Rovatirelin ameliorates motor dysfunction in the cytosine arabinoside-induced rat model of spinocerebellar degeneration via acetylcholine and dopamine neurotransmission.

Thyrotropin-releasing hormone (TRH) and the TRH mimetic taltirelin have been used in Japan for the treatment of spinocerebellar degeneration (SCD), a type of progressive ataxia. A TRH mimetic, rovatirelin, ameliorates ataxia symptoms in the rolling mouse Nagoya, a hereditary SCD model. The aim of this study was to verify the effects of oral administration of rovatirelin on a cytosine arabinoside (Ara-C)-induced ataxia rat model, a sporadic SCD model characterized by gait abnormalities and falls because of cerebellar atrophy and investigate the central nervous system mechanism associated with rovatirelin-mediated amelioration of motor dysfunction in these rats. Rovatirelin at ≥3 mg/kg significantly decreased the fall index, which is a primary endpoint of improved motor function calculated by dividing the number of falls by the locomotor activity, in both male and female rats with Ara-C-induced ataxia. Furthermore, rovatirelin caused a significant increase in locomotor activity in a dose-dependent manner. Taltirelin at ≥30 mg/kg ameliorated motor dysfunction in ataxic rats. Moreover, rovatirelin significantly increased acetylcholine (ACh) levels in the medial prefrontal cortex (mPFC) and dopamine (DA) levels in the nucleus accumbens (NAc) at ≥3 mg/kg and significantly increased DA levels in the dorsal striatum at ≥10 mg/kg in normal rats. In conclusion, oral administration of rovatirelin ameliorates motor dysfunction in rats with Ara-C-induced ataxia, owing to its ACh-increasing effects in the mPFC and DA-increasing effects in the dorsal striatum and NAc. Furthermore, the effects of rovatirelin were more potent than those of taltirelin.

Oral galactagogues (natural therapies or drugs) for increasing breast milk production in mothers of non-hospitalised term infants.

BACKGROUND: Many women express concern about their ability to produce enough milk, and insufficient milk is frequently cited as the reason for supplementation and early termination of breastfeeding. When addressing this concern, it is important first to consider the influence of maternal and neonatal health, infant suck, proper latch, and feeding frequency on milk production, and that steps be taken to correct or compensate for any contributing issues. Oral galactagogues are substances that stimulate milk production. They may be pharmacological or non-pharmacological (natural). Natural galactagogues are usually botanical or other food agents. The choice between pharmacological or natural galactagogues is often influenced by familiarity and local customs. Evidence for the possible benefits and harms of galactagogues is important for making an informed decision on their use. OBJECTIVES: To assess the effect of oral galactagogues for increasing milk production in non-hospitalised breastfeeding mother-term infant pairs. SEARCH METHODS: We searched the Cochrane Pregnancy and Childbirth Group's Trials Register, ClinicalTrials.gov, the World Health Organization (WHO) International Clinical Trials Registry Platform (ICTRP), Health Research and Development Network - Phillippines (HERDIN), Natural Products Alert (Napralert), the personal reference collection of author LM, and reference lists of retrieved studies (4 November 2019). SELECTION CRITERIA: We included randomised controlled trials (RCTs) and quasi-RCTs (including published abstracts) comparing oral galactagogues with placebo, no treatment, or another oral galactagogue in mothers breastfeeding healthy term infants. We also included cluster-randomised trials but excluded cross-over trials. DATA COLLECTION AND ANALYSIS: We used standard Cochrane Pregnancy and Childbirth methods for data collection and analysis. Two to four review authors independently selected the studies, assessed the risk of bias, extracted data for analysis and checked accuracy. Where necessary, we contacted the study authors for clarification. MAIN RESULTS: Forty-one RCTs involving 3005 mothers and 3006 infants from at least 17 countries met the inclusion criteria. Studies were conducted either in hospitals immediately postpartum or in the community. There was considerable variation in mothers, particularly in parity and whether or not they had lactation insufficiency. Infants' ages at commencement of the studies ranged from newborn to 6 months. The overall certainty of evidence was low to very low because of high risk of biases (mainly due to lack of blinding), substantial clinical and statistical heterogeneity, and imprecision of measurements. Pharmacological galactagogues Nine studies compared a pharmacological galactagogue (domperidone, metoclopramide, sulpiride, thyrotropin-releasing hormone) with placebo or no treatment. The primary outcome of proportion of mothers who continued breastfeeding at 3, 4 and 6 months was not reported. Only one study (metoclopramide) reported on the outcome of infant weight, finding little or no difference (mean difference (MD) 23.0 grams, 95% confidence interval (CI) -47.71 to 93.71; 1 study, 20 participants; low-certainty evidence). Three studies (metoclopramide, domperidone, sulpiride) reported on milk volume, finding pharmacological galactagogues may increase milk volume (MD 63.82 mL, 95% CI 25.91 to 101.72; I² = 34%; 3 studies, 151 participants; low-certainty evidence). Subgroup analysis indicates there may be increased milk volume with each drug, but with varying CIs. There was limited reporting of adverse effects, none of which could be meta-analysed. Where reported, they were limited to minor complaints, such as tiredness, nausea, headache and dry mouth (very low-certainty evidence). No adverse effects were reported for infants. Natural galactagogues Twenty-seven studies compared natural oral galactagogues (banana flower, fennel, fenugreek, ginger, ixbut, levant cotton, moringa, palm dates, pork knuckle, shatavari, silymarin, torbangun leaves or other natural mixtures) with placebo or no treatment. One study (Mother's Milk Tea) reported breastfeeding rates at six months with a concluding statement of "no significant difference" (no data and no measure of significance provided, 60 participants, very low-certainty evidence). Three studies (fennel, fenugreek, moringa, mixed botanical tea) reported infant weight but could not be meta-analysed due to substantial clinical and statistical heterogeneity (I2 = 60%, 275 participants, very low-certainty evidence). Subgroup analysis shows we are very uncertain whether fennel or fenugreek improves infant weight, whereas moringa and mixed botanical tea may increase infant weight compared to placebo. Thirteen studies (Bu Xue Sheng Ru, Chanbao, Cui Ru, banana flower, fenugreek, ginger, moringa, fenugreek, ginger and turmeric mix, ixbut, mixed botanical tea, Sheng Ru He Ji, silymarin, Xian Tong Ru, palm dates; 962 participants) reported on milk volume, but meta-analysis was not possible due to substantial heterogeneity (I2 = 99%). The subgroup analysis for each intervention suggested either benefit or little or no difference (very low-certainty evidence). There was limited reporting of adverse effects, none of which could be meta-analysed. Where reported, they were limited to minor complaints such as mothers with urine that smelled like maple syrup and urticaria in infants (very low-certainty evidence). Galactagogue versus galactagogue Eight studies (Chanbao; Bue Xue Sheng Ru, domperidone, moringa, fenugreek, palm dates, torbangun, moloco, Mu Er Wu You, Kun Yuan Tong Ru) compared one oral galactagogue with another. We were unable to perform meta-analysis because there was only one small study for each match-up, so we do not know if one galactagogue is better than another for any outcome. AUTHORS' CONCLUSIONS: Due to extremely limited, very low certainty evidence, we do not know whether galactagogues have any effect on proportion of mothers who continued breastfeeding at 3, 4 and 6 months. There is low-certainty evidence that pharmacological galactagogues may increase milk volume. There is some evidence from subgroup analyses that natural galactagogues may benefit infant weight and milk volume in mothers with healthy, term infants, but due to substantial heterogeneity of the studies, imprecision of measurements and incomplete reporting, we are very uncertain about the magnitude of the effect. We are also uncertain if one galactagogue performs better than another. With limited data on adverse effects, we are uncertain if there are any concerning adverse effects with any particular galactagogue; those reported were minor complaints. High-quality RCTs on the efficacy and safety of galactagogues are urgently needed. A set of core outcomes to standardise infant weight and milk volume measurement is also needed, as well as a strong basis for the dose and dosage form used.

Thyrotropin-releasing hormone added to corticosteroids for women at risk of preterm birth for preventing neonatal respiratory disease.

BACKGROUND: Thyrotropin-releasing hormones (TRH) added to prenatal corticosteroids has been suggested as a way to further reduce breathing problems and neonatal lung disease in infants born preterm. OBJECTIVES: To assess the effects of giving prenatal TRH in addition to corticosteroids to women at risk of preterm birth for the prevention of neonatal respiratory disease. SEARCH METHODS: We searched the Cochrane Pregnancy and Childbirth Group's Trials Register (30 June 2013) and reference lists of retrieved studies. We also contacted trial authors. SELECTION CRITERIA: Randomised controlled trials in women at sufficient risk of preterm birth to warrant the use of prenatal corticosteroids to promote lung maturity. TRH and corticosteroids were compared with corticosteroids, with or without placebo. DATA COLLECTION AND ANALYSIS: All assessments of trial eligibility, risk of bias and data extractions were independently carried out by at least two review authors. MAIN RESULTS: Over 4600 women were recruited into the 15 trials included in the review, however two trials did not contribute any outcome data to the review. The trials had a moderate risk of bias. Overall, prenatal TRH, in addition to corticosteroids, did not reduce the risk of death prior to hospital discharge (risk ratio (RR) 1.05, 95% confidence interval (CI) 0.86 to 1.27, six trials, 3694 infants), neonatal respiratory distress syndrome (average RR 1.05, 95% CI 0.91 to 1.22, nine trials, 3833 infants), or chronic lung disease (RR 1.01, 95% CI 0.85 to 1.19, five trials, 2511 infants), and did not improve any of the secondary fetal, neonatal or childhood outcomes assessed by intention-to-treat analyses.Indeed, the data showed prenatal TRH to have adverse effects for women and their infants. All side effects reported (nausea, vomiting, light headedness, urgency of micturition, facial flushing) were significantly more likely to occur in women receiving TRH. In the infants, prenatal TRH increased the risk of needing respiratory support (RR 1.16, 95% CI 1.03 to 1.29, three trials, 1969 infants), and of having a low Apgar score at five minutes (RR 1.48, 95% CI 1.14 to 1.92, three trials, 1969 infants). Only three trials provided data on childhood follow-up, and while one trial suggested poorer outcomes for infants who were exposed to prenatal TRH, the other two trials, that assessed infants using an established developmental instrument, showed no clear differences between groups in follow-up outcomes.Sensitivity analyses by trial quality, or subgroups with differing times from entry to birth, or different dose regimens of TRH, did not change these findings. AUTHORS' CONCLUSIONS: Prenatal TRH in addition to corticosteroids, given to women at risk of preterm birth, does not improve infant outcomes and can cause maternal side effects.

Repurposing of FDA-Approved Drugs for Treating Iatrogenic Botulism: A Paired 3D-QSAR/Docking Approach†.

Botulinum neurotoxin (BoNT) is widely used for the treatment of spasticity, focal dystonia, chronic migraine, facial hemispasm, and facial aesthetic treatments. Generally, treatment with botulinum toxin is a safe procedure when conducted by clinicians with expertise, and local side effects are rare and transient. However, occasionally adverse effects can occur due to the spread of the drug to nontargeted muscles and organs, producing dry mouth, fatigue, and flu-like symptoms, up to signs of systemic botulism, which appears to be more frequent in children treated for spasticity than in adults. In silico 3D-QSAR and molecular docking studies were performed to build a structure-based model on selected potent known botulinum neurotoxin type A inhibitors; this was used to screen the US Food and Drug Administration (FDA) database. Thirty molecules were identified as possible light-chain BoNT/A inhibitors. In this study, we applied a well-established ligand- and structure-based methodology for the identification of hit compounds among a database of FDA-approved drugs. The identification of budesonide, protirelin, and ciclesonide followed by other compounds can be considered a starting point for investigations of selected compounds that could bypass much of the time and costs involved in the drug approval process.

Apoplexy accompanying pituitary adenoma as a complication of preoperative anterior pituitary function tests.

Pituitary apoplexy occurs as a very rare complication of the pituitary function test. We have experienced two cases of pituitary apoplexy following anterior pituitary function tests for preoperative assessment: a triple bolus test and a TRH test. To elucidate such a rare complication, we outline our two cases and review 28 cases from the literature. The clinical characteristics, etiology, pathophysiology, and diagnostic and therapeutic implications are also discussed. The combined data suggest that pituitary function tests have the potential to precipitate pituitary apoplexy, and its manifestations range from a clinically benign event to a catastrophic presentation with permanent neurological deficits or even death, although most patients may fortunately have a good outcome. We suggest that the pituitary function test should not be done as a routine test, and when such a test is planned, the patient should be observed with caution for any symptomatic changes for at least 2 hours following the test for appropriate treatment. Further, MRI, especially enhanced studies, may provide an earlier diagnosis of the pituitary apoplexy since CT scan images often fail to demonstrate either density changes or obvious enlargement of the pituitary adenoma at the acute stage.

Alteration of regional cerebral blood flow to thyrotropin-releasing hormone therapy in acute encephalitis and encephalopathy during childhood.

BACKGROUND: Thyrotropin-releasing hormone (TRH) is now used as a therapeutic agent for various neurological disorders. Animal study has shown that TRH was attributable to increased cerebral blood flow (CBF). AIMS: There have been occasional reports that TRH therapy was effective for improving symptoms of persistent disturbance of consciousness after acute encephalitis or encephalopathy during childhood. To determine whether TRH has an effect on increasing CBF to patients who have consciousness disturbance caused by acute encephalitis or encephalopathy, and to determine the optimal method of administration. METHODS: Sixteen patients aged 0.7-10.9 years (mean age, 3.2+/-3.1 years) who presented with persistent disturbance of consciousness resulting from acute encephalitis or encephalopathy and were treated with TRH. Regional CBF (rCBF) was measured by single photon emission computed tomography before and after TRH therapy. The alteration rates of rCBF were compared between the divided two groups concerning the dose levels, dosing periods, and treatment lags. RESULTS: The alteration rates of rCBF of the high dose group were higher than those of the low dose group. Differences in the dosing periods and treatment lags did not cause any significant difference of the alteration rates of rCBF. CONCLUSION: The study showed that higher alteration rates of the CBF were observed in the higher dosing group, and TRH have the potency of increasing CBF. TRH therapy would have the potential for effective treatment of persistent consciousness disturbance caused by childhood acute encephalitis or encephalopathy.

Thyrotrophin-releasing hormone test: an adverse reaction.

The side effects of intravenous (IV) administration of protirelin (thyrotrophin-releasing hormone [TRH] are usually mild and transient. The loss of consciousness and apical heart tones occurred in two young patients after protirelin injection. The mechanism for the reactions in these patients is not known, but the absence of heart sounds in the presence of no palpable pulse and no obtainable blood pressure should now be included among the adverse effects that may occur after administration of protirelin IV.

Controlled trial of thyrotropin releasing hormone in amyotrophic lateral sclerosis.

A double-blind controlled trial of thyrotropin releasing hormone (TRH) 150 mg IM daily in 30 patients with amyotrophic lateral sclerosis is reported. The drug/placebo was administered for 2 months, followed by a 2-month "wash-out". Evaluation of strength, functional ability, and respiratory functions was performed. A temporary increase in the strength of some muscles was detected following the administration of TRH, but no change in functional performance was noted. Neither the patients nor the investigators believed the effects were of any marked clinical significance. The course of the illness was not altered.

A double-blind, placebo-controlled trial of TRH in amyotrophic lateral sclerosis.

A double-blind, placebo-controlled trial of single doses of thyrotropin releasing hormone (TRH) was performed on 12 patients with amyotrophic lateral sclerosis. Each patient was given subcutaneous injections of TRH 150 mg or placebo, and IV infusions of TRH 500 mg or placebo at 72- to 96-hour intervals. Eight motor and functional ratings were scored at regular intervals after each injection. Side effects were seen in all patients and were obvious to patients and examiners, making true blinding impossible. Nevertheless, statistically significant improvement was seen only in dynametric strength 1 hour after subcutaneous injection (p less than 0.05). Significant improvement occurred, in one patient only, on subjective speech testing during IV infusion of TRH. In none of six other ratings was there a significant difference between TRH and placebo. Subjective improvement was noted by 11 of 12 patients.

Amyotrophic lateral sclerosis: effects of acute intravenous and chronic subcutaneous administration of thyrotropin-releasing hormone in controlled trials.

We performed double-blind crossover trials to assess the effects of thyrotropin-releasing hormone (TRH) on amyotrophic lateral sclerosis patients. For acute intravenous trials, 500 mg TRH or placebo with norepinephrine was given at 1-week intervals (16 patients). CSF TRH concentration increased, and clinical side effects appeared with TRH. For chronic studies, 25 mg TRH and a saline placebo were given subcutaneously every day for 3 months (25 patients). CSF TRH level increased 29-fold after a single TRH injection, and mild transient side effects occurred. Vital signs, respiratory function, semiquantitative and quantitative neurologic function, muscle strength by manual and dynamometer testing, and EMG were studied. With daily TRH, 10 patients noted subjective improvement without objective evidence, and 10 patients complained of worsening of the disease with objective decline after TRH was stopped. Statistical analysis, however, showed no beneficial effects from either acute or chronic TRH trials.

A summary of the current position of TRH in ALS therapy.

The critical points that must be addressed in evaluating ergotropic drugs are exemplified by the current morass of positive and negative results that have been obtained in clinical investigations of TRH or its analogues. Appropriate subject selection is crucial. These patients may have bulbar symptoms, and those features of ALS should be specifically assayed for treatment effects relative to placebo. Gender-specific effects of TRH need to be accounted for in study design. In addition, electrophysiological techniques such as single fiber density may help determine the responsiveness of patients to TRH or its analogues. The clinical significance of an increase in fiber density following TRH or other drugs should be determined, as it will provide insight into the state of motor neurons in the spinal cord of patients with ALS and possibly could be important in determining those who may respond to TRH if such a response is possible. Clinical studies have quite clearly shown conflicting results. Basic studies, however, have shown that response to TRH is state dependent, that is, whether the patient is male or female. Clinical studies have shown that response to TRH is state dependent, that is, it depends on whether the patient has bulbar or nonbulbar signs and is male or female. Future studies must take into consideration this state dependence as a specific feature of the pharmacological action of TRH and its analogues.

The protective effect of 5-HT3 receptor antagonist in thyrotropin releasing hormone-induced gastric lesions.

The present study examined 1) oxidative stress and gastric lesions induced by thyrotropin releasing hormone (TRH) 2) The effect of a 5-hydroxytryptamine3 (5-HT3) receptor antagonist, ICS 205930 on protective effect of calcitonin on gastric lesions produced by TRH. Calcitonin (5 micrograms/10 microliter) was injected i.c.v. 10 min before TRH (10 micrograms/10 microliter, i.c.v.) injection or ICS 0.5 mg/kg, (i.p.) was given 60 min prior to calcitonin or TRH to rats. Ulcer index, lipid peroxidation (LP) and glutathione (GSH) levels were quantified 3 h after TRH injection in the stomach, liver and brain. TRH caused mucosal lesions (UI: 10.0 +/- 2.0 mm) without changing gastric GSH and LP. JCS did not alter the protective effect of calcitonin against TRH-induced lesions but attenuated. TRH-induced lesion formation. The oxidative effects of calcitonin or ICS were similar to TRH but both drugs attenuated gastric lesion formation. Hence, oxidative changes in tissues studied are not directly involved in TRH-induced lesions.

Intrathecal thyrotropin-releasing hormone therapy of amyotrophic lateral sclerosis.

Six patients with amyotrophic lateral sclerosis were given from 800 to 4000 micrograms of thyrotropin-releasing hormone (TRH) intrathecally for a period of 2-6 months. The progressive course of this disease, manifested by increasing atrophy, paralysis and disability score, was not altered. This supports the hypothesis that the decrease in TRH content in the anterior horn region is secondary to the cellular destruction. TRH appears to play no significant role in the pathogenesis of amyotrophic lateral sclerosis.

Long-term administration of thyrotropin-releasing hormone and its effect on gonadotropin secretion in eumenorrheic women.

Thyrotropin-releasing hormone (TRH) was administered orally in doses of 60 mg/day to six women for two consecutive menstrual cycles. Daily serum samples were obtained for radioimmunoassay of luteinizing hormone, follicle-stimulating hormone, prolactin (PRL), and 17beta-estradiol secretory response. TRH was ineffective in interfering with normal gonadotropin and estradiol secretion, and failed to inhibit ovulation. The length of the luteal phase was not affected by TRH in the two cycles of treatment as demonstrated by basal body temperature, pregnanediol excretion, and endometrial biopsy. Long-term TRH administration induced an elevation of PRL serum levels that were not persistent and showed wide spikes. From these studies it is concluded that oral TRH at a dosage of 60 mg/day is unable to modify gonadotropin secretion and ovarian responsiveness in normally menstruating women.

Controlled trial of thyrotropin releasing hormone tartrate in ataxia of spinocerebellar degenerations.

The clinical efficacy, dose-response relationship, and safety of TRH-T (thyrotropin releasing hormone tartrate) were assessed in 290 patients with spinocerebellar degeneration (SCD) in a 2-week, double-blind study using placebo as control. 254 patients satisfied the criteria for inclusion in evaluation of the drug efficacy. The patients were treated with TRH-T in an intramuscular dose of 2 mg, 0.5 mg or 0 mg (placebo) as TRH once a day for 2 weeks. Clinical responses to these treatments were evaluated 3 times: at the end of weeks 1 and 2 of treatment and a week after the end of treatment. The results of "global improvement rating" as well as those of "ataxia improvement rating" showed that both 2 mg and 0.5 mg TRH-T treatments were significantly superior to placebo treatment in patients with predominantly cerebellar form of SCD. The effect was well maintained a week after the end of the 2-week treatment in the patients who were given TRH-T in daily dose of 2 mg and showed improvement at the end of treatment. The results of "improvement rating of each symptom" revealed that 2 mg treatment was significantly more effective than placebo for disorders of standing, gait, speech and writing. In the patients who had no pyramidal involvement or disorder of deep sensation, the drug efficacy and dose-response relationship were evident. Adverse reactions to the drug such as headache, feeling febrile and nausea were observed in 50% of the patients on 2 mg treatment, in 38% of those on 0.5 mg treatment and in 21% of those on placebo patient, however, discontinued treatment because of adverse reactions.

Is there a role for antenatal TRH therapy for the prevention of neonatal lung disease?

Unfortunately, surfactant therapy is not routinely available to infants in some parts of the world because of its cost. It is the hypothesis of this article that in situations where surfactant is not available, there may be a role for antenatal thyrotropin-releasing hormone (TRH) plus glucocorticoid therapy. Data from randomized clinical trials, which compared therapy with antenatal glucocorticoid plus TRH to that with glucocorticoid alone were extracted and subjected to meta-analysis. The trials that incorporated surfactant therapy were analyzed separately from those in which surfactant was not used. In addition, because surfactant therapy was only available to some patients in the Australian ACTOBAT trial, each group analysis was performed with and without the ACTOBAT data. A characteristic of the earlier presurfactant trials is that few were designed for "intention to treat" analysis. In most of these studies, it was decided a priori to include babies who delivered within a specified time period after hormone therapy. The addition of TRH did not decrease respiratory distress syndrome in those trials in which surfactant therapy was used. In the presurfactant trials, respiratory distress syndrome was significantly decreased when "intention to treat" data were examined, as well as in those infants who delivered between 1 and 10 days after maternal therapy. There was also a significant decrease in oxygen dependency at 28 days after birth, and in oxygen dependency or death at this time, in those infants who delivered 1 to 10 days after treatment. Antenatal TRH had no significant effect of on neonatal complications such as air leak, intraventricular hemmorhage, patent ductus arteriosus, retinopathy of prematurity, or necrotizing enterocolitis. However, TRH did produce transient suppression of the pituitary thyroid axis. There were also a variety of transient complications in the mothers, including nausea, vomiting or flushing, light-headed feeling, and increased blood pressure. The authors conclude that the implementation of appropriate antenatal glucocorticoid treatment is the first priority. Once this has been established, the data presented here suggest that addition of antenatal TRH should be considered in those situations where surfactant is not available.

Pituitary apoplexy associated with a triple bolus test. Case report.

The authors report a case of pituitary apoplexy resulting in bilateral internal carotid artery occlusion, with marked depression of consciousness and hemiplegia. After transsphenoidal tumor decompression, restoration of flow in both carotid arteries was documented angiographically and the patient made an excellent clinical recovery. The unique aspect of this case is that the pituitary apoplexy was apparently precipitated by neuroendocrine manipulation, performed as a preoperative test of pituitary function.

Apoplexy of a pituitary macroadenoma as a severe complication of preoperative thyrotropin-releasing hormone (TRH) testing.

The case history of a 54-year-old male suffering from pituitary macroadenoma with suprasellar extension is reported. A TRH-test with 200 micrograms i.v. was followed by severe headache and vomiting after 60', and by development of ophthalmoplegia on the following day. Hyperdens patches on the CT scan showed haemorrhage into the tumor. A chromophobic adenoma with macroscopic and histological signs of haemorrhage was removed via the transsphenoidal route. In the postoperative period the ophthalmoplegia gradually disappeared but central hypoadrenia and hypothyroidism occurred. This is the second case in the literature showing that TRH alone and in a low dose may cause pituitary tumor apoplexy. It is concluded that TRH-testing is a risk for the patient with pituitary apoplexy. If, due to the size of the tumor the patients have to be operated on in any case, and the test is not of essential diagnostic value, the TRH-test should be done only in selected cases. Its use in the postoperative evaluation however is without risk for the patients.

Hypotensive and bradycardiac responses to thyrotropin-releasing hormone in a comatose patient.

A 46-year-old female motorcyclist, who suffered injuries to the brain stem in a traffic accident, showed hypotensive and bradycardiac responses to thyrotropin-releasing hormone (TRH) given to counter consciousness disturbance. The cardiodepressive responses to TRH were reduced with i.v. pretreatment with atropine sulfate, suggesting an involvement of the vagal nervous system in the development of the responses. Furthermore, this patient had complicated impairments in the sympathetic nervous system, which were revealed by the results of testing baroreceptor reflex sensitivity to pharmacological alterations in blood pressure. We thus speculate that the hypotensive and bradycardiac effects of TRH observed in this patient may result from derangements of the sympathetic nervous system caused by the injuries. This case report is believed to be a novel description of the cardiodepressive effects of TRH.

Intrathecal thyrotropin-releasing hormone in amyotrophic lateral sclerosis.

Thyrotropin releasing hormone (TRH) has potential therapeutic applications in amyotrophic lateral sclerosis (ALS) and related diseases because of its function as a neuroregulator of the anterior horn cell. However, its therapeutic potential, and that of other neuropeptides, is reduced by the blood-brain barrier that limits access to neuronal cells. We have thus explored the direct intrathecal administration of TRH in ALS, with both short-term boluses and infusions and chronic constant infusions. Our experience suggests that this approach is safe, has high patient acceptance, and is worthy of more careful evaluation.