Mission First Tactical Smith & Wesson M&P Shield EZ Ambidextrous Holster - Mission First Tactical's AIWB Holster is capable of use both Inside the Waistband/Appendix (IWB), Outside the Waistband (OWB) in both right & left-hand positioning. Each holster is handmade to precise tolerances for each model of handgun using the most advanced techniques and materials for an all-day comfortable carry. Adjustable retention and the famous “audible click” makes each draw and re-holstering smooth and secure ideal for Concealed Carry. Holsters include a 1 ½in Belt Clip, a Comfort Carry Paddle can be purchased separately for OWB carry. Appendix, Inside the Waistband IWB, Outside the Waistband OWB Ambidextrous – Wearable Right or Left-hand Adjustable Cant 0 - 15 degrees Includes 1 ½” Belt Clip Ideal for Concealed Carry Audible Passive Retention Laser CAD Design for Perfect Fit, Smoother Draw, Less Wear Sculpted for RMR (reflex red dot sights) Tall Sight Channel – Open Muzzle Abbreviated Sweat Guard Superior .08 Boltaron material
Mission First Tactical Smith & Wesson M&P Shield EZ Ambidextrous Holster - Mission First Tactical's AIWB Holster is capable of use both Inside the Waistband/Appendix (IWB), Outside the Waistband (OWB) in both right & left-hand positioning. Each holster is handmade to precise tolerances for each model of handgun using the most advanced techniques and materials for an all-day comfortable carry. Adjustable retention and the famous “audible click” makes each draw and re-holstering smooth and secure ideal for Concealed Carry. Holsters include a 1 ½in Belt Clip, a Comfort Carry Paddle can be purchased separately for OWB carry. Appendix, Inside the Waistband IWB, Outside the Waistband OWB Ambidextrous – Wearable Right or Left-hand Adjustable Cant 0 - 15 degrees Includes 1 ½” Belt Clip Ideal for Concealed Carry Audible Passive Retention Laser CAD Design for Perfect Fit, Smoother Draw, Less Wear Sculpted for RMR (reflex red dot sights) Tall Sight Channel – Open Muzzle Abbreviated Sweat Guard Superior .08 Boltaron material