No Abstract available.
Isomerism*

No Abstract available.
Isomerism*

No Abstract available.
Isomerism*

No Abstract available.
Diagnostic Imaging* ; Isomerism*

Heterotaxy is defined as an abnormality where the internal thoraco-abdominal organs demonstrate abnormal arrangement across the left-right axis of the body. This broad term includes patients with a wide variety of very complex cardiac lesions. Patients with heterotaxy can be stratified into the subsets of asplenia syndrome and polysplenia syndrome, or the subsets of heterotaxy with isomerism of the right atrial appendages and heterotaxy with isomerism of the left atrial appendages. Treatment of patients with isomerism is determined by the nature and severity of the associated cardiac and extracardiac lesions. Most cardiac operations for patients with isomerism are palliative in nature, since normal anatomy is rarely achieved and mortality rates remain high for patients with heterotaxy syndrome. Patients with left isomerism in general have less severe cardiac malformations than those with right isomerism and, hence, more chance of biventricular repair. For almost all patients with right isomerism, and for many with left isomerism, biventricular repair will not be feasible, and all palliative protocols are then staging procedures prior to a Fontan-type repair. Recent advances in medical management, and improvements in surgical techniques have resulted in improved survival for these patients, and the surgical outcomes are comparable to those with Fontan circulation irrespective of the presence or absence of heterotaxy.
Atrial Appendage ; Axis, Cervical Vertebra ; Heterotaxy Syndrome ; Humans ; Isomerism

One new neolignan identified as 2, 3-( trans) -dihydro-2-(4-hydroxy-3-methoxyphenyl) -3-[(beta-D-glucopyranosyloxy) methyl]-7-methoxybenzofuran-5-propenoic acid (1) and five known steroidal glycosides namely torvoside A(2), torvoside C(3), torvoside H(4), solanolactoside A (5), (25S)-6alpha-hydroxy-5alpha-spirostan-3-one-6-0-[alpha-L-rhamnopyranosyl-(1-->3-beta3)-beta-D-D-quinovopyr-anoside] (6) were isolated from the fruits of Solanum torvum. Their structures were elucidated on the basis of 1D, 2D NMR and MS spectroscopic analysis.
Fruit ; chemistry ; Isomerism ; Lignans ; chemistry ; isolation & purification ; Solanum ; chemistry

OBJECTIVETo study the components in aerial part of Siegesbeckia pubescens.

METHODThe compounds were isolated and purified by silica gel, sephadex LH-20 and other column chromatography. Structures were elucidated by spectroscopic methods.

RESULTFour compounds were isolated from S. pubescens and were characterized as dimethyl-21-ethenetylene-darutigenol-3-O-beta-D-glucopyranosid (1), darutigenol (2), darutoside (3), stigmaster-3-O-beta-D-glucopyranosid (4).

CONCLUSIONCompound 1 is a new compound.

Horseshoe adrenal gland is a rare congenital abnormality associated with multiple congenital anomalies that may involve the cardiovascular, central nervous, and genitourinary systems. In this report, we describe the sonographic findings of horseshoe adrenal gland in a newborn with right isomerism a frequently associated cardiovascular anomaly.
Adrenal Glands* ; Congenital Abnormalities ; Humans ; Infant, Newborn* ; Isomerism* ; Ultrasonography ; Urogenital System

PURPOSE: Developmental processes of atria in embryos or fetuses of the iv/iv mouse were studied to find the differences between right and left atrial chambers and to identify the characteristics of atrial isomerism in the abnormal laterality syndrome. METHODS: Seventy-three embryos from SI/Col iv/iv mice (Jackson's laboratory, USA) or fetuses at the 10th-13th day were used. They were examined using stereomicroscope, scanning electronmicroscope, serial section, and thick slicing in the agar block. RESULTS: Thirty-three cases (45%) had usual arrangement but 40 cases (55%) had abnormal laterality, which included 29 cases of mirror-imaged appendages, seven with left isomerism, two with right isomerism and two with undeterminate appendages. Embryonic right atrium was initially composed of a large conspicuous appendage, which was a thin walled diverticulum and small venous component. As development progressed, venous valves and septum spurium became prominent. The embryonic left atrium was composed of the less conspicuous appendage but the major part of embryonic left atrium was the primitive atrium merging into the atrioventricular canal. The atrial chamber in the right isomerism had a bilateral big appendage and small venous component and the atrioventricular orifice was located in the center of the atrial outlet. Atrial chambers in the left isomerism had a bilateral small appendage and the central venous component was wide. CONCLUSION: The atrial morphology is the best marker in the determination of the atrial laterality. The appendages in hearts with isomerism had bilateral symmetrical arrangement of the appendages.
Agar ; Animals ; Atrial Appendage ; Diverticulum ; Embryonic Structures ; Fetus ; Heart ; Heart Atria ; Isomerism ; Mice* ; Venous Valves

PURPOSE: Developmental processes of atria in embryos or fetuses of the iv/iv mouse were studied to find the differences between right and left atrial chambers and to identify the characteristics of atrial isomerism in the abnormal laterality syndrome. METHODS: Seventy-three embryos from SI/Col iv/iv mice (Jackson's laboratory, USA) or fetuses at the 10th-13th day were used. They were examined using stereomicroscope, scanning electronmicroscope, serial section, and thick slicing in the agar block. RESULTS: Thirty-three cases (45%) had usual arrangement but 40 cases (55%) had abnormal laterality, which included 29 cases of mirror-imaged appendages, seven with left isomerism, two with right isomerism and two with undeterminate appendages. Embryonic right atrium was initially composed of a large conspicuous appendage, which was a thin walled diverticulum and small venous component. As development progressed, venous valves and septum spurium became prominent. The embryonic left atrium was composed of the less conspicuous appendage but the major part of embryonic left atrium was the primitive atrium merging into the atrioventricular canal. The atrial chamber in the right isomerism had a bilateral big appendage and small venous component and the atrioventricular orifice was located in the center of the atrial outlet. Atrial chambers in the left isomerism had a bilateral small appendage and the central venous component was wide. CONCLUSION: The atrial morphology is the best marker in the determination of the atrial laterality. The appendages in hearts with isomerism had bilateral symmetrical arrangement of the appendages.
Agar ; Animals ; Atrial Appendage ; Diverticulum ; Embryonic Structures ; Fetus ; Heart ; Heart Atria ; Isomerism ; Mice* ; Venous Valves