OBJECTIVEThe same person's pulmonary venous blood volume, left atrial volume and stroke volume were measured by lung CT scans and cardiac CT angiography (CTA). Then their relationships were analyzed in order to investigate the mechanism of breathing control.

METHODSAs we described before, full pulmonary vascular (-0.6mm) volume was accurately calculated by three-dimensional imaging technology from lung CT scan; left atrial volume and stroke volume of left ventricle were calculated from the CTA data. Then the relationships among them were analyzed for estimation of the lung-artery time.

RESULTSThe total volume of lung and pulmonary vascular blood was 3486 ± 783 (2156-4418) ml, and the pulmonary vascular blood volume was 141 ± 20 (105-163) ml. The estimated pulmonary venous volume was 71 ± 10 (52-81) ml. Left atrial volume at the end diastolic was 97 ± 39 (53-165) ml, Stroke volume of left ventricle was 86 ± 16 (60-106) ml. Pulmonary venous volume and the left atrial volume were double of stroke volume(1.7-2.4).

CONCLUSIONThe estimated lung-artery time was three heart beat.

Blood Volume ; Heart Atria ; Humans ; Stroke Volume

OBJECTIVEBecause the traditional loop of breathing control and regulation effect on blood circulation, there was rare study of pulmonary vein capacity. We need a noninvasive and accurate pulmonary vascular capacity measurement and analysis method.

METHODSTwelve normal volunteers were performed a total lung CT scan, image data analysis processing by computer software, the whole lungs from the apex to the base of lung with 40-50 layers by hand-cut, the connection between adjacent layers automatically by a computer simulation, the full pulmonary vascular (≥ 0.6 mm) were treated by high-accuracy three-dimensional imaging technology after removing the interference, and then calculate the whole lung and pulmonary vascular.

RESULTSThe whole lung of the 12 normal volunteers from the apex to the base of lung CT scan image layers was 530 ± 98 (range, 431-841). The total capacity of lung and pulmonary vascular blood was 3705 ± 857 (range, 2398-5383) ml, and the total volume of the pulmonary vascular blood was 125 ± 32 (range, 94-201) ml. The pulmonary vein vascular blood volume was 63 ± 16 (range, 47-100) ml.

CONCLUSIONThe method of measuring the three-dimensional imaging of pulmonary vascular capacity by analyzing lung CT scan data is available and accurate.

Computer Simulation ; Healthy Volunteers ; Humans ; Image Processing, Computer-Assisted ; Lung ; blood supply ; Tomography, X-Ray Computed

Multidrug resistance proteins (MRPs) are members of the C family of a group of proteins named ATP-binding cassette (ABC) transporters. These ABC transporters together form the largest branch of proteins within the human body. The MRP family comprises of 13 members, of which MRP1 to MRP9 are the major transporters indicated to cause multidrug resistance in tumor cells by extruding anticancer drugs out of the cell. They are mainly lipophilic anionic transporters and are reported to transport free or conjugates of glutathione (GSH), glucuronate, or sulphate. In addition, MRP1 to MRP3 can transport neutral organic drugs in free form in the presence of free GSH. Collectively, MRPs can transport drugs that differ structurally and mechanistically, including natural anticancer drugs, nucleoside analogs, antimetabolites, and tyrosine kinase inhibitors. Many of these MRPs transport physiologically important anions such as leukotriene C4, bilirubin glucuronide, and cyclic nucleotides. This review focuses mainly on the physiological functions, cellular resistance characteristics, and probable in vivo role of MRP1 to MRP9.
Antineoplastic Agents ; metabolism ; pharmacology ; Biological Transport ; Drug Resistance, Multiple ; Drug Resistance, Neoplasm ; Glutathione ; metabolism ; Humans ; Leukotriene C4 ; metabolism ; Multidrug Resistance-Associated Proteins ; metabolism ; physiology ; Neoplasms ; drug therapy ; metabolism ; Tissue Distribution

Circadian disruption is being increasingly recognized as a critical factor in the development and progression of Parkinson’s disease (PD). This review aims to provide an in-depth overview of the relationship between circadian disruption and PD by exploring the molecular, cellular, and behavioral aspects of this interaction. This review will include a comprehensive understanding of how the clock gene system and transcription–translation feedback loops function and how they are diminished in PD. The article also discusses the role of clock genes in the regulation of circadian rhythms, as well as the impact of clock gene dysregulation on mitochondrial function, oxidative stress, and neuroinflammation, including the microbiota-gut-brain axis, which have all been proposed as being crucial mechanisms in the pathophysiology of PD. Finally, this review highlights potential therapeutic strategies targeting the clock gene system and circadian rhythm for the treatment of PD.

The osteocyte has long been considered to be the primary mechanosensory cell in the bone. Recent evidence has emerged that the osteocyte is also a key regulator of various bone and mineral metabolism and that its regulatory effects are in part mediated through locally produced osteocyte-derived factors, such as sclerostin, receptor activator of nuclear factor-kappa B ligand (RANKL), and fibroblast growth factor (FGF)-23. Osteocytes secrete large amounts of insulin-like growth factor (IGF)-I in bone. Although IGF-I produced locally by other bone cells, such as osteoblasts and chondrocytes, has been shown to play important regulatory roles in bone turnover and developmental bone growth, the functional role of osteocyte-derived IGF-I in the bone and mineral metabolism has not been investigated and remains unclear. However, results of recent studies in osteocyte Igf1 conditional knockout transgenic mice have suggested potential regulatory roles of osteocyte-derived IGF-I in various aspects of bone and mineral metabolism. In this review, evidence supporting a regulatory role for osteocyte-derived IGF-I in the osteogenic response to mechanical loading, the developmental bone growth, the bone response to dietary calcium depletion and repletion, and in fracture repair is discussed. A potential coordinated regulatory relationship between the effect of osteocyte-derived IGF-I on bone size and the internal organ size is also proposed.
Animals ; Bone Development ; Bone Regeneration ; Bone Remodeling ; Calcium, Dietary ; Chondrocytes ; Fibroblast Growth Factors ; Fracture Healing ; Insulin-Like Growth Factor I* ; Metabolism ; Mice ; Mice, Transgenic ; Organ Size ; Osteoblasts ; Osteocytes ; RANK Ligand ; Regeneration*

OBJECTIVETo evaluate the possible vascular effects of an environment carcinogen benzo(a)pyrene (BaP).

METHODSThe cytotoxicit of BaP and rat liver S9 (0.25 mg/mL)-activated BaP were examined by MTT assay. Thoracic aortic rings were dissected from Sprague-Dawley rats. Contraction of aortic rings was induced by 60 mmol/L KCl or 10(-6) mol/L phenylephrine (PE) in an ex-vivo perfusion system after BaP (100 μmol/L) incubation for 6 h. [Ca(2+)](i) was measured using Fluo-4/AM. For in-vivo treatment, rats were injected with BaP for 4 weeks (10 mg/kg, weekly, i.p.).

RESULTSBaP (1-500 μm) did not significantly affect cell viability; S9-activated BaP stimulated cell proliferation. BaP did not affect the contractile function of endothelium-intact or -denuded aortic rings. BaP did not affect ATP-induced ([Ca(2+)](i)) increases in human umbilical vein endothelial cells. In BaP-treated rats, heart rate and the number of circulating inflammatory cells were not affected. Body weight decreased while blood pressure increased significantly. The maximum aortic contractile responses to PE and KCl and the maximum aortic relaxation response to acetylcholine were significantly decreased by 25.0%, 34.2%, and 10.4%, respectively.

CONCLUSIONThese results suggest, in accordance with its DNA-damaging properties, that metabolic activation is a prerequisite for BaP-induced cardiovascular toxicity.

Animals ; Aorta ; drug effects ; Benzo(a)pyrene ; pharmacology ; Calcium ; metabolism ; Endothelial Cells ; drug effects ; metabolism ; Humans ; Male ; Rats ; Vasoconstriction ; drug effects

Adolescent ; Female ; Humans ; Sacrum ; pathology ; surgery ; Spondylolysis ; diagnosis ; pathology ; surgery

OBJECTIVEFor heart functional parameters, we commonly used normal range. The reference values and predict formulas of heart functional parameters and their relationships with individual characteristics are still lack.

METHODSLeft ventricular (LV) volumes (end-diastolic volume and end-systolic volume), stroke volume (SV), ejection fraction (EF) and cardiac output (CO) were measured by cardiac CT angiography (CAT) in 1 200 healthy Caucasian volunteers, men 807 and women 393, and age 20-90yr. The results are analyzed by high-accuracy three-dimensional imaging technology, and then measured the dynamic changes of the volumes of each atriam and ventricule during their contractions and relaxations. The gender, age, height and weight were analyzed by multiple linear regression to predict LV functional parameters.

RESULTSExcept the LVEF was lower in man than in women (P < 0.001), all other LV functional parameters of EDV, ESV, SV, FE and CO were higher in man (P < 0.001). Multiple linear regression indicated that age, gender, height and weight are all independent factors of EDV, ESV and SV (P < 0.001). CO could be significantly predicted by age, gender and weight (P < 0.001), but not height (P > 0.05). The predict equation for CO (L x min(-1)) = 6.963+0.446 (Male) -0.037 x age (yr) +0.013 x weight (kg).

CONCLUSIONAge, gender, height and weight are predictors of heart functions. The reference values and predict equations are important for noninvasive and accurate evaluation of cardiovascular disease and individualized treatment.

Adult ; Age Factors ; Aged ; Aged, 80 and over ; Body Height ; Body Weight ; Cardiac Output ; Female ; Heart ; physiology ; Humans ; Male ; Middle Aged ; Reference Values ; Sex Factors ; Stroke Volume ; Ventricular Function, Left ; Young Adult

ABCC10, also known as multidrug-resistant protein 7 (MRP7), is the tenth member of the C subfamily of the ATP-binding cassette (ABC) superfamily. ABCC10 mediates multidrug resistance (MDR) in cancer cells by preventing the intracellular accumulation of certain antitumor drugs. The ABCC10 transporter is a 171-kDa protein that is localized on the basolateral cell membrane. ABCC10 is a broad-specificity transporter of xenobiotics, including antitumor drugs, such as taxanes, epothilone B, vinca alkaloids, and cytarabine, as well as modulators of the estrogen pathway, such as tamoxifen. In recent years, ABCC10 inhibitors, including cepharanthine, lapatinib, erlotinib, nilotinib, imatinib, sildenafil, and vardenafil, have been reported to overcome ABCC10-mediated MDR. This review discusses some recent and clinically relevant aspects of the ABCC10 drug efflux transporter from the perspective of current chemotherapy, particularly its inhibition by tyrosine kinase inhibitors and phosphodiesterase type 5 inhibitors.
Antineoplastic Agents ; Benzamides ; Benzylisoquinolines ; Drug Resistance, Multiple ; Drug Resistance, Neoplasm ; Erlotinib Hydrochloride ; Humans ; Imatinib Mesylate ; Imidazoles ; Multidrug Resistance-Associated Proteins ; antagonists & inhibitors ; Piperazines ; Purines ; Pyrimidines ; Quinazolines ; Sildenafil Citrate ; Sulfonamides ; Sulfones ; Taxoids ; Triazines ; Vardenafil Dihydrochloride

Objective To investigate the application and significance of aerodynamic parameters in voice function assessment. Methods The phonatory aerodynamic system (PAS) was used to collect aerodynamic parameters from subjects with normal voice,vocal fold polyp,vocal fold cyst,and vocal fold immobility.Multivariate statistical analysis was used to compare measurements across groups. Results Phonation threshold flow ( PTF),mean flow rate (MFR),maximum phonation time ( MPT),and glottal resistance (GR) in one hundred normal subjects were significantly affected by sex ( P ＜ 0.05 ),while phonation threshold pressure (PTP),subglottal pressure (SGP),and vocal efficiency (VE) were not (P ＞0.05). PTP,PTF,MFR,SGP,and MPT were significantly different between normal voice and voice disorders (P ＜ 0.01 ),and there were no significant differences among the three disorders ( P ＞ 0.05 ).Receiver operating characteristic (ROC) analysis found that PTP,PTF,SGP,MFR,MPT,and VE in one hundred thirteen voice dis orders had similar diagnostic utility (P ＜0.01 ),with PTP exhibiting the highest area under the curve.The aerodynamic parameters of the three degrees of voice dysfunction due to vocal cord polyps were compared and found to have no significant differences(P ＞0.05).PTP,PTF,MFR,SGP and MPT in forty one patients with vocal polyps were significantly different after surgical resection of vocal cord polyps (P ＜ 0.01 ).Conclusion The aerodynamic parameters can objectively and effectively evaluate the variations of vocal function,and have good auxiliarv diagnostic value.