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Association of Metabolic Surgery With Major Adverse Cardiovascular Outcomes in Patients With Type 2 Diabetes and Obesity

Author/s: 
Aminian, A, Zajicheck, A, Arterburn, DE, Wolski, KE, Brethauer, SA, Schauer, PR, Kattan, MW, Nissen, SE

IMPORTANCE:

Although metabolic surgery (defined as procedures that influence metabolism by inducing weight loss and altering gastrointestinal physiology) significantly improves cardiometabolic risk factors, the effect on cardiovascular outcomes has been less well characterized.

OBJECTIVE:

To investigate the relationship between metabolic surgery and incident major adverse cardiovascular events (MACE) in patients with type 2 diabetes and obesity.

DESIGN, SETTING, AND PARTICIPANTS:

Of 287 438 adult patients with diabetes in the Cleveland Clinic Health System in the United States between 1998 and 2017, 2287 patients underwent metabolic surgery. In this retrospective cohort study, these patients were matched 1:5 to nonsurgical patients with diabetes and obesity (body mass index [BMI] ≥30), resulting in 11 435 control patients, with follow-up through December 2018.

EXPOSURES:

Metabolic gastrointestinal surgical procedures vs usual care for type 2 diabetes and obesity.

MAIN OUTCOMES AND MEASURES:

The primary outcome was the incidence of extended MACE (composite of 6 outcomes), defined as first occurrence of all-cause mortality, coronary artery events, cerebrovascular events, heart failure, nephropathy, and atrial fibrillation. Secondary end points included 3-component MACE (myocardial infarction, ischemic stroke, and mortality) and the 6 individual components of the primary end point.

RESULTS:

Among the 13 722 study participants, the distribution of baseline covariates was balanced between the surgical group and the nonsurgical group, including female sex (65.5% vs 64.2%), median age (52.5 vs 54.8 years), BMI (45.1 vs 42.6), and glycated hemoglobin level (7.1% vs 7.1%). The overall median follow-up duration was 3.9 years (interquartile range, 1.9-6.1 years). At the end of the study period, 385 patients in the surgical group and 3243 patients in the nonsurgical group experienced a primary end point (cumulative incidence at 8-years, 30.8% [95% CI, 27.6%-34.0%] in the surgical group and 47.7% [95% CI, 46.1%-49.2%] in the nonsurgical group [P < .001]; absolute 8-year risk difference [ARD], 16.9% [95% CI, 13.1%-20.4%]; adjusted hazard ratio [HR], 0.61 [95% CI, 0.55-0.69]). All 7 prespecified secondary outcomes showed statistically significant differences in favor of metabolic surgery, including mortality. All-cause mortality occurred in 112 patients in the metabolic surgery group and 1111 patients in the nonsurgical group (cumulative incidence at 8 years, 10.0% [95% CI, 7.8%-12.2%] and 17.8% [95% CI, 16.6%-19.0%]; ARD, 7.8% [95% CI, 5.1%-10.2%]; adjusted HR, 0.59 [95% CI, 0.48-0.72]).

CONCLUSIONS AND RELEVANCE:

Among patients with type 2 diabetes and obesity, metabolic surgery, compared with nonsurgical management, was associated with a significantly lower risk of incident MACE. The findings from this observational study must be confirmed in randomized clinical trials.

TRIAL REGISTRATION:

ClinicalTrials.gov Identifier: NCT03955952.

Keywords 
diabetes, type 2 weight loss obesity bariatric surgery metabolic surgery

Effect of a Long Bout Versus Short Bouts of Walking on Weight Loss During a Weight‐Loss Diet: A Randomized Trial

Author/s: 
Madjd, Amenah, Taylor, Moira A., Delavari, Alireza,, Reza, Macdonald, Ian A., Farshchi, Hamid R.

OBJECTIVE:

This study aimed to evaluate the effect of different daily physical activity (PA) frequencies, while maintaining the same daily volume of PA, on weight loss, carbohydrate metabolism, and lipid metabolism in women with overweight or obesity throughout a 24-week intervention.

METHODS:

During their weight-loss plan, 65 women (BMI = 27-35 kg/m2 ; age = 18-40 years) who had a sedentary lifestyle were randomly allocated to the following groups: diet plus a long bout of moderate physical activity (LBP) (one 50-minute bout of moderate-intensity PA) 6 d/wk or diet plus short bouts of moderate physical activity (SBP) (two 25-minute bouts of moderate-intensity PA) 6 d/wk. Anthropometric and blood measurements were taken at baseline and at 24 weeks.

RESULTS:

Compared with the LBP group, the SBP group had a greater decrease in weight (SBP: -8.08 ± 2.20 kg; LBP: -6.39 ± 2.28 kg; P = 0.019), BMI (SBP: -3.11 ± 0.87 kg/m2 ; LBP: -2.47 ± 0.86 kg/m2 ; P = 0.027), and waist circumference (SBP: -8.78 ± 2.62 cm; LBP: -5.76 ± 2.03 cm; P = 0.026). No significant differences were seen in carbohydrate and lipid metabolism characteristics after 24 weeks.

CONCLUSIONS:

PA undertaken in two shorter bouts per day could be more effective for weight loss than PA undertaken in a daily long bout in adult women in a 24-week weight-loss program.

Keywords 
obesity diet weight loss exercise

Screening for Pancreatic Cancer: A Systematic Evidence Review for the U.S. Preventive Services Task Force

Author/s: 
Henrikson, Nora B., Bowles, Erin J. Aiello, Blasi, Paula R., Morrison, Caitlin C., Nguyen, Matt, Pillarisetty, Venu G., Lin, Jennifer S.

Objective: We conducted a systematic evidence review to support the U.S. Preventive Services Task Force (USPSTF) in updating their recommendation on screening for pancreatic cancer. Our review addresses the following Key Questions (KQs):
1. Does screening for pancreatic adenocarcinoma improve cancer morbidity or mortality or all-cause mortality; and 1a) Does screening effectiveness vary by clinically relevant subpopulations (e.g., by age group, family history of pancreatic cancer, personal history of new-onset diabetes, or other risk factors)?
2. What is the diagnostic accuracy of screening tests for pancreatic adenocarcinoma?
3. What are the harms of screening for pancreatic adenocarcinoma?
4. Does treatment of screen-detected or asymptomatic pancreatic adenocarcinoma improve cancer mortality, all-cause mortality, or quality of life?
5. What are the harms of treatment of screen-detected pancreatic adenocarcinoma?
Data Sources: We searched Cochrane Central Register of Controlled Trials, Medline, and PubMed, and reference lists of relevant systematic reviews. We searched for articles published from 2002 to October 3, 2017, and updated our search on April 27, 2018. We also searched ClinicalTrials.gov and WHO International Clinical Trials Registry Platform (ICTRP), for relevant ongoing studies.
Study Selection: We reviewed 19,596 abstracts and 824 articles against specified inclusion criteria. Eligible studies included those written in English and conducted in adults age 18 years or older with or without risk factors for pancreatic cancer. For key questions on screening, we included imaging-based screening protocols. For key questions on treatment, we included studies of adults with screen-detected or asymptomatic pancreatic adenocarcinoma.

Data Analysis: We conducted dual, independent critical appraisal of all provisionally included studies and abstracted study details and results from fair- and good-quality studies. Because of the limited number of studies and the population heterogeneity, we provided a narrative synthesis of results and used summary tables to allow for comparisons across studies. After confirming that the yield of different imaging modalities was similar across studies, we calculated a pooled diagnostic yield across studies and produced forest plots to illustrate the range of effects seen across studies. For harms of screening (KQ3) and harms of treatment (KQ5), we stratified results by procedural and psychosocial harms.
Results: We included 13 unique prospective cohort screening studies (24 articles) reporting results for 1,317 people. Studies were conducted in the U.S., Canada, and Europe, and all screening populations except one small comparison group were exclusively in persons at elevated familial or genetic risk for pancreatic cancer. No studies reported on the effect of screening for pancreatic adenocarcinoma on cancer morbidity, mortality, or all-cause mortality (KQ1); and no studies reported on the effectiveness of treatment for screen-detected pancreatic adenocarcinoma (KQ4).

Thirteen fair quality studies reported on the diagnostic accuracy of screening tests for pancreatic adenocarcinoma (KQ2). Across these studies, 18 cases of pancreatic adenocarcinoma were detected.. Twelve of 18 cases (66.7%) were detected at stage I or II or classified as “resectable.” Pooled yield for all screening tests to detect pancreatic adenocarcinoma on initial screening in high-risk populations was 7.8 per 1000 (95% confidence interval, 3.6 to 14.7); and for total yield including both initial and repeat screening, it was 15.6 per 1000 (95% CI, 9.3 to 24.5).

Harms of screening for pancreatic adenocarcinoma
Procedural harms of screening were evaluated in eight screening studies (n=675); psychological harms were assessed in two studies (n=277). Details on the assessment of harms were variably reported. In two studies (n=277) in which 150 individuals received ERCP as a diagnostic followup test, 15 people (10%) reported acute pancreatitis, nine of which required hospitalization. No evidence of increased worry, distress, depression, or anxiety after screening was reported, compared to before screening.

Harms of treatment of screen-detected pancreatic adenocarcinoma
Of the 57 people who underwent surgery across all studies, six studies (n=32 people receiving surgery) assessed harms of treatment of screen-detected pancreatic adenocarcinoma (KQ5), with 7 harms detected in two studies. Methods of assessing harms were variably reported. Harms included one person experiencing stricture to the hepaticojejunal anastomosis at 11 months after surgery, one with unspecified post-operative complications, 2 with post-operative fistula and 3 cases of diabetes. In the two studies that systematically assessed harms in all surgical patients (n=12 people receiving surgery), no harms were reported.

Limitations: No randomized trials of screening were identified. The body of evidence includes observational screening studies with limited sample sizes and focused on populations with known familial risk, many with a substantial proportion of people with known genetic mutations. No studies included a clinical followup or unscreened comparison group, limiting assessment of diagnostic accuracy. Of those studies that reported harms of screening or treatment, limitations included inadequate description of the methods of assessing harms, including whether all participants were systematically assessed.

Conclusions: Imaging-based screening in groups at high familial risk can detect pancreatic adenocarcinoma with limited evidence of minimal harms. However, the clinical impact of screening is not well documented. There is insufficient evidence to assess benefits or harms of surgical intervention for screen-detected pancreatic adenocarcinoma.

Keywords 
pancreatic cancer obesity risk factors patient care
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