95 % confidence bound of < +3 mmHg) and superiority (upper 95 % confidence bound of < 0 mmHg).The between-group difference for PHEN/TPM versus phentermine was − 4.7 mmHg (95 % CI: − 6.96, − 2.45 mmHg; p < 0.0001) also met the margins for both noninferiority and superiority.The between-group difference for phentermine versus placebo was 1.5 mmHg (95 % CI: − 0.73, 3.73 mmHg; p = 0.1867) did not meet the margins for non-inferiority (Table 2).Comparisons between PHEN/TPM and placebo met the noninferiority threshold for all 3 secondary endpoints (mean 24-h ABPM DBP, in-clinic SBP, and in-clinic DBP), but only met the superiority threshold for in-clinic SBP.Comparisons between PHEN/TPM and phentermine also met both the superiority and non-inferiority thresholds for each of the secondary endpoints; however, these results may be considered exploratory since comparisons between PHEN/TPM and placebo did not demonstrate superiority for secondary endpoints based on DBP (Table 2).
For exploratory endpoints, comparisons between PHEN/TPM and placebo for variables based on SBP, all but mean nighttime SBP had comparison-wise CIs that met the superiority criteria.By contrast, comparisons based on DBP did not meet superiority criteria for any endpoints and did not achieve non-inferiority for nighttime DBP (Table 3).Comparison-wise treatment differences between PHEN/TPM and phentermine met non-inferiority criteria for all BP comparisons and met superiority criteria for all but mean nighttime DBP as measured by ABPM (Table 3).
Baseline is defined as the last non-missing observation obtained prior to dispensing of the first study drug.
The percentage is based on the number of participants under each treatment group in the ITT Population.For this comparison, however, reduced nighttime dipping appears to be the result of greater increases in nighttime SBP than daytime SBP with phentermine.There were no significant differences between treatment groups for nighttime dipping of DBP (Table 3).Mean hourly changes in SBP and DBP from baseline to week 8/ET are summarized in Fig. 3.Both PHEN/TPM and phentermine 30 mg resulted in increases in mean heart rate as measured by ABPM by 2.6 and 6.2 bpm, respectively; whereas, placebo resulted in a 1.0 bpm reduction in heart rate.Reductions in body weight were comparable in the PHEN/TPM and phentermine groups (3.9 % and 3.8 %, respectively) vs. 0.0 % in the placebo group (Table 3).The observed body weight changes regarding all of the interventions should consider that this study was not intended to evaluate weight reduction in that it lasted only 8 weeks, while most previously published studies of PHEN/TPM primarily evaluated body weight changes 28 weeks or longer [11].

Safety
The incidence of participants reporting at least 1 treatment-emergent adverse event (TEAE) was 17.9 %, 40.3 %, and 41.1 % in the placebo, phentermine, and PHEN/TPM groups, respectively.TEAEs considered by investigator to be drug-related were reported by 9 (4.9 %), 57 (29.8 %), and 55 (28.9 %) participants in the placebo, phentermine, and PHEN/TPM groups, respectively (Table 4).The most common (>2 % in any treatment group) TEAEs included dry mouth, constipation, nausea, dizziness, paresthesia, dysgeusia, headache, COVID-19, urinary tract infection, insomnia, and anxiety.Most of these events were mild or moderate across treatment groups.Severe TEAEs were reported in 1 participant (0.5 %) in the placebo group (white blood cell count decreased), 3 participants (1.6 %) in the phentermine group (1 participant with insomnia; 1 participant with nausea, dizziness, headache, and hypertension; and 1 participant with angina pectoris), and 2 participants (1.1 %) in the PHEN/TPM group (1 participant with dry mouth and 1 participant with paresthesia).All severe TEAEs were considered as study drug related except for white blood cell count decrease.The events of nausea, dizziness, headache, and hypertension were still ongoing at the time the participant completed the study.The other events resolved.The number (%) of participants who withdrew from the study because of TEAEs was 4 (2.2 %) in the placebo group, 11 (5.8 %) in the phentermine group, and 18 (9.5 %) in the PHEN/TPM group.One SAE (angina pectoris) was reported in a participant in the phentermine group.This SAE was considered by the investigator to be not related to study drug and the participant completed the study.No participants died during the study.There were few clinically important findings in laboratory changes, vital signs, physical examination findings, or ECG results.A higher percentage of participants in the PHEN/TPM group (33.5 %) had shifts in serum carbon dioxide (bicarbonate) from normal at baseline to low at week 8/ET compared to the phentermine group (8.4 %) and placebo group (5.8 %).The percentage of participants who had shifts in serum creatinine from normal at baseline to high at week 8/ET were 7.6 % the PHEN/TPM group, 4.5 % in the phentermine group, and 0.6 % in the placebo group.Observed shifts in carbon dioxide and creatinine are consistent with previous data on PHEN/TPM.

Discussion
This was a multicenter, randomized, double-blind ABPM study that evaluated the effects of PHEN/TPM on SBP compared to either placebo or phentermine.The per protocol primary analysis demonstrated a LS mean change from baseline to week 8 in SBP of − 0.1 mmHg for the placebo group, +1.4 mmHg for the phentermine 30 mg group, and − 3.3 mmHg for the PHEN/TPM group.The between-group difference for PHEN/TPM versus placebo was − 3.2 mmHg (95 % CI: − 5.48, − 0.93 mmHg; p = 0.0059), which met study-specified margins for both noninferiority and superiority.The between-group difference for PHEN/ TPM versus phentermine 30 mg was − 4.7 mmHg (95 % CI: − 6.96, − 2.45 mmHg; p < 0.0001), which also met the margins for both noninferiority and superiority.The between-group difference for phentermine 30 mg versus placebo was 1.5 mmHg (95 % CI: − 0.73, 3.73 mmHg; p = 0.1867), which did not meet the margins for non-inferiority.
For secondary endpoints, while the comparison between PHEN/TPM and placebo for in-clinic SBP yielded results that were similar to the SBP response by 24-h ABPM, the results for mean 24-h ABPM DBP and inclinic DBP met the threshold for non-inferiority but not the threshold for superiority.Accordingly, while comparisons for other endpoints based on ABPM assessments (daytime, nighttime, hourly, etc.) did show DBP = diastolic blood pressure; LS = least squares; SBP = systolic blood pressure SD = standard deviation; SE = standard error.
H.E. Bays et al. some differences between treatment groups, these comparisons beyond the primary and secondary endpoints should be viewed as exploratory.
The most commonly occurring TEAEs were in the system organ class of gastrointestinal disorders, nervous system disorders, infections and infestations, and psychiatric disorders, and were mild or moderate in severity.Overall, 5.8 % of participants had TEAEs causing discontinuation from study treatment (2.2 %, 5.8 %, and 9.5 % of participants in the placebo, phentermine 30 mg, and PHEN/TPM groups, respectively); the majority were considered related to study drug.The observed TEAEs were consistent with the known effects of PHEN/TPM and phentermine 30 mg, and do not suggest the presence of any new risks.Observed shifts in clinical chemistry parameters, specifically for carbon dioxide (normal to low) and creatinine (normal to high), were consistent with previous data on PHEN/TPM.Similarly, the increase in heart rate with PHEN/ TPM as measured by 24-h ABPM were less than those observed with phentermine 30 mg (2.6 vs. 6.2 bpm) and consistent with previous assessments of in-clinic heart rate.
PHEN/TPM was associated with a significantly greater reduction of mean 24-h SBP than both placebo and phentermine 30 mg.A similar effect was observed for in-clinic SBP.For changes in DBP, PHEN/TPM was non-inferior to placebo, both for mean 24-h DBP by ABPM and inclinic DBP.For this study participants were stratified according to hypertensive status (no hypertension, hypertension treated with 0-2 medications, and hypertension treated with 3 or more medications).Analyses of mean SBP by 24-hr ABPM were performed across these strata, and demonstrated consistent reduction of SBP across hypertensive strata, with no diminution of the blood pressure-reducing effect as the level of background medications increased.Taken together, these observations support PHEN/TPM as having beneficial effects on SBP compared to placebo as measured by ABPM in this population, as well as beneficial effects compared to phentermine 30 mg monotherapy.
Finally, while not the primary endpoint, this study evaluated higher doses of phentermine as a comparator.As previously noted, challenges exist in locating published reports of the blood pressure and heart rate effects of phentermine within the context of a prospective, blinded, randomized, controlled trial.In this study, compared to placebo at 8 weeks, phentermine 30 mg/day monotherapy increased systolic blood pressure by 1.5 mmHg (95 % CI: − 0.73, 3.73 mmHg; p = 0.1867).Also at 8 weeks, participants in the phentermine 30 mg group had an increase in heart rate of 6.2 bpm compared to those in the placebo group who had a decrease in heart rate by 1 bpm.

Strengths and limitations
A strength of this study is that it provides the first assessment of the effects of PHEN/TPM on BP as measured by 24-h ABPM.While previous trials evaluating PHEN/TPM have reported statistically significant SBP reductions vs. placebo of 3-8 mmHg, these results all describe BP measured in-clinic [12][13][14][15].ABPM data on BP collected in this study provide a more comprehensive assessment of blood pressure control throughout the day and night, remove artifacts associated with white coat hypertension, and correlate more strongly with CV risk than spot measurements obtained in-clinic [16].Moreover, control groups for this study include both placebo and phentermine 30 mg, with phentermine 30 mg being a widely used short term treatment for obesity despite little information regarding blinded, controlled clinical trial effects on blood pressure and heart rate [8].Another strength is that the participant population for this study is representative of patients using PHEN/TPM commercially.Given the requirement for overweight and at least 1 weight-related complication, such patients would be expected to be at increased risk for cardiovascular disease.Finally, another strength of this analysis is the randomized, double-blinded, prospective study design.Prior reports of higher dose phentermine have predominantly been largely limited to retrospective health record reviews.
Limitations of this study include that although participants with controlled hypertension were included, those with baseline blood pressure greater than 140/90 were excluded.While it is encouraging that BP reductions in this study were numerically greater in participants with hypertension than those without, inclusion of more participants with elevated BP at baseline would have provided additional valuable information.
Also, a greater than anticipated number of participants were excluded from the per protocol population used for the primary analysis.This was due to participants' reluctance or inability to properly complete end of study ABPM assessments.Had fewer participants been excluded, the power to evaluate secondary and exploratory endpoints may have been improved.Finally, this study did not evaluate longerterm effects of the comparator groups on blood pressure and heart rate, which may have changed with potential further weight reduction [17].That said, an important objective of this study was to assess any potential for a pressor effect of study medications where the use of other concomitant antihypertensive medications remained constant, so that results were not confounded by additions or subtractions of these medications.While the study duration was limited to 8 weeks, the shorter study period better allowed an assessment of blood pressure while concomitant antihypertensive medications remained stable throughout the study period.

Conclusion
Compared to baseline, treatment with PHEN/TPM reduced mean SBP from baseline to week 8 as measured by 24-h ABPM compared to both placebo and to phentermine 30 mg monotherapy.Clinical takeaway messages: • One of the more common adverse consequences of obesity is high blood pressure.• High blood pressure is a cardiovascular disease risk factor.
• PHEN/TPM reduces the cardiovascular disease risk factor of SBP in patients with overweight or obesity.

CRediT author statement
The concept and methodology of this submission was by CAP, LTN, and STV.
Statistical analysis and data curation was performed by CAP and LTN.
First draft writing was by LTN, CAP, and HEB.HEB served as a Principal Investigator for this study.All authors reviewed, edited subsequent versions, and approved the final submission.

Source of funding
This study was funded by Vivus LLC.

Ethics review
The study was initiated after approval of the Institutional Review Board, after proper consent from the participants, and conducted in compliance with the principles of the Declaration of Helsinki, International Conference on Harmonisation (ICH), Good Clinical Practices (GCP) guidelines, and applicable US Code of Federal Regulations.The peer review process took place via submission to the Executive Editor of Obesity Pillars, independent of any involvement of authors of this submission.ClinicalTrials.gov:NCT05215418.

Fig. 1 .
Fig. 1.Disposition of Participants for Protocol OB-409, All Screened Participant Population The percentages are based on the number of randomized participants under each treatment group.
H.E.Bays et al.   supports generally similar directionality of effects of PHEN/TPM irrespective of sex, age, race, and pre-study hypertension status.

Fig. 2 .
Fig. 2. Forest Plots of ANCOVA Analysis of Change from Baseline to Week 8/ET in Mean SBP as measured by 24-h ABPM -PHEN/TPM versus Placebo and PHEN/ TPM versus Phentermine -Subgroup Analysis Abbreviations: ABPM = ambulatory blood pressure monitoring; ANCOVA = analysis of covariance; ET = early termination; HTN = hypertension; Meds = medications; SBP = systolic blood pressure.

Fig. 3 .
Fig. 3. Mean (SD) Change from Baseline to Week 8 in Hourly Average SBP and DBP DBP = diastolic blood pressure; SBP = systolic blood pressure.

Table 1
Summary of demographics and baseline characteristics-ITT population.

Table 2
Least-squares (LS) mean change from baseline treatment difference from placebo and phentermine in mean blood pressure for primary and secondary endpoints.

Table 3
Least-squares (LS) mean change from baseline treatment difference from placebo and phentermine in exploratory endpoints.

Table 4
Overall summary of treatment-emergent adverse events and summary TEAE with incidence of ≥ 2 % of participants in any treatment group, safety population.Medical Dictionary for Regulatory Activities; TEAE = treatment-emergent adverse event.The percentage is based on the number of participants under each treatment group in the Safety Population.Multiple events are counted once per participant for each summary level.Adverse events are coded using MedDRA version 24.1.
H.E.Bays et al.