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Quinoa epitomizes the drive for healthier foods with ethnic concepts in developed countries, particularly among millennials. As a result, the popularity of quinoa as a gluten-free alternative has steadily grown over the last 20 years. Despite this, little is known about the impact of specific varieties on processed foods. The purpose of this study was to examine the impact of quinoa varieties (variety and content) on the mechanical and textural properties of buckwheat-based extruded pasta (spaghetti). Peruvian native (var. <i>rosada taraco</i>, <i>kuchivila</i>, <i>negra collana,</i> and <i>mistura</i>) and Latvian-grown (var. <i>titicaca</i>) varieties were independently incorporated to pasta between 5 and 20% (<i>w</i>/<i>w</i>). Pasta containing 20% quinoa var. <i>negra collana</i>, which presented the largest content of fiber and lowest content of saponin, was strongly associated to structural resilience (i.e., cohesiveness, firmness). Conversely, pasta containing 20% quinoa var. <i>Titicaca</i> appeared structurally weak (i.e., smooth). The addition of saponin-containing varieties to pasta (20%), such as <i>rosada taraco</i> and <i>mistura</i>, resulted in resilient structures with little effect on taste (incl. bitterness). Despite initial stability, pasta containing 20% quinoa var. <i>kuchivila</i> suffered heavy structural damage. In conclusion, the relationship of compositional, mechanical, and textural properties of pasta was strongly variety-dependent.