Asics Men Novablast 4 Platinum Running Shoe
The NOVABLAST® 4 PLATINUM running shoe features a midsole and outsole geometry that helps produce an energized ride.
A tongue wing construction in the upper helps improve the fit while reducing tongue movement. It's complemented with an engineered woven upper that offers more stretch, ventilation, and durability.
FF BLAST™ PLUS ECO cushioning is made with approximately 24% bio-based content. This material helps create softer landings and a more energized toe-off during your training.
Tech & Material :
Engineered woven upper
Offers advanced stretch, ventilation, and durability
Tongue wing construction
Added stretch helps improve the fit while reducing tongue movement
Gusseted tongue wing fit system
Improves the midfoot fit and reduces tongue sliding
FF BLAST™ PLUS ECO cushioning
Made with approximately 20% bio-based content and helps provide cloud-like comfort
Trampoline-inspired outsole design
Helps provide a more responsive bounce back
AHAR® outsole
Improves durability
At least 75% of the shoe’s main upper material is made with recycled materials to reduce waste and carbon emissions
The sockliner is produced with the solution dyeing process that reduces water usage by approximately 33% and carbon emissions by approximately 45% compared to the conventional dyeing technology
Reflective details
Designed to help improve visibility
Designed For Neutral/Underpronation
Neutral
-
Foot Type
Normal size arches -
Push Off
There is even distribution from the front of the foot. -
Considered Injuries
Less likely due to effective shock absorption, but neutral runners are not immune to injury. -
How your foot contacts the ground
The foot lands on outside of the heel, then rolls inward (pronates) to absorb shock and support body weight.
Underpronation
-
Foot Type
High arches -
Push Off
The pressure is on smaller toes on outside of foot. -
Considered Injuries
Plantar fasciitis, shin splints, ankle strain. -
How your foot contacts the ground
The outer side of the heel hits the ground at an increased angle with little or no normal pronation, causing a large transmission of shock through the lower leg.