Lithium, prescribed for bipolar disorder, is known to induce thyroid dysfunction, most commonly hypothyroidism. Thyrotoxicosis due to lithium-induced painless thyroiditis is a rare complication. We have previously reported that the serum concentration of immunosuppressive acidic protein (IAP), an α1-acid glycoprotein, increased during the acute phase of subacute thyroiditis, but was within the normal range in patients with painless thyroiditis. In the present case, a 31-year-old woman, receiving long-term lithium therapy for bipolar disorder, had a recurrent episode of painless thyroiditis, and her serum IAP was increased. The pathogenic mechanism for lithium-associated painless thyroiditis may differ from that of autoimmune conditions.
Thyroiditis ; Lithium measurement ; Lithium ; PROTEIN.IMMUNOACIDIC ; Painless

Headaches caused by metastatic brain tumors result from dural tension and traction of the sites of nociceptive nerves that originates from displacement of cerebral vessels and intracranial hypertension caused by the tumor. Causes of such headaches also include meningeal irritation resulting from intrathecal dissemination of tumor and carcinomatous meningitis.Treatment of headaches resulting from intracranial hypertension involves alleviation of cerebral edema and reduction of intracranial pressure using hyperosmolar therapy and steroid administration, but treatment is often complicated by a lack of pressure reduction. We encountered 2 cases of headaches with intracranial hypertension that did not improve following hyperosmolar therapy and steroid administration, but resolved with increased opioid dose.In cases where intracranial pressure does not decrease, or for headaches attributed to direct stimulus of intracranial nociceptive nerves rather than intracranial hypertension, attempts to treat the patient with initiation or increased dosage of opioids may prove effective from a clinical standpoint.

BACKGROUND/AIMS: In Japan, it is customary to take a daily bath during which the body is immersed in water to the neck. During full-body immersion, hydrostatic pressure is thought to compress the chest and abdomen, which might influence esophageal motor function and intra-gastric pressure. However, whether water immersion has a significant influence on esophageal motor function or intragastric pressure has not been shown. The aim of this study was to clarify the influence of full-body water immersion on esophageal motor function and intragastric pressure. METHODS: Nine healthy male volunteers (mean age 40.1 +/- 2.8 years) were enrolled in this study. Esophageal motor function and intragastric pressure were investigated using a high-resolution 36-channel manometry device. RESULTS: All subjects completed the study protocol. Intragastric pressure increased significantly from 4.2 +/- 1.1 to 20.6 +/- 1.4 mmHg with full-body water immersion, while the lower esophageal high pressure zone (LEHPZ) value also increased from 20.5 +/- 2.2 to 40.4 +/- 3.6 mmHg, with the latter being observed regardless of dietary condition. In addition, peak esophageal peristaltic pressure was higher when immersed as compared to standing out of water. CONCLUSIONS: Esophageal motor function and intragastric pressure were altered by full-body water immersion. Furthermore, the pressure gradient between LEHPZ and intragastric pressures was maintained at a high level, and esophageal peristaltic pressure was elevated with immersion.
Abdomen ; Baths ; Esophageal Sphincter, Lower ; Gastroesophageal Reflux ; Humans ; Hydrostatic Pressure ; Immersion ; Japan ; Male ; Manometry ; Neck ; Peristalsis ; Thorax ; Water