What's the difference between heart and heartwood?

Heart


Definition:

  • (n.) A hollow, muscular organ, which, by contracting rhythmically, keeps up the circulation of the blood.
  • (n.) The seat of the affections or sensibilities, collectively or separately, as love, hate, joy, grief, courage, and the like; rarely, the seat of the understanding or will; -- usually in a good sense, when no epithet is expressed; the better or lovelier part of our nature; the spring of all our actions and purposes; the seat of moral life and character; the moral affections and character itself; the individual disposition and character; as, a good, tender, loving, bad, hard, or selfish heart.
  • (n.) The nearest the middle or center; the part most hidden and within; the inmost or most essential part of any body or system; the source of life and motion in any organization; the chief or vital portion; the center of activity, or of energetic or efficient action; as, the heart of a country, of a tree, etc.
  • (n.) Courage; courageous purpose; spirit.
  • (n.) Vigorous and efficient activity; power of fertile production; condition of the soil, whether good or bad.
  • (n.) That which resembles a heart in shape; especially, a roundish or oval figure or object having an obtuse point at one end, and at the other a corresponding indentation, -- used as a symbol or representative of the heart.
  • (n.) One of a series of playing cards, distinguished by the figure or figures of a heart; as, hearts are trumps.
  • (n.) Vital part; secret meaning; real intention.
  • (n.) A term of affectionate or kindly and familiar address.
  • (v. t.) To give heart to; to hearten; to encourage; to inspirit.
  • (v. i.) To form a compact center or heart; as, a hearting cabbage.

Example Sentences:

  • (1) The extents of phospholipid hydrolysis were relatively low in brain homogenates, synaptic plasma membranes and heart ventricular muscle.
  • (2) A 2.5-month-old child with cyanotic heart disease who required long-term PGE1 infusions; developed widespread periosteal reactions during the course of therapy.
  • (3) It was found that the skeletal muscle enzyme of the chick embryo is independent of the presence of creatine and consequently is another constitutive enzyme like the creatine kinase of the early embryonic chick heart.
  • (4) This may have significant consequences for people’s health.” However, Prof Peter Weissberg, medical director of the British Heart Foundation, which funded the work, said medical journals could no longer be relied on to be unbiased.
  • (5) Spectral analysis of spontaneous heart rate fluctuations, a powerful noninvasive tool for quantifying autonomic nervous system activity, was assessed in Xenopus Laevis, intact or spinalized, at different temperatures and by use of pharmacological tools.
  • (6) Among the pathological or abnormal ECGs (25.6%) prevailed the vegetative-functional heart diseases with 92%.
  • (7) Propranolol resulted in a significantly lower mean hourly, mean 24 h and minimum heart rate.
  • (8) Heart rate (HR), pulmonary ventilation (V), oxygen consumption (VO2), carbon dioxide production (VCO2), and respiratory quotient (RQ) were measured.
  • (9) Coronary arteritis has to be considered as a possible etiology of ischemic symptoms also in subjects who appear affected by typical atherosclerotic ischemic heart disease.
  • (10) A full-length cDNA encoding porcine heart aconitase was derived from lambda gt10 recombinant clones and by amplification of the 5' end of the mRNA.
  • (11) report the complications registered, in particular: lead's displacing 6.2%, run away 0.7%, marked hyperthermya 0.0%, haemorrage 0.4%, wound dehiscence 0.3%, asectic necrosis by decubitus 5%, septic necrosis 0.3%, perforation of the heart 0.2%, pulmonary embolism 0.1%.
  • (12) Western blot analysis of these mitochondria using an antibody against carnitine palmitoyltransferase II purified from beef heart demonstrates a 68-kDa protein, which under ischemic conditions apparently is decreased by 2 kDa.
  • (13) The strongest predictor of non-sudden cardiac death was the New York Heart Association functional class.
  • (14) Road traffic accidents (RTAs) comprised 40% and ischaemic heart disease (IHD) 13% of the total.
  • (15) At the heart of the payday loan profit bonanza is the "continuous payment authority" (CPA) agreement, which allows lenders to access customer bank accounts to retrieve funds.
  • (16) The role of O2 free radicals in the reduction of sarcolemmal Na+-K+-ATPase, which occurs during reperfusion of ischemic heart, was examined in isolated guinea pig heart using exogenous scavengers of O2 radicals and an inhibitor of xanthine oxidase.
  • (17) Complete heart block was produced in 20 of 20 dogs.
  • (18) low molecular weight dextran in the course of right heart catheterization.
  • (19) Myocardial ischaemia was induced in perfused rabbit hearts by ligating the left main coronary artery.
  • (20) In the stage 24 chick embryo, a paced increase in heart rate reduces stroke volume, presumably by rate-dependent decrease in passive filling.

Heartwood


Definition:

  • (n.) The hard, central part of the trunk of a tree, consisting of the old and matured wood, and usually differing in color from the outer layers. It is technically known as duramen, and distinguished from the softer sapwood or alburnum.

Example Sentences:

  • (1) Melacacidin, known to be the main constituent of these flavan derivatives in the heartwood, was isolated and its sensitizing capacity in guinea pigs determined.
  • (2) beta-Sitosterol, beta-sitosterol-beta-D-glucopyranoside and a butyrolactone lignan disaccharide, ramontoside, were isolated from the heartwood of Flacourtia ramontchi.
  • (3) Five isoflavonoids, including the new isoflavone quinone, 5-hydroxybowdichione [2], were isolated from the heartwood of Dalbergia candenatensis through bioactivity-directed fractionation.
  • (4) The major components of untreated wood--cellulose, hemicellulose, and lignin--have not been implicated as toxicants, but extractive substances, especially in heartwood, can be toxic.
  • (5) heartwood had antibacterial activity against cariogenic bacteria, the mutans Streptococci.
  • (6) 3,3',4,5'-Tetrahydroxystilbene (I) and 3,3',4,5'-tetrahydroxybibenzyl (II), isolated from the heartwood of Cassia garrettiana Craib (Leguminosae), showed inhibitory effects on antigen-induced histamine release from rat peritoneal mast cells in vitro.
  • (7) The heartwood of A. auriculiformis contains a typical mixture of analogues consisting of three isomeric flavan-3,4-diols, a dihydroflavonol, flavanone, flavonol and chalcone based on the 4',7,8-trihydroxyl pattern.
  • (8) The root heartwood of Dalbergia odorifera T. Chen (Leguminosae) is a Chinese medicinal drug (Japanese name koshinko) used for a stagnant blood syndrome (stagnation of disordered blood; Japanese, oketsu).
  • (9) Alcoholic extracts of the heartwood of Liriodendron tulipifera have demonstrated antimicrobial activity against Staphylococcus aureus, Mycobacterium smegmatis, Candida albicans, and Aspergillus niger.
  • (10) It was concluded that the aqueous extract of heartwood is laminogenic to horses, but the active ingredient is not juglone.
  • (11) An aqueous extract of the heartwood of black walnut (Juglans nigra) was given via stomach tube to 10 horses.
  • (12) A new taxane diterpene and three known taxane diterpenes were isolated from the heartwood of Taxus mairei grown in Fujian province of China and identified as 1-dehydroxy-baccatin VI, baccatin VI, 1-dehydroxybaccatin IV, and taxinne J on the basis of spectral data.
  • (13) Wattle bark and heartwood ;tannins' consist of the analogues of closely related prototypes with common origins in the vascular tissues of the bark.
  • (14) An aqueous extract was made from black walnut (Juglans nigra) heartwood obtained in the fall of the year.
  • (15) The compounds 1-6 were isolated from the heartwood of Plumeria rubra, following bioactivity-directed fractionation.
  • (16) The distributions of flavonoid, carbohydrate, amino acid and imino acid components in the leaves, twig bark, stem bark, root bark and heartwoods of the black-wattle tree were compared by paper chromatography after their isolation from specific portions of the tree.