1. Microvascular abnormalities in sickle cell disease: a computer-assisted intravital microscopy study
- Author
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Fern Tablin, Anthony T.W. Cheung, Edward C. Larkin, Sahana Ramanujam, Theodore Wun, Patricia L. Duong, and Peter C. Chen
- Subjects
Adult ,Pathology ,medicine.medical_specialty ,Adolescent ,Immunology ,Anemia, Sickle Cell ,Biochemistry ,Microcirculation ,Vascularity ,Image Processing, Computer-Assisted ,medicine ,Humans ,business.industry ,Vascular disease ,Videotape Recording ,Cell Biology ,Hematology ,medicine.disease ,Sickle cell anemia ,medicine.anatomical_structure ,Hemosiderin ,Hemorheology ,medicine.symptom ,business ,Conjunctiva ,Intravital microscopy ,Blood vessel - Abstract
The conjunctival microcirculation of 18 homozygous sickle cell disease (SCD) patients during steady-state, painful crisis, and postcrisis conditions was recorded on high-resolution videotapes using intravital microscopy. Selected videotape sequences were subsequently coded, frame-captured, studied, and blindly analyzed using computer-assisted image analysis protocols. At steady-state (baseline), all SCD patients exhibited some of the following morphometric abnormalities: abnormal vessel diameter, comma signs, blood sludging, boxcar blood flow phenomenon, distended vessels, damaged vessels, hemosiderin deposits, vessel tortuosity, and microaneurysms. There was a decrease in vascularity (diminished presence of conjunctival vessels) in SCD patients compared with non-SCD controls, giving the bulbar conjunctiva a “blanched” avascular appearance in most but not all SCD patients during steady-state. Averaged steady-state red cell velocity in SCD patients was slower than in non-SCD controls. During painful crisis, a further decrease in vascularity (caused by flow stoppage in small vessels) and a 36.7% ± 5.2% decrease in large vessel (mostly venular) diameter resulted. In addition, the conjunctival red cell velocities either slowed significantly (6.6% ± 13.1%; P
- Published
- 2002
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