Matthew Riegel scite author profile

Matthew Riegel

5Publications

64Citation Statements Received

340Citation Statements Given

How they've been cited

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176

322

Affiliations

University of Kansas, The University of Texas Southwestern Medical Center

Publications

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Estrogen Alters Remodeling of the Vaginal Wall after Surgical Injury in Guinea Pigs1

Balgobin

Montoya

Shi

et al. 2013

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Loss of pelvic organ support (i.e., pelvic organ prolapse) is common in menopausal women. Surgical reconstruction of pelvic organ prolapse is plagued with high failure rates. The objective of this study was to determine the effects of estrogen on biomechanical properties, lysyl oxidase (LOX), collagen content, and histomorphology of the vagina with or without surgical injury. Nulliparous ovariectomized guinea pigs were treated systemically with either 50 μg/kg/day estradiol (E2,) or vehicle. After 2 wk, vaginal surgery was performed, and animals were treated with either beta-aminopropionitrile (BAPN, an irreversible LOX inhibitor), or vehicle to determine the role of LOX in recovery of the vaginal wall from injury with or without E2. Estradiol resulted in (i) significant growth, increased smooth muscle, and increased thickness of the vagina, (ii) increased distensibility without compromise of maximal force at failure, and (iii) increased total and cross-linked collagen. In the absence of E2, BAPN resulted in decreased collagen and vaginal wall strength in the area of the injury. In contrast, in E2-treated animals, increased distensibility, maximal forces, and total collagen were maintained despite BAPN. Interestingly, LOX mRNA was induced dramatically (9.5-fold) in the injured vagina with or without E2 at 4 days. By 21 days, however, LOX levels declined to near baseline in E2-deprived animals. LOX mRNA levels remained strikingly elevated (12-fold) at 21 days in the estrogenized vagina. The results suggest that prolonged E2 induced increases in LOX, and collagen cross-links may act to sustain a matrix environment that optimizes long-term surgical wound healing in the vagina.

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The feasibility of ultrasound‐assisted endovascular laser thrombolysis in an acute rabbit thrombosis model

Singh

Riegel

et al. 2021

Medical Physics

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Purpose This study aimed to test the feasibility of combined ultrasound and laser technique, namely, ultrasound‐assisted endovascular laser thrombolysis (USELT), for thrombolysis by conducting in vivo tests in a rabbit thrombosis model. Materials and methods An acute thrombus was created in the right jugular vein of rabbit and then was treated with ultrasound only, laser only, and USELT to dissolve the blood clot. A total of 20 rabbits were used. Out of which, the first three rabbits were used to titrate the laser and ultrasound parameters. Then, five rabbits were treated with ultrasound only, five rabbits were treated with laser only, and seven rabbits were treated with USELT. During USELT, 532‐nm laser pulses were delivered endovascularly directly to the clot through a fiber optic, and 0.5 MHz ultrasound pulses were applied noninvasively to the same region. A laser fluence of 4 to 12 mJ/cm2 and ultrasound amplitude of 1 to 2 MPa were used. Recanalization of the jugular vein was assessed by performing ultrasound Doppler imaging immediately after the treatment. The maximum blood flow speed after the treatment as compared to its value before the treatment was used to calculate the blood flow recovery in vessel. Results The blood flow was fully recovered (100%) in three rabbits, partially recovered in two rabbits (more than 50% and less than 100%) with mean percentage recovery of 69.73% and poorly recovered in two rabbits (<50%) with mean percentage recovery of 6.2% in the USELT group. In contrast, the treatment group with ultrasound or laser alone did not show recanalization of vein in any case, all the five rabbits were poorly/not recovered with a mean percentage recovery of 0%. Conclusions The USELT technology was shown to effectively dissolve the blood clots in an acute rabbit jugular vein thrombosis model.

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A novel design biodegradable stent for use in congenital heart disease: Mid‐term results in rabbit descending aorta

Reddy

Welch

Wang

et al. 2014

Cathet Cardio Intervent

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Novel bioresorbable stent coating for drug release in congenital heart disease applications

Goodfriend

Welch

Barker

et al. 2014

J Biomedical Materials Res

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A novel double opposed helical poly-l-lactic acid (PLLA) bioresorbable stent has been designed for use in pediatrics. The aim was to test the PLLA stent biocompatibility. The PLLA stent was immersed into whole pig's blood in a closed loop circuit then fibrin and platelet association was assessed via enzyme-linked immunosorbent assay. D-Dimer was valued at 0.2 ± 0.002 ng/mL and P-selectin 0.43 ± 00.01 ng/mL indicating limited association of fibrin and platelets on the stent. To improve biocompatibility by targeting inflammatory cells, dexamethasone was incorporated on PLLA fibers with two coating methods. Both coatings were poly(l-lactide-co-glycolide) acid (PLGA) but one was made porous with sucrose while the other remained nonporous. There was no change in mechanical properties of the fiber with either coating of PLGA polymer. The total amount of dexamethasone released was then determined for each coating. The cumulative drug release for the porous fiber was significantly higher (∼100%) over 8 weeks than the nonporous fiber (40%). Surface examination of the fiber with scanning electron microscopy showed more surface microfracturing in coatings that contain pores. The biocompatibility of this novel stent was demonstrated. Mechanical properties of the fiber were not altered by coating with PLGA polymer. Anti-inflammatory drug release was optimized using a porous PLGA polymer.

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The impact of temperature and pump flow rate during selective cerebral perfusion on regional blood flow in piglets

Wang

Ginther

Riegel

et al. 2013

The Journal of Thoracic and Cardiovascular Surgery

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Matthew Riegel

Estrogen Alters Remodeling of the Vaginal Wall after Surgical Injury in Guinea Pigs1

The feasibility of ultrasound‐assisted endovascular laser thrombolysis in an acute rabbit thrombosis model

A novel design biodegradable stent for use in congenital heart disease: Mid‐term results in rabbit descending aorta

Novel bioresorbable stent coating for drug release in congenital heart disease applications

The impact of temperature and pump flow rate during selective cerebral perfusion on regional blood flow in piglets

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