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Articoli di riviste sul tema "Blood flow"

Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 19 ottobre 2024

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1

Merrill, Gary. "Caffeine and blood flow". Clinical Medical Reviews and Reports 3, n. 4 (6 aprile 2021): 01–03. http://dx.doi.org/10.31579/2690-8794/078.

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Arguably, caffeine is the world’s leading drug of choice. It is estimated that in the U.S. and Europe at least ninety per cent of the adult populations consume caffeine-containing beverages several times each day. It is also known that consumers prefer their hot coffee to be in the range of 45-60°C (i.e. as hot as 140°F). If such a drink is spilled on the exposed skin it can cause full-thickness, third degree burns within 5 seconds. These are the kinds of burns that produce permanent damage and scarring for life. The prudence of consuming hot coffee and other hot drinks at such temperatures is questionable, especially when children and adolescents are involved.
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Merrill, Gary. "Caffeine and Peripheral Blood Flow". Clinical Medical Reviews and Reports 2, n. 02 (24 febbraio 2020): 01–04. http://dx.doi.org/10.31579/2690-8794/009.

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Caffeine is the drug of choice for adults of the world. It is commonly found in the favorite beverages they consume such as coffee, energy drinks, soft drinks and tea. The caffeine molecule is a decorative sculpture that helps visitors identify the recently-constructed Chemistry and Chemical Biology Building on the Busch Campus of Rutgers University, Piscataway, New Jersey.
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3

Bando, Kiyoshi, e Kenkichi Ohba. "Numerical Simulation of Flow around LDV-Sensor for Measuring Blood Flow Velocities(Cardiovascular flow Simulation)". Proceedings of the Asian Pacific Conference on Biomechanics : emerging science and technology in biomechanics 2004.1 (2004): 55–56. http://dx.doi.org/10.1299/jsmeapbio.2004.1.55.

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4

Pollock, Bruce E. "Blood Flow Out Must Equal Blood Flow In". International Journal of Radiation Oncology*Biology*Physics 111, n. 4 (novembre 2021): 854. http://dx.doi.org/10.1016/j.ijrobp.2021.03.040.

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5

Noble, M. I. M., e P. R. Belcher. "Blood Pressure versus Blood Flow". Transfusion Medicine and Hemotherapy 20, n. 3 (1993): 121–25. http://dx.doi.org/10.1159/000222824.

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6

Wilder-Smith, Einar P., e Arvind Therimadasamy. "Nerve Blood Flow". Journal of Ultrasound in Medicine 32, n. 1 (gennaio 2013): 187–88. http://dx.doi.org/10.7863/jum.2013.32.1.187.

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7

Selman, Warren R., e H. Richard Winn. "Cerebral blood flow". Neurosurgical Focus 32, n. 2 (febbraio 2012): Introduction. http://dx.doi.org/10.3171/2011.12.focus11353.

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Scifers, James R., Eric Fuchs, Geoff Kaplan e Kevin King. "Blood Flow Restriction". Athletic Training & Sports Health Care 8, n. 4 (1 luglio 2016): 138–41. http://dx.doi.org/10.3928/19425864-20160621-01.

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9

LUNELL, NILS-OLOV, e LARS NYLUND. "Uteroplacental Blood Flow". Clinical Obstetrics and Gynecology 35, n. 1 (marzo 1992): 108–18. http://dx.doi.org/10.1097/00003081-199203000-00016.

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10

Brechtelsbauer, P. Bradley, e Josef M. Miller. "Cochlear blood flow". Current Opinion in Otolaryngology & Head and Neck Surgery 4, n. 5 (ottobre 1996): 294–301. http://dx.doi.org/10.1097/00020840-199610000-00002.

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11

Harper, A. M. "Cerebral Blood Flow". Journal of Neurology, Neurosurgery & Psychiatry 51, n. 8 (1 agosto 1988): 1112. http://dx.doi.org/10.1136/jnnp.51.8.1112.

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12

Yoshikawa, Hideki, e Takashi Azuma. "Blood Flow Imaging". Journal of the Acoustical Society of America 129, n. 1 (2011): 546. http://dx.doi.org/10.1121/1.3554819.

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13

TANAKA, HIROFUMI. "Cerebral Blood Flow". Exercise and Sport Sciences Reviews 37, n. 3 (luglio 2009): 111. http://dx.doi.org/10.1097/jes.0b013e3181aa5aee.

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14

Steinhausen, Michael, Karlhans Endlich e David L. Wiegman. "Glomerular blood flow". Kidney International 38, n. 5 (novembre 1990): 769–84. http://dx.doi.org/10.1038/ki.1990.271.

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15

Moore, P., e G. M. Cooper. "Placental blood flow". Current Anaesthesia & Critical Care 10, n. 2 (aprile 1999): 83–86. http://dx.doi.org/10.1016/s0953-7112(99)90006-6.

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16

Tur, Ethel. "Cutaneous Blood Flow." International Journal of Dermatology 30, n. 7 (luglio 1991): 471–76. http://dx.doi.org/10.1111/j.1365-4362.1991.tb04863.x.

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17

Kliman, Harvey Jon. "Uteroplacental Blood Flow". American Journal of Pathology 157, n. 6 (dicembre 2000): 1759–68. http://dx.doi.org/10.1016/s0002-9440(10)64813-4.

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18

Won, Rachel. "Mapping blood flow". Nature Photonics 5, n. 7 (30 giugno 2011): 393. http://dx.doi.org/10.1038/nphoton.2011.132.

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19

Ramanathan, Tamilselvi, e Henry Skinner. "Coronary blood flow". Continuing Education in Anaesthesia Critical Care & Pain 5, n. 2 (aprile 2005): 61–64. http://dx.doi.org/10.1093/bjaceaccp/mki012.

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20

&NA;. "Cerebral blood flow". Nuclear Medicine Communications 8, n. 7 (luglio 1987): 453–56. http://dx.doi.org/10.1097/00006231-198707000-00001.

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21

Milligan, Andrew J., e Masoud Panjehpour. "Blood flow values". International Journal of Radiation Oncology*Biology*Physics 14, n. 5 (maggio 1988): 1056–57. http://dx.doi.org/10.1016/0360-3016(88)90038-7.

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22

Schuman, Joel S. "Measuring Blood Flow". JAMA Ophthalmology 133, n. 9 (1 settembre 2015): 1052. http://dx.doi.org/10.1001/jamaophthalmol.2015.2287.

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23

Laurent, Stéphane, Pierre Boutouyrie e Elie Mousseaux. "Aortic Stiffening, Aortic Blood Flow Reversal, and Renal Blood Flow". Hypertension 66, n. 1 (luglio 2015): 10–12. http://dx.doi.org/10.1161/hypertensionaha.115.05357.

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24

Kuwabara, Kei, Yuichi Higuchi, Hiroshi Koizumi e Ryoichi Kasahara. "Blood Flow Observed with Smartphone--Ultracompact Wearable Blood Flow Sensor". NTT Technical Review 13, n. 1 (gennaio 2015): 17–22. http://dx.doi.org/10.53829/ntr201501fa3.

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25

Moore, Stephen, e Tim David. "3D Time-Dependent Models of Blood Flow in the Cerebro-vasculature(Cardiovascular flow Simulation)". Proceedings of the Asian Pacific Conference on Biomechanics : emerging science and technology in biomechanics 2004.1 (2004): 51–52. http://dx.doi.org/10.1299/jsmeapbio.2004.1.51.

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26

Shirakura, Takuo, Kazuo Kubota e Kousei Tamura. "Blood Viscosity and Cerebral Blood Flow." Nippon Ronen Igakkai Zasshi. Japanese Journal of Geriatrics 30, n. 3 (1993): 174–81. http://dx.doi.org/10.3143/geriatrics.30.174.

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27

Lowe, Gordon D. O. "Defibrination, blood flow and blood rheology". Clinical Hemorheology and Microcirculation 4, n. 1 (22 dicembre 2016): 15–28. http://dx.doi.org/10.3233/ch-1984-4104.

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28

DeWitt, Douglas S., e Donald S. Prough. "Cerebral Blood Flow and Blood Pressure". Critical Care Medicine 47, n. 7 (luglio 2019): 1007–9. http://dx.doi.org/10.1097/ccm.0000000000003784.

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29

von Kummer, R., P. Haag e T. Back. "Blood viscosity and cerebral blood flow." Stroke 24, n. 5 (maggio 1993): 760–62. http://dx.doi.org/10.1161/str.24.5.760b.

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30

Nobili, F., e G. Rodriguez. "Blood viscosity and cerebral blood flow." Stroke 25, n. 4 (aprile 1994): 910–11. http://dx.doi.org/10.1161/01.str.25.4.910.

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31

Beraia, M., e G. Beraia. "Energy/information dissipation and blood flow in human body". Cardiology Research and Reports 3, n. 2 (10 maggio 2021): 01–08. http://dx.doi.org/10.31579/2692-9759/017.

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Abstract (sommario):
The amount of work done to displace blood in systemic arteries and capillaries exceeds the work done by the left ventricle. Besides, at the heartbeat, electromagnetic energy dissipates from the heart to the whole human body. For the problem study, the dielectric spectroscopy method was used. Ringer’s, amino acid solution, and heparinized venous blood were affected by the external electromagnetic oscillations (100-65000Hz, 1-8MHz.) in 17 healthy individuals. Correlations were noted between the initial and induced signal forms/frequencies according to the impedance of the system. The electric impulse from the heart initiates an oscillating electric field around the charged cells/particles and an emerging repulsing electromagnetic force, based on the electroacoustic phenomena, promotes the blood flow, in addition to the pulse pressure from the myocardial contraction. Blood conduces mechanical, electromagnetic waves of different frequencies and transmits energy/information to implement the spontaneous chemical processes in the human body.
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32

Deshpande Neha Adnani, Sagar. "Knowledge about Blood Flow Restriction Therapy among Physiotherapy Students". International Journal of Science and Research (IJSR) 12, n. 5 (5 maggio 2023): 2297–301. http://dx.doi.org/10.21275/sr23524235411.

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33

Franke, W. D., G. M. Stephens e L. M. Neilsen. "EFFECTS OF HAND BLOOD FLOW ON PEAK FOREARM BLOOD FLOW 1050". Medicine &amp Science in Sports &amp Exercise 28, Supplement (maggio 1996): 176. http://dx.doi.org/10.1097/00005768-199605001-01048.

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34

Ogoh, Shigehiko, Kohei Sato, Kazunobu Okazaki, Tadayoshi Miyamoto, Ai Hirasawa, Keiko Morimoto e Manabu Shibasaki. "Blood Flow Distribution during Heat Stress: Cerebral and Systemic Blood Flow". Journal of Cerebral Blood Flow & Metabolism 33, n. 12 (14 agosto 2013): 1915–20. http://dx.doi.org/10.1038/jcbfm.2013.149.

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Abstract (sommario):
The purpose of the present study was to assess the effect of heat stress-induced changes in systemic circulation on intra- and extracranial blood flows and its distribution. Twelve healthy subjects with a mean age of 22±2 (s.d.) years dressed in a tube-lined suit and rested in a supine position. Cardiac output (Q), internal carotid artery (ICA), external carotid artery (ECA), and vertebral artery (VA) blood flows were measured by ultrasonography before and during whole body heating. Esophageal temperature increased from 37.0±0.2°C to 38.4±0.2°C during whole body heating. Despite an increase in Q (59±31%, P<0.001), ICA and VA decreased to 83±15% ( P=0.001) and 87±8% ( P=0.002), respectively, whereas ECA blood flow gradually increased from 188±72 to 422±189 mL/minute (+135%, P<0.001). These findings indicate that heat stress modified the effect of Q on blood flows at each artery; the increased Q due to heat stress was redistributed to extracranial vascular beds.
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35

Vehrs, Pat R., Nicole Tafunai, Eric Cruz, Kylie Martin, Olivia Warren, Parker Jensen e Sadie Deem. "Femoral Blood Flow During Blood Flow Restriction In Males And Females". Medicine & Science in Sports & Exercise 52, n. 7S (luglio 2020): 891. http://dx.doi.org/10.1249/01.mss.0000685212.92510.b8.

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36

Blaak, E. E., M. A. van Baak, G. J. Kemerink, M. T. W. Pakbiers, G. A. K. Heidendal e W. H. M. Saris. "Total Forearm Blood Flow as an Indicator of Skeletal Muscle Blood Flow: Effect of Subcutaneous Adipose Tissue Blood Flow". Clinical Science 87, n. 5 (1 novembre 1994): 559–66. http://dx.doi.org/10.1042/cs0870559.

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1. In studying forearm skeletal muscle substrate exchange, an often applied method for estimating skeletal muscle blood flow is strain gauge plethysmography. A disadvantage of this method is that it only measures total blood flow through a segment of forearm and not the flow through the individual parts such as skin, adipose tissue and muscle. 2. In the present study the contribution of forearm subcutaneous adipose tissue blood flow to total forearm blood flow was evaluated in lean (% body fat 17.0 ± 2.2) and obese males (% body fat 30.9 ± 1.6) during rest and during infusion of the non-selective β-agonist isoprenaline. Measurements were obtained of body composition (hydrostatic weighing), forearm composition (magnetic resonance imaging) and of total forearm (venous occlusion plethysmography), skin (skin blood flow, laser Doppler), and subcutaneous adipose tissue blood flow (133Xe washout technique). 3. The absolute forearm area and the relative amount of fat (% of forearm area) were significantly higher in obese as compared to lean subjects, whereas the relative amounts of muscle and skin were similar. 4. During rest, the percentage contribution of adipose tissue blood flow to total forearm blood flow was significantly higher in lean compared with obese subjects (19 vs 12%, P < 0.05), whereas there were no differences in percentage contribution between both groups during isoprenaline infusion (10 vs 13%). Furthermore, the contribution of adipose tissue blood flow to total forearm blood flow was significantly lower during isoprenaline infusion than during rest in lean subjects (P < 0.05), whereas in the obese this value was similar during rest and during isoprenaline infusion. 5. In conclusion, although the overall contribution of adipose tissue blood flow to total forearm blood flow seems to be relatively small, the significance of this contribution may vary with degree of adiposity. Calculations on the contribution of adipose tissue blood flow and SBF to total forearm blood flow indicate that the contribution of non-muscular flow to total forearm blood flow may be of considerable importance and may amount in lean subjects to 35–50% of total forearm blood flow in the resting state.
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37

Stanford, Daphney M., Matthew A. Chatlaong, William M. Miller, J. Grant Mouser, Scott J. Dankel e Matthew B. Jessee. "Applying Relative And Absolute Blood Flow Restriction Alters Blood Flow Velocity But Not Blood Profiles". Medicine & Science in Sports & Exercise 53, n. 8S (agosto 2021): 93. http://dx.doi.org/10.1249/01.mss.0000760196.35540.67.

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38

TSUBOTA, Ken-ichi, Shigeo WADA e Takami YAMAGUCHI. "623 Blood Flow Simulation using Particle Method (Effects of Red Blood Cells on Blood Flow)". Proceedings of the JSME annual meeting 2005.1 (2005): 71–72. http://dx.doi.org/10.1299/jsmemecjo.2005.1.0_71.

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39

Hudlická, O. "Regulation of muscle blood flow". Clinical Physiology 5, n. 3 (giugno 1985): 201–29. http://dx.doi.org/10.1111/j.1365-2281.1985.tb00021.x.

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SummaryNervous control of muscle blood flew, exerted mainly by the sympathetic adrenergic filtres, is important under resting conditions and also mainly during haemorrhage (when both α and β receptors are involved), during light and flight and in flow redistribution to muscles during exercise. The role of other fibres (cholinergic, histaminergic and peptidergic) is discussed. Myogenic control is responsible for the high basal tone and, consequently, the relatively low resting blood flow. The main regulatory mechanism is. however, the adaptation of blood flow to metabolic demands. Thus at rest, flow is higher in muscles with a high proportion of oxidative fibres. The regulation of flow in contracting muscles is exerted by metabolites, and various metabolites seem to play different roles to different extents in different types of contractions, with several factors probably involved at any one time. Potassium seems to be more important in mixed, predominantly glycolytic, muscles during tetanic or long‐lasting isometric contractions; inorganic phosphate plays a role in short‐lasting contractions and is probably more involved in highly oxidative muscles. Adenosine may play a role in long‐lasting contractions in muscles with a high proportion of oxidative fibres. Dilatation of arterioles enables so‐called capillary recruitment during muscle contractions, which seems to be mainly the result of changes in the velocity of red blood cells and a variable percentage of capillaries with intermittent flow (with very few cells with zero velocity and a more homogeneous flow in contracting muscles) rather than opening of unperfused capillaries.
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40

Polak, K., E. Polska, A. Luksch, G. Dorner, G. Fuchsjäger-Mayrl, O. Findl, H.-G. Eichler, M. Wolzt e L. Schmetterer. "Choroidal blood flow and arterial blood pressure". Eye 17, n. 1 (gennaio 2003): 84–88. http://dx.doi.org/10.1038/sj.eye.6700246.

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41

Nafz, Benno, Heike Berthold, Heimo Ehmke, Hartmut R. Kirchheim e Pontus B. Persson. "Dissociation of Blood Pressure and Blood Flow". Kidney and Blood Pressure Research 20, n. 3 (1997): 205–9. http://dx.doi.org/10.1159/000174146.

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42

James, I. M., L. Yogendran, K. McLaughlin e C. Munro. "Blood Pressure Lowering and Cerebral Blood Flow". Journal of Cardiovascular Pharmacology 19, Supplement 1 (1992): S40—S43. http://dx.doi.org/10.1097/00005344-199219001-00009.

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43

NIIMI, Hideyuki. "Multi-Phase Flow Model of Blood Flow". JAPANESE JOURNAL OF MULTIPHASE FLOW 1, n. 1 (1987): 6–17. http://dx.doi.org/10.3811/jjmf.1.6.

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44

Chiao, Richard Y. "B‐mode blood flow (B‐Flow) imaging". Journal of the Acoustical Society of America 109, n. 5 (maggio 2001): 2360. http://dx.doi.org/10.1121/1.4744300.

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45

Asami, Naoya, Yoichi Yamazaki e Yoshimi Kamiyama. "Blood Flow Simulation during Flow-Mediated Dilation". IEEJ Transactions on Electronics, Information and Systems 138, n. 3 (2018): 221–27. http://dx.doi.org/10.1541/ieejeiss.138.221.

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46

Morales-Acuna, Francisco, Carolina Valencia e Alvaro N. Gurovich. "Blood Flow Patterns during Flow-Mediated Dilation". Medicine & Science in Sports & Exercise 51, Supplement (giugno 2019): 489. http://dx.doi.org/10.1249/01.mss.0000561969.51298.4e.

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47

Ündar, A., T. Masai, S. Q. Yang, M. Mueller, M. McGarry, R. Inman, O. H. Frazier e C. D. Fraser. "PULSATILE FLOW AND REGIONAL CEREBRAL BLOOD FLOW". ASAIO Journal 45, n. 2 (marzo 1999): 158. http://dx.doi.org/10.1097/00002480-199903000-00154.

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48

Asami, Naoya, Yoichi Yamazaki e Yoshimi Kamiyama. "Blood flow simulation during flow-mediated dilation". Electronics and Communications in Japan 101, n. 8 (25 giugno 2018): 19–26. http://dx.doi.org/10.1002/ecj.12083.

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49

Lima, Rui, Takuji Ishikawa, Hiroki Fujiwara, Motohiro Takeda, Yohsuke Imai, Ken-Ichi Tsubota, Noriaki Matsuki, Shigeo Wada e Takami Yamaguchi. "P-04 MEASUREMENT OF MULTI-RED BLOOD CELLS INTERACTIONS IN BLOOD FLOW BY CONFOCAL MICRO-PTV". Proceedings of the Asian Pacific Conference on Biomechanics : emerging science and technology in biomechanics 2007.3 (2007): S92. http://dx.doi.org/10.1299/jsmeapbio.2007.3.s92.

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50

Sadda, SrinivasR, Jyotsna Maram e Sowmya Srinivas. "Evaluating ocular blood flow". Indian Journal of Ophthalmology 65, n. 5 (2017): 337. http://dx.doi.org/10.4103/ijo.ijo_330_17.

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