Single-site implantation methods for medical devices having multiple leads

What is claimed is: 1. A method comprising: making an incision at a single site of a patient, the single site located at an anterior of a chest or abdomen of the patient; inserting a tunneling tool through the incision at the single site and preparing a first tunnel from the single site to a subcutaneous posterior location, wherein a path of the first tunnel at least one of i) extends over a plurality of intercostal gaps of the chest or ii) extends along and within one of the intercostal gaps; positioning a first lead having an electrode within the first tunnel; inserting the tunneling tool or a different tunneling tool through the incision at the single site and preparing a second tunnel from the single site to a subcutaneous parasternal location along the chest; positioning a second lead having an electrode within the second tunnel; positioning a pulse generator within a subcutaneous pocket and operatively coupling the first and second leads to the pulse generator; closing the single site; and sensing cardiac activity, wherein the pulse generator is configured to analyze the cardiac activity and provide therapy in response to identifying a cardiac event-of-interest using the cardiac activity. 2. The method of claim 1 , wherein the path of the first tunnel extends beyond a posterior axillary line of the patient, the single site being the only site where an incision is made for positioning the first lead, for positioning the second lead, and for positioning the pulse generator. 3. The method of claim 2 , wherein the posterior location is within a region below the inferior angle of a scapula. 4. The method of claim 1 , further comprising shaping the tunneling tool or the other tunneling tool based on an anatomical shape of the patient along the corresponding path. 5. The method of claim 1 , wherein the tunneling tool is surrounded by a removable sheath, wherein preparing the first tunnel includes moving the tunneling tool and the removable sheath through subcutaneous tissue to form the first tunnel and removing the tunneling tool such that the removable sheath remains within the first tunnel. 6. The method of claim 1 , wherein at least one of the first lead or the second lead is anchored to deep fascia within the subcutaneous pocket at an anchor point, the anchor point being the only anchor point in which the at least one lead is anchored directly to patient. 7. The method of claim 1 , wherein a volume of the pulse generator is at most 40 milliliters. 8. The method of claim 1 , wherein the pulse generator is configured to generate a defibrillating energy of at most 50 Joules, the pulse generator and the electrode of the second lead having a common polarity. 9. The method of claim 1 , wherein the electrode of the first lead has an active length that is at least 12 centimeters (cm) and wherein the electrode of the second lead has an active length that is at least 8 cm. 10. The method of claim 1 , wherein the electrode of the first lead includes an electrode patch positioned at the posterior location, the electrode patch having an active area that is at least 30 cm 2 . 11. The method of claim 1 , wherein a volume of the pulse generator is at most 40 milliliters and is configured to generate a defibrillating energy of at most 50 Joules, the electrode of the first lead having an active length that is at least 12 cm and the electrode of the second lead having an active length that is at least 8 cm. 12. A method comprising: making an incision at a single site of a patient, the single site located at an anterior of a chest of the patient; inserting a first tunneling tool through the incision at the single site, the first tunneling tool having an elongated shaft and a removable sheath that surrounds the elongated shaft; displacing underlying tissue with the first tunneling tool along a designated path to prepare a first tunnel, the first tunnel extending from the single site, over a plurality of intercostal gaps of the chest, and within one of intercostal gaps to a subcutaneous posterior location; withdrawing the elongated shaft, the removable sheath maintaining the first tunnel; positioning a first lead having an electrode within the first tunnel; withdrawing the removable sheath; inserting a second tunneling tool through the incision at the single site, the second tunneling tool having an elongated shaft and a removable sheath that surrounds the elongated shaft of the second tunneling tool; displacing underlying tissue with the second tunneling tool along a designated path to prepare a second tunnel, the second tunnel extending from the single site to a subcutaneous parasternal location; withdrawing the elongated shaft of the second tunneling tool, the removable sheath of the second tunneling tool maintaining the second tunnel; positioning a second lead having an electrode within the second tunnel; withdrawing the removable sheath of the second tunneling tool; forming a subcutaneous pre-pectoral pocket; and positioning a pulse generator within the subcutaneous pre-pectoral pocket and operatively coupling the first and second leads to the pulse generator. 13. The method of claim 12 , wherein the path of the first tunnel extends beyond a posterior axillary line of the patient, the single site being the only site where an incision is made for positioning the first lead, for positioning the second lead, and for positioning the pulse generator. 14. The method of claim 12 , further comprising shaping at least one of the elongated shafts based on an anatomical shape of the patient along the corresponding designated path. 15. The method of claim 12 , wherein the pulse generator is configured to generate a defibrillating energy of at most 50 Joules, the pulse generator and the electrode of the second lead having a common polarity. 16. The method of claim 15 , wherein a volume of the pulse generator is at most 40 milliliters, the electrode of the first lead having an active length that is at least 12 centimeters (cm) and the electrode of the second lead having an active length that is at least 8 cm. 17. The method of claim 12 , further comprising closing the single site and sensing cardiac activity, wherein the pulse generator is configured to provide therapy in response to identifying a cardiac event-of-interest using the cardiac activity. 18. A method comprising: making an incision at a single site of a patient, the single site located at an abdomen of the patient; inserting a first tunneling tool through the incision at the single site, the tunneling tool having an elongated shaft and a removable sheath that surrounds the elongated shaft; displacing underlying tissue with the tunneling tool along a designated path to prepare a first tunnel, the first tunnel extending from the single site along an intercostal gap to a subcutaneous posterior location; withdrawing the elongated shaft, the removable sheath maintaining the first tunnel; positioning a first lead having an electrode within the first tunnel; withdrawing the removable sheath; inserting a second tunneling tool through the incision at the single site, the second tunneling tool having an elongated shaft and a removable sheath that surrounds the elongated shaft of the second tunneling tool; displacing underlying tissue with the second tunneling tool along a designated path to prepare a second tunnel, the second tunnel extending in a superior direction from the single site to a subcutaneous parasternal location; withdrawing the elongated shaft of the second tunneling tool, the removable s