Yes, readDouble() is useless here, it will interpret your 64 bit integer as an IEEE 754 formatted double-precision float (sign bit + 11 exponent bits + 52 fraction bits) and that will get you a garbage result.
(Number(msb) * Math.pow(2, 32)) + Number(lsb) isn't a complete solution if you need to support negative numbers. This code only gets the correct result if your number is zero or a positive number no greater than 2^63-1 (such that the sign bit is not set). If the sign bit is set, your code will effectively be interpreting the 64 bits as an unsigned integer, which is not what Java is sending you. If you're using your solution and wondering why you're always getting a positive result, this is why.
There is probably some really cool bit trick to support negative and positive numbers in one line of code, but because I can't work that out right now, I'll tell you the straight-forward way I see the solution in my mind:
I would use msb & 0x80000000 to read sign bit. If it's not set, use your formula above. If it is set, convert your number from 2's complement format to unsigned format first:
msb = (msb ^ 0xFFFFFFFF);
lsb = (lsb ^ 0xFFFFFFFF) + 1;
Then apply your forumla to the msb and lsb and (because the sign bit was set) multiply the resulting Number by -1.
if (msb & 0x80000000)
msb ^= 0xFFFFFFFF;
lsb ^= 0xFFFFFFFF;
result = -(Number(msb)*4294967296 + Number(lsb) + 1);
result = Number(msb)*4294967296 + Number(lsb);