Catheter, examination system and thrombus removing device

The invention claimed is: 1. An examination system comprising: a catheter including: a resinous capillary tube, comprising: a trunk capillary tube comprised of resin, and having a front-portion that is surrounded by a marker made of platinum, and a branch portion that forms a first branched capillary tube comprised of resin and a second branched capillary tube comprised of resin, wherein the trunk capillary tube comprises a first through hole for at least one of a wire and a contrast agent, and a second through hole for an optical fiber, the wire passing through the first through hole, and the optical fiber passing through the second through hole; a branching adapter fixed to the first branched capillary tube, and comprising resin and having a third branched capillary tube and a fourth branched capillary tube, wherein a through hole of the third branched capillary tube is continuous with the first through hole and comprises the wire, the fourth branched capillary tube comprising the contrast agent; the optical fiber being fixed to the trunk capillary tube and in the second branched capillary tube, and having a position relative to the marker that is fixed in an optical fiber longitudinal direction; wherein a position, in the optical fiber longitudinal direction, of a front-end face of the optical fiber is coincident with a position, in the optical fiber longitudinal direction, of a front-end face of the marker; a laser light source which emits light to be inputted to the optical fiber of the catheter, the light being emitted from the front-end face of the optical fiber comprising a pulsed laser beam; a drive circuit of the laser light source; and a controller, and wherein laser driving conditions of the drive circuit are set by the controller, and the laser driving conditions of a center wavelength λ, a pulse width T, and a repetition frequency f of the pulsed laser beam are set as follows: 520 nm≤λ≤590 nm, 1 μsec≤T≤100 μsec, and 1 Hz≤f<10 Hz, a position of the optical fiber is shifted from the central axis of the second branched capillary tube to an off-center position at the branch portion of the trunk capillary tube; and a position of the first through hole is shifted from the central axis of the first branched capillary tube to an off-center position at the branch portion of the trunk capillary tube. 2. A thrombus removing device comprising: a catheter including: a resinous capillary tube, comprising: a trunk capillary tube comprised of resin, and having a front-portion that is surrounded by a marker made of platinum, and a branch n portion that forms a first branched capillary tube comprised of resin and a second branched capillary tube comprised of resin, wherein the trunk capillary tube comprises a first through hole for at least one of a wire and a contrast agent, and a second through hole for an optical fiber, the wire passing through the first through hole, and the optical fiber passing through the second through hole; a branching adapter fixed to the first branched capillary tube, and comprising resin and having a third branched capillary tube and a fourth branched capillary tube, wherein a through hole of the third branched capillary tube is continuous with the first through hole and comprises the wire, the fourth branched capillary tube comprising the contrast agent; the optical fiber being fixed to the trunk capillary tube and in the second branched capillary tube, and having a position relative to the marker that is fixed in an optical fiber longitudinal direction; wherein a position, in the optical fiber longitudinal direction, of a front-end face of the optical fiber is coincident with a position, in the optical fiber longitudinal direction, of a front-end face of the marker; a laser light source which emits light to be inputted to the optical fiber of the catheter, the light being emitted from the front-end face of the optical fiber comprising a pulsed laser beam; a drive circuit of the laser diode; and a controller, and wherein laser driving conditions of the drive circuit are set by the controller, and the laser driving conditions of a center wavelength λ, a pulse width T, and a repetition frequency f of the pulsed laser beam are set as follows: 520 nm≤λ≤590 nm, 1 μsec≤T≤100 μsec, and 1 Hz≤f<10 Hz, a position of the optical fiber is shifted from the central axis of the second branched capillary tube to an off-center portion at the branch of the trunk capillary tube; and; a position of the first through hole is shifted from the central axis of the first branched capillary tube to an off-center position at the branch portion of the trunk capillary tube. 3. A thrombus removing device comprising: a catheter including: a resinous capillary tube, comprising: a trunk capillary tube comprised of resin, and having front-portion that is surrounded by a marker made of platinum, and a branch portion that forms a first branched capillary tube comprised of resin and a second branched capillary tube comprised of resin, wherein the trunk capillary tube comprises a first through hole for at least one of a wire and a contrast agent, and a second through hole for an optical fiber, the wire passing through the first through hole, and the optical fiber passing through the second through hole; a branching adapter fixed to the first branched capillary tube, and comprising resin and having a third branched capillary tube and a fourth branched capillary tube, wherein a through hole of the third branched capillary tube is continuous with the first through hole and comprises the wire, the fourth branched capillary tube comprising the contrast agent; the optical fiber being fixed to the trunk capillary tube and in the second branched capillary tube, and having a position relative to the marker that is fixed in an optical fiber longitudinal direction; wherein a laser light source which emits light to be inputted to the optical fiber of the catheter, the light being emitted from a front-end face of the optical fiber comprising a pulsed laser beam, a position of the optical fiber is shifted from the central axis of the second branched capillary tube to an off-center position at the branch portion of the trunk capillary tube; and a position of the first through hole is shifted from the central axis of the first branched capillary tube to an off-enter position at the branch portion of the trunk capillary tube. 4. A thrombus removing device according to claim 3 , further comprising: a drive circuit of the laser light source; and a controller for the drive circuit. 5. A thrombus removing device according to claim 4 , wherein the laser light source is a diode-pumped solid state laser.