本文的研究結果顯示站立式八極板多肢段生物阻抗之體組成測量系統在男子
角力選手,在下肢與全身的 LST、BF%的測量,以 DXA 測量結果為比對參考依據, 與全身,雖然都達到高度正相關(r>0.82, P<0.01),BIA8於上肢的 BF%估測結果之 95%信賴區間為-2.2 至 8.5%,與 BIA8於 LST 測試結果於其他項目相似,皆非明顯 大於其他項目,但如以 CV%表示,BIA8於上肢的 BF%測量結果信賴區間為-33.6 至 115.8%,則明顯高於其他肢段或全身。
探 討 BIA8 在 不 同 體 脂 率 的 受 測 族 群 的 LST 的 估 測 結 果 , 在 BF%DXA<10%(Group A)、BF%DXA>10%(Group B),與所有受測者(Group C)等三個 群組,本研究的結果顯示,無論是 Group A、Group B 或 Group C,BIA8在上肢的
上肢 LST 估測誤差偏高的主要原因。
在本研究的受測對象,其單一上肢的 LST 平均重量為 3.2±0.7kg,單一下肢的 平均重量為 11.7±1.6kg,男子角力選手的上肢 LST 重量比例僅為下肢的 27.3%,雖 然 BIA8在上肢的 LST 與 BF%估測結果於男子年輕角力選手之參考價值有限,但 BIA8在下肢與全身的 LST 卻有其參考價值,因此如綜合上肢與下肢所得的 LST,
可應用Kim’s equation (Kim et al., 2002):SM(kg)=1.19ALST(kg)–1.01,來估算得到 全身的 SM,亦有其參考價值。
現有站立式的生物阻抗分析是用於快速全身、各肢段電阻、電抗測量在不銹 鋼極板的特性,顯示不銹鋼極板與電極貼片兩者有著高相關性。Pietrobelli et al.
(2004)亦使用 BIA8針對年齡分布較寬範圍的 40 個健康受測者,進行 ALST 與 BF%
測量果分析,其結果除上肢以外,其研究結果與本研究結果非常相近,顯示 BIA8 對於年輕優秀角力選的全身體組成估測結果有其價值,上肢之估測結果須小心應 用。
在本研究的受測族群,應用 BIA8對於全身的 BF%相較於 DXA 測量結果,從 Bland-Altman plot analysis (布蘭德奧特曼差異圖)顯示兩方法在 ALST 與 BF%的絕 對差異在下肢與全身的部位是小的,而其兩測量方法的差異結果的分布區間亦非 很寬,其 BIA8於 LST 的估測有其參考價值的,但以不同 BF%範圍的受測對象而 言,BIA8應用於 BF%DXA<10%受測族群,並沒有優於或劣於 BF%DXA>100% 較低 的受測族群的狀況。
第伍章 結論與建議
本研究結果顯示站立式八極板生物阻抗分析儀(BIA8)可用於下肢與全身的 LST、BF%的估測,以 DXA 測量結果為比對參考依據,BIA8的測量結果具有高度 正相關性。如果應用 DXA 來測量各肢段與全身的軟組織成分是昂貴且不容易進行 的,因此應用站立式八極板生物阻抗分析儀,基於各生物阻抗索引(bioimpednace index, BI)與 LST 的高相關性,對於男子年輕角力選手的下肢 LST 與全身 SM 是具 參考價值的,因此如果站立式八極板生物阻抗分析儀可以提高上肢的 LST 估測結 果的精確度,將可以提供男子優秀年輕角力選手在體組成測量研究與臨床應用。
針對提高上肢測量準確性的討論,認為應當加入臂圍的測量,將上肢的組成 做更詳細的測量以供評估。另外,上肢測量的準確性與其他各肢段的測量相比,
在表現成績上是否有正相關,是否從其他肢段來看會比上肢的評估測量來得有意 義,則須要更進一步的討論。
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