I am basically looking at the effect of an intervention in the risk of developing airway disease(AO) . With the MatchIt package in R, I ran the matching procedure (full matching) using estimated propensity scores calculated by logit modeling as matching estimator and obtained the matched data set.

Now, I want to run the logistic regression in the matched data set (df2). I am not sure if using a normal regression modeling (glm) is adequate or is it necessary to account for the weights using some other packages like Survey?

```
## Matching and creating matched data-frames.Matching co-variate: SSE, dataframe: df
library(MatchIt)
library(Survey)
df1 <- matchit(treat~ SSE, method= full, data=df)
df2 <- match.data(df1) ## Matched data set: df2
## Defining the design with weights
design.ps <- svydesign(ids=~1,weights=~weights,data=df2)
## Running logistic regression model
## a) Logistic regression after accounting for weights
COPD <- I(GOLD == 1) ~ Fuel + x1 + x2
AO <- svyglm(COPD, design=design.ps1, family=quasibinomial ())
summary(AO)
## or
## b) Logistic regression without consideration for weights
COPD <- I(GOLD == 1) ~ Fuel + x1 + x2
AO <- glm(COPD, family = binomial, data = df2)
summary(AO)
```

I tried both and they produce different results. Did not find anything useful in Google which rather led me to something called conditional logistic regression in a matched data set. Never used this before.

Any insights on the correct way of running logistic regression in matched data set would be highly appreciated.

`weights`

argument is the`glm`

function, this is enough. Conditional logistic regression is used when you have a matched case-control design, which isn't exactly how propensity scores work. The examples provided in the documentation of Matchit should be enough to guide you, although they use the`Zelig`

package instead of just straight`base`

. – nograpes Feb 3 at 13:56