R Greene

Publications (6)7 Total impact

• Article: Lymphatic drainage of the heart in the laboratory rat.

  S M Maurice, A S Palmer, A J Miller, R Greene
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  ABSTRACT: We showed in the Sprague Dawley rat that the principal ascending cardiac lymphatic is similar in location to that of man and dog and can be readily visualized by injection of a small amount of T1824 blue dye (Evans) into the apex of the left ventricle. We also showed that it is possible to ligate and thereby obstruct this principal cardiac lymphatic near its entry beneath the left atrial appendage. This latter technique may be useful for studying in a small relatively inexpensive laboratory animal the effects of blocking cardiac lymph drainage on inflammatory and infectious processes implicated in myocardial and coronary artery disease.
  Lymphology 10/2001; 34(3):145-8. · 1.02 Impact Factor
• Article: Failure of the canine principal ascending epicardial lymphatic to regenerate after transection.

  A J Miller, A S Palmer, O Eliska, M Eliskova, A DeBoer, R Greene
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  ABSTRACT: We transected the principal ascending anterior epicardial cardiac lymphatic in 10 dogs, and after varying time intervals reoperated to look for lymphatic regeneration using dye injection. Photographs and sketches were made to record the findings, and in six dogs serial histologic sections were also examined. In none of the 10 dogs was regeneration of the transected principal cardiac lymphatic detected although small lymphatic collaterals from the distal side of the lymphatic developed in 2 dogs. Further studies are merited to assess the role of lymphatic insufficiency in the development of coronary vasculopathy and chronic rejection after cardiac transplantation and other heart operations (e.g., coronary artery bypass) that may injure lymphatic drainage capacity.
  Lymphology 04/1999; 32(1):29-35. · 1.02 Impact Factor
• Article: Gas tensions in cardiac lymph as a reflection of the interstitial space of the heart.

  A S Palmer, A J Miller, C Davis, R Greene
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  ABSTRACT: The purpose of this study was to determine the feasibility of measuring partial pressure of oxygen (pO2), partial pressure of carbon dioxide (pCO2), and pH in cardiac lymph and to evaluate the relationship of these parameters to comparable measurements in arterial and coronary sinus blood in the normal heart under various respiratory conditions. In four anesthetized open-chest dogs, the principal cardiac lymphatic as well as the femoral artery and coronary sinus were cannulated. Ventilation was varied by changing oxygen concentration, tidal volume, and respiratory rate. PO2, pCO2, and pH were measured in the cardiac lymph, arterial blood, and coronary sinus blood after each change in ventilation. For pH and pCO2, good correlations were observed between the arterial blood and cardiac lymph, arterial blood and coronary sinus blood, and coronary sinus blood and cardiac lymph. The correlation between the pO2 measured in the arterial blood and the pO2 measured in the cardiac lymph was not as strong, and this may have been related to difficulty achieving a steady state. Gas tensions (pO2, pCO2, and pH) can be measured in cardiac lymph and may provide a window to the interstitial compartment of the heart. This is an additional tool for the laboratory study of ischemia and other forms of heart disease.
  Angiology 10/1998; 49(9):735-41. · 1.51 Impact Factor
• Article: The lymphatic drainage of the left ventricle in the Yucatan minipig.

  A S Palmer, A J Miller, R Greene
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  ABSTRACT: The gross anatomy of the cardiac lymphatic system draining the left ventricle was studied in 15 Yucatan minipigs and 2 regular swine. The findings confirm that the drainage pathways are similar to those of man and dog. After a coloring marker is injected near the apex of the left ventricle, one or more lymphatics are seen to ascend towards the left atrial appendage. Where there is more than one ascending lymphatic, they typically join before or at the left atrial appendage. This principal lymphatic then passes beneath the appendage and travels behind (dorsal to) the pulmonary artery and aorta to the right side of the mediastinum. From here, the lymphatic passes cephalad along the left border of the superior vena cava to enter the cardiac lymph node between the superior vena cava and the trachea.
  Lymphology 04/1998; 31(1):30-3. · 1.02 Impact Factor
• Article: Visualization of the lymphatics of the heart and the mediastinal drainage pathways in the living cynomolgous (Macaca mulatta) monkey.

  A J Miller, A S Palmer, O Eliska, M Eliskova, A DeBoer, R Greene
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  ABSTRACT: Our interest in the effects of impaired cardiac lymph drainage on coronary atherosclerosis led us to study the cardiac lymphatic anatomy in the monkey, generally considered the ideal experimental animal for examining coronary artery disorders. Short-term and long-term studies to visualize the cardiac lymphatic system and its mediastinal drainage pathways in 14 living monkeys confirmed that the epicardial collecting lymphatic anatomy is comparable to that of man, dog, and pig. These lymphatics, and particular lymphatic drainage to the cardiac lymph node in the right mediastinum, are difficult to visualize, in good part, because lymph uptake of such tracers as India Ink and T1824 blue dye is extremely slow. By modifying our techniques and taking cognizance of the slow lymphatic uptake of the tracers, we have been more successful in visualizing the mediastinal cardiac lymph node. Though our studies confirm that the lymphatic drainage of the monkey heart is similar to that in other mammals, we conclude that the "monkey model" has several drawbacks to study the effects of impaired cardiac lymph flow because of the laborious requirements to visualize successfully the cardiac lymph node. Perhaps the development of new markers would make this lymphatic system more approachable for experimental investigation.
  Lymphology 01/1997; 29(4):158-65. · 1.02 Impact Factor
• Article: Nuclear scanning with technetium-99m-sestamibi to evaluate ischemia in muscle flaps for cardiomyoplasty.

  A S Palmer, S M Spies, A J Miller, R Greene, A Balino
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  ABSTRACT: Mobilization of the latissimus dorsi muscle from the chest wall for cardiomyoplasty interrupts part of its blood supply. The time required for adequate collaterals to develop from the thoracodorsal artery is unknown. In four dogs, the latissimus dorsi muscle was mobilized as for cardiomyoplasty and stimulating electrodes were implanted. The muscle was replaced on the chest wall over a sheet of Gore-Tex (W. L. Gore & Associates, Inc. Flagstaff, AZ) membrane to block growth of collateral vessels from the chest wall. The opposite latissimus dorsi muscle served as the control. After a delay of 2 weeks the latissimus dorsi was burst stimulated at a rate of 80 per min with two 100 msec bursts at 85 Hz and 25 Hz for 30 min. Technetium-99m-sestamibi scans were then done to detect ischemia. Serial studies were done during the next several weeks. Images at 4 weeks demonstrated maximum uptake in the mobilized muscle, which did not subsequently improve. The authors conclude that the mobilized latissimus dorsi muscle can be imaged with technetium-99m-sestamibi and evidence of ischemia resolves at 4 weeks. These findings suggest that collateral flow is adequate as early as 4 weeks after mobilization of the latissimus dorsi muscle for cardiomyoplasty.
  ASAIO Journal 41(3):M508-11. · 1.39 Impact Factor