Apparatus and methods for ocular injection

The invention claimed is: 1. A method, comprising: inserting a distal end portion of a puncture member of a medical injector into a target tissue to define a delivery passageway within the target tissue and such that a distal end surface of a hub of the medical injector is in contact with a target surface of the target tissue; exerting a force on an actuation rod of the medical injector when the distal end surface of the hub is in contact with the target surface, the force having a magnitude of less than a threshold value, the force produces movement within the medical injector of both an adjustment member and the puncture member when the distal end portion of the puncture member is disposed within a first region of the target tissue, the puncture member being fixedly coupled to the adjustment member, movement of both the adjustment member and the puncture member within the medical injector being limited when the distal end portion of the puncture member is disposed within a second region of the target tissue; and conveying, in response to the exerting, a substance from the medicament container into the target tissue via the puncture member when the distal end portion of the puncture member is disposed within the second region of the target tissue. 2. The method of claim 1 , wherein the force is insufficient to convey the substance from the medicament container into the target tissue via the puncture member when the distal end portion of the puncture member is disposed within the first region of the target tissue. 3. The method of claim 1 , wherein the exerting the force on the actuation rod includes causing movement within the medical injector of the puncture member such that the distal end portion of the puncture member is moved from within the first region of the target tissue to the second region of the target tissue. 4. The method of claim 1 , wherein the force is sufficient to overcome a backpressure of the second region such that movement of the distal end portion of the puncture member relative to the hub is reduced and the substance is conveyed into the target tissue when the distal end portion of the puncture member moves from the first region to the second region. 5. The method of claim 1 , wherein the adjustment member is moved within the medical injector via hydraulics. 6. The method of claim 1 , wherein the threshold value is about 6 N. 7. The method of claim 1 , wherein: the inserting is performed such that a centerline of the delivery passageway and a surface line tangential to the target surface defines an angle of entry of between about 75 degrees and about 105 degrees. 8. The method of claim 1 , wherein the target tissue is an eye and the target surface is any one of a conjunctiva of the eye or a sclera of the eye, the substance being at least one of a VEGF, a VEGF inhibitor, a PDGFR inhibitor, or a combination thereof. 9. The method of claim 1 , wherein: the target tissue is an eye, the target surface is any one of a conjunctiva of the eye or a sclera of the eye, the second region includes at least one of a suprachoroidal space, a lower portion of the sclera, a choroid of the eye, a subretinal space of the eye, or a retina of the eye. 10. The method of claim 9 , wherein the first region is an upper portion of a sclera of the eye. 11. The method of claim 1 , wherein the inserting includes deforming the target surface with the distal end surface of the hub. 12. The method of claim 1 , wherein the distal end surface of the hub includes a sealing portion configured to define a fluid-tight seal with the target surface, the sealing portion being symmetrical about a centerline of the puncture member. 13. The method of claim 1 , wherein the inserting is performed before the exerting is performed. 14. The method of claim 1 , wherein the exerting the force on the actuation rod causes the actuation rod, the adjustment member, and the puncture member to move linearly within the medical injector when the distal end portion of the puncture member is disposed within the first region of the target tissue. 15. The method of claim 14 , wherein the exerting the force on the actuation rod causes the actuation rod to move linearly within the medical injector when the distal end portion of the puncture member is disposed within the second region of the target tissue such that the substance from the medicament container is conveyed into the target tissue via the puncture member. 16. The method of 1 , further comprising: during the exerting the force on the actuation rod, maintaining a force on the medical injector such that the hub forms a substantially fluid-tight seal with the target surface. 17. A method, comprising: inserting a distal end portion of a puncture member of a medical injector into a target tissue to define a delivery passageway within the target tissue; applying a first force to a hub of the medical injector such that a distal end surface of the hub contacts a target surface of the target tissue to fluidically isolate the delivery passageway; and while maintaining the first force, applying a second force to an actuation rod of the medical injector to move the puncture member relative to the hub such that a distal end portion of the puncture member moves from a first region within the target tissue to a second region with the target tissue, a substance from a medicament container within the medical injector being conveyed to the target tissue in response to the distal end portion of the puncture member being disposed in the second region and not the first region, the second force being insufficient to overcome a backpressure of the first region to convey the medicament into the target tissue via the puncture member when the distal end portion of the puncture member is disposed within the first region. 18. The method of claim 17 , wherein the puncture member is moved within the medical injector via hydraulics. 19. The method of claim 17 , wherein the first force is less than about 6 N. 20. The method of claim 17 , wherein: the inserting is performed such that a centerline of the delivery passageway and a surface line tangent to the target surface defines an angle of entry of between about 75 degrees and about 105 degrees. 21. The method of claim 17 , wherein the target tissue is an eye and the target surface is any one of a conjunctiva of the eye or a sclera of the eye, the substance being at least one of a VEGF, a VEGF inhibitor, a PDGFR inhibitor, or a combination thereof. 22. The method of claim 17 , wherein: the target tissue is an eye, the target surface is any one of a conjunctiva of the eye or a sclera of the eye, the second region includes at least one of a suprachoroidal space, a lower portion of the sclera, a choroid of the eye, a subretinal space of the eye, or a retina of the eye. 23. The method of claim 22 , wherein the first region is an upper portion of a sclera of the eye. 24. A method, comprising: inserting a distal end portion of a puncture member of a medical injector into a first region of a target tissue to define a delivery passageway within the target tissue, the puncture member placing a substance within a medicament container of the medical injector in fluid communication with the first region, an adjustment member being movably disposed within the medical injector and forming a substantially fluid-tight seal with a side wall of medical injector; after the inserting and with the distal end