Tahara Y, Kozu S, Ikegami H, Tanaka A, Kumahara Y, Hirota M, Shima K, Amino N, Hayashizaki S, Miyai K
Nihon Naibunpi Gakkai Zasshi. 1985 Nov 20;61(11):1270-81. doi: 10.1507/endocrine1927.61.11_1270.
A 68-year-old male patient without any previous thyroidal disease developed three times of transient primary hypothyroidism associated with protein-calorie malnutrition (PCM). Because of his diabetes mellitus, alcoholic hepatitis, chronic pancreatitis and blind loop syndrome, his nutritional balance was easily disturbed leading to PCM. Although he recurrently developed primary hypothyroidism associated with PCM, this condition was completely restored by protein-calorie repletion. The possibility of dietary iodine deficiency was negated by the observation that his daily urinary iodine secretion was more than 4 mg/day. Plasma amino acid analysis revealed severe depletion of phenylalanine, tyrosine and other essential amino acids and raised the possibility that this hypothyroidism was caused by amino acid deficiency. In order to clarify the mechanisms of this primary hypothyroidism, we have investigated the change of thyroid functions during protein-calorie repletion by total parenteral nutrition (TPN). We then removed iodine from the nutrients for TPN to ascertain that iodine deficiency was not the cause of the primary hypothyroidism in the present case. In spite of the removal of iodine, serum T4 and T3 suddenly increased from 1.1 micrograms/dl and less than 25 ng/dl to 3.5 micrograms/dl and 59 ng/dl, respectively, in a few days after the beginning of TPN. They continued to increase thereafter and reached 6.3 micrograms/dl and 115 ng/dl in 6 weeks. Serum free T4 also showed a sudden increase from 0.56 ng/dl to 1.7 ng/dl after TPN and remained above 1.3 ng/dl thereafter. Serum reverse T3 showed a rapid increase after TPN, but, 4 weeks later, returned to the previous level before TPN. Serum TSH decreased from 120 microU/ml to 17 microU/ml in a few days after TPN and reached a level within normal range in 4 weeks. Serum TBG gradually increased from 10.7 micrograms/ml to 29.2 micrograms/ml in 6 weeks. These results show that the T4 synthesis was extremely impaired by PCM in spite of the strong stimulation by TSH and that this suppression of T4 synthesis by PCM led the patient recurrently to the primary hypothyroidism. We have next investigated the possibility whether the deficiency of phenylalanine and tyrosine could cause a suppression of T4 synthesis because tyrosine is an important substrate of T4. For this purpose we removed phenylalanine and tyrosine from TPN and added iodine to prevent iodine deficiency due to prolonged iodine-depleted nutrition. Reduction of phenylalanine and tyrosine resulted in a marked decrease in serum T4, T3 and TBG in 7 weeks, but gave no change to free T4. Serum TSH remained within normal range.(ABSTRACT TRUNCATED AT 400 WORDS)
一名68岁男性患者,既往无甲状腺疾病史,曾三次发生与蛋白质 - 热量营养不良(PCM)相关的短暂性原发性甲状腺功能减退。由于他患有糖尿病、酒精性肝炎、慢性胰腺炎和盲袢综合征,其营养平衡很容易受到干扰,进而导致PCM。尽管他反复出现与PCM相关的原发性甲状腺功能减退,但通过补充蛋白质 - 热量,这种情况完全恢复。其每日尿碘分泌量超过4mg/天,这一观察结果排除了饮食碘缺乏的可能性。血浆氨基酸分析显示苯丙氨酸、酪氨酸和其他必需氨基酸严重缺乏,提示这种甲状腺功能减退可能是由氨基酸缺乏引起的。为了阐明这种原发性甲状腺功能减退的机制,我们通过全胃肠外营养(TPN)研究了蛋白质 - 热量补充过程中甲状腺功能的变化。然后我们从TPN营养物质中去除碘,以确定碘缺乏不是本病例原发性甲状腺功能减退的原因。尽管去除了碘,但在开始TPN后的几天内,血清T4和T3分别突然从1.1μg/dl和低于25ng/dl增加到3.5μg/dl和59ng/dl。此后它们继续升高,6周时达到6.3μg/dl和115ng/dl。血清游离T4在TPN后也突然从
