EP1988743A2 - Hearing aid system - Google Patents

Abstract

An exemplary hearing aid system includes a receiver configured so as to create an insertion loss over the audible range of hearing below about three decibels as compared to the unaided ear. An exemplary hearing aid system also includes one or more of: a micro-receiver positioned in an open-ear configuration within the ear canal of a user; an intermediate connecting portion extending between a sound processing unit and a receiver, wherein the intermediate connecting portion includes a stiffening wire provided on at least a portion of the intermediate connecting portion and/or within or on at least a portion of the receiver, a retaining wire extending from one of the stiffening wire and the receiver, the retaining wire configured to position within a portion of the concha of the ear; an electrical conducting component comprising two wires within distinct channels or otherwise isolated from one another within the intermediate connecting portion; and a speaker, at least partially enclosed within a casing having first and second end portions, the first end portion communicating with the connection, the speaker communicating with a port provided at the second end portion of the casing, wherein the casing is sealed to fluids and wherein the port is sealed to fluids by a membrane or mesh material. The described hearing aid reduces the insertion and occlusion effects relative to comparison devices.

Description

BACKGROUND
• A wide variety of hearing aid units are known in the art. Insertion of hearing aid receivers in the ear produces an insertion loss, which reflects a distortion or elimination of the patient's natural or original concha and ear canal resonant characteristics. The presently described hearing aid is configured to eliminate or significantly reduce such insertion losses.
• In some hearing aids, the receiver is also positioned within the ear canal in such a way that it creates an occlusion effect. In most cases, whether the hearing aid is fitted in the ear, as with a custom made instrument, or is placed behind the ear, an occlusion problem exists.
• This is often related to a patient's rejection of the amplification due to the patient's discomfort with the patient's own voice. That is, the occlusion effect is associated with the sensation or feeling that the patient's head is "at the bottom of the barrel," with the patient's own voice becoming intolerably loud.
• Placing an earmold or a shell of a custom made hearing aid within the ear canal can produce a low frequency amplification of the patient's voice of between about 20 and 30 decibels. This can relate to a perceived loudness increase in the patient's own voice of about four times the actual loudness of the patient's voice.
• Accordingly, there remains a need in the art for an ear canal receiver that avoids the insertion loss and occlusion effect problems described above.
• One aspect of the present disclosure also relates to an improved system for treating tinnitus.
SUMMARY
• The above-discussed and other drawbacks and deficiencies of the prior art are overcome or alleviated by the presently described hearing aid system, including a receiver configured so as to create an insertion loss over the audible range of hearing below about three decibels as compared to the unaided ear.
• In another embodiment, a micro-receiver positioned in an open-ear configuration within the ear canal of a user, and a sound processing unit provided remote from the micro-receiver. The described hearing aid advantageously reduces the insertion and occlusion effects.
• In one exemplary embodiment, the receiver has a maximum lateral dimension Ø. Such dimension describes the maximum overall dimension or diameter (though it is not to be implied that the cross section of the receiver must be circular or oval) of the receiver. In one exemplary embodiment, the receiver has a dimension Ø that is less than half the maximum lateral dimension or diameter of the user's ear canal. In another embodiment, the receiver has a dimension Ø that is less than twenty percent of the maximum lateral dimension or diameter of the user's ear canal. In another embodiment, the receiver has a dimension Ø that is less than ten percent of the maximum lateral dimension or diameter of the user's ear canal. In another embodiment, the receiver has a dimension Ø that is less than five percent of the maximum lateral dimension or diameter of the user's ear canal.
• In another exemplary embodiment, the hearing aid comprises a sound processing unit, a receiver, and an intermediate connecting portion between the sound processing unit and the receiver, wherein the intermediate connecting portion comprises an electrical conducting component and a stiffening wire, provided on at least a portion of the intermediate connecting portion. In another exemplary embodiment, the stiffening wire comprises a stainless steel wire. In another exemplary embodiment, the stiffening wire comprises a metal or alloy of metals having memory such that the wire may deflect and return to an original orientation. Such may be stainless steel, among others. Such may also be a shape memory alloy.
• In another exemplary embodiment, the stiffening wire is provided within or on a portion of the intermediate connecting portion and extends within or on at least a portion of the receiver. In such embodiment, the receiver is positioned on the intermediate connecting portion with greater stability and resiliency. Also where a stiffening element is used, the intermediate connecting portion and receiver may be custom manufactured or custom molded to optimize positioning of the receiver within the ear canal and/or to optimize positioning of the intermediate connecting portion.
• In another embodiment, a retaining wire extends from one of the stiffening wire and the receiver. The retaining wire is configured to position within a portion of the concha of the ear. In such embodiment, the retaining wire may be configured to prevent excessive insertion of the hearing aid receiver into the ear canal. Also, the retaining wire may be configured to cause the hearing aid receiver to be suspended within a portion of the ear canal, such that no portion of the receiver touches the sides of the ear canal.
• In another embodiment, the electrical conducting component comprises two wires within distinct channels or otherwise isolated from one another within the intermediate connecting portion. In another embodiment, a stiffening element is provided within or on the intermediate connecting portion within a distinct channel or otherwise isolated from the wires.
• In another embodiment, the receiver comprises a speaker, at least partially enclosed within a casing having first and second end portions, the first end portion communicating with the intermediate connecting portion, the speaker communicating with a port provided at the second end portion of the casing. In another embodiment, the casing is sealed to fluids at the first end portion and along a length of the casing extending from the first end portion to the port provided at the second end portion. The port may also be sealed to fluids by a membrane or mesh material.
• The above-discussed and other features and advantages of the present invention will be appreciated and understood by those skilled in the art from the following detailed description and drawings.
BRIEF DESCRIPTION OF THE DRAWINGS
• Referring now to the exemplary drawings wherein like elements are numbered alike in the several FIGURES:
• FIGURE 1 is a diagrammatic view of an exemplary receiver, intermediate connecting portion and sound processing component connector for a hearing aid system;
• FIGURE 2 is a cross sectional view of an exemplary receiver and intermediate connecting portion;
• FIGURE 3 is an expanded plan view of an exemplary receiver, intermediate connecting portion and sound processing component connector for a hearing aid system;
• FIGURE 4 is a plan view of an exemplary assembled hearing aid system including a retaining wire;
• FIGURE 5 is a cutaway view of a user's ear with the hearing aid system installed;
• FIGURE 6 is a plan view of an exemplary sound processing unit; and
• FIGURE 7 is a plan view of another exemplary sound processing unit
DETAILED DESCRIPTION
• Referring now to FIGURE 1, an exemplary receiver and connection portion is illustrated generally at 10 for the presently described hearing aid system. In one exemplary embodiment, the hearing aid system is configured as a completely open canal (COC) system. With reference to FIGURE 1, the illustrated exemplary receiver portion, shown generally at 12, includes a speaker 14 that is at least partially surrounded by a casing 16. The receiver portion 12 is attached to a connection portion, shown generally at 18, which includes an intermediate connecting portion 20 and a sound processing component connector 22. The sound processing unit connector 22 includes an electrical interface 24 configured to mate with a corresponding electrical interface (not illustrated) on the sound processing unit The illustrated electrical interface 24 is a three-pin female interface, surrounded by a connector shell 26. While shell 26 is illustrated as a two part shell joined by lock pin 28, it should be recognized that shell 26 may take any convenient configuration, or the interface 24 may simply comprise the electrical interface 24 such that the shell 26 is of minimal profile or is eliminated. Optionally, a microphone 27 may be provided in the shell 26. The microphone 27 may be connected to the sound-processing unit through an additional electrical connection (not shown) or through the electrical interface 24.
• Referring now to FIGURE 2, the exemplary receiver 12 and intermediate connecting portion 20 are illustrated in greater detail. The speaker 14 is illustrated as being at least partially enclosed within the casing 16. The illustrated exemplary intermediate connecting portion 20 comprises an electrical conducting component 30 and a stiffening wire 32, provided along at least a portion of the intermediate connecting portion 20. In another exemplary embodiment, the stiffening wire 32 comprises a stainless steel wire. In another exemplary embodiment, the stiffening wire 32 comprises a metal or alloy of metals having memory such that the wire may deflect and return to an original orientation. For example, the stiffening wire 32 may be a shape memory alloy.
• Referring again to FIGURE 2, the illustrated exemplary stiffening wire 32 is provided within or on a portion of the intermediate connecting portion 20 and extends within or on at least a portion of the receiver 12. The stiffening wire 32 in the illustrated exemplary embodiment extends through a channel 34 in the intermediate connecting portion 20, into a proximal portion 36 of the receiver 12 and alongside the speaker 14. In such embodiment, and indeed whenever the stiffening wire is used in or on any portion of the receiver 12 and the intermediate connecting portion 20, the receiver 12 may be positioned relative to the intermediate connecting portion 20 with greater stability and resiliency. Also where a stiffening wire 32 is used, the intermediate connecting portion 20 and receiver 12 may be custom manufactured or custom molded to optimize positioning of the receiver 12 within the ear canal and/or to optimize positioning of the intermediate connecting portion 20.
• Referring again to FIGURE 2, the illustrated electrical conducting component 30 is provided within a channel 38 within the intermediate connecting portion 20. The electrical conducting component 30 extends from the speaker 14 through the intermediate connecting component 20 to the electrical interface 24 to provide electrical connection between the sound processing unit and the speaker 14.
• With reference to FIGURE 3, in an exemplary embodiment, the electrical conducting component 30 comprises two wires 40, 42 provided within channel 38. While this embodiment illustrates both wires 40, 42 provided within the same channel 38, it is to be recognized that alternative configurations are contemplated. For example, both wires 40, 42 may share the same channel as the stiffening wire 32. Also, each wire 40, 42 may be provided within distinct channels or may be otherwise isolated from one another within the connection.
• Referring again to FIGURE 2, the illustrated exemplary receiver casing has first (proximal) 36 and second (distal) 44 end portions, the first end portion communicating with the intermediate connecting portion 20, the speaker 14 communicating with a port 46 provided at the second end portion 44 of the casing 16. As described by the illustrated exemplary embodiment, the casing is provided around the speaker from the intermediate connecting portion 20 to the port 46. Where non-permeable materials are used for the casing 16, the casing 16 is sealed to fluids at the first end portion 36 and along a length of the casing16 extending from the first end portion 36 to the port 46 provided at the second end portion 44. As illustrated, the port 46 may itself be sealed to fluids by a membrane or mesh material 48. The materials used for the casing may be formed in any number of manners, including as a two shell assembly, as an overmold, or as a shrinkwrap. Any material may be used. In one exemplary embodiment, the material is a polypropylene. In another embodiment, the material is a nylon or polyethylene. The port may also be provided with a permanent or removable cerumen collection device.
• Referring again to FIGURE 2, the receiver has a maximum lateral dimension ∅. Such dimension describes the maximum overall dimension or diameter (though it is not to be implied that the cross section of the receiver must be circular or oval) of the receiver 16. In one exemplary embodiment, the receiver has a dimension ∅ that is less than half the maximum lateral dimension or diameter of the user's ear canal. In another embodiment, the receiver has a dimension ∅ that is less than twenty percent of the maximum lateral dimension or diameter of the user's ear canal. In another embodiment, the receiver has a dimension ∅ that is less than ten percent of the maximum lateral dimension or diameter of the user s ear canal. In another embodiment, the receiver has a dimension ∅ that is less than five percent of the maximum lateral dimension or diameter of the user's ear canal.
• Referring now to FIGURE 4, a second exemplary hearing aid system is illustrated generally at 50. The receiver 16, intermediate connecting portion 20 and sound processing unit 52 are illustrated in assembled form. Sound processing component connector 22 is illustrated as joined with the sound processing unit 52. As illustrated, an exemplary retaining wire 54 extends from the receiver 16. As illustrated by FIGURE 5, the retaining wire 54 is configured to position within a portion of the concha 56 of the ear, shown generally at 58. In such embodiment, the retaining wire 54 may be configured to define an exemplary maximum insertion of the hearing aid receiver 16 into the ear canal 60. For example, the configuration of the retaining wire 54, receiver 16 and intermediate connecting portion 20 may be such that the receiver extends into the ear canal, but not into the bony regions 62 of the ear canal 60. Also, as illustrated in FIGURE 5, the retaining wire 54 may be configured to cause the hearing aid receiver 16 to be suspended within a portion of the ear canal 60, such that no portion of the receiver touches the sides of the ear canal 60. While the retaining wire 54 is illustrated as extending from the receiver 16, it should be recognized that the retaining wire 54 may also or alternatively extend from the intermediate connecting portion 20.
• Referring now to FIGURE 6, an exemplary sound processing unit (SPU) is illustrated generally at 52. The illustrated SPU 52 generally includes: a housing 64; an SPU electrical interface 66, which is illustrated as a male three-pin electrical connection, connected to an amplifier and sound processing component 68; a microphone 70 connected to the amplifier and sound processing component 68; a battery component 72 providing power to the amplifier and sound processing component 68; a switch component 74, illustrated with a push button 76 for providing a user interface with the amplifier and sound processing component 68 and/or the battery component 72; and a programming connector 78 configured to permit external programming and reprogramming of the SPU and/or to permit expansion of the hearing aid device with additional internal components. A programming correction switch 79 may be provided to permit a physician or user to control programming or reprogramming of the amplifier and sound processing component 68. Additionally, an input port (not shown) may be provided proximate thereto (or indeed, anywhere on the device) to effect programming or reprogramming of the device from an external source. Memory storage may be provided within the amplifier and sound processing component 68 and/or anywhere within the device to permit such programming and reprogramming of the SPU and/or to permit a user to select various programs via the user interface.
• FIGURE 7 illustrates a second exemplary SPU configuration, wherein the amplifier and sound processing component 68 is provided as a circuit board interconnecting each of the battery component 72, the switch component 74, the microphone 70 and the SPU electrical interface 66.
• In another exemplary embodiment, the behind the ear unit may comprise, or may additionally include, a noise generator, which may be used to generate one or more sounds. The sounds may be generated in specific frequency ranges useful to treat tinnitus. The noise generator passes such signals to the receiver for treatment.
• The following table summarizes statistical analysis of data collected in the comparison of four hearing devices (G = General Hearing Instruments, O = Oticon, S = Sebotek and V = Vivatone). The tested Vivatone Device was configured in accordance with the above described embodiment(s) including the micro-receiver and the retaining wire. The Vivatone Device also was positioned within the cartilaginous region of the ear in such a manner that the receiver did not contact the walls of the ear canal.
• The tested General Hearing Instruments was a canal-open-ear Auriscoe^™ hearing aid. The tested Oticon Device was a low profile, Open Bar Acoustics ™ configuration. The tested Sebotek Device was the PAC (Post Auricular Canal) hearing aid also described by U.S. Patent No. 5,606,621 to Reiter , the entire contents of which are specifically incorporated herein by reference.
• Thirty subjects participated in the evaluation. There were 120 runs, 4 for each participant. The data analyzed are the values of the Probe Real Ear Insertion Response Curve, which consisted of differences between the Probe Real Ear Unaided Response Curve and the Probe Real Ear Aided Response Curve and the corresponding values repeated while the subject vocalized the letter "EE". The two differences may be called the Insertion Effect and the Occlusion Effect. Values were given at 79 frequencies (200 Hz to 8000 Hz at increments of 100 Hz).
• Analysis of variance models were run for each frequency. Comparisons were adjusted for Subject variability, Order of Test, and Previous Device. The experimental error ranged over approximately 5-11 Db for the Insertion Effect and over approximately 3-8 Db for the Occlusion Effect.
• Comparison results are given in the following tables. Results are given for each frequency. T-values greaser than 2.444 in absolute value are included in Table 1. T-values less than 2.444 values are not to be construed as statistically insignificant simply because thay are omitted from Table 1. Negative values indicate that the Insertion Effect or Occlusion Effect was greater for the Comparison Device compared to the Vivatone Device. Positive values indicate that the Insertion Effect or Occlusion Effect was greater for the Vivatone Device compared to the Comparison Device.
• The following table summarizes the comparisons at each frequency. Table values are positive or negative decibel differences. As may be seen from the tables, the Vivatone Device exhibits lower Insertion Effect across the range of frequencies as compared with the comparison devices. Indeed, it has been found that the Vivatone Device exhibits less than three decibels of insertion loss across the audible spectrum. Also, with exception of the Oticon Device in the 500Hz to 1300Hz range, the Vivatone device exhibits lower Occlusion Effect across the range of frequencies as compared with the comparison devices. TABLE 1. SUMMARY OF COMPARISONS

  	Insertion Effect			Occlusion Effect
  	G vs. V	O vs. V	S vs. V	G vs. V	O vs. V	S vs. V
  200 Hz			-28.99			-8.49
  300			-30.56			-7.92
  400			-31.14			-7.37
  500			-31.32		+6.57	-7.76
  600			-31.74		+9.21	-7.89
  700			-32.60		+11.11	-8.40
  800			-33.49		+11.64	-8.78
  900			-34.11		+10.63	-8.82
  1000			-34.83		+8.72	-9.08
  1100			-34.78		+6.89	-9.96
  1200			-34.56		+6.32	-10.39
  1300		-7.51	-35.38		+5.32	-11.09
  1400		-9.01	-36.61			-13.28
  1500		-10.52	-37.15			-14.66
  1600		-11.47	-37.44			-15.02
  1700		-12.37	-37.60			-15.04
  1800		-13.49	-37.72			-16.76
  1900		-14.87	-38.18			-18.98
  2000		-16.20	-38.48			-20.61
  2100		-17.24	-38.52		-6.98	-22.09
  2200	-6.88	-18.09	-38.29		-9.35	-23.23
  2300	-7.70	-18.77	-38.02		-11.71	-24.65
  2400	-8.49	-19.35	-37.57	-6.91	-14.08	-26.09
  2500	-9.21	-19.82	-36.83	-7.89	-15.51	-26.73
  2600	-9.67	-20.14	-35.83	-8.04	-15.52	-25.94
  2700	-9.84	-20.29	-34.44	-7.61	-14.96	-24.63
  2800	-9.86	-20.28	-33.03	-7.51	-14.66	-23.71
  2900	-9.86	-20.15	-31.52	-7.54	-14.36	-23.26
  3000	-9.79	-20.02	-30.26	-7.48	-14.06	-22.09
  3100	-9.66	-19.90	-28.93	-7.06	-13.56	-20.71
  3200	-9.51	-19.81	-27.73	-7.16	-13.49	-19.07
  3300	-9.28	-19.66	-26.57	-7.31	-13.46	-17.75
  3400	-9.07	-19.56	-25.57	-7.23	-13.07	-16.73
  3500	-8.91	-19.45	-24.82	-7.37	-12.90	-15.77
  3600	-8.69	-19.34	-24.16	-6.96	-12.01	-14.66
  3700	-8.58	-19.31	-23.74	-6.53	-11.36	-13.51
  3800	-8.44	-19.34	-23.46	-6.28	-10.75	-12.41
  3900	-8.27	-19.37	-23.23	-6.05	-9.99	-11.55
  4000	-8.09	-19.28	-23.03	-5.47	-9.21	-10.84
  4100	-7.88	-19.27	-22.69	-5.23	-8.37	-10.11
  4200	-7.65	-19.21	-22.26	-5.11	-7.56	-9.52
  4300	-7.39	-19.18	-21.77	-4.90	-6.78	-8.75
  4400	-7.15	-19.24	-21.18	-4.87	-6.07	-8.16
  4500	-6.85	-19.34	-20.58	-4.95	-5.52	-7.89
  4600	-6.54	-19.37	-19.95	-4.58	-4.86	-7.36
  4700	-6.25	-19.49	-19.32	-4.28	-4.32	-6.82
  4800	-5.95	-19.33	-18.65	-3.64 .	-3.69	-6.10
  4900	-5.70	-19.10	-18.04	-3.01	-3.04	-5.42
  5000	-5.42	-18.71	-17.37		-2.58	-4.73
  5100	-5.13	-18.18	-16.68			-4.30
  5200	-4.85	-17.48	-15.99			-3.74
  5300	-4.64	-16.81	-15.43			-3.32
  5400		-16.01	-14.83			-3.14
  5500		-15.18	-14.40			-3.05
  5600		-14.42	-14.20			-2.76
  5700		-13.57	-14.19			-2.82
  5800		-12.90	-14.30			-3.04
  5900		-12.24	-14.66			-3.09
  6000		-11.64	-15.01			-2.87
  6100		-11.03	-15.24			-2.84
  6200		-10.50	-15.60			-2.62
  6300		-9.93	-15.85
  6400		-9.47	-16.12
  6500		-9.04	-16.43			-2.53
  6600		-8.68	-16.76			-2.75
  6700		-8.40	-17.02.	-2.41		-2.93
  6800		-8.14	-17.38	-2.50		-3.00
  6900		-7.86	-17.57	-2.94		-3.20
  7000	-5.37	-7.62	-17.64	-3.10		-3.04
  7100	-5.98	-7.41	-17.93	-2.93		-2.85
  7200	-6.54	-7.29	-18.20	-2.85		-2.98
  7300	-6.76	-7.08	-18.29	-2.83		-3.10
  7400	-6.83	-6.91	-18.37			-2.88
  7500	-6.67	-6.68	-18.48			-2.78
  7600	-6.45	-6.52	-18.43			-2.58
  7700	-6.18	-6.29	-18.28
  7800	-6.06	-6.19	-18.22
  7900	-6.01	-6.17	-18.20
  8000	-5.99	-6.23	-18.25

  TABLE 2. RESULTS AT 200Hz

  200 Hz
  Insertion Effect

  	Value Std-Error t.value
  X1	-3.228805324 2.8128462 -1.147878383 (General vs. Vivatone)
  X2	-3.973763109 2.6132138 -1.520642189 (Oticon vs. Vivatone)
  X3	-28.990360956 2.6890912 -10.780728129 (Sebotek vs. Vivatone)
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.76124202 2.3527289 -0.74859539
  X2	3.03270998 2.1857518 1.38749056
  X3	-8.48537631 2.2492174 -3.77259056

  TABLE 3. RESULTS AT 300Hz

  300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.259075564 2.9386512 -1.109037917
  X2	-3.984400433 2.7300902 -1.459439139
  X3	-30.557774712 2.8093612 -10.877125620
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.34258739 2.4706214 -0.54342093
  X2	3.70308746 2.2952773 1.61335081
  X3	-7.91842555 2.3619231 -3.35253321

  TABLE 4. RESULTS AT 400Hz

  400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.18071721 2.9913629 -1.06330036
  X2	-3.71440204 2.7790608 -1.33656738
  X3	-31.13784296 2.8597538 -10.88829507
  Occlusion Effect

  	Value Std.Error t.value
  X1	-0.97685416 2.5694950 -0.3801736
  X2	4.68242198 2.3871337 1.9615248
  X3	-7.36959617 2.4564466 -3.00010500 Hz

  TABLE 5. RESULTS AT 500Hz

  500Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.06639030 3.0294176 -1.01220456
  X2	-3.35011711 -31.31511356 2.8144148
  X3	2.8961342 -1.19034237 -10.81272859
  Occlusion Effect

  	Value Std.Error t.value
  X1	-0.42304814 2.5993905 -0.16274897
  X2	6.57442272 2.4149074 2.72243260
  X3	-7.76226106 2.4850268 -3.12361260

  TABLE 6. RESULTS AT 600Hz

  600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.8099533318 3.1302318 -0.897682188
  X2	-2.9480594700 2.9080740 -1.413749811
  X3	-31.7421838724 2.9925130 -10.607200022
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.04164510 2.4705285 0.4216284
  X2	921450274 2.2951910 4.0146998
  X3	-7.89446530 2.3618343 -3.3425145

  TABLE 7. RESULTS AT 700Hz

  700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.588272854 3.2245678 -0.80267279
  X2	-2.847366146 2.9957148 -0.95047970
  X3	-32.604172820 3.0826986 -10.57650368
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.889389684 2.2700032 0.83232909
  X2	11.110529893 2.1088973 5.26840739
  X3	-8.402816196 2.1701313 -3.87203123

  TABLE 8. RESULTS AT 800Hz

  800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.515782392 3.3207934 -0.757584738
  X2	-3.398601005 3.0851111 -1.101613808
  X3	-33.491112358 3.1746906 -10.549409992
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.82698457 2.2246681 0.8212392
  X2	11.63631424 2.0667796 5.6301669
  X3	-8.77668112 2.1267908 -4.1267252

  TABLE 9. RESULTS AT 900Hz

  900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.38554234 3.3949516 -0.70267345
  X2	-4.09229805 3.1540062 -1.29749208
  X3	-34.11309345 3.2455861 -10.51061120
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.92054270 2.1612333 0.88863274
  X2	10.62901086 2.0078470 5.29373549
  X3	-8.81972030 2.0661469 -4.26868009

  TABLE 10. RESULTS AT 1000Hz

  1000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.275590447 3.3148820 -0.686477055
  X2	-4.883197416 3.0796193 -1.585649707
  X3	-34.827767987 3.1690393 -10.990008326
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.90850033 2.0273877 0.94135935
  X2	8.71736528 1.8835006 4.62827855
  X3	-9.08163181 1.9381900 -4.68562518

  TABLE 11. RESULTS AT 1100Hz

  1100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.156384500 3.2283746 -0.66794743
  X2	-6.075641257 2.9992514 -2.02571923
  X3	-34.777147774 3.0863378 -11.26809495
  Occlusion Effect

  	Value Std.Error t.value
  X1	0.652209894 1.9516141 0.33418998
  X2	6.892687975 1.8131048 3.80159378
  X3	-9.956084782 1.8657502- -5.33623669

  TABLE 12. RESULTS AT 1200Hz

  1200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-1.585101698 3.1910179 -0.496738573
  X2	-6.880732089 2.9645460 -2.321006989
  X3	-34.561124381 3.0506248 -11.329195525
  Occlusion	Effect

  	Value Std.Error t.value
  X1	0.1712529167 1.9293266 0.088763052
  X2	6.3227648043 1.7923991 3.527543026
  X3	-10.3896722765 1.8444433 -5.632958487

  TABLE 13. RESULTS AT 1300Hz

  1300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-1.1981154661 3.1078549 -0.385512034
  X2	-7.5105809960 2.8872852 -2.601260486
  X3	-35.3762012491 2.9711206 -11.906686397
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.2358134856 1.8298857 0.675350090
  X2	5.3236175161 1.7000157 3.131510866
  X3	-11.0905638474 1.7493774 -6.339720527

  TABLE 14. RESULTS AT 1400Hz

  1400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-1.643093468 3.2026055 -0.51304897
  X2	-9.006829511 2.9753112 -3.02718902
  X3	-36.606739445 3.0617025 -11.95633446
  Occlusion Effect

  	Value Std.Error t.value
  X1	1218719994 1.7929210 0.67973995
  X2	3.569212245 1.6656744 2.14280315
  X3	-13.277066609 1.7140390 -7.74607050

  TABLE 15. RESULTS AT 1500Hz

  1500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.004330563 3.3559284 -0.597250692
  X2	-10.520911903 3.1177525 -3.374517947
  X3	-37.149067713 3.2082798 -11.579123521
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.565644363 1.9150221 0.81755941
  X2	3.037305910 1.7791098 1.70720543
  X3	-14.661208291 1.8307681 -8.00822785

  TABLE 16. RESULTS AT 1600Hz

  1600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-1.951098286 3.2915707 -0.59275600
  X2	-11.474827775 3.0579624 -3.75244240
  X3	-37.443659502 3.1467536 -11.89913947
  Occlusion Effect

  	Value Std-Error t.value
  X1	2.19998543 2.0883350 1.05346387
  X2	2.69222085 1.9401223 1.38765520
  X3	-15.01898313 1.9964558 -7.52282265

  TABLE 17. RESULTS AT 1700Hz

  1700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.09200068 3.1519854 -0.66370887
  X2	-12.37275620 2.9282837 -4.22525864
  X3	-37.59666754 3.0133095 -12.47686870
  Occlusion Effect

  	Value Std.Error t.value
  X1	2.296444502 2.1572750 1.06451169
  X2	2.044449766 2.0041696 1.02009817
  X3	-15.035410954 2.0623628 -7.29038120

  TABLE 18. RESULTS AT 1800Hz

  1800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-2.7841781655 3.0546323 -0.911460998
  X2	-13.4911-317442 2.8378399 -4.754014423
  X3	-37.7204275127 2.9202396 -12.916894941
  Occlusion Effect

  	Value Std.Error t.value
  X1	1.299973079 2.2825012 0.56953884
  X2	0.228669495 2.1205082 0.10783712
  X3	-16.763530564 2.1820794 -7.68236495

  TABLE 19. RESULTS AT 1900Hz

  1900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.92267763 2.9833070 -1.31487560
  X2	-14.86697694 2.7715767 -5.36408636
  X3	-38.18257655 2.8520524 -13.38775431
  Occlusion Effect

  	Value Std.Error t.value
  X1	-0.445001551 2.4921416 -0.17856191
  X2	-2.149696858 2.3152701 -0.92848642
  X3	-18.984168789 2.3824964 -7.96818358

  TABLE 20. RESULTS AT 2000Hz

  2000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.07137477 2.8884821 -1.755723078
  X2	-16.19593588 2.6834817 -6.035418726
  X3	-38.47923896 2.7613994 -13.934687726
  Occlusion Effect
  X1	-1.85628537 2.4314096 -0.76346057
  X2	-4.57822019 2.2588484 -2.02679391
  X3.	-20.60848494 2.3244365 -8.86601350

  TABLE 21. RESULTS AT 2100Hz

  2100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.05449479 2.8084770 -2.15579289
  X2	-17.24123089 2.6091547 -6.60797572
  X3	-38.52172601 2.6849143 -14.34746975
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.98680095 2.4258921 -1.2312176
  X2	-6.98416480 2.2537225 -3.0989462
  X3	-22.09045009 2.3191617 -9.5251876

  TABLE 22. RESULTS AT 2200Hz

  2200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.880641275 2.7399735 -2.51120723
  X2	-18.094100656 2.5455130 -7.10823348
  X3	-38.294583408 2.6194246 -14.61946370
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.04732286 2.3505212 -1.72188312
  X2	-9.35005881 2.1837008 -4.28174902
  X3	-23.23487105 2.2471069 -10.33990481

  TABLE 23. RESULTS AT 2300Hz

  2300 Hz

  Insertion Effect

  	Value Std.Error t.value
  X1	-7.702143365 2.7076991 -2.84453441
  X2	-18.774332728 2.5155292 -7.46337303
  X3	-38.024411656 2.5885702 -14.68934905
  Occlusion Effect

  	Value Std.Error t.value
  X1	-5.220130253 2.2482925 -2.32181990
  X2	-11.708355563 2.0887274 -5.60549718
  X3	-24.646487441 2.3493758 -11.46681163

  TABLE 24. RESULTS AT 2400Hz

  2400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.486673413 2.6869395 -3.15849066
  X2	-19.349755107 2.4962429 -7.75155131
  X3	-37.572817183 2.5687240 -14.62703571
  Occlusion Effect

  	Value Std.Error t.value
  X1	-6.906049894 2.1583519 -3.199686766
  X2	-14.081049900 2.0051700 -7.022372074
  X3	-26.086046643 2.0633922 -12.642311144

  TABLE 25. RESULTS AT 2500Hz

  2500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.210748358 2.6528782 -3.471983194
  X2	-19.817120519 2.4645989 -8.040708038
  X3	-36.833570981 2.5361612 -14.523355801
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.8887912841 2.1296325 -3.704296963
  X2	-15.5096824184 1.9784889 -7.839155515
  X3	-26.7269510910 2.0359364 -13.127596011

  TABLE 26. RESULTS AT 2600Hz

  2600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.66555736 2.6025828 -3.71383279
  X2	-20.13716999 2.4178731 -8.32846424
  X3	-35.82550481 2.4880786 -14.39886359
  Occlusion Effect

  	Value Std.Error t.value
  X1	-8.039373e+000 2.0445271 -3.9321428795
  X2	-1.552271e+001 1.8994236 -8.1723244632
  X3	-2.594425e+001 1.9545753 -13.2736008791

  TABLE 27. RESULTS AT 2700Hz

  2700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.8422402627 2.4996242 -3.937488045
  X2	-20.2943035971 2.3222216 -8.739175965
  X3	-34.4411171164 2.3896498 -14.412621118
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.613859887 1.9209320 -3.963627961
  X2	-14.957610998 1.7846003 -8.381490995
  X3	-24.625003741 1.8364180 -13.409258493

  TABLE 28. RESULTS AT 2800Hz

  2800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.86365196 2.3996114 -4.1105206
  X2	-20.27641387 2.2293069 -9.0953891
  X3	-33.03347336 2.2940372 -14.3997113
  Occlusion Effect
  X1	-7.50588772 1.8590431 -4.0375006
  X2	-14.65670749 1.7271037 -8.4862926
  X3	-23.70698104 1.7772520 -13.3391220

  TABLE 29. RESULTS AT 2900Hz

  2900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.86079168 2.2699771 -4.34400497
  X2	-20.15133560 2.1088730 -9.55549987
  X3	-31.52307174 2.1701063 -14.52604933
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.543366871 1.8062716 -4.17620855
  X2	-14.359771755 1.6780775 -8.55727583
  X3	-23.256473650 1.7268022 -13.46794292

  TABLE 30. RESULTS AT 3000Hz

  3000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.7856477447 2.1508276 -4.549712685
  X2	-20.0236465366 1.9981798 -10.020943400
  X3	-30.2576796218 2.0561990 -14.715345668
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.47719814 1.74153648 -4.29344904
  X2	-14.06177565 1.61793672 -8.69117777
  X3	-22.09160667 1.66491522 -13.26890791

  TABLE 31. RESULTS AT 3100Hz

  3100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.664299909 2.0441730 -4.727730813
  X2	-19.902779737 1.8990947 -10.480140962
  X3	-28.927085690 1.9542369 -14.802241273
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.058142664 1.68138544 -4.197813587
  X2	-13.560497213 1.56205470 -8.681192285
  X3	-20.712909615 1.60741060 -12.885885895

  TABLE 32. RESULTS AT 3200Hz

  3200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.510894160 1.9521516 -4.87200583
  X2	-19.806347612 1.8136042 -10.92098708
  X3	-27.726410309 1.8662641 -14.85663835
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.163145949 1.64523049 -4353885967
  X2	-13.488540806 1.52846573 -8.824889289
  X3	-19.070659369 1.57284634 -12.124934858

  TABLE 33. RESULTS AT 3300Hz

  3300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.2786068378 1.8838049 -4.925460512
  X2	-19.6593344393 1.7501081 -11.233211221
  X3	-26.5719530600 1.8009244 -14.754619026
  Occlusion Effect
  X1	-7.31237040 1.66005982 -4.40488366
  X2	-13.45522787 1.54224259 -8.72445614
  X3	-17.74897246 1.58702323 -11.18381389

  TABLE 34. RESULTS AT 3400Hz

  3400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-9.066209111 1.8323300 -4.94791271
  X2	-19.556815995 1.7022865 -11.48855723
  X3	-25.574072634 1.7517142 -14.59945508
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.23388315 1.70948608 -4.2316128
  X2	-13.07226920 1.58816098 -8.2310731
  X3	-16.72753874 1.63427491 -10.2354498

  TABLE 35. RESULTS AT 3500Hz

  3500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.91013789 1.7886133 -4.98158981
  X2	-19.45460034 1.6616724 -11.70784323
  X3	-24.81692370 1.7099208 -14.51349273
  Occlusion Effect

  	Value Std.Error t.value
  X1	-7.3687376481 1.76527541 -4.174270831
  X2	-12.8957066864 1.63999085 -7.863279640
  X3	-15.7692838620 1.68760971 -9.344153291

  TABLE 36. RESULTS AT 3600Hz

  3600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.691367288 1.7763295 -4.89288013
  X2	-19.342423503 1.6502604 -11.72083106
  X3	-24.157524195 1.6981775 -14.22555931
  Occlusion Effect

  	Value Std.Error t.value
  X1	-6.962227987 1.76558948 -3.94328809
  X2	-12.008873432 1.64028264 -7.32122206
  X3	-14.662004950 1.68790997 -8.68648519

  TABLE 37. RESULTS AT 3700Hz

  3700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.583079332 1.76270385 -4.86926908
  X2	-19.313847560 1.63760180 -11.79398287
  X3	-23.737175524 1.68515129 -14.08607978
  Occlusion Effect

  	Value Std.Error t.value
  X1	-6.5337475500 1.74265157 -3.749313783
  X2	-11.3626632173 1.61897267 -7.018440431
  X3	-13.5120469265 1.66598124 -8.110563666

  TABLE 38. RESULTS AT 3800Hz

  3800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.441467426 1.75635543 -4.80624097
  X2	-19.336107428 1.63170394 -11.85025478
  X3	-23.463879959 1.67908218 -13.97422961
  Occlusion Effect

  	Value Std.Error t.value
  X1	-6.278133968 1.68496687 -3.72596880
  X2	-10.754862789 1.56538194 -6.87044005
  X3	-12.412324737 1.61083445 -7.70552474

  TABLE 39. RESULTS AT 3900Hz

  3900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.270799727 1.76899901 -4.67541231
  X2	-19.372231987 1.64345018 -11.78753833
  X3	-23.226956475 1.69116949 -13.73425708
  Occlusion Effect

  	Value Std.Error t.value
  X1	-6.04925683 1.66204356 -3.6396500
  X2	-9.99092084 1.54408554 -6.4704452
  X3.	-11.55100361 1.58891969 -7.2697215

  TABLE 40. RESULTS AT 4000Hz

  4000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-8.086843450 1.72954953 -4.67569348
  X2	-19.275861670 1.60680050 -11.99642501
  X3	-23.027648032 1.65345564 -13.92698265
  Occlusion Effect

  	Value Std.Error t.value
  X1	-5.468606286 1.53347467 -3.56615364
  X2	-9.213260489 1.42464140 -6.46707337
  X3	-10.842963904 1.46600737 -7.39625472

  TABLE 41. RESULTS AT 4100Hz

  4100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-7.881860321 1.70361988 -4.62653695
  X2	-19.265070702 1.58271112 -12.17219647
  X3	-22.687028158 1.62866680 -13.92981556
  Occlusion Effect

  	Value Std.Error t.value
  X1	-5.234017037 1.44847923 -3.613456733
  X2	-8.367227067 1.34567823 -6.217851237
  X3	-10.113523797 1.38475142 -7.303494094

  TABLE 42. RESULTS AT 4200Hz

  4200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-7.650776971 1.67932983 -4.55585129
  X2	-19.207194367 1.56014498 -12.31115996
  X3	-22.260182017 1.60544543 -13.86542428
  Occlusion Effect

  	Value Std.Error t.value
  X1	-5.1074935588 1.37868912 -3.704601341
  X2	-7.5586894898 1.28084124 -5.901347685
  X3	-9.5194610061 1.31803181 -7.222481964

  TABLE 43. RESULTS AT 4300Hz

  4300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-7.390373789 1.65707945 -4.45987897
  X2	-19.182103586 1.53947374 -12.46016937
  X3	-21.767082631 1.58417398 -13.74033587
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.8960648158 1.30757620 -3.744382017
  X2	-6.7790754700 1.21477533 -5.580517913
  X3	-8.7460200811 1.25004761 -6.996549598

  TABLE 44. RESULTS AT 4400Hz

  4400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-7.146230694 1.63780680 -4.36329284
  X2	-19.243600045 1.52156891 -12.64720903
  X3	-21.178776976 1.56574926 -13.52628895
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.87065603 1.25303258 -3.88709449
  X2	-6.06657954 1.16410275 -5.21137805
  X3	-8.16174608 1.19790370 -6.81335742

  TABLE 45. RESULTS AT 4500Hz

  4500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.847453349 1.63031020 -4.20009231
  X2	-19.340813305 1.51460436 -12.76954819
  X3	20.581624580 1.55858249 -13.20534829
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.952060307 1.20193410 -4.12007640
  X2	-5.516111259 1.11663082 -4.93995971
  X3	-7.888428986 1.14905337 -6.86515456

  TABLE 46. RESULTS AT 4600Hz

  4600 Hz
  Insertion Effect

  	Value Std-Error t.value
  X1	-6.536781665 1.63166742 -4.00619732
  X2	-19.370563786 1.51586525 -12.77855257
  X3	-19.946411210 1.55987999 -12.78714471
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.583931130 1.20319291 -3.80980565
  X2	-4.866591929 1.11780029 -4.35372220
  X3	-7.363325177 1.15025680 -6.40146201

  TABLE 47. RESULTS AT 4700Hz

  4700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.247439739 1.64057349 -3.80808282
  X2	-19.485709545 1.52413924 -12.78473056
  X3	-19.320813101 1.56839423 -12.31884990
  Occlusion Effect

  	Value Std.Error t.value
  X1	-4.277111412 1.20635740 -3.54547616
  X2	-4.319781388 1.12074019 -3.85440034
  X3	-6.818258071 1.15328207 -5.91204726

  TABLE 48. RESULTS AT 4800Hz

  4800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.9496237669 1.65009622 -3.605622326
  X2	-19.3341460166 1.53298612 -12.612081555
  X3	-18.6504311493 1.57749799 -11.822792342
  Occlusion Effect

  	Value Std.Error t.value
  X1	-3.63533451 1.19702245 -3.03698108
  X2	-3.68529686 1.11206776 -3.31391396
  X3	-6.10429061 1.14435781 -5.33424995

  TABLE 49. RESULTS AT 4900Hz

  4900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.69900795 1.67201132 -3.40847449
  X2	-19.09922740 1.55334588 -12.29554066
  X3	-18.04055946 1.59844891 -11.28629094
  Occlusion Effect

  	Value Std.Error t.value
  X1	-3.007209843 1.15216066 -2.61006121
  X2	-3.037454396 1.07038989 -2.83770842
  X3	-5.416608544 1.10146978 -4.91761883

  TABLE 50. RESULTS AT 5000Hz

  5000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.42096921 1.69550964 -3.19725060
  X2	-18.70751384 1.57517648 -11.87645583
  X3	-17.36767314 1.62091338 -10.71474474
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.649642968 1.11875070 -2.36839447
  X2	-2.583699149 1.03935109 -2.48587718
  X3	-4.726811994 1.06952974 -4.41952366

  TABLE 51. RESULTS AT 5100Hz

  5100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.12838471 1.72005712 -2.98152000
  X2	-18.18322864 1.59798178 -11.37887104
  X3	-16.68033428 1.64438087 -10.14383871
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.350640296 1.06203444 -2.21333717
  X2	-2.222199512 0.98666007 -2.25224428
  X3	-4.297318170 1.01530879 -4.23252337

  TABLE 52. RESULTS AT 5200Hz

  5200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.846893396 1.73104035 -2.79998868
  X2	-17.483734536 1.60818552 -10.87171496
  X3	-15.991399029 1.65488088 -9.66317230
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.863905114 1.02038103 -1.82667559
  X2	-1.588450835 0.94796287 -1.67564667
  X3	-3.737920520 0.97548797 -3.83184685

  TABLE 53. RESULTS AT 5300Hz

  5300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.635811384 1.74762530 -2.65263463
  X2	-16.806580187 1.62359340 -10.35147110
  X3	-15.434734844 1.67073615 -9.23828390
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.55178690 0.94658159 -1.6393588
  X2	-1.11156094 0.87940111 -1.2639977
  X3	-3.32312975 0.90493544 -3.6722285

  TABLE 54. RESULTS AT 5400Hz

  5400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.296048437 1.76786473 -2.430077577
  X2	-16.007405575 1.64239640 -9.746371538
  X3	-14.827069029 1.69008511 -8.772971794
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.357632686 0.92688227 -1.46473044
  X2	-1.085022430 0.86109989 -1.26004247
  X3	-3.141020167 0.88610283 -3.54475809

  TABLE 55. RESULTS AT 5500Hz

  5500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.040537444 1.7891974 -2.258296111
  X2	-15.177478550 1.6622150 -9.130875559
  X3	-14.401720605 1.7104792 -8.419699405
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.172678260 0.90954444 -1.28930287
  X2	-1.124977061 0.84499255 -1.33134554
  X3	-3.053792404 0.86952779 -3.51201241

  TABLE 56. RESULTS AT 5600Hz

  5600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.842925160 1.8254446 -2.10519960
  X2	-14.418027712 1.6958897 -8.50174849
  X3	-14.202779253 1.7451316 -8.13851454
  Occlusion Effect

  	Value Std.Error t.value
  X1	-0.949080983 0.92183414 -1.02955721
  X2	-0.951847054 0.85641002 -1.11143848
  X3	-2.755459070 0.88127679 -3.12666701

  TABLE 57. RESULTS AT 5700Hz

  5700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.696893582 1.8553649 -1.99254262
  X2	-13.570943809 1.7236865 -7.87320879
  X3	-14.186977436 1.7737356 -7.99836104
  Occlusion Effect

  	Value Std.Error t.value
  X1	-0.981408120 0.94246447 -1.04132108
  X2	-1.137744866 0.87557619 -1.29942417
  X3	-2.818453141 0.90099947 -3.12814075

  TABLE 58. RESULTS AT 5800Hz

  5800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.485335327 1.9118784 -1.82299003
  X2	-12.900093591 1.7761892 -7.26279241
  X3	-14.302358724 1.8277627 -7.82506305
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.43215721 0.99833534 -1.4345452
  X2	-1.30174219 0.92748180 -1.4035232
  X3	-3.03832890 0.95441221 -3.1834556

  TABLE 59. RESULTS AT 5900Hz

  5900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.470882999 1.9551480 -1.77525331
  X2	-12.237829059 1.8163879 -6.73745358
  X3	-14.656469432 1.8691286 -7.84133809
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.570601603 1.01546928 -1.54667564
  X2	-1.143278073 0.94339973 -1.21187026
  X3	-3.089089793 0.97079233 -3.18202946

  TABLE 60. RESULTS AT 6000Hz

  6000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.505504506 1.9935030 -1.75846459
  X2	-11.643669192 1.8520208 -6.28700782
  X3	-15.008307749 1.9057962 -7.87508551
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.4782767934 1.03060693 -1.43437498
  X2	-0.9518932129 0.95746303 -0.99418273
  X3	-2.8687898427 0.98526398 -2.91169667

  TABLE 61. RESULTS AT 6100Hz

  6100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.527926580 2.0085812 -1.75642715
  X2	-11.026150510 1.8660288 -5.90888537
  X3	-15.238089915 1.9202110 -7.93563327
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.581128817 1.06615246 -1.48302319
  X2	-0.690258914 0.99048583 -0.69688924
  X3	-2.842076531 1.01924563 -2.78841179

  TABLE 62. RESULTS AT 6200Hz

  6200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.541042894 2.0249469 -1.748709011
  X2	-10.499983894 1.8812330 -5.581437152
  X3	-15.602866439 1.9358566 -8.059928816
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.560048975 1.10174868 -1.41597535
  X2	-0.553851718 1.02355573 -0.54110558
  X3	-2.615469069 1.05327575 -2.48317600

  TABLE 63. RESULTS AT 6300Hz

  6300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.64729645 2.0274164 -1.79898731
  X2	-9.92894474 1.8835273 -5.27146316
  X3	-15.85389666 1.9382175 -8.17962727
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.38042349 1.09173705 -1.26442854
  X2	-0.37261352 1.01425464 -0.36737669
  X3	-2.33816761 1.04370459 -2.24025804

  TABLE 64. RESULTS AT 6400Hz

  6400 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.72431243 2.0226028 -1.84134638
  X2	-9.47118863 1.8790553 -5.04039902
  X3	-16.11724147 1.9336157 -8.33528692
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.391813985 1.05689378 -1.31689107
  X2	-0.267321456 0.98188426 -0.27225353
  X3	-2.187831043 1.01039430 -2.16532401

  TABLE 65. RESULTS AT 6500Hz

  6500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.713274489 2.0281956 -1.83082665
  X2	-9.044965698 1.8842511 -4.80029737
  X3	-16.426047721 1.9389623 -8.47156616
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.731417523 1.01416531 -1.707234029
  X2	-0.548784418 0.94218829 -0.582457266
  X3	-2.528227998 0.96954572 -2.607641843

  TABLE 66. RESULTS AT 6600Hz

  6600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-3.766690641 2.0267967 -1.85844519
  X2	-8.678056381 1.8829516 -4.60875176
  X3	-16.764044366 1.9376251 -8.65185156
  Occlusion Effect

  	Value Std.Error t. value
  X1	-1.98956391 0.95040501 -2.09338533
  X2	-1.10722139 0.88295317 -1.25399786
  X3	-2.75192688 0.90859065 -3.02878627

  TABLE 67. RESULTS AT 6700Hz

  6700 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.014308937 2.0434736 -1.96445358
  X2	-8.397504120 1.8984448 -4.42335962
  X3	-17.021841498 1.9535682 -8.71320587
  Occlusion Effect
  X1	-2.407488315 0.94010973 -2.5608588
  X2	-1.341366154 0.87338857 -1.5358183
  X3	-2.928638691 0.89874832 -3.2585749

  TABLE 68. RESULTS AT 6800Hz

  6800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.354917941 2.0694860 -2.10434760
  X2	-8.141998692 1.9226111 -4.23486507
  X3	-17.378004698 1.9784362 -8.78370757
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.500115515 0.98440958 -2.5397107
  X2	-1.447595547 0.91454438 -1.5828598
  X3	-2.996861320 0.94109914 -3.1844268

  TABLE 69. RESULTS AT 6900Hz

  6900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-4.748185680 2.1060634 -2.25453122
  X2	-7.861928357 1.9565925 -4.01817352
  X3	-17.572263041 2.0134043 -8.72763772
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.943078973 1.02579595 -2.8690686
  X2	-1.751442140 0.95299349 -1.8378322
  X3	-3.203777402 0.98066466 -3.2669449

  TABLE 70. RESULTS AT 7000Hz

  7000
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.36964885 2.1060878 -2.54958453
  X2	-7.62145160 1.9566152 -3.89522250
  X3	-17.63774396 2.0134276 -8.76005873
  Occlusion Effect

  	Value Std.Error t.value
  X1	-3.0958671835 1.09618801 -2.824211866
  X2	-1.6347488389 1.01838971 -1.605229143
  X3	-3.0436625264 1.04795973 -2.904369750

  TABLE 71. RESULTS AT 7100Hz

  7100 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.979052985 2.1484033 -2.78302176
  X2	-7.409193538 1.9959275 -3.71215570
  X3	-17.930145965 2.0538813 -8.72988412
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.93400085 1.12940070 -2.59783871
  X2	-1.35279652 1.04924523 -1.28930442
  X3	-2.84600351 1.07971117 -2.63589335

  TABLE 72. RESULTS AT 7200Hz

  7200 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.53523989 2.1790642 -2.9991039
  X2	-7.29180932 2.0244124 -3.6019388
  X3	-18.20102578 2.0831933 -8.7370797
  Occlusion Effect
  X1	-2.854334671 1.13785077 -2.50853165
  X2	-1.261150721 1.05709559 -1.19303375
  X3	-2.983604193 1.08778948 -2.74281399

  TABLE 73. RESULTS AT 7300Hz

  7300 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.75636148 2.2050562 -3.06403143
  X2	-7.08463282 2.0485597 -3.45834830
  X3	-18.28648048 2.1080417 -8.67462921
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.82929369 1.10910247 -2.55097593
  X2	-1.27314769 1.03038760 -1.23560075
  X3	-3.10192981 1.06030599 -2.92550437

  TABLE 74. RESULTS AT 7400Hz

  7400 Hz
  Insertion Effect

  	Value std.Error t.value
  X1	-6.83076637 2.2407210 -3.04846800
  X2	-6.91081533 2.0816933 -3.31980476
  X3	-18.37488422 2.1421375 -8.57782685
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.49001160 1.07112286 -2.3246741
  X2	-1.25209393 0.99510347 -1.2582550
  X3	-2.88266037 1.02399735 -2.8151053

  TABLE 75. RESULTS AT 7500Hz

  7500 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.665475332 2.2928263 -2.90709996
  X2	-6.678922730 2.1301006 -3.13549639
  X3	-18.482033551 2.1919503 -8.43177578
  Occlusion Effect

  	Value Std.Error t.value
  X1	-2.14003047 1.05586865 -2.0267961
  X2	-1.06587090 0.98093188 -1.0865901
  X3	-2.78648541 1.00941427 -2.7604973

  TABLE 76. RESULTS AT 7600Hz

  7600 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.453321221 2.3169883 -2.785219570
  X2	-6.517903336 2.1525478 -3.027994735
  X3	-18.428207086 2.2150493 -8.319547271
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.81049894 1.05228996 -1.7205324
  X2	-0.71468545 0.97760718 -0.7310558
  X3	-2.58402589 1.00599303 -2.5686320

  TABLE 77. RESULTS AT 7700Hz

  7700 Hz
  Insertion Effect

  	Value St.Error t.value
  X1	-6.176510870 2.34787779 -2.63067809
  X2	-6.290253935 2.1812450 -2.88379060
  X3	-18.283821601 2.2445798 -8.14576596
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.48510082 1.07347198 -1.3834556
  X2	-0.55147183 0.99728587 -0.5529727
  X3	-2.27496805 1.02624312 -2.2167925

  TABLE 78. RESULTS AT 7800Hz

  7800 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.06108309 2.3716242 -2.55566757
  X2	-6.19084626 2.2033061 -2.80979857
  X3	-18.21570774 22672814 -8.03416280
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.413226227 1.09382747 -1.292001.04
  X2	-0.491633275 1.01619670 -0.48379736
  X3	-2.147169312 1.04570304 -2.05332607

  TABLE 79. RESULTS AT 7900Hz

  7900 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-6.01019067 2.3741523 -2.53151017
  X2	-6.17081726 2.2056547 -2.79772587
  X3	-18.20382232 2.2696982 -8.02037121
  Occlusion Effect

  	Value Std.Error t.value
  X1	-1.116427464 1.12532100 -0.99209689
  X2	-0.075233199 1.04545509 -0.07196215
  X3	-2.042620033 1.07581097 -1.89867931

  TABLE 80. RESULTS AT 8000Hz

  8000 Hz
  Insertion Effect

  	Value Std.Error t.value
  X1	-5.994943790 2.3595836 -2.540678681
  X2	-6.231208076 2.1921200 -2.842548786
  X3	-18.251784219 2.2557705 -8.091152906
  Occlusion Effect

  	Value St.Error t.value
  X1	-0.919289912 1.11313021 -0.82586018
  X2	0.150751742 1.03412949 0.14577647
  X3	-1.869693540 1.06415653 -1.75697229

• While preferred embodiments have been shown and described, various modifications and substitutions may be made thereto without departing from the spirit and scope of the invention. Accordingly, it is to be understood that the present invention has been described by way of illustration and not limitation.

Claims (41)

1. A hearing aid, comprising:

   a receiver positioned within the ear canal of a user, the receiver generating no more than about three decibels of insertion loss over audible frequencies.
2. The hearing aid according to claim 1, wherein the receiver generates no more than about two decibels of insertion loss over audible frequencies.
3. The hearing aid according to claim 2, wherein the receiver generates no more than about one decibel of insertion loss over audible frequencies.
4. The hearing aid according to claim 1, wherein the receiver generates no more than about three decibels of insertion loss over audible frequencies between about 2200 Hertz and about 5300 Hertz.
5. The hearing aid according to claim 4, wherein the receiver generates no more than about three decibels of insertion loss over audible frequencies between about 3000 Hertz and about 5000 Hertz.
6. The hearing aid according to claim 5, wherein the receiver generates no more than about three decibels of insertion loss over audible frequencies between about 3500 Hertz and about 4500 Hertz.
7. The hearing aid according to claim 1, wherein the receiver is positioned within the cartilaginous region of the ear canal of the user.
8. The hearing aid according to claim 1, wherein the receiver has a maximum lateral dimension that is less than half the maximum lateral dimension of a user's ear canal.
9. The hearing aid according to claim 8, wherein the receiver has a maximum lateral dimension that is less than thirty percent of the maximum lateral dimension of a user's ear canal.
10. The hearing aid according to claim 9, wherein the receiver has a maximum lateral dimension that is less than twenty percent of the maximum lateral dimension of a user's ear canal.
11. The hearing aid according to claim 10, wherein the receiver has a maximum lateral dimension that is less than ten percent of the maximum lateral dimension of a user's ear canal.
12. The hearing aid according to claim 11, wherein the receiver has a maximum lateral dimension that is less than five percent of the maximum lateral dimension of a user's ear canal.
13. The hearing aid according to claim 1, further comprising a sound processing unit; and an intermediate connecting portion between the sound processing unit and the receiver, wherein the intermediate connecting portion comprises an electrical conducting component and a stiffening wire, provided on at least a portion of the intermediate connecting portion.
14. The hearing aid according to claim 13, wherein the stiffening wire comprises a metal or alloy of metals.
15. The heating aid according to claim 14, wherein the metal or alloy of metals has memory such that the wire may deflect and return to an original orientation.
16. The hearing aid according to claim 13, wherein the electrical conducting portion is provided at least partially within a first channel, and wherein the stiffening wire is provided external to the first channel.
17. The hearing aid according to claim 16, wherein the stiffening wire is provided within a second channel.
18. The hearing aid according to claim 13, wherein the stiffening wire extends within or on at least a portion of the receiver.
19. The hearing aid according to claim 1, further comprising a sound processing unit; and an intermediate connecting portion, wherein a retaining wire extends from at least one of the intermediate connecting portion and the receiver, and further wherein the retaining wire is configured to engage at least a portion of the concha of a user's ear.
20. The hearing aid according to claim 19, wherein the intermediate portion comprises a stiffening element, and wherein the retaining wire extends from a portion of the stiffening element
21. The hearing aid according to claim 19 or 20, wherein the retaining wire is configured such that the hearing aid has a maximum insertion depth into an eat canal.
22. The hearing aid according to claim 19 or 20, wherein the retaining wire is configured such that the hearing aid does not substantially contact any portion of an ear canal when inserted within the ear canal.
23. The hearing aid according to claim 1, further comprising a sound processing unit; and an intermediate connecting portion including at least two electrical conducting components provided within the intermediate connecting portion.
24. The hearing aid according to claim 23, wherein the at least two electrical conducting components are provided within at least two channels at least partially isolated from one another.
25. The hearing aid according to claim 24, wherein a stiffening wire is provided within an at least partially separate channel of the intermediate connecting portion.
26. The hearing aid according to claim 1, wherein the receiver comprises a speaker, at least partially enclosed within a casing having first and second end portions, the first end portion communicating with an intermediate connecting portion, the speaker communicating with a port provided at the second end portion of the casing.
27. The hearing aid according to claim 26, wherein the port is at least partially sealed to fluids by a membrane or mesh material.
28. The hearing aid according to claim 27, wherein the casing is sealed to fluids at the first end portion and along a length of the casing extending from the first end portion to the port.
29. The hearing aid according to claim 26, wherein the port includes a removable cerumen collector.
30. A hearing aid, comprising:

    a receiver, configured to be positioned within the cartilaginous region of a user's ear canal, the receiver dimensioned so as to minimize insertion loss upon positioning of the receiver within the cartilaginous region.
31. The hearing aid according to claim 30; wherein the receiver generates no more than about three decibels of insertion loss over audible frequencies between about 2200 Hertz and about 5300 Hertz.
32. The hearing aid according to claim 30, wherein the receiver has a maximum lateral dimension that is less than twenty percent of the maximum lateral dimension of a user's ear canal
33. The hearing aid according to claim 30, further comprising a sound processing unit; and an intermediate connecting portion, wherein a retaining wire extends from at least one of the intermediate connecting portion and the receiver, and further wherein the retaining wire is configured to engage at least a portion of the concha of a user's ear.
34. The hearing aid according to claim 30, further comprising a sound processing unit; and an intermediate connecting portion between the sound processing unit and the receiver, wherein the intermediate connecting portion comprises an electrical conducting component and a stiffening wire, provided on at least a portion of the intermediate connecting portion.
35. The hearing aid according to claim 30, further comprising a sound processing unit; and an intermediate connecting portion including at least two electrical conducting components provided within the intermediate connecting portion, wherein the at least two electrical conducting components are provided within at least two channels at least partially isolated from one another.
36. A hearing aid, comprising:

    a receiver, configured to be positioned within a user's ear canal, the receiver having a maximum lateral dimension that is less than thirty percent of the maximum lateral dimension of a user's ear canal.
37. The hearing aid according to claim 36, wherein the receiver has a maximum lateral dimension that is less than twenty percent of the maximum lateral dimension of a user's ear canal.
38. The hearing aid according to claim 36, wherein the receiver has a maximum lateral dimension that is less than ten percent of the maximum lateral dimension of a user's ear canal.
39. A hearing aid, comprising:

    a receiver;

    a sound processing unit; and

    an intermediate connecting portion, wherein a retaining wire extends from at least one of the intermediate connecting portion and the receiver, and further wherein the retaining wire is configured to engage at least a portion of the concha of a user's ear.
40. A hearing aid, comprising:

    a receiver;

    a sound processing unit; and

    an intermediate connecting portion, wherein the intermediate connecting portion comprises an electrical conducting component and a stiffening wire, provided on at least a portion of the intermediate connecting portion.
41. A hearing aid, comprising:

    a receiver;

    a sound processing unit; and

    an intermediate connecting portion, including at least two electrical conducting components provided within the intermediate connecting portion, wherein the at least two electrical conducting components are provided within at least two channels at least partially isolated from one another.

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