key: cord-0916653-p9q9pl5o
authors: Botton, Jérémie; Semenzato, Laura; Jabagi, Marie-Joëlle; Baricault, Bérangère; Weill, Alain; Dray-Spira, Rosemary; Zureik, Mahmoud
title: Effectiveness of Ad26.COV2.S Vaccine vs BNT162b2 Vaccine for COVID-19 Hospitalizations
date: 2022-03-02
journal: JAMA Netw Open
DOI: 10.1001/jamanetworkopen.2022.0868
sha: 64e4866b42d3f5d167a76d76d9aa590d89ed1830
doc_id: 916653
cord_uid: p9q9pl5o

This comparative effectiveness research study examines the effectiveness of full vaccination with Ad26.COV2.S vs BNT162b2 against COVID-19–related hospitalization.

This study was based on the National Health Data System (SNDS) that covers the entire French population, i.e. 67 million inhabitants, and which has been extensively used in France to conduct pharmaco-epidemiology studies including studies on the COVID-19 pandemic (References below). Patients receiving at least one health care reimbursement after 1 January 2018 were identified from the SNDS and were considered to be included in this study. Twins and foreign residents were excluded due to identification difficulties, and we also excluded people with missing data for age and sex or who died before 24 April 2021.

We considered the patient's age, gender and region of residence as matching variables. Age was defined as a categorical variable by 5-year-age groups. We used the social deprivation index as a measure of socioeconomic status. This indicator is based on the median household income, the percentage of high school graduates in the population over the age of 15, the percentage of manual workers in the labour force and the unemployment rate for the person's town of residence.

The mapping of diseases and expenditure is a tool developed from the DCIR and PMSI databases, allowing identification of diseases by means of medical algorithms (47 diseases were studied in the present study) based on the reasons for hospitalization, ALD diagnoses and/or reimbursement of specific treatments for certain diseases, over a period of the previous 4 years. The detailed definition of these disease identification algorithms is publicly available in French (https://www.ameli.fr/fileadmin/user_upload/documents/Methodologie_medicale_cartographie.pdf).

Mapping algorithms allowed the identification of patients presenting a number of different diseases in 2020 and were completed by the identification of obese patients, smokers and people with alcohol use disorder.

The following chronic diseases were considered: cardiometabolic diseases, such as obesity, diabetes, hypertension, dyslipidaemia and/or lipid-lowering drug treatment or cardiovascular diseases (stroke and stroke sequelae, heart failure, coronary heart disease, cardiac arrhythmias or conduction disorders, valvular heart disease, peripheral artery disease), chronic respiratory diseases (excluding cystic fibrosis), 

We constructed a cohort of 55 years and older subjects vaccinated with the Janssen vaccine between 24

April 2021 and 31 July 2021 (i.e. 99 days). Each subject was matched to a subject vaccinated with the Pfizer / BioNTech vaccine of the same age, sex, administrative region and date of injection (first dose for Janssen and second dose for Pfizer / BioNTech vaccine). Pairs with at least one of the participant with prior COVID-19 hospitalization were excluded (5%).The pairs were followed from this index date.

The endpoint of interest was hospitalization for COVID-19 during follow-up. Each subject was followed from the index date until hospitalization for COVID-19, death, or the end of follow-up on 31 August 2021, whichever occurred first. Different time windows were considered: from injection until the end of follow-up, from day 14 after injection until the end of follow-up and from day 28 after injection until the end of followup.

Characteristics of the two cohorts were compared (see Table 1 in the main text). The COVID-19 hospitalization rate in vaccinated subjects with Janssen vaccine was compared to those among vaccinated subjects with the Pfizer / BioNTech vaccine by Cox models taking into account individual comorbidities by using of propensity score method, by inverse probability of treatment weighting. Adjusting

Cox-model for all the covariables gave similar results.

The own-effectiveness of Janssen vaccine was calculated by first calculating the product of Hazard Ratio (HR) of Janssen (J) compared to Pfizer and the HR of Pfizer (P) compared to unvaccinated people (0) obtained from our previous study:

HR_{j/0} = IR_j / IR_0 = IR_j / IR_p * IR_p / IR_0 = HR_{j/p} * HR_{p/0}

To estimate confidence intervals of this HR j/0, we first calculated the variance of log(HR j/0) as the sum of the variances of the coefficients beta_j/p and beta_p/0, the logarithms of corresponding HR. Then, confidence limits were obtained as the exponentials of beta +/-1.96 sqrt(var(log(HR_{j/0})).

Risk reduction was finally defined as the percent reduction in risk, calculated as 1 minus the HR_{j/0}.

Association of Hysteroscopic vs Laparoscopic Sterilization With Procedural, Gynecological, and Medical Outcomes

Low dose oestrogen combined oral contraception and risk of pulmonary embolism, stroke, and myocardial infarction in five million French women: cohort study

Comparison of the short-term risk of bleeding and arterial thromboembolic events in nonvalvular atrial fibrillation patients newly treated with dabigatran or rivaroxaban versus vitamin K antagonists: a French nationwide propensity-matched cohort study

Effectiveness and Safety of Reference Infliximab and Biosimilar in Crohn Disease: A French Equivalence Study

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Prevalences and healthcare expenditures related to 58 health conditions from 2012 to 2017 in France: diseases and healthcare expenditure mapping, a national population-based study. medRxiv

Chronic diseases, health conditions and risk of COVID-19-related hospitalization and in-hospital mortality during the first wave of the epidemic in France: a cohort study of 66 million people. Lancet Reg Health Eur