congenital dichromasy
先天性二色视
diagnosing dichromasy
诊断二色视
dichromasy test
二色视测试
types of dichromasy
二色视类型
red-green dichromasy
红绿二色视
treating dichromasy
治疗二色视
dichromasy severity
二色视严重程度
inherited dichromasy
遗传性二色视
blue-yellow dichromasy
蓝黄二色视
acquired dichromasy
后天性二色视
dichromasies are hereditary conditions that affect color perception in humans.
色觉异常是一种影响人类颜色感知的遗传性疾病。
modern screening methods can detect dichromasies at an early age.
现代筛查方法可以在早期检测出色觉异常。
certain professions have strict requirements regarding dichromasies for safety reasons.
出于安全考虑,某些职业对色觉异常有严格的要求。
dichromasies affect approximately eight percent of the male population worldwide.
色觉异常影响全球约百分之八的男性人口。
understanding dichromasies helps employers create better workplace accommodations.
了解色觉异常有助于雇主创造更好的工作场所适应性安排。
genetic counseling can assess the risk of dichromasies in families with a history of color blindness.
基因咨询可以评估有色盲家族史家庭的色觉异常风险。
dichromasies result from anomalies in the cone photopigments located in the retina.
色觉异常源于视网膜中锥体光色素的异常。
specialized glasses can help individuals with certain types of dichromasies distinguish colors more effectively.
专用眼镜可以帮助特定类型色觉异常患者更有效地辨别颜色。
children with dichromasies may experience difficulties with educational materials that rely on color coding.
色觉异常儿童在使用依赖颜色编码的教育材料时可能会遇到困难。
dichromasies are typically classified into red-green and blue-yellow types based on the affected cones.
色觉异常通常根据受影响的锥体分为红绿色盲和黄蓝色盲两种类型。
regular eye examinations can identify dichromasies and help patients manage their condition.
定期眼科检查可以识别色觉异常并帮助患者管理他们的状况。
recent research into dichromasies has led to the development of more accurate diagnostic tools.
最近对色觉异常的研究已经开发出更精确的诊断工具。
people with dichromasies often develop adaptive strategies for daily color-related tasks.
色觉异常患者通常会发展出日常颜色相关任务的适应策略。
congenital dichromasy
先天性二色视
diagnosing dichromasy
诊断二色视
dichromasy test
二色视测试
types of dichromasy
二色视类型
red-green dichromasy
红绿二色视
treating dichromasy
治疗二色视
dichromasy severity
二色视严重程度
inherited dichromasy
遗传性二色视
blue-yellow dichromasy
蓝黄二色视
acquired dichromasy
后天性二色视
dichromasies are hereditary conditions that affect color perception in humans.
色觉异常是一种影响人类颜色感知的遗传性疾病。
modern screening methods can detect dichromasies at an early age.
现代筛查方法可以在早期检测出色觉异常。
certain professions have strict requirements regarding dichromasies for safety reasons.
出于安全考虑,某些职业对色觉异常有严格的要求。
dichromasies affect approximately eight percent of the male population worldwide.
色觉异常影响全球约百分之八的男性人口。
understanding dichromasies helps employers create better workplace accommodations.
了解色觉异常有助于雇主创造更好的工作场所适应性安排。
genetic counseling can assess the risk of dichromasies in families with a history of color blindness.
基因咨询可以评估有色盲家族史家庭的色觉异常风险。
dichromasies result from anomalies in the cone photopigments located in the retina.
色觉异常源于视网膜中锥体光色素的异常。
specialized glasses can help individuals with certain types of dichromasies distinguish colors more effectively.
专用眼镜可以帮助特定类型色觉异常患者更有效地辨别颜色。
children with dichromasies may experience difficulties with educational materials that rely on color coding.
色觉异常儿童在使用依赖颜色编码的教育材料时可能会遇到困难。
dichromasies are typically classified into red-green and blue-yellow types based on the affected cones.
色觉异常通常根据受影响的锥体分为红绿色盲和黄蓝色盲两种类型。
regular eye examinations can identify dichromasies and help patients manage their condition.
定期眼科检查可以识别色觉异常并帮助患者管理他们的状况。
recent research into dichromasies has led to the development of more accurate diagnostic tools.
最近对色觉异常的研究已经开发出更精确的诊断工具。
people with dichromasies often develop adaptive strategies for daily color-related tasks.
色觉异常患者通常会发展出日常颜色相关任务的适应策略。
探索常用高频词汇