Recurrent transient severe hypocalcaemia in two siblings with type 1 Bartter syndrome.

Type 1 Bartter syndrome causes hypokalaemia and metabolic alkalosis owing to mutation in the SLC12A1 gene. Meanwhile, hypocalcaemia is rare in Bartter syndrome, except in type 5 Bartter syndrome. Herein, we describe two siblings with type 1 Bartter syndrome with recurrent transient severe hypocalcaemia. They each visited our hospital several times with chief complaints of numbness in the limbs, shortness of breath and tetany after stresses such as exercise or fever. Severe hypocalcaemia was also observed with a serum calcium level of approximately 6.0 mg/dL at each visit. The clinical symptoms and abnormalities in laboratory findings quickly improved with rest and intravenous treatment. In a steady state, no severe hypocalcaemia was evident, but serum intact parathyroid hormone (PTH) levels were high. In recent years, a large-scale study has revealed that type 1 and type 2 Bartter syndrome have high PTH values. In addition, there are reports that these patients develop hypocalcaemia due to PTH resistance. Therefore, our patient was also in a PTH-resistant state, and hypocalcaemia was thought to be exacerbated by physical stress. It is not well known that Bartter syndrome patients other than those with type 5 suffer from hypocalcaemia. And hypocalcaemia was not detected in normal examinations under steady-state conditions. Therefore, in patients with type 1 and type 2 Bartter syndrome, severe hypocalcaemia may occur, but may go unnoticed. When following up these patients, the attending physician must keep in mind that such patients are in a PTH-resistant state and that physical stress can cause severe hypocalcaemia.

Effect of Self-Affirmation on Smartphone Use Reduction Among Heavy Users.

Recent studies have shown an association between excessive smartphone use and health problems. Along with such mounting concerns, health risk information on excessive smartphone use has been presented through various media. Such information is usually aimed at making smartphone users understand the associated health risks, thereby preventing excessive use or reducing current use. However, according to self-affirmation theory, such information may pose a threat to heavy smartphone users because it implies that they are engaging in maladaptive behavior. Therefore, to defend themselves, they may not accept the information and may not be highly motivated to reduce their usage. According to self-affirmation theory, such maladaptive defensive responses can be reduced through the affirmation of important values. We examined whether self-affirmation prior to reading health risk information increased heavy users' motivation to reduce smartphone usage. Participants (142 undergraduate students aged 18-22 years) reported their mean daily smartphone use. They then completed a writing task that affirmed/did not affirm an important personal value. Next, they read an article on the health risks of smartphone overuse and reported their motivation to reduce smartphone use. As a result, when heavy users did not self-affirm, they were significantly less motivated to reduce use than light users. However, when heavy users self-affirmed, their motivation was significantly higher than when they did not self-affirm. This effect of self-affirmation was not shown in light users. These results suggest that health risk information combined with self-affirmation is effective in reducing smartphone usage by heavy users.

A case of early onset cystinuria in a 4-month-old girl.

Cystinuria is an autosomal recessive disorder characterized by a decrease in the reabsorption of cystine and dibasic amino acids (lysine, ornithine, and arginine) in the renal proximal tubule. It presents with recurrent urolithiasis. Cystinuria accounts for 6-8% of all pediatric urolithiasis. The age of onset is typically 10-30 years. Here, we report a case of early-onset cystinuria. A 4-month-old girl presented with hematuria. We noticed multiple renal calculi in ultrasonography and abdominal computerized tomography scans. The diagnosis was cystinuria with urinary calculus analysis and urinary amino acid analysis. The patient was treated with urine alkalinization and cystine chelating drugs. Gene analysis showed a P482L heterozygous mutation from her mother, and an A70V heterozygous mutation from her father, in the SLC7A9 gene. This gene encodes a putative subunit of the neutral and basic amino acid transport protein, BAT1. Although cystinuria is an autosomal recessive disease, there have been previous reports of P482L heterozygous mutations greatly suppressing cystine reabsorption and causing cystinuria symptoms. Therefore, the highly influential P482L mutation of the SLC7A9 gene may have contributed to the onset of this autosomal recessive disease at an extremely young age.

Selective antagonization of activated Nrf2 and inhibition of cancer cell proliferation by procyanidins from Cinnamomi Cortex extract.

Nuclear factor-E2-related factor 2 (Nrf2) is an important transcription factor and plays a central role in inducible expression of many cytoprotective genes. Recent studies have reported that various cancer cells having unrestrained Nrf2 due to its overexpression exhibit increased proliferation and resistance to chemotherapy. Suppression of abnormal Nrf2 activation is needed for a new therapeutic approach against these cancers. Our previous study found that procyanidins prepared from Cinnamomi Cortex extract (CCE) have an ability to suppress Nrf2-regulated enzyme activity and Nrf2 expression in human lung cancer A549 cells. In the present study, we investigated the effect of CCE procyanidins on Nrf2 activity and cell proliferation in several cancer cells, which have normal or constitutively active Nrf2. Interestingly, CCE procyanidin treatment selectively reduced Nrf2 expression and inhibited cell proliferation in cancer cells that overexpress Nrf2, but these phenomena were not seen in cells with low Nrf2 expression. Moreover, transfection assay demonstrated that CCE procyanidins had selective inhibition of activated Nrf2. These results suggest that CCE procyanidins might be an effective cancer therapeutic agent to selectively suppress abnormal Nrf2 activation responsible for enhanced proliferation.