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Fig 1.

Geometry of the catheterized artery.

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Fig 1 Expand

Table 1.

Plausible values of involved parameters for different blood vessels [29, 40, 41].

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Table 1 Expand

Table 2.

Values of Womersley number for different blood vessels [42].

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Table 2 Expand

Fig 2.

Variation of velocity with radial distance for (α = 0.5, β = 0.9, B1 = 2, B2 = 1, k = 0.1, e = 0.3).

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Fig 2 Expand

Fig 3.

Variation of velocity with radial distance for different values of catheter radius (t = 0.3, λ1 = 0.2, λ2 = 0.1, α = 0.5, β = 0.9, B1 = 2, B2 = 1, e = 0.3).

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Fig 3 Expand

Fig 4.

Variation of velocity with radial distance with different peripheral layer position (t = 1, e = 0.3, λ1 = 0.2, λ2 = 0.1, α = 0.5, B1 = 2, B1 = 1).

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Fig 4 Expand

Fig 5.

Variation of velocity with radial distance with (t = 0.3, B2 = 2, e = 0.5, α = 0.5, B1 = 2 β = 0.9).

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Fig 5 Expand

Fig 6.

Variation of velocity with radial distance with the variation of α (t = 0.3, B1 = 2, λ1 = 0.2, λ2 = 0.2, e = 0.5, B2 = 2, β = 0.9).

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Fig 6 Expand

Fig 7.

Variation of velocity with radial distance with the variation of B2 (t = 0.3, B1 = 2, λ1 = 0.2, λ2 = 0.2, e = 0.5, β = 0.9, α = 0.5).

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Fig 7 Expand

Fig 8.

Variation of flow rate in a cycle of oscillation for different values of λ1 and λ2 with (β = 0.9, B1 = 2, e = 0.5, B2 = 0.0, α = 0.5).

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Fig 8 Expand

Fig 9.

Variation of flow rate in a cycle of oscillation for different values of e and α with (e = 0.5, λ1 = 0.2, λ2 = 0.2, β = 0.9, k = 0.3, B2 = 2, B2 = 1).

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Fig 9 Expand

Fig 10.

Variation of flow rate in a cycle of oscillation for different values of k and β with (e = 0.5, λ1 = 0.2, λ2 = 0.1, α = 0.3, B1 = 2, B1 = 1).

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Fig 10 Expand

Fig 11.

Variation of wall shear stress in a cycle of oscillation for different values of e and β with (e = 0.5, λ1 = 0.2, λ2 = 0.1, α = 0.3, k = 0.3, B2 = 1, B1 = 2).

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Fig 11 Expand

Fig 12.

Variation of wall shear stress in a cycle of oscillation for different values of k, λ2 and λ1 (β = 0.9, e = 0.5, B1 = 2, B2 = 1.0, α = 0.5).

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Fig 12 Expand

Fig 13.

Variation of longitudinal impedance in a cycle of oscillation for different values of k with (β = 0.9, e = 0.1, B2 = 0, λ1 = 0.2, λ2 = 0.1, α = 0.3).

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Fig 13 Expand