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Lymph Drainage (lymph + drainage)
Selected AbstractsLymph drainage of the mammary glands in female catsJOURNAL OF MORPHOLOGY, Issue 3 2006F. Raharison Abstract The mammary gland is a common site of neoplasms in the female cat. All the malignant tumors metastasize to a lesser or a greater extent through the lymphatic system. However, the anatomical knowledge of this system is not sufficiently well known in cats to develop a reasoned model for the extirpation of these glands in case of malignant tumors. A study of the lymph drainage in 50 female cats was done by indirect injection in vivo of India ink inside the mammary parenchyma. After a waiting interval, mammary glands were extracted and the thoracic cavity opened. All the lymph nodes were examined after clearing. The success rate of the colorations of lymph nodes and lymph vessels was 91.8%. Out of the 100 observed mammary chains, the two intermediate mammary glands (T2, A1) may drain caudally to the superficial inguinal lymph center and/or cranially to the axillary lymph center. The T1 gland always drains exclusively cranially and A2 exclusively caudally. The two mammary glands (T1 and A1) often drain towards the sternal cranial lymph nodes, but 100% of the T2 drain towards it. This research assumes that the limit between the two directions of drainage can exist only between glands T2 and A1. The results obtained with the study of the 1st, 2nd, 3rd, and 4th mammary glands permit production of new and more complete data of functional significance that will eventually aid block dissection surgical technique in the removal of malignant tumors in cats. J. Morphol. © 2005 Wiley-Liss, Inc. [source] Manual lymph drainage for equine lymphoedema-treatment strategy and therapist trainingEQUINE VETERINARY EDUCATION, Issue 1 2007C. Fedele First page of article [source] The rapidly adapting receptors in mammalian airways and their responses to changes in extravascular fluid volumeEXPERIMENTAL PHYSIOLOGY, Issue 4 2006C. Tissa Kappagoda In this short review, we shall focus on some recent findings on the physiological stimulus for the rapidly adapting receptors (RAR) of the airways. They are readily activated by a sustained inflation of the lungs and they are usually identified by their rapid adaptation to this stimulus. They are also activated by both tactile stimuli and irritant gases applied to the epithelium of the airways. The investigations reviewed here suggest that these receptors are activated by changes in extravascular fluid volume. The principal factors governing fluid flux from the microcirculation are identified in the Starling equation. These are the hydrostatic pressure, plasma oncotic pressure and capillary permeability. Findings from recent studies suggest that all these factors increase the activity of RAR. In addition, these receptors are also activated by obstruction of lymph drainage from the lung. Evidence is presented to show that manipulation of Starling forces also increases the extravascular fluid volume of the airways in areas where the RAR are located. On the basis of these findings, it is suggested that, along with mechanosensitivity to stimuli such as stretch, inflation and deflation, another physiological stimulus to the RAR is a change in extravascular fluid volume in the regions of the airways where these receptors are located. [source] Manual lymph drainage reduces trapdoor effect in subcutaneous island pedicle flapsINTERNATIONAL JOURNAL OF DERMATOLOGY, Issue 12 2006Gyõzõ Szolnoky MD No abstract is available for this article. [source] Feasibility of antegrade radical prostatectomy for clinically locally advanced prostate cancer: a comparative study with clinically localized diseaseINTERNATIONAL JOURNAL OF UROLOGY, Issue 8 2010Shinya Yamamoto Objectives: To investigate intraoperative and early postoperative complications of antegrade radical prostatectomy with intended wide resection (aRP) for clinically locally advanced prostate cancer (cLAD) and to compare with those of aRP for clinically localized prostate cancer (cLD). Methods: Between March 1994 and June 2007, 800 consecutive Japanese patients including 625 with cLD and 175 with cLAD underwent aRP and bilateral limited lymphadenectomy. Clinicopathological data including intraoperative and early postoperative complications (within 30 days after operation) were compared between cLD and cLAD groups. Results: No deaths occurred. Operative time and blood loss did not differ significantly between the groups. Intraoperative and early postoperative complications were observed in 11 (1.4%) and 123 (15.4%) of the entire cohort, respectively. Prevalent early postoperative complications were pelvic hematoma, wound infection, urinary retention and lymphocele or prolonged lymph drainage. There were no significant differences in the entire intraoperative and early postoperative complications between the groups. The majority of the early postoperative complications were minor. Conclusions: aRP for cLAD is technically feasible and a safe surgical procedure. If radical prostatectomy could be established as a standard treatment for cLAD in the future, aRP might be valuable as the first step of multimodal treatments. [source] Pharmacological prophylaxis of venous thromboembolism in contemporary radical retropubic prostatectomy: Does concomitant pelvic lymphadenectomy matter?INTERNATIONAL JOURNAL OF UROLOGY, Issue 11 2008Benjamin C Jessie Abstract The prevention of venous thromboembolism is a major concern in cancer patients undergoing pelvic surgery. Radical retropubic prostatectomy is a common treatment for localized prostate cancer and has been identified as a high risk procedure for postoperative venous thromboembolism. However, most patients diagnosed with prostate cancer in the current era have clinically localized, low volume disease and the risk of venous thromboembolism is very low. Multiple guidelines exist for the prevention of venous thromboembolism in patients undergoing radical retropubic prostatectomy and pharmacological venous thromboembolism prophylaxis is recommended. Most urological surgeons in the USA however, do not routinely utilize pharmacological prophylaxis. A major concern arises when radical retropubic prostatectomy is performed with a concomitant pelvic lymphadenectomy. Pharmacological prophylaxis is known to increase the rate of lymph drainage and the rate of lymphocele formation. Evidence suggests that lymphocele may be an independent risk factor for venous thromboembolism in the postoperative period. These factors raise concern over current guidelines calling for routine use of pharmacological venous thromboembolism prophylaxis in radical retropubic prostatectomy especially when lymphadenectomy is performed simultaneously. [source] Changes in adipocytes and dendritic cells in lymph node containing adipose depots during and after many weeks of mild inflammationJOURNAL OF ANATOMY, Issue 6 2005Dawn Sadler Abstract The time course and cellular basis for inflammation-induced hypertrophy of adipose tissue were investigated over 20 weeks in mature male rats. Mild inflammation was induced by subcutaneous injection of 20 µg lipopolysaccharide into one hind-leg three times/week for 4 or 8 weeks, followed by up to 12 weeks ,rest' without intervention. Mean volume and frequency of apoptosis (TUNEL assay) were measured in adipocytes isolated from sites defined by their anatomical relations to lymph nodes, plus numbers of CCL21-stimulated lymph node-derived and adipose tissue-derived dendritic cells. Experimental inflammation increased dendritic cells and adipocyte apoptosis in the locally stimulated popliteal depot and the lymphoid tissue-associated regions of the contralateral popliteal and mesentery and omentum. Responses declined slowly after inflammation ended, but all measurements from the locally stimulated popliteal depot, and the omentum, were still significantly different from controls after 12 weeks rest. The locally stimulated popliteal adipose tissue enlarged by 5% within 4 weeks and remained larger than the control. We conclude that prolonged inflammation induces permanent enlargement, greater adipocyte turnover and increased dendritic cell surveillance in the adjacent adipose tissue and the omentum. The experiment suggests a mechanism for selective hypertrophy of lymphoid tissue-associated adipose tissue in chronic stress and inflammatory disorders, including impaired lymph drainage, Crohn's disease and HIV-associated lipodystrophy, and a link between evolutionary fitness, sexual selection and aesthetically pleasing body symmetry. It would be useful for further study of molecular mechanisms in inflammation-induced local hypertrophy of adipose tissue and development of specific therapies that avoid interference with whole-body lipid metabolism. [source] Lymph drainage of the mammary glands in female catsJOURNAL OF MORPHOLOGY, Issue 3 2006F. Raharison Abstract The mammary gland is a common site of neoplasms in the female cat. All the malignant tumors metastasize to a lesser or a greater extent through the lymphatic system. However, the anatomical knowledge of this system is not sufficiently well known in cats to develop a reasoned model for the extirpation of these glands in case of malignant tumors. A study of the lymph drainage in 50 female cats was done by indirect injection in vivo of India ink inside the mammary parenchyma. After a waiting interval, mammary glands were extracted and the thoracic cavity opened. All the lymph nodes were examined after clearing. The success rate of the colorations of lymph nodes and lymph vessels was 91.8%. Out of the 100 observed mammary chains, the two intermediate mammary glands (T2, A1) may drain caudally to the superficial inguinal lymph center and/or cranially to the axillary lymph center. The T1 gland always drains exclusively cranially and A2 exclusively caudally. The two mammary glands (T1 and A1) often drain towards the sternal cranial lymph nodes, but 100% of the T2 drain towards it. This research assumes that the limit between the two directions of drainage can exist only between glands T2 and A1. The results obtained with the study of the 1st, 2nd, 3rd, and 4th mammary glands permit production of new and more complete data of functional significance that will eventually aid block dissection surgical technique in the removal of malignant tumors in cats. J. Morphol. © 2005 Wiley-Liss, Inc. [source] Review article: lymphatic system and associated adipose tissue in the development of inflammatory bowel diseaseALIMENTARY PHARMACOLOGY & THERAPEUTICS, Issue 6 2010P.-Y. Von Der Weid Summary Background, The lymphatic system plays critical roles in tissue fluid homoeostasis, immune defence and metabolic maintenance. Lymphatic vessels transport lymph, proteins, immune cells and digested lipids, allowing fluid and proteins to be returned to the blood stream, lipids to be stored and metabolized and antigens to be sampled in lymph nodes. Lymphatic drainage is mainly driven by rhythmic constrictions intrinsic to the vessels and critically modulated by fluid pressure and inflammatory mediators. Aim, To collect and discuss the compelling available information linking the lymphatic system, adiposity and inflammation. Methods, A literature search was performed through PubMed focusing on lymphatic system, inflammation, immune cells and fat transport and function in the context of IBD. Results, Evidence collected allows us to propose the following working model. Compromised lymph drainage, reported in IBD, leads to oedema, lymphangiogenesis, impaired immune cell trafficking and lymph leakage. Lymph factor(s) stimulate adipose tissue to proliferate and produce cytokines, which affect immune cell functions and exacerbate inflammation. Conclusions, Understanding the lymphatic system's role in immune cell trafficking and immune responses, contribution to fat transport, distribution, metabolism and implication in the pathogenesis of chronic intestinal inflammation may provide the basis for new therapeutic strategies and improved quality-of-life. [source] The immunocompromised district: a unifying concept for lymphoedematous, herpes-infected and otherwise damaged sitesJOURNAL OF THE EUROPEAN ACADEMY OF DERMATOLOGY & VENEREOLOGY, Issue 12 2009V Ruocco Abstract Systemic immunodeficiency is known to facilitate the onset of opportunistic infections, tumours and immune disorders in any district of the body. There are clinical events, such as chronic lymphoedema, herpetic infections, vaccinations and heterogeneous physical injuries which can selectively damage and immunologically mark the cutaneous district they act upon. After the causing event has disappeared, the affected district may appear clinically normal, but its immune behaviour is often compromised forever. An immunocompromised district becomes a site which is particularly susceptible to subsequent outbreaks of opportunistic infections, tumours and immune disorders confined to the district itself. In this review, there is an ample case-report collection of opportunistic disorders (infectious, neoplastic, immune) which appeared in immunocompromised districts. The cases have been grouped according to the clinical settings responsible for the local immune imbalance: regional chronic lymphoedema; herpes-infected sites, which feature the well-known Wolf's isotopic response; and otherwise damaged areas, comprising sites of vaccination, ionizing or UV radiation, thermal burns and traumas. Whatever the immunocompromising factor, a common denominator which facilitates the occurrence of tumours, infections and dysimmune reactions in an immunocompromised district may reside in locally hampered lymph drainage and/or locally altered neuromediator signalling. In fact, any obstacle to the normal trafficking of immunocompetent cells through lymphatic channels or any interference with the signals that the neuropeptides and neurotransmitters released by peripheral nerves send to cell membrane receptors of immunocompetent cells, can significantly alter the local immune response, thus paving the way for heterogeneous opportunistic disorders in the immunocompromised district. [source] Asbestos fibers in para-aortic and mesenteric lymph nodesAMERICAN JOURNAL OF INDUSTRIAL MEDICINE, Issue 6 2009Toomas Uibu MD Abstract Background Asbestos fibers are known to accumulate in lung parenchyma and thoracic lymph nodes, but their presence and translocation into the extrapulmonary tissues need clarification. We assessed the presence of asbestos in the para-aortic (PA) and mesenteric (ME) lymph nodes. Methods PA and ME lymph nodes and lung tissue from 17 persons who underwent medicolegal autopsy for suspicion of asbestos-related disease and from five controls were analyzed for asbestos fibers using transmission electron microscopy. Results High concentrations of amphibole asbestos fibers were detected in several lung tissue samples and in the respective PA and ME lymph nodes. The mean concentration for the 10 persons with a lung asbestos content of ,1 million fibers/g of dry tissue (f/g) was 0.85 (<0.05,4.36) million f/g in the PA lymph nodes and 0.55 (<0.02,2.86) million f/g in the ME lymph nodes. The respective mean values for the 12 persons with a lung asbestos concentration of <1 million f/g were 0.07 for the PA lymph nodes and 0.03 million f/g for the ME nodes. The lung asbestos burden that predicted the detection of asbestos in abdominal lymph nodes was 0.45 million f/g. Conclusions In addition to their accumulation in lung tissue, asbestos fibers also collect in the retroperitoneal and the mesenteric lymph nodes. Even low-level occupational exposure results in the presence of crocidolite, amosite, anthophyllite, tremolite, or chrysotile in these abdominal lymph nodes. Our results support the hypothesis of lymph drainage as an important translocation mechanism for asbestos in the human body. Am. J. Ind. Med. 52:464,470, 2009. © 2009 Wiley-Liss, Inc. [source] The Lymph Drainage Pattern of the Mammary Glands in the Cat: A Lymphographic and Computerized Tomography Lymphographic StudyANATOMIA, HISTOLOGIA, EMBRYOLOGIA, Issue 4 2009P. L. Papadopoulou Summary Seventy-three clinically normal, lactating cats were used to investigate the lymph drainage of 73 mammary glands. In 50 cats of the first group, the number of lymphatic vessels emerging from the examined mammary gland, their course and the lymph nodes into which they are drained were studied by indirect lymphography (IL) after intramammary injection of an oily contrast medium. In 23 cats of the second group, the lymph drainage of the mammary glands was studied by computerized tomography indirect lymphography (CT-IL) after intramammary injection of a water soluble contrast medium. The following day, the lymph drainage of the mammary gland examined by CT-IL was studied by IL, as it was described in the first group, for comparison purposes. The main conclusions drawn after this study were as follows: lymph drains from the first and second mammary glands with one or rarely two or three lymphatic vessels to the accessory axillary lymph nodes. Lymph drains from the third mammary gland with one or two and rarely three lymphatic vessels usually to the accessory inguinal lymph nodes or to the accessory axillary lymph nodes. In some cases, it drains to both lymph nodes simultaneously or it may rarely drain only to the medial iliac lymph nodes. The fourth mammary gland with one or two and rarely three lymphatic vessels usually drains to the accessory inguinal lymph nodes. It may rarely drain only to the medial iliac lymph nodes. Mammary lymphatic vessels that cross the midline and lymphatic connection between the mammary glands were not demonstrated. No differences in the mammary lymph drainage pattern between IL and CT-IL were found. [source] Hand dermatitis and lymphoedemaBRITISH JOURNAL OF DERMATOLOGY, Issue 1 2009V.J. Pearce Summary Hand dermatitis is common, with lymphoedema of the hand and forearm a rare complication. The mechanism of lymphoedema in such cases is poorly understood, hence management can be challenging. To investigate the underlying mechanism of lymphoedema associated with hand dermatitis and outline recommendations for management, we identified all patients with lymphoedema associated with hand dermatitis referred to our lymphoedema service, a tertiary referral centre. Treatment outcome was assessed by telephone interview and through correspondence with primary physicians and therapists. In total, nine patients, six with bilateral and three with unilateral lymphoedema associated with hand dermatitis, attended our service over a 4-year period. Most had long-standing bilateral pompholyx eczema. Three patients reported no signs of infection prior to the onset of swelling. All patients had recurrent episodes of infection after the onset of swelling. Lymphoscintigraphy, when used, revealed a failure of small initial lymphatics of the hand to absorb and drain lymph to regional nodes. Prophylactic antibiotics together with aggressive management of the dermatitis, often with systemic therapy, were required to reduce swelling. Possible mechanisms for lymphoedema associated with hand dermatitis include obliterative lymphangitis from infection, an inflammatory effect of the dermatitis on local lymphatics or a constitutive weakness of lymph drainage exposed to chronic inflammation, or any combination of the three. Treatment is only successful once both infection and inflammation from the dermatitis are controlled. [source] | |||||||||||||