Loading tool for a biostimulator

What is claimed is: 1. A loading tool for loading a biostimulator onto a biostimulator delivery system, comprising: a first body portion; a latch slidably mounted on the first body portion and including a latch hook; a second body portion pivotally coupled to the first body portion at a hinge having a hinge axis, wherein the second body portion has a keeper including a keeper recess in an outer surface of the second body portion, wherein the keeper recess is exposed radially outward from the hinge axis through the outer surface, wherein the keeper recess has an L-shaped profile including a vertical section to receive the latch hook through the outer surface when the second body portion pivots about the hinge against the first body portion, wherein the L-shaped profile includes a horizontal section to lock the first body portion against the second body portion when the latch slides to move the latch hook from the vertical section into the horizontal section, and wherein the first body portion and the second body portion are on a first side of a plane containing the hinge axis when the latch fastens the first body portion to the second body portion; and a plurality of wing tabs extending outward from the first body portion and the second body portion on an opposite side of the plane from the first body portion and the second body portion, wherein a transverse plane orthogonal to the hinge axis intersects the plurality of wing tabs. 2. The loading tool of claim 1 , wherein the first body portion includes a first recess in a first face, wherein the second body portion includes a second recess in a second face, and wherein the first recess and the second recess define a loading volume when the first face is apposed to the second face, the loading volume including: a biostimulator volume to receive the biostimulator, a catheter volume to receive the biostimulator delivery system, and a funnel volume tapering from the catheter volume to the biostimulator volume. 3. The loading tool of claim 2 , wherein the first body portion and the second body portion form a neck around the funnel volume and a guide barrel around the catheter volume, and wherein the guide barrel extends proximally from the neck. 4. The loading tool of claim 3 further comprising a detent extending inward from the guide barrel. 5. The loading tool of claim 4 , wherein the biostimulator delivery system includes a docking cap, and wherein when the docking cap is positioned in the catheter volume, the detent is located proximal to the docking cap to prevent proximal displacement of the docking cap relative to the neck. 6. The loading tool of claim 5 , wherein the biostimulator delivery system includes a first tether and a second tether, wherein each tether includes a respective distal end axially displaceable relative to the docking cap, and wherein the biostimulator includes a docking button having an opening sized to receive one of the distal ends at a time. 7. A biostimulator system, comprising: a loading tool including a first body portion, a latch slidably mounted on the first body portion and including a latch hook, a second body portion pivotally coupled to the first body portion at a hinge having a hinge axis, wherein the second body portion has a keeper including a keeper recess in an outer surface of the second body portion, wherein the keeper recess is exposed radially outward from the hinge axis through the outer surface, wherein the keeper recess has an L-shaped profile including a vertical section to receive the latch hook through the outer surface when the second body portion pivots about the hinge against the first body portion, wherein the L-shaped profile includes a horizontal section to lock the first body portion against the second body portion when the latch slides to move the latch hook from the vertical section into the horizontal section, and wherein the first body portion and the second body portion are on a first side of a plane containing the hinge axis when the latch fastens the first body portion to the second body portion, and a plurality of wing tabs extending outward from the first body portion and the second body portion on an opposite side of the plane from the first body portion and the second body portion, wherein the first body portion and the second body portion include respective recesses that combine to form a loading volume, and wherein a transverse plane orthogonal to the hinge axis intersects the plurality of wing tabs; and a biostimulator mounted in the loading volume, wherein the biostimulator includes an anchor mounted on a housing, and a docking button having an opening. 8. The biostimulator system of claim 7 , wherein the first body portion includes a first recess in a first face, wherein the second body portion includes a second recess in a second face, and wherein the first recess and the second recess define the loading volume when the first face is apposed to the second face, the loading volume including: a biostimulator volume to receive the biostimulator, a catheter volume to receive a biostimulator delivery system, and a funnel volume tapering from the catheter volume to the biostimulator volume. 9. The biostimulator system of claim 8 , wherein the first body portion and the second body portion form a neck around the funnel volume and a guide barrel around the catheter volume, and wherein the guide barrel extends proximally from the neck. 10. The biostimulator system of claim 9 further comprising a detent extending inward from the guide barrel. 11. The biostimulator system of claim 10 , wherein the biostimulator delivery system includes a docking cap, and wherein when the docking cap is positioned in the catheter volume, the detent is located proximal to the docking cap to prevent proximal displacement of the docking cap relative to the neck. 12. The biostimulator system of claim 11 , wherein the biostimulator delivery system includes a first tether and a second tether, wherein each tether includes a respective distal end axially displaceable relative to the docking cap, and wherein the opening of the docking button is sized to receive one of the distal ends at a time. 13. A method of loading a biostimulator onto a biostimulator delivery system, comprising: inserting a docking cap of the biostimulator delivery system into a catheter volume of a loading tool, wherein one or more tethers of the biostimulator delivery system pass through a funnel volume of the loading tool into an opening of the biostimulator when the docking cap is inserted into the loading tool; unlocking a latch of the loading tool, wherein the latch is slidably mounted on a first body portion of the loading tool and includes a latch hook, wherein a second body portion of the loading tool is pivotally coupled to the first body portion at a hinge having a hinge axis, wherein the second body portion has a keeper including a keeper recess in an outer surface of the second body portion, wherein the keeper recess is exposed radially outward from the hinge axis through the outer surface, wherein the keeper recess has an L-shaped profile including a vertical section to receive the latch hook through the outer surface when the second body portion pivots about the hinge against the first body portion, wherein the L-shaped profile includes a horizontal section to lock the first body portion against the second body portion when the latch slides to move the latch hook from the vertical section into the horizontal section, and wherein the first body portion and the second body portion are on a first side of a plane containing the hinge axis when the latch fastens the first body portion to the