Lymphedema arises from impaired lymphatic function. Quantification of lymphatic contractility has previously been shown using a custom-built near-infrared imaging system. However, to broaden the ...clinical use of functional lymphatic measurements, these measurements need to be performed using a standard-of-care, clinically available camera. The authors propose an objective, algorithmic, and clinically accessible approach to quantify lymphatic contractility using a 3-minute indocyanine green lymphangiograph recorded with a commercially available near-infrared camera. A retrospective review of the authors’ indocyanine green lymphangiography video repository maintained in a Research Electronic Data Capture database was performed. All patients with a newly diagnosed unilateral breast cancer undergoing preoperative indocyanine green lymphangiography were included in the analysis. Patient medical records were then analyzed for patient demographics, and videos were analyzed for contractility. Seventeen consecutive patients with unilateral breast cancers underwent video processing to quantify lymphatic contractility of the ipsilateral extremity in contractions per minute. All patients were women, with an average age of 60.5 years (range, 38 to 84 years). The average lymphatic contractility rate was 1.13 contractions per minute (range, 0.67 to 2.5 contractions per minute). Using a clinically accessible standard-of-care device for indocyanine green lymphangiography, the authors were able to determine lymphatic contractility rates of a normal extremity. The authors’ finding falls within the range of previously published data quantifying lymphatic contractility using a research device, suggesting that the authors’ technique provides a clinically accessible, time-effective means of assessing lymphatic contractility. Potential future applications include both lymphedema surveillance and evaluation of nonsurgical and surgical interventions.
CLINICAL QUESTION/LEVEL OF EVIDENCE:Diagnostic, IV.
Lymphatic vessels in health and disease Kesler, Cristina T.; Liao, Shan; Munn, Lance L. ...
Wiley interdisciplinary reviews. Systems biology and medicine,
January/February 2013, Letnik:
5, Številka:
1
Journal Article
Recenzirano
Odprti dostop
The lymphatic vasculature plays vital roles in tissue fluid balance, immune defense, metabolism, and cancer metastasis. In adults, lymphatic vessel formation and remodeling occur primarily during ...inflammation, development of the corpus luteum, wound healing, and tumor growth. Unlike the blood circulation, where unidirectional flow is sustained by the pumping actions of the heart, pumping actions intrinsic to the lymphatic vessels themselves are important drivers of lymphatic flow. This review summarizes critical components that control lymphatic physiology. WIREs Syst Biol Med 2013, 5:111–124. doi: 10.1002/wsbm.1201
This article is categorized under:
Physiology > Mammalian Physiology in Health and Disease
REPLY TO DAVIS Kunert, Christian; Baish, James W.; Liao, Shan ...
Proceedings of the National Academy of Sciences,
01/2016, Letnik:
113, Številka:
2
Journal Article
Recent improvements in diagnostic methods have opened avenues for detection and treatment of (pre)malignant lesions at early stages. However, due to the lack of spontaneous tumor models that both ...mimic human carcinogenesis and allow direct optical imaging of the vasculature, little is known about the function of blood and lymphatic vessels during the early stages of cancer development. Here, we used a spontaneous carcinogenesis model in the skin of DNA polymerase eta-deficient mice and found that interstitial fluid pressure was already elevated in the hyperplastic/dysplastic stage. This was accompanied by angiogenic blood vasculature that exhibited altered permeability, vessel compression, and decreased alpha-smooth muscle actin-positive perivascular cell coverage. In addition, the lymphatic vessels in hyperplastic/dysplastic lesions were partly compressed and nonfunctional. These novel insights may aid early detection and treatment strategies for cancer.
Lymphatic vessel endothelial hyaluronan receptor (LYVE)-1 is thought to be restricted to lymph vessels and has been used as such to show that tumor lymphangiogenesis occurs on overexpression of ...lymphangiogenic factors in mouse tumor models. However, these studies have not yet been corroborated in human tumors. Here we show, first, that LYVE-1 is not exclusive to the lymph vessels. Indeed, LYVE-1 is also present in normal hepatic blood sinusoidal endothelial cells in mice and humans. Surprisingly, LYVE-1 is absent from the angiogenic blood vessels of human liver tumors and only weakly present in the microcirculation of regenerative hepatic nodules in cirrhosis, though both vessels are largely derived from the liver sinusoids. Second, we propose a novel approach to identify lymphatics in human and murine liver. By combining LYVE-1 and Prox 1 (a transcription factor) immunohistochemistry, we demonstrate that lymphatics are abundant in cirrhosis. In contrast, in human hepatocellular carcinoma and liver metastases, they are restricted to the tumor margin and surrounding liver. The absence of intratumor lymphatics in hepatocellular carcinomas and liver metastases may impair molecular and cellular transport in these tumors. Finally, the presence of LYVE-1 in liver sinusoidal endothelia suggests that LYVE-1 has functions beyond the lymph vascular system.
Molecular cancer therapy relies on interstitial diffusion for drug distribution in solid tumors. A mechanistic understanding of how tumor components affect diffusion is necessary to advance cancer ...drug development. Yet, because of limitations in current techniques, it is unclear how individual tissue components hinder diffusion. We developed multiscale fluorescence recovery after photobleaching (MS-FRAP) to address this deficiency. Diffusion measurements facilitated by MS-FRAP distinguish the diffusive hindrance of the interstitial versus cellular constituents in living tissue. Using multiscale diffusion measurements in vivo, we resolved the contributions of these two major tissue components toward impeding diffusive transport in solid tumors and subcutaneous tissue in mice. We further used MS-FRAP in interstitial matrix-mimetic gels and in vivo to show the influence of physical interactions between collagen and hyaluronan on diffusive hindrance through the interstitium. Through these studies, we show that interstitial hyaluronan paradoxically improves diffusion and that reducing cellularity enhances diffusive macromolecular transport in solid tumors.
Chronic imaging windows in mice have been developed to allow intravital microscopy of many different organs and have proven to be of paramount importance in advancing our knowledge of normal and ...disease processes. A model system that allows long-term intravital imaging of lymph nodes would facilitate the study of cell behavior in lymph nodes during the generation of immune responses in a variety of disease settings and during the formation of metastatic lesions in cancer-bearing mice. We describe a chronic lymph node window (CLNW) surgical preparation that allows intravital imaging of the inguinal lymph node in mice. The CLNW is custom-made from titanium and incorporates a standard coverslip. It allows stable longitudinal imaging without the need for serial surgeries while preserving lymph node blood and lymph flow. We also describe how to build and use an imaging stage specifically designed for the CLNW to prevent (large) rotational changes as well as respiratory movement during imaging. The entire procedure takes approximately half an hour per mouse, and subsequently allows for longitudinal intravital imaging of the murine lymph node and surrounding structures for up to 14 d. Small-animal surgery experience is required to successfully carry out the protocol.
The compression of brain tissue by a tumour mass is believed to be a major cause of the clinical symptoms seen in patients with brain cancer. However, the biological consequences of these physical ...stresses on brain tissue are unknown. Here, via imaging studies in patients and by using mouse models of human brain tumours, we show that a subgroup of primary and metastatic brain tumours, classified as nodular on the basis of their growth pattern, exert solid stress on the surrounding brain tissue, causing a decrease in local vascular perfusion as well as neuronal death and impaired function. We demonstrate a causal link between solid stress and neurological dysfunction by applying and removing cerebral compression, which respectively mimic the mechanics of tumour growth and of surgical resection. We also show that, in mice, treatment with lithium reduces solid-stress-induced neuronal death and improves motor coordination. Our findings indicate that brain-tumour-generated solid stress impairs neurological function in patients, and that lithium as a therapeutic intervention could counter these effects.
Vascular endothelial growth factor (VEGF)-C is known to induce hyperplasia in normal murine lymphatics and in peritumor lymphatics. Here, we examine the function of these hyperplastic peritumor ...lymphatics. Microlymphangiography of B16F10 melanomas growing in the murine dorsal skinfold chamber showed that the number of functional, draining lymphatics in the peritumor tissue of VEGF-C-overexpressing tumors was significantly greater than that in mock-transduced tumors (9.5 +/- 1.0 versus 6.3 +/- 0.4; n = 6; P < 0.05). Forty percent of functional lymphatics associated with VEGF-C-overexpressing tumors contained proliferating lymphatic endothelial cells. Surprisingly, these new, functional lymphatic vessels displayed a retrograde draining pattern, which indicates possible dysfunction of the intraluminal valves of these vessels.
BACKGROUNDBreast cancer–related lymphedema affects 700,000 breast cancer survivors in the United States. Although taxane-based chemotherapy regimens are commonly used in the treatment of breast ...cancer, the impact of taxanes on the lymphatic system remains poorly understood. This study aims to examine the influence of taxane-based chemotherapy on lymphatic function in breast cancer patients.
METHODSA retrospective review of a prospectively-maintained database was performed. Consecutive patients with node positive breast cancer who underwent preoperative indocyanine green (ICG) lymphangiograms were identified. Information including patient demographics, baseline measurements, cancer characteristics, and treatment information were retrieved. Preoperative ICG lymphangiography videos were analyzed and lymphatic contractility was quantified for each subject. Multiple regions of interest were selected on each lymphatic channel and signal intensity was recorded for 3 minutes to generate contractility curves. Each lymphatic contraction was identified using a novel, systematic, and algorithmic approach.
RESULTSTwenty-nine consecutive patients with unilateral node-positive breast cancer were included for analysis. Average patient age was 54.5 (13) years and mean BMI was 26.8 kg/m (4). The mean lymphatic contractility of patients who received taxane-based neoadjuvant chemotherapy was 0.7 contractions/minute (c/m) (n = 19) compared to 1.1 c/m in those who received no neoadjuvant therapy (n = 10), (P = 0.11). In subgroup analysis, patients who reported taxane induced neuropathy demonstrated significantly lower lymphatic contractility values than those who were asymptomatic or did not receive any chemotherapy (P = 0.018).
CONCLUSIONSIn this study, we used a novel method for quantifying and evaluating lymphatic contractility rates in routine ICG lymphangiograms. Diminished lymphatic contractility was noted in patients who received taxane-based neoadjuvant chemotherapy compared with those who did not. Taxane-based neoadjuvant chemotherapy may adversely affect the lymphatic system in the breast cancer population. A larger patient cohort with longer follow-up time is needed to validate this finding and evaluate any potential association with breast cancer–related lymphedema development.
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