'Dr Pimple Popper' Preview: Can Dr Lee remove Robert's recurring keloids forever?
TLC's 'Dr Pimple Popper' is not a show for the faint-hearted. The nerve-wracking medical reality series features resident doctor and celebrity Dr Sandra Lee, who examines the various skin problems that afflict her patients and offers the perfect solution for each of them.
'Dr Pimple Popper' Season 7 is gaining in popularity with each passing episode and is already a hot topic on social media. Dr Sandra Lee has been gifting new life to her patients by removing their embarrassing skin problems. In previous episodes of the show, she has tackled some of the worst skin conditions and removed cysts, unsightly lumps, and protrusions. In episode 7 of the ongoing season, Dr Lee treated Roger, who had a considerable growth on his shoulder that he called his second head. Another patient was Jenna, who was a bubbly teenager with a giant bubble behind her ear. Dr Lee successfully treated all these patients and gave them a new, happy life. In the upcoming episode, she will be seen tackling three new patients with different skin conditions. If you are curious to know more about the patients and their conditions, read on.
RELATED ARTICLES
'Dr Pimple Popper' Season 7: Karen gets diagnosis for scaly feet after 23 painful years
'Dr Pimple Popper': Can Dr Lee help Bradley get rid off 'raw meat mass' on his leg?
In the upcoming episode 8 of 'Dr Pimple Popper' titled 'Once, Twice, Three Times a Keloid,' Robert has a very small keloid on his ear and another large, snakelike one on the back of his head that has been surgically removed thrice, only to return every single time. After trying everything possible, Roger is coming to meet Dr Sandra Lee, hoping that she will be able to remove them permanently. Although Dr Lee has treated many such patients in the past, it remains to be seen whether she can remove these keloids permanently.
Don't forget to catch the show to know how Dr Lee treats these keloids. 'Dr Pimple Popper' airs every Wednesday on TLC at 8 pm ET.