Boutiq Diamond Infused Mini Prerolls 5pack – Ice Mintz

$ 27.00

Description Boutiq Diamond Infused Mini Prerolls 5pack – Ice Mintz Boutiq Diamond Infused Mini Prerolls 5pack Ice Mintz features premium Ice Mintz flower infused with diamond concentrate in a convenient pre-rolled mini format. Each pack contains 5 mini prerolls, totaling 2.5g (0.0888oz each), sealed in a cup to maintain freshness, potency, and flavor. These diamond-infused mini prerolls deliver a smooth, minty smoke with an elevated hybrid high. Embrace the refreshing flavor of Boutiq Diamond Infused Mini Prerolls 5-pack Ice Mintz today. Sip the minty bliss and let the quality of each preroll envelop you. Hold onto the knowledge that you’re investing in not just any product but a premium experience. Don’t wait any longer, grab your pack today and experience the ultimate in cannabis enjoyment. The Boutiq carts price reflects a commitment to excellence and value that you cannot miss. Elevate your sessions and feel the difference with Boutiq! The Strain and Expected Effects Ice Mintz Genetics: Hybrid (Acai Mintz × Unknown) THC: ~22–27% Flavor: Refreshing mint, sweet berry, subtle earthy undertones Effects: Uplifting and relaxing, providing a euphoric head high alongside gentle body calm. Ice Mintz is ideal for daytime enjoyment, social sessions, or creative pursuits. What to Expect from This Boutiq Mini Preroll Pack With diamond-infused Ice Mintz mini prerolls, expect: Flavor profile: Cool mint with sweet berry notes and a smooth smoke. The high: Balanced euphoria and light relaxation — clear-headed yet calm. Best for: Daytime sessions, creative activities, or social sharing. Packaging: Sealed cup ensures each mini preroll remains fresh, potent, and ready to enjoy. Price: $30 (excl. shipping) Product Specification Quantity: 5 mini prerolls Net weight: 2.5g total (0.0888oz each) Flavor notes: Mint, sweet berry, earthy undertones Feels like: Euphoric, uplifted, lightly relaxed Good for: Daytime use, creative sessions, socializing THC range: Approx. 22–27%, batch-dependent