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Target Concepts:
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Query: UMLS:C0018799 (
heart disease
)
34,133
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
From 1958 to March 1987 we corrected 704 patients with pectus excavatum. The condition occurred more frequently in boys (544 patients) than girls (160 patients). In the majority of patients (86%), the defect was evident at birth or within the first year of life. Musculoskeletal abnormalities were identified in 133 patients (scoliosis, 107; kyphosis, 4; myopathy, 3; Poland's syndrome, 3; Marfan's syndrome, 2; Pierre Robin syndrome, 2;
prune
belly syndrome, 2; neurofibromatosis, 3; cerebral palsy, 4; tuberous sclerosis, 1; and congenital diaphragmatic hernia, 2). Sixteen patients had associated congenital
heart disease
. A family history of chest wall deformity was present in 37% of the cases and a history of scoliosis in 11%. Surgical correction was performed using a uniform technique for bilateral subperichondrial resection of the deformed costal cartilages and sternal osteotomy resecting a wedge of the anterior cortex and fracturing the posterior cortex. Anterior displacement was maintained with silk sutures closing the osteotomy defect. In 28 early cases, the sternum was secured by intramedullary fixation with a Steinman pin. All repairs were completed with a low complication rate (4.4%; pneumothorax, 11; wound infection, 5; wound hematoma, 3; wound dehiscence, 5; pneumonia, 3; seroma, 1; hemoptysis, 1; hemopericardium, 1). Six complications were associated with Steinman pin fixation (hemoptysis, seroma, hemopericardium, pneumothorax, 3). Major recurrence occurred in 17 patients (2.7%) and led to revision in 12. Satisfactory long-term results were achieved in the remaining 687 patients, with follow-up ranging from 2 weeks to 27 years. Mean follow-up was 4.3 years.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Surgical repair of pectus excavatum. 320 60
Prunes are dried plums, fruits of Prunus domestica L., cultivated and propagated since ancient times. Most dried prunes are produced from cultivar d'Agen, especially in California and France, where the cultivar originated. After harvest,
prune
-making plums are dehydrated in hot air at 85 to 90 degrees C for 18 h, then further processed into
prune
juice, puree, or other
prune
products. This extensive literature review summarizes the current knowledge of chemical composition of prunes and their biological effects on human health. Because of their sweet flavor and well-known mild laxative effect, prunes are considered to be an epitome of functional foods, but the understanding of their mode of action is still unclear. Dried prunes contain approximately 6.1 g of dietary fiber per 100 g, while
prune
juice is devoid of fiber due to filtration before bottling. The laxative action of both
prune
and
prune
juice could be explained by their high sorbitol content (14.7 and 6.1 g/100 g, respectively). Prunes are good source of energy in the form of simple sugars, but do not mediate a rapid rise in blood sugar concentration, possibly because of high fiber, fructose, and sorbitol content. Prunes contain large amounts of phenolic compounds (184 mg/100 g), mainly as neochlorogenic and chlorogenic acids, which may aid in the laxative action and delay glucose absorption. Phenolic compounds in prunes had been found to inhibit human LDL oxidation in vitro, and thus might serve as preventive agents against chronic diseases, such as
heart disease
and cancer. Additionally, high potassium content of prunes (745 mg/100 g) might be beneficial for cardiovascular health. Dried prunes are an important source of boron, which is postulated to play a role in prevention of osteoporosis. A serving of prunes (100 g) fulfills the daily requirement for boron (2 to 3 mg). More research is needed to assess the levels of carotenoids and other phytochemicals present in prunes to ensure correct labeling and accuracy of food composition tables in order to support dietary recommendations or health claims.
...
PMID:Chemical composition and potential health effects of prunes: a functional food? 1140 Dec 45
Nonimmune hydrops fetalis (NIHF) is used to describe fetuses and newborns with generalized edema and cavity effusions. It is helpful to alert physicians about the presence of anemia, heart failure, and/or hypoproteinemia, but this diagnosis is frequently overlooked. We reviewed the autopsy files from 1990 to 2000, selected all cases with NIHF including clinical information (with maternal laboratory tests and ultrasound), and classified patients by etiology. Among 840 stillborn autopsies during the 11-year period, we found 51 with NIHF (6.07%). The clinical summary had mentioned hydrops in 14 patients and the etiology in another 7 by fetal ultrasonography, but without addressing the possibility of hydrops. In the remaining 30 cases neither hydrops nor an etiology was mentioned. Other pertinent diagnoses were maternal diabetes mellitus (4), congenital
heart disease
(3), and cystic hygroma (2). The following diagnoses were made in one instance each: cardiac tumor, twin transfusion syndrome, congenital adenomatoid malformation, syphilis, Turner syndrome, and cerebral arteriovenous malformation. Postmortem and placental examination confirmed the following etiologies: congenital infections (17); placental pathology significant enough to explain NIHF (10); cardiovascular diseases (8) (further classified as congenital
heart disease
[3], rhabdomyoma [1], and vascular malformations [4]); chromosomal abnormalities (6); uncontrolled maternal diabetes (4); intrathoracic lesions (2);
prune
-belly syndrome (2); and idiopathic NIHF (2). Only 3.9% of the cases studied had no identifiable etiology. The cause of hydrops was confirmed by autopsy in 47 fetuses (92%), which further supports the importance of performing an autopsy. Thirty-two cases (62.74%) had placental abnormalities helpful to the etiology (parvovirus, syphilis, Turner's syndrome, etc.). In 20 instances, the clinical summary had no mention of either hydrops or any of the diseases leading to it. The autopsy in conjunction with placental examination and fetal ultrasound represent the best combination to determine the etiology of NIHF among stillborn fetuses.
...
PMID:Value of autopsy in nonimmune hydrops fetalis: series of 51 stillborn fetuses. 1201 30
Nonimmune hydrops fetalis (NIHF) or generalized soft tissue edema and cavity effusions may be due to cardiovascular diseases, congenital infections, genitourinary malformations, thoracic masses, placental conditions, chromosomal abnormalities, and idiopathic. We report 32 cases of NIHF from among 429 neonates who underwent autopsies (incidence 7.45%). Sixteen cases (50%) had cardiovascular disease; all were due to low output cardiac failure; 7 had structural congenital
heart disease
. Three of the children with congenital
heart disease
also had chromosomal abnormalities: 2 had trisomy 18 and 1 had Noonan syndrome. Among myocardial conditions were five subjects with cardiomyopathies (1 of each of the following types): oncocytic, dilated, endocardial fibroelastosis, cardiac glycogenosis, and carnitine deficiency; 3 had myocarditis, and 1 had cardiac rhabdomyomas. Congenital infections were due to cytomegalovirus in 3 cases, bacteria in 2, and parvovirus in 1. The mechanism of NIHF in these cases might be a combination of decreased myocardial contractility due to myocarditis and fetal anemia. Genitourinary diseases were present in 5 newborns: Two had congenital nephrotic syndrome, 1 had VACTER association, 1 had
prune
-belly syndrome, and 1 had urogenital sinus malformation. Intrathoracic lesions were found in 2 babies (pulmonary sequestration and diaphragmatic hernia). One twin died of volume overload due to twin transfusion syndrome. Only 2 newborns were classified as idiopathic. Our study shows that cardiovascular diseases that lead to heart failure or impaired venous return are more common in the liveborn (50%), whereas congenital infections are more common in the stillborn with NIHF.
...
PMID:Nonimmune hydrops fetalis in the liveborn: series of 32 autopsies. 1601 Apr 81
