Ticker Short Interest

RDNT Short Interest Intelligence

RadNet Inc positioning pressure, squeeze risk, bearish conviction, crowding, days to cover, and price-positioning divergence.

Latest settlement 30 Jun 2026 Squeeze Pressure

Squeeze Pressure

Shorts Under Pressure

RDNT is classified as Squeeze Pressure. Latest reported short interest is 10.0M shares; short interest changed +13.4%, price moved +7.1% since the previous report, short interest is in the 100th percentile, and days to cover is in the 14th percentile. Trend context is improving.

Setup Score71/100Squeeze Pressure
Reported Short Interest10.0M+13.4% vs prior report
Days To Cover7.8914.29 percentile
Price Reaction+7.1%since previous short report
Squeeze Pressure71crowding, trend, and pressure
Bearish Conviction43shorts adding into weakness

Reported Short Interest

2026-03-31 to 2026-06-30

Days To Cover

liquidity pressure

Short Interest Change

report-to-report

Price Context

2026-03-20 to 2026-06-26

Squeeze Radar

71

Elevated short interest becomes most interesting when price strength forces shorts to defend or cover.

Bearish Conviction

43

Rising short interest alongside weak trend can mean the bearish trade is being reinforced, not trapped.

Crowding

61

Latest short interest is 10.0M shares and days to cover is 7.89.

Divergence

53

Short interest rose while price rose. Bearish positioning is adding into strength, which can create squeeze pressure if the chart keeps improving.

Report History

RDNT Short Interest Ledger

Most recent first
SettlementShort interestPreviousChangeDays coverAverage volume
30 Jun 2026 10004424 8819394 13.4% 7.89 1267759
15 Jun 2026 8819394 9170015 -3.8% 11.47 768654
29 May 2026 9170015 9053285 1.3% 19.21 477388
15 May 2026 9053285 9131968 -0.9% 8.04 1126070
30 Apr 2026 9131968 8808033 3.7% 10.81 844975
15 Apr 2026 8808033 8658853 1.7% 13.30 662491
31 Mar 2026 8658853 8310494 4.2% 10.58 818522

Short interest is delayed, reported on a periodic schedule, and may be revised. The dashboard is research context only and does not prove real-time short activity.